SFG2231 V1 REV INLAND WATERWAYS AUTHORITY OF INDIA Ministry of Shipping, Government of India “CAPACITY AUGMENTATION OF NATIONAL WATERWAY -1” (Jal Marg Vikas Project) ENVIRONMENTAL IMPACT ASSESSMENT REPORTS VOLUME-3: CONSOLIDATED ENVIRONMENTAL IMPACT ASSESSMENT (EIA) May2016 (Revised September 2016; Copy Edited November 2016) EQMS India Pvt. Ltd. In JV with IRG Systems South Asia Pvt. Ltd. Abnaki Infrastructure Applications & Integrated Development Pvt. Ltd. Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table of Contents Executive Summary ............................................................................................... XIII - XXIV Chapter 1. INTRODUCTION ........................................................................................... 1 1.1. Project Background ............................................................................................... 1 1.2. Need of Jal Marg Vikas Project – NW-1 ................................................................ 2 1.3. Overview of NW-1 ................................................................................................. 5 1.4. Objective of EIA study ........................................................................................... 6 1.5. Extent and Limitation of EIA Study ........................................................................ 6 1.6. EIA Contents ......................................................................................................... 7 1.7. Methodology ......................................................................................................... 8 1.8. Data Collection .................................................................................................... 10 1.9. Public Consultation ............................................................................................. 10 1.10. Cumulative Impact Assessment .......................................................................... 10 1.10.1. Cumulative Impact Assessment vs Environmental Impact Assessment:difference and utility ............................................................................................................. 11 1.11. References.......................................................................................................... 12 Chapter 2. POLICY, LEGAL AND ADMINISTRATIVE FRAMEWORK ........................... 17 2.1. Introduction ......................................................................................................... 17 2.1.1. Overview of Indian Environmental Legislation and Administrative Framework .... 17 2.1.2. Applicable Environmental Legislation .................................................................. 18 2.2. International Best Practices & Guidelines ............................................................ 30 2.2.1. Operational Policies of World Bank ..................................................................... 30 2.2.2. Relevant International Environmental Convention ............................................... 34 2.3. Environmental Standards & Guidelines ............................................................... 36 2.3.1. Guideline, Standard and recommendations as published by Environmental Committee of PIANC ........................................................................................... 37 2.4. Key safeguard documents ................................................................................... 37 Chapter 3. PROJECT DESCRIPTION ........................................................................... 38 3.1. Background ......................................................................................................... 38 3.2. Introduction- Jal Marg Vikas Project .................................................................... 38 3.3. Project Location .................................................................................................. 39 3.3.1. Rail and Road Connectivity to NW-1 ................................................................... 40 3.4. Size and Magnitude of the Project ....................................................................... 41 3.4.1. Existing and Anticipated Cargo at NW-1 ............................................................. 42 3.4.2. Depth of Navigation Channel .............................................................................. 45 3.4.3. Width of Navigation Channel ............................................................................... 46 3.4.4. Size of the Vessel/Ships...................................................................................... 46 3.5. Challenges for Project Development ................................................................... 46 3.6. River Morphology & Mobility ................................................................................ 49 3.7. Bathymetry of NW-1 & River Slope ..................................................................... 54 3.8. Available Flow in NW-1 ....................................................................................... 57 3.9. Sediment Load in NW-1 ...................................................................................... 59 3.10. Water Level of NW-1 ........................................................................................... 59 3.11. Tidal Variation in NW-1 ....................................................................................... 61 3.12. Analysis of Alternatives ....................................................................................... 62 3.12.1. Strategic Consideration ....................................................................................... 62 3.12.2. Planning Consideration ....................................................................................... 66 3.12.3. Technology Consideration................................................................................... 93 3.12.4. Integration of Analysis of alternatives and Design Input in project Design: .......... 95 3.13. Least Available Depth for Navigation in NW-1 ..................................................... 96 3.14. Maintenance Dredging in NW-1 .......................................................................... 97 3.15. Physical Intervention ........................................................................................... 99 3.15.1. Navigation Aids ................................................................................................... 99 3.15.2. Navigations Infrastructure ................................................................................. 101 3.15.3. Description of Planned and Proposed Infrstructure ........................................... 109 ii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.16. Material Handling, Transportation and Storage ................................................. 131 3.17. Construction material Sourcing ......................................................................... 131 3.18. Waste Disposal ................................................................................................. 132 3.18.1. Sewage & Effluent............................................................................................. 132 3.18.2. Solid Waste ....................................................................................................... 132 3.19. Dust Suppression .............................................................................................. 132 3.20. Green Belt ......................................................................................................... 133 3.21. Accident Prevention .......................................................................................... 133 3.22. Project Cost ...................................................................................................... 134 3.23. Project Schedule ............................................................................................... 134 Chapter 4. ENVIRONMENTAL IMPACTS AND MITIGATION MEASURES ................. 136 4.1. Introduction ....................................................................................................... 136 4.2. Valued Environmental Components .................................................................. 136 4.3. Environmental Profile of NW-1 .......................................................................... 137 4.4. Influence Area Considered for Environment Impact Assessment ...................... 138 4.5. Impact Identification .......................................................................................... 140 4.6. Impact Assessment of NW1 .............................................................................. 142 4.6.1. Maintenance Dredging for Maintaining Minimum LAD ....................................... 142 4.6.2. Operational Activity-Barge Movement & Maintenance ....................................... 150 4.6.3. Design, Construction, Operation and Maintenance of the Civil Interventions ..... 152 4.7. Impact on Climate Change & Mitigation Measures ............................................ 166 4.7.1. Meteorology of the NW-1 and the influence area .............................................. 166 4.7.2. Climate Change Scenario in India: .................................................................... 166 4.7.3. Impact of Shift of Freight Movement to IWT Mode on Rate of Emissions of GHG: .......................................................................................................................... 167 4.7.4. Impact on Micro Climate of NW1 due to Civil Interventions: .............................. 170 4.7.5. Conclusion (Climate Change)............................................................................ 172 4.8. Impact Due to Natural Disasters & Mitigation Measures .................................... 172 4.9. Impact Due to Shifting of Existing Utilities & Mitigation Measures ..................... 173 4.10. Impact on Land Environment & Mitigation Measures ......................................... 174 4.10.1. Status of land environment along NW-1 and influence area .............................. 174 4.10.2. Impacts on Land Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel ................................................................. 174 4.10.3. Impact on Land Environment Due to Operations- Barge Movement .................. 175 4.10.4. Impacts on Land Environment Due to Physical Interventions ............................ 176 4.10.5. Conclusion (Land Environment) ........................................................................ 180 4.11. Impact on Air Environment & Mitigation Measures ............................................ 181 4.11.1. Status of air quality along NW-1 and influence area .......................................... 181 4.11.2. Impacts on Air environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel ................................................................. 181 4.11.3. Impact on Air Environment Due to Operations- Barge Movement .................... 182 4.11.4. Impacts on Air Environment Due to Physical Interventions ................................ 184 4.11.5. Conclusion (Air Environment) ............................................................................ 191 4.12. Impact on Noise Environment ........................................................................... 191 4.12.1. Status of noise environment along NW-1 and influence area ............................ 191 4.12.2. Impacts on Noise Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel ................................................................. 192 4.12.3. Impact Due to Operations- Barge Movement .................................................... 192 4.12.4. Impacts Due to Physical Interventions............................................................... 193 4.12.5. Conclusion (Noise Environment) ....................................................................... 198 4.13. Impact on Water Environment & Mitigation Measures ....................................... 198 4.13.1. Status of water environment along NW-1 and influence area ............................ 198 4.13.2. Impacts on Water Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel ................................................................. 199 4.13.3. Impact on Water Environment Due to Operations- Barge Movement ................ 204 4.13.4. Impacts on Water Environment Due to Physical Interventions........................... 207 iii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 4.13.5. Conclusion (Water Environment) ....................................................................... 212 4.14. Impact on Ecological Environment & Mitigation Measures ................................ 212 4.14.1. Status of ecological environment along NW-1 and influence area ..................... 212 4.14.2. Impacts on Ecological Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel ................................................................. 215 4.14.3. Impact on Ecological Environment ( Aquatic Ecology) Due to Operations- Barge Movement ......................................................................................................... 219 4.14.4. Impacts on Terrestrial Ecology Due to Physical Interventions ........................... 227 4.14.5. Impacts on Aquatic Ecology Due to Physical Interventions ............................... 230 4.14.6. Conclusion (Ecological Environment) ................................................................ 238 4.15. Impact on Social Environment& Mitigation Measures ........................................ 238 4.15.1. Status of social environment along NW-1 and influence .................................... 238 4.15.2. Impacts on Socio-Economic and Cultural Aspects due to Maintenance Dredging .......................................................................................................................... 240 4.15.3. Impact on Socio-Economic and Cultural Aspects Due to Operations- Barge Operations ........................................................................................................ 243 4.15.4. Impacts Due to Physical Interventions............................................................... 247 4.15.5. Conclusion (Social Environment) ...................................................................... 253 4.16. Impact on Indo-Bangladesh Water Sharing Treaty and Downstream water users in Bangladesh 253 4.16.1. Conclusion (Indo -Bangladesh Water Sharing Treaty and Downstream water users in Bangladesh) .................................................................................................. 256 4.17. Impacts Due to Maintenance Facilities for Barge Repair and Maintenance ....... 256 4.18. Cumulative Impact Assessment ........................................................................ 267 4.18.1. Cumulative Impact Assessment Vs Environmental Impact Assessment: Difference& Utility.............................................................................................. 269 Chapter 5. PUBLIC CONSULTATIONS AND DISCLOSURE ...................................... 270 5.1. Introduction ....................................................................................................... 270 5.2. Methods of Public Consultation ......................................................................... 270 5.2.1. First Stage Consultations .................................................................................. 270 5.2.2. Second Stage Consultations ............................................................................. 271 5.3. Objective of Public Consultation ........................................................................ 272 5.4. Outcome of Informal Stakeholder Consultation ................................................. 272 5.4.2. Formal Public Consultation Meetings ................................................................ 280 5.5. Second Stage Consultation ............................................................................... 289 5.6. Conclusion and Disclosures: ............................................................................. 292 Chapter 6. ENVIRONMENTAL MANAGEMENT PLAN................................................ 293 6.1. Introduction ....................................................................................................... 293 6.2. Objective of Environmental Management Plan .................................................. 293 6.3. Environmental Management Plan...................................................................... 293 6.3.1. Environmental Management Plan for Maintenance Dredging ............................ 294 6.3.2. Environmental Management Plan for Barge Movement .................................... 294 6.3.3. Environmental Management Plan for Civil Interventions.................................... 294 6.4. Institutional Framework of IWAI for Environmental Management ...................... 295 6.4.2. Effective Implementation of Environmental Management Plan during Construction Phase................................................................................................................ 297 6.5. Environmental Health & Safety (EHS) Policy and EHS Management System ... 297 6.6. Environmental Standards for operation and maintenance of Various Civil Interventions, Barge Movement and Dredging Operations ................................................ 298 6.7. Environment Monitoring Plan (EMoP) ............................................................... 299 6.8. Monitoring for Implementation of EMP .............................................................. 301 6.9. Reporting Requirement for EMP and EMoP ...................................................... 301 6.9.1. Reporting Requirement during Pre-Construction & Construction Phase ............ 301 6.9.2. Reporting Requirement during Operation Phase ............................................... 302 6.10. Audits & Inspection ........................................................................................... 302 6.11. Mechanism for Feedback and Adjustments ....................................................... 303 iv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 6.12. Trainings & Capacity Building............................................................................ 303 6.13. Emergency Response and Preparedness Plan and Contingency Response Plan 303 6.14. Authorities and their Responsibilities for Implementation of EMoP .................... 304 6.15. Enhancement Measures: Implementation Plan ................................................. 305 6.16. Regulatory Clearances /Permission Required ................................................... 305 6.17. Grievance Redress Mechanism ........................................................................ 305 6.18. Environment Budget .......................................................................................... 306 Chapter 7. SUMMARY, CONCLUSION AND RECOMMENDATIONS ......................... 320 7.1. Summary and Conclusions ............................................................................... 320 List of Tables Table 1.1 : Cost of Transportation Through Different Modes ................................................. 3 Table 1.2 : Summary of Secondary Data with Sources ....................................................... 12 Table 2.1 : Summary of Environmental and Other Legislation with Applicability Screening . 18 Table 2.2 : Regulations Applicable on Vessels/Barges Plying in Inland Waterways ............ 30 Table 2.3 : World Banks Operational Policies - Environmental & Social Safeguard ............. 30 Table 3.1 : Road & Railway Infrastructure at Important Places Across NW-1 ...................... 40 Table 3.2 : Current Traffic Along NW-1 Stretch (2014) ........................................................ 42 Table 3.3 : Traffic Forecast for Stretch-1 (Haldia-Varanasi)................................................. 43 Table 3.4 : Traffic Forecast for Stretch-2 (Patna-Varanasi) ................................................. 44 Table 3.5 : Traffic Forecast for Stretch-3 (Haldia-Patna) ..................................................... 44 Table 3.6 : Traffic Forecast for Planned Navigational Infrastructural Facilities ..................... 45 Table 3.7 : Details of Critical Bridges on NW-1.................................................................... 47 Table 3.8 : Details of Navigationally Significant Bends in UP stretch of NW-1 ..................... 48 Table 3.9 : Morphology of River (NW-1) in different reached ............................................... 49 Table 3.10 : Longitudinal Profile of River Slope from Farakka to Allahabad ........................ 55 Table 3.11 : Annual minimum discharges obtained from statistical analysis ........................ 57 Table 3.12 : Annual Minimum Discharges at Different Locations in NW-1 ........................... 58 Table 3.13 : Sediment Load at Different Locations and Tributaries of NW-1 ....................... 59 Table 3.14 : Minimum Water Levels for a Range of Annual Probabilities............................. 60 Table 3.15 : Maximum Water Levels for a Range of Annual Probabilities............................ 60 Table 3.16 : Alternative Analysis- “With & Without Project Scenario” .................................. 62 Table 3.17 : Location Alternative Analysis ........................................................................... 68 Table 3.18 : Site Alternative Analysis .................................................................................. 77 Table 3.19 : Alternative Layout Analysis of Sahibganj Terminal .......................................... 87 Table 3.20 : Alternate Site Analysis (Option-I & Option-II) ................................................... 88 Table 3.21 : Alternative Road Alignment Analysis for Sahibganj Terminal........................... 90 Table 3.22 : Alternative Railway Siding Alignment Analysis for Sahibganj Terminal ............ 91 Table 3.23 : Alternative Analysis for Dredging Quantity ....................................................... 92 Table 3.24 : Comparative Analysis of Dredgers and Their Relative Performance Related to Environmental Aspects ................................................................................................ 93 Table 3.25 : Comparative Analysis of Different Type of Dredgers Related to Environmental Aspects ........................................................................................................................ 94 Table 3.26 : Dredging Volumes in different Stretches for Maintaining LAD in Navigation Channels and at terminal ............................................................................................. 97 Table 3.27 : Details of Existing Infrastructure in NW-1 ...................................................... 102 Table 3.28 : Salient Features of the Haldia Terminal ......................................................... 110 Table 3.29 : Salient Features of the Sahibganj Terminal ................................................... 114 Table 3.30 : Salient Features of Varanasi Terminal ........................................................... 119 Table 3.31 : Salient Features of New Lock ........................................................................ 123 Table 3.32 : Bank Protection Works as per Current Planning ............................................ 127 Table 3.33 : Construction Material Sourcing for already Planned Interventions ................. 131 v Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table 3.34 : Green Area and Tree Details for the Planned Intervention Sites .................... 133 Table 3.35 : Component Wise Tentative Project Cost of Components (Planned & Under Planning) of Jal Marg Vikas Project............................................................................ 134 Table 3.36 : Implementation Time for Planned Interventions under Jal Marg Vikas Project (Phase-1) ................................................................................................................... 135 Table 4.1 Salient Environmental Features along NW-1 Alignment .................................... 137 Table 4.2 Criteria for Demarcation of Influence Zone ........................................................ 139 Table 4.3 Interaction Matrix of Major Project Activities and VECs ..................................... 141 Table 4.4 Environmental Sensitivity Vs. ImpactIdentification Matrix for Maintenance Dredging .................................................................................................................................. 143 Table 4.5 Projection of Likely Significance of Environmental Impacts Due to Maintenance Dredging Operations .................................................................................................. 149 Table 4.6 Identification of Environmental Impacts Due to Barge Movement & Maintenance .................................................................................................................................. 151 Table 4.7 Identification of Environmental Impacts Due to Design, Construction and Operation of Civil Interventions ................................................................................................... 154 Table 4.8 : GHG savings due to Projcet Till 2045 .............................................................. 168 Table 4.9 GHG (CO2) Emission Generation Factor Estimation due to Material Transportation in Terminals .................................................................... Error! Bookmark not defined. Table 4.10 GHG (CO2) Emission due to Material Transportation and Handling with Terminals and Net GHG savings ..................................... Error! Bookmark not defined. Table 4.11 : Emission Factors Considered for Gaseous Pollutants ................................... 182 Source : HPC .................................................................................................................... 182 Table 4.12 Pollutant Emission Savings in “With” Project Scenario .................................... 182 Table 4.13 : Source of Construction Material for Planned Civil Interventions ..................... 186 Table 4.14 : Typical Noise Levels of Construction Machinery/Equipment .......................... 193 Table 4.15 : OSHA noise exposure limits for the work environment .................................. 194 Table 4.16 : Estimated Noise levels for the piling and dredging operations ....................... 195 Table 4.17 Salient features of Sanctuaries present within NW-1 ....................................... 212 Table 4.18 : Important Bird Area within 10 km area of the NW-1 ....................................... 213 Table 4.19 : Vessel noise at different speeds .................................................................... 222 Table 4.20 : Noise Level from Different Type of Vessel ..................................................... 223 Table 4.21 : Noise Level Modelling Result ........................................................................ 224 Table 4.22 : Distance estimation for achieving 150 d(B) of noise from centre of the vessel224 Table 4.23 : Noise exposure criteria for physiological (PTS and TTS) ............................... 225 Table 4.24 : Culturally and Religiously Important Places with Fair and Festivals ............... 239 Table 4.25 : Archeologically Protected area around 300 m of NW-1 ................................. 240 Table 4.26 : Analysis of Impact on Indo Bangladesh Water Sharing treaty and Down Stream River Water Users...................................................................................................... 255 Table 4.27 : Activities at Barge Maintenance & Repair Facilities, Their Impacts and Mitigation Measures ................................................................................................................... 256 Table 5.1 : Detail of Developmental Activity and Period of Public Consultation ................. 271 Table 5.2 : Summary of Key Concerns raised by Stakeholders and its redressal. ............. 272 Table 5.3 : Summary of Formal Public Consultation Meeting at Sahibganj........................ 281 Table 5.4 : Summary of formal Stakeholder Consultation, at Farakka ............................... 286 Table 5.5 : Summary of the Second Stage Consultation at Patna ..................................... 289 Table 6.1 Dredging and Disposal Management Plan for NW-1 ......................................... 307 Table 6.2 : Environment Monitoring Plan for Construction & Operation Phase .................. 309 Table 6.3 Training & Capacity Building ............................................................................. 312 Table 6.4 : Detail Break-up of Environment Management Budget ..................................... 316 Table 6.5 : Environmental Budget of Planned Civil Interventions ...................................... 319 List of Figures Figure 1.1 : Location Map of NW-1........................................................................................ 2 vi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Figure 3.1 : Alignment of NW-1 ........................................................................................... 38 Figure 3.2 : Location Map of NW-1...................................................................................... 40 Figure 3.3 : Satellite Imagery of Different Years to Study Change in River Morphology ...... 53 Figure 3.4 : Longitudinal profile of river bed from Haldia to Farakka .................................... 54 Figure 3.5 : Longitudinal profile of river bed from Farakka to Allahabad .............................. 54 Figure 3.6 : Cross-Sectional profile of river bed at Various Locations in NW-1 .................... 56 Figure 3.7 : Annual minimum discharges obtained from statistical analysis ......................... 57 Figure 3.8 : Annual Minimum Discharges at Different Locations in NW-1 ............................ 58 Figure 3.9 : Minimum Water Levels for a Range of Annual Probabilities ............................. 60 Figure 3.10 : Maximum Water Levels for a Range of Annual Probabilities .......................... 61 Figure 3.11 : Diagrammatic Presentation of Different Type of Dredgers Showing Different Noise Source ............................................................................................................... 95 Figure 3.12 : LAD Along the waterway for the 10, 50 & 90% frequency value ..................... 97 Figure 3.13 : Existing Navigation Infrastructure Facilities in NW-1..................................... 105 Figure 3.14 : Photographs of Existing Infrastructure along NW-1 ...................................... 106 Figure 3.15 : Planned Navigation Infrastructure Facilities in NW-1 Under Jal Marg Vikas project ........................................................................................................................ 108 Figure 3.16 : Location Map of Haldia Terminal .................................................................. 109 Figure 3.17 : Photographs of Haldia Terminal Site ............................................................ 109 Figure 3.18 : Layout of Haldia Terminal Site ..................................................................... 112 Figure 3.19 : Location Map of Sahibganj Terminal Site ..................................................... 113 Figure 3.20 : Photographs of Sahibganj Terminal Site ...................................................... 114 Figure 3.21 : Layout of Sahibganj Terminal Site ................................................................ 117 Figure 3.22 : Location of Varanasi Terminal Site ............................................................... 118 Figure 3.23 : Photographs of Varanasi Terminal Site ........................................................ 118 Figure 3.24 : Layout of Varanasi Terminal Site.................................................................. 121 Figure 3.25 : Location Map of Farakka Lock ..................................................................... 122 Figure 3.26 : Photographs of Farakka Lock Site................................................................ 123 Figure 3.27 : Layout of Farakka Lock Site ......................................................................... 126 Figure 3.28 : Google Map Showing Proposed Terminal Site at Ghazipur at Nawapura ..... 128 Figure 3.29 : Google Map Showing Proposed Terminal Site at Kalughat .......................... 129 Figure 3.30 : Google Map Showing Proposed Terminal Site at Tribeni ............................. 130 Figure 4.1 : Output of Air Dispersion Modelling-Sahibganj Terminal.................................. 188 Figure 4.2 : Output of Air Dispersion Modelling-Haldia Terminal ....................................... 189 Figure 4.3 : Noise Modelling Output .................................................................................. 196 Figure 4.4 : Noise Modelling Output .................................................................................. 197 Figure 4.5 : Oxygen Depletion Rate vs Time for Dredge Disposal ..................................... 200 Figure 4.6 : Short-term Species Sensitivity Distribution (SSD) for Cadmium in Freshwater derived by fitting the log-normal model to the short-term LC50s of 62 aquatic species. .................................................................................................................................. 201 Figure 4.7 : Broadband source levels against log10 (speed in knots) for different ship types .................................................................................................................................. 223 Figure 4.8 View of NW-1 route at Farakka and Control location for River Ganga Water flow to Bangladesh ............................................................................................................ 254 Figure 6.1 : Institutional Framework of IWAI ...................................................................... 296 Figure 6.2 : Grievance Redressal Cell ............................................................................... 306 vii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Abbreviations 3 µg/m Microgram per cubic metre A Ampere AAQ Ambient Air Quality AD Amphibian Dredger amsl above men sea level APHA American Public Health Association AWPCPL Allahabad Waste Processing Company Pvt. Ltd BCM Billion Cubic Microns BDU Below Detection Unit BDU Best Designated Unit BHDs Backhoe Dredgers BHU Banaras Hindu University BOD Biochemical Oxygen Demand BOQ Bill of Quantity BTKM Billion Tonne Kilometres BUIDCO Bihar Urban infrastructure development Corporation Ltd. BWE Ballast Water Exchange BWMP Ballast Water Management Plan BWP Ballast Water Performance CBWTF Common Bio Medical Waste Treatment Facility CEC Cation Exchange Capacity CERs Critical Environmental Resources CGWA Central Ground Water Authority CGWB Central Ground Water Board CIFRI Central Inland Fisheries Research Institute CIWTC Central Inland Water Corporation Limited cm centimetre CNG Compressed Natural Gas CO Carbon Monoxide COD Chemical Oxygen Demand CPCB Central Pollution Control Board Cr Crore CRZ Coastal Regulation Zone CSD Cutter Section Dredgers CTE Consent to Establish CTO Consent to Operate cum cubic metre dBs Decibels DEAC District Environmental Impact Assessment Committee DEIAA District Environmental Impact Assessment Authority DEM Digital Elevation Model DFCCIL Dedicated Freight Corridor Corporation of India Limited DFO District Forests Officer DFR Detailed Feasibility Report viii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 DG Diesel Generators DGPS Differential Global Positioning System DO Dissolved Oxygen DWT Dry Weight Tonnage DWT Dead Weight Tonnage E East EC Electrical Conductivity EDFC Eastern Dedicated FreightCorridor EHS Environment, Occupational Health and Safety EIA Environmental Impact Assessment EMoP Environmental Monitoring Plan EMP Environment Management Plan EPC Engineering Procurement Contractor ESAs Ecologically Sensitive Areas ESC Environment and Social Cell ESS Electrical Sub stations FBP Farakka Barrage Project GHG Green House Gases GRIHA Green Rating for Integrated Habitat Assessment GIS Geographical Information Systems gm Gram GoI Government of India GPS Global Positioning System GRB Ganga River Basin GW Ground Water ha Hectare HAD Haldia Development Authority HC Horizontal Clearance HDC Haldia Dock Complex HDPE High Density Poly Ethylene HFL Highest Flood Level hpa Hectopascal HPC Name of a Consultant hrs hours HSD Hydraulic Surface Dredger IARI Indian Agricultural Research Institute IBA Important Bird Areas IESWM Institute of Environmental Studies & Wetland Management IITs Indian Institute of Technology IMD India Meteorological Department IMDG-code International Maritime Dangerous Goods Code IMO International Maritime Organization INTACH Indian National Trust for Art and Cultural Heritage IRS Indian Remote Sensing Satellite IS Indian Standards Published by Bureau of Indian Standards ix Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 ISRO Indian Space Research Organization IUCN International Union for Conservation of Nature IWAI Inland Waterways Authority of India IWC International Whaling Commission IWT Inland Waterway Transport JNNURM Jawaharlal Nehru National Urban Renewal Mission kgs Kilograms KLD Kilolitre per Day km kilometre KMC Kolkata Municipal Corporation kmph Kilometre per Hour KoPT Kolkatta Port Trust KoPT Kolkata Port Trust KW Kilo watt LAD Least Available Draft LC Level Crossing Leq Equivalent continuous sound pressure level in dB LPG Liquid Petroleum Gas m Metre M Million MARPOL International Convention for the Prevention of Pollution from Ships meq Milli equivalent mg/l Milligram per litre mg/l Milligram per litre ill3 Microgram per cubic metre mL Millilitre MLD Millions of Litres Per Day mmhos/cm Mili mho/ centimetre MoEF&CC Ministry of Environment & Forests & Climate Change mpn/100 ml Most Probable Number/100 millilitre MSIHC Manufacture Storage import of Hazardous Chemicals MSW Municipal Solid Waste MSW Municipal solid Waste MT Metric Tonnes MTPA Million Tonne Per Annum N North NAAQS National Ambient Air Quality Standards NABL National Accreditation Board for Testing and Calibration Laboratories NCAER National Council of Applied Economic Research NGBRA National Ganga Basin River Authority NGO Non-Government Organization NH National Highway NMCG National Mission for Clean Ganga NOC No Objection Certificate Nox Oxides of Nitrogen x Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 NRCD National River Conservation Directorate NTPC National Transport Policy Committee NTU Nephelometric Turbidity Unit NW National Waterways NW North West ºC Degree Celsius PCC Portland Cement Concrete PCCF Principle Chief Conservator of Forests PIANC World Association for Waterborne Transport Infrastructure PM Particulate Matter PMC Patna Municipal Corporation PMU Project Management Unit ppb parts per billion ppm parts per million PPP Public Private Partnership PWD Public Works Department QA/QC Quality Assurance/Quality Check RCC Reinforced Cement Concrete RET Rare Endangered and Threatened Species RIS River Information System RITES Name of Govt. Consultancy Organisation ROB Rail Over Bridge RO-RO Roll on and Roll Over RWH Rain Water Harvesting S South SAV Submerged Aquatic Vegetation SC Schedule Caste SE South East SEAC State Expert Appraisal Committee SEIAA State Environmental Impact Assessment Authority SH State Highway SO2 Sulphur Dioxide SPCB State Pollution Control Board Sq.km Square kilometre ST Schedule Tribe STP Sewage Treatment Plant SW Surface Water SWDS Solid Waste Disposal Site TDS Total Dissolved Solids TKM Tonne Kilometres TPD Tonnes per Day TPP Thermal Power Plant TSDF Treatment Storage and Disposal Facilities TSHDs Trailer Suction Hopper Dredger UNDP United Nations Development Programme xi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 UP Uttar Pradesh USA United States of America USDA United States Department of Agriculture USEPA United State Environment Protection Authority VBREC Vikramshila Biodiversity Research and Education Centre VC Vertical Clearance VECs Valued Environmental Components VMC Varanasi Municipal Corporation W West WB CZMA West Bengal Coastal Zone Management Authority WDSC Whale and Dolphin Conservation Society WHC Water Holding Capacity WNW West North West WWF World Wide Fund for NGO xii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Disclaimer: The report has been prepared by EQMS India Pvt. Ltd. in JV with IRGSSA & AIAID for Inland Waterways Authority of India (IWAI). EQMS JV has undertaken detailed environmental and social assessment complying with terms of reference issued by IWAI. Any third party should obtain prior consent of IWAIbefore copying or reproducing in whole or in part the contents of this report. EQMS JV disclaims any responsibility for any damage suffered by any third party arising out of use of this report or part thereof without proper context and consent. Furthermore, EQMS JVwill not be bound to discuss, explain or reply to queries raised by any agency other than IWAI and other intended recipients of this report. This report is the intellectual property of IWAI/EQMS JV. The facts and figures and assessments presented in the report are based on the information provided,collected and primary surveys undertaken during the study. The analysis and conclusions are based on these sets of information available. EQMS JV is not responsible for accuracy, reasonableness or completeness of either the information provided or information collected from secondary sources. Information contained in the report could be selective and is subject to updating, expansion, revision and amendments. The report does not purport to contain all the information that a reader (other than IWAI or the intendedrecipient) may require. xiii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 SUMMARY 1.0 INTRODUCTION Cargo movement through waterway is considered cheapest mode of transportation internationally. However, cargo movement is very low in India compared to the international scenario. To augment the capacity of waterways transportation in India, Govt. of India has constituted Inland Waterways Authority of India (IWAI) in 1985. IWAI has identified 5 river stretches as National priority and notified these stretches as National Waterways. Amongst the five notified waterways, the national waterways on Ganga (NW-1 between Haldia to Allahabad) is the longest waterway and is of prime importance considering its locational advantages. IWAI since long has been maintaining the least available depth (LAD) of 3m between Haldia and Farakka (560km), 2.5m in Farakka – Barh (400km), 2m between Barh – Ghazipur (290km) and 1.2 to 1.5m in Ghazipur – Allahabad (370km). Even currently this waterway (NW- 1) is being used for various cargo and tourist movements. Already good amount of cargo movement is taking place between Haldia and Farakka. 3 million metric tonne of imported coal from Haldia to National Thermal Power Plant ( NTPC) plant near Farakka is being transported since October 2013 through 20 barges of 2000 dwt capacity each. Considering such a large potential and demands, IWAI has initiated the project of “Capacity Augmentation of National Waterway-1” between Haldia and Allahabad named as “Jal Marg Vikas Project”. However, considering the available LAD and cargo demand scenario, IWAI is focusing on the stretch between Haldia to Varanasi at present. The capacity augmentation of this magnitude under this project warrants additional infrastructural components such as river terminals of appropriate cargo handling capacity, provision of navigation aids; river information system; RO-RO jetties; bank protection / slope protection works; river training works; inland vessels; survey vessels, survey equipment and dredging facilities which are required to be developed in a phased and programmatic manner. Certain facilities are already planned such as multi-mode terminal at Ramnagar (Varanasi), Sahibganj and Haldia and new navigation lock at Farakka. Other developments are under finalization stages. The Environmental Impact Assessment study has been carried out for „Jal Marg Vikas Project‟. Additional focused studies have been carried out for planned interventions (terminalsand navigation ship lock), dredging and barge operations. Standalone Environmental Management plan ( EMP) has also been prepared for these planned interventions. 2.0 Project Need and Location Inland waterways transport (IWT) is a competitive alternative to road and rail transport, offering an economical, sustainable and environment friendly mode in terms of energy consumption, noise and greenhouse gas emissions. Infrastructure requirements of IWT in comparison to road and rail transport are also relatively low, although certain investments are essential such as in port/terminal facilities, connecting road/rail infrastructure, navigation aids and maintenance dredging facilities. While cargo movement through other modes of transportation are often confronted with congestion and capacity problems, IWT offers a relatively congestion free and reliable mode of transport along with availability of unmatched capacity expansion due to its large untapped potential. xiv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Till the middle of 20th century, IWT was being used as an important mode of transport in various parts of India but gradually it got confined to unorganized sector except in few states namely Goa, Assam, West Bengal, Kerala and Maharashtra primarily due to focus shift in transportation through rail and road modes. However, IWT use has shown increasing trend since 2003-2004 and touched 70 Million tonnes mark by 2011-2012 compared to only 32.48 Million tonnes in 2003-2004 which was just 0.34% of total inland cargo movements of about 1000 btkm. IWAI has set the target of increasing IWT share up to 2% of total inland cargo by 2025. The main commodities carried by IWT (which are also true with NW-1) include building materials (34%), metals ores (19%) and coal\coke (17%). On demand side in the case of NW-1 (Allahabafd – Haldia) alone, there are9 thermal power plants located along Ganga River stretch within UP & Bihar and 11 more are expected to become operational soon. The total requirement of coal for these power plants alone will be nearly 94.78 million tonnes per year, 21.4 MT of which will have to be imported reflecting the sea connectivity of NW-1. In addition to this, there are 7 fertilizer plants along NW-1. These are also estimated to generate an additional of 0.765 million ton of cargo requirement per year. Further, there is also large prospect of container movements for national as well as international trade. IWT in general and NW-1 in particular would play a very vital role when high quality ports/terminals with waterway connectivity is made available to facilitate the cargo movement in a cost effective and environmental friendly manner catering to the needs of large transportation movements due to enhanced industrial activities as compared to rail and/or road modes. Project area under Jal Marg Vikas Project includes entire reach of the River Ganga from Haldia to Allahabad including the areas proposed for development of project related facilities & infrastructure, i.e. terminal sites, lock site, Ro-Ro jetty sites and sites for other planned developments. Stretch from Allahabad to Haldia covers four states namely Jharkhand, Bihar, Uttar Pradesh & West Bengal. Map showing location of NW-1 stretch from Haldia to Allahabad is depicted in Figure 1 below. Figure 1: Location Map of NW-1 xv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.0 Project Description Proposed Project-Jal Marg Vikas aims at improvement of navigation in entire stretch of 1620 km. of NW-1 (Haldia to Allahabad)1. NW-1 is the Ganga - Bhagirathi - Hooghly river system. NW-1 is being fed by various tributaries at different locations. Major tributaries of river Ganga in NW-1 between Haldia to Allahabad are Tons, Gomti, Ghagra, Son, Gandak, Punpun and Kosi.The following interventions have been proposed and planned under the Jal Marg Vikas Project. Maintenance dredging to provide the required LAD in this waterway channel and also for various proposed terminal facilities. Improved Navigation Infrastructure & Navigation Aids o Construction of 5 Ro-Ro crossings & ferry passenger jetties. Locations of these jetties are yet to be identified. o Construction of 6 terminals: Site identification and planning for 3 terminals sites at Sahibganj, Varanasi and Haldia is accomplished. Besides 2 more potential sites for development of terminals are also identified at Ghazipur and Kalughatand 1 site, i.e. at Kalyani in Tribeni is under consideration. o Construction of one new navigation lock at Farakka, West Bengal. o Provision for tow barges, inland vessels, survey vessels including rescue boats and survey equipment. Development of low draught vessel2. o Development of navigation aids along NW-1 for facilitation of day & night time navigation. Development of efficient River Information System with all hardware & software. Provision for bank protection / slope protection and river training works for critical locations. The project also envisages the creation and improvement of integration opportunities with other surface transport modes such as roads and railways, so as to improve the overall efficiency of the logistics chain by linking the waterways through various well equipped terminals and jetties. Cargo proposed to be transported in NW-1 includes cement, fly ash, iron ore, iron ore fines, coal, steel shed, tyres, iron fines, iron ingots, Galvanized steel plain sheets, stone chips, furnace oil, high Speed diesel (HSD), lube oil, boulders, pulses, aluminium block, sand, chips, ship blocks, food grains, manganese ore, petroleum products, coke, cooking coal, rock phosphate, timber, peas, slag oil, and non-cooking coal. As per the survey traffic, current traffic transported via rail & road between Haldia & Varanasi is 121426130 tonne. Traffic projection studies are carried out and as per the study, projected traffic for year 2045 is 4,80,11,367 tonne. Under NW-1, 6 nos of terminals are proposed out of whch planning for 3 terminals is completed. As per the planning the cargo handling capacity for base year and year 2045 is given at Table 1. 1 At present IWAI plans to develop it from Haldia to Varansi only. 2 In American system this is called low draft vessels. xvi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table 1: Traffic Forecast for Planned Navigational Infrastructural Facilities S. No. Infrastructural Projected Projected Projected Facility Cargo-2015 Cargo-2030 Cargo-2045 (MTPA) (MTPA) (MTPA) 1 Sahibganj 2.24 4.39 9.00 Terminal 2 Varanasi 0.54 1.22 1.22 Terminal (with current land) 3 Haldia Terminal 3.18MTPA Source: HOWE Engineering Projects (India) Pvt.Ltd. (Design Consultant) There are various challenges for Jal Marg Vikas Project development including typical characteristics of alluvial river Ganga and its braiding, meandering characteristics and large water fluctuations between summer and monsoon months with high annual silt loads of 1600 million tonnes. The maintenance dredging requirements including all other planned infrastructures facilities etc. are designed addressing all such challenges besides projected transportation needs under considerations. The salient features of this Jal Marg Vikas Project with the design details of various planned and proposed developments are given at Table 2. Table 2: Salient Features of Jal Marg Vikas Project Salient Features Capacity/Quantity/Nos. Facilities Planned 3 terminal sites (Sahibganj, Varanasi & Haldia) 1 new Navigation lock- Farakka River bank protection works at planned terminal sites and along Feeder canal Facilities under Planning 3 additional terminal sites (at Ghazipur & Kalughat-site Stage finalized and at Tribeni-under consideration) 5 ro-ro crossings Barge repair and maintenance facilities River training works River bank protection works at the proposed civil intervention sites Designed capacity of Infrastructural Projected Projected Projected Terminals Facility Cargo- Cargo- Cargo- 2015 2030 2045 (MTPA) (MTPA) (MTPA) Sahibganj 2.24 4.39 9.00 Terminal Varanasi 0.54 1.22 1.22 Terminal (with current land) Haldia Terminal 3.18 MTPA Navigation Channel Width-45 m LAD-3 m from Haldia to Barh, 2.5 m from Barh to Ghazipur and 2.2 m from Ghazipur to Varanasi at present Design Vessel Vessels of maximum length of 110 m, beam of 11.4 m, Specifications draught of 2.5 m-2.8 m and air draught of 9 m will be required in NW-1. Size of Vessels 1500-2000 dWT xvii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 River Slope Haldia to Farakka-1 in 11000 Farakka downstream-1 in 18000 Farakka to Allahabad-1 in 17,000 Maintenance Dredging Within Navigation Channel-14,850,000 cum/year* Type of Dredgers CSD, Agitation dredgers/plough dredgers and back hoe dredgers Dredge disposal Preferably off-shore, onshore only if sediments are found to be contaminated * quantities are tentative and subject to change with revision in planning 3.1 Project Implementation Schedule, Cost and Implementation Responsibilities The project being of large spatial extent, will be developed in phases. The implementation period of 3 years is anticipated for completion of phase 1 components of the Jal Marg Vikas Project (6 terminal sites, maintenance dredging, vessel management system, shore protection works and river training works). Overall cost of the Jal Marg Vikas Project will depend on finalization of various components proposed under the project. However, fund allotted by World Bank to Government of India (GOI) for development of Jal Marg Vikas is about 650 million USD (~4200 Cr). The Project Director and officer of the rank of Vice Chairman of IWAI will be in charge of the implementation programme who will be assisted by Project Management Unit and Regional Directors. 4.0 Environmental Impact Assessment Process This project is classified as Category „A‟ operations under the world bank environmental screening procedures specified under its operation policy 4.01. The project triggers 6 of the World Bank safeguard policy3 and requires comprehensive environmental assessment. The detailed environmental impact assessment study has been undertaken for all the proposed components to identify the environmental and social issues associated with the project. The environmental impact assessment was carried out by a consortium led by EQMS India Pvt. Ltd. in line with World Bank Operational Policies,IFC EHS Guidelines for Ports, Harbours and Terminals, IFC General guidelines for EHS, MoEF&CC EIA Guidelines for Ports and Harbours, findings of CIA and Standalone EIA studies carried out for civil interventions. Initially a basin level critical environmental resource study was carried out to identify “NOGO” and “Restricted areas”. The baseline survey planning was carried out considering the output of this study as well. In addition to assessing the air, water, noise soil quality and biological environment (aquatic and terrestrial ecological aspects), sampling and testing of riverbed sediments quality (for physico-chemical and contamination characteristics) at different locations in the entire stretch of NW-1 was also carried out. The baseline survey was carried out between: 15thSeptember, 2015 to 28th February 2016 for different period and frequency at different locations covering the entire stretch of NW-1, finalised intervention areas, likely intervention areas, likely maintenance dredging areas, existing select RO-RO jetty locations, existing passenger select ferry locations and environmental sensitive areas. Influence area was assessed based on different project activities on different VECs. Being a liner project, the 500m radius on either side of the bank was assessed as 3 The world bank safeguard policies triggered are environmental assessment (OP/BP 4.01), Natural Habitats (OP/BP 4.04), Forests (OP/BP 4.36), Involuntary resettlement (OP/BP 4.12), Physical Cultural Resources (OP/BP 4.11) and Project on International Waterways (OP/BP 7.5) xviii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 core influence zone, 2 Km radius as extended influence area. The terminal site will have influence area beyond 2 km. As per Indian standard practice, influence area is considered as 10 km along the NW-1 stretch and intervention areas for study purposes. The studies were carried out in tandem with preparation of detailed engineering feasibility report. This has helped to analyse the suggested alternatives with environmental perspective also. Further various design measures were modified during the design stage keeping environmental perspective such as incorporation of mechanical conveyance system at Sahibganj, mandatory green plantation all around the periphery and along the roads, dust suppression system at storage and barge loading areas, provision of storm water management system, separate for buildings and for surface. Further basin level study has helped to identify the NOGO areas which has helped to strikeout the environmental sensitive locations for development of terminals, dredging and other project activities. Bhagalpur was avoided for development of terminal due to presence of Dolphin sanctuary, even though this site has good cargo generation potential and engineering feasibility. Environment impact assessment process started with basin level critical resource assessment study followed by cumulative impact assessment. Also separate environmental impact assessment was carried out for each terminal / navigational lock, maintenance dredging and barge operations. In line with all these studies, this consolidated report is prepared for the entire NW-1 project. To ensure the public participation as per World Bank Policies, two stage public consultations, both formal &informal were undertaken as part of impact assessment process. The impact assessment covers all three stages of the project viz. design, construction and operation stages. The impacts are identified from all components and activities of the project on physical, biological (terrestrial and aquatic ecology) and socio – economic environment. Environmental management and monitoring programme are suggested to minimize the identified impacts and sustain the benefits. Institutional Mechanism is also proposed for effective implementation of environmental management and monitoring plan. As per EIA Notification, 2006 as amended at present the project components like development of terminals & jetties does not requires environment clearance. However, environment clearance may be required for the activities like borrowing of earth which should be taken by the respective contractor. Additionally, NOC/Permissions are required to be obtained by IWAI/Contractor for specific activities like setting up Hot Mix Plant, DG Sets, STP from respective agencies as indicated under legal and administrative framework. Each permission will have associated conditions which need to be complied by contractors / IWAI and same will be monitored by the permission granting agencies like State Pollution Control Boards (SPCBs). None of these permissions require detailed environmental impact assessment however, findings of this EIA and proposed mitigation measures would be useful in obtaining these permissions. 5.0 Project, Legal and Administrative Framework The project has been evaluated for applicability of all National, State Laws, Rules and Regulations. The Acts, rules and guidelines applicable for the project are critically analysed to list out the permits/NOC required to be obtained by IWAI/contractor prior and during the development of the project. Environmental legislations applicable for the project are (i) Environmental Protection Act, 1986 (ii) xix Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 EIA Notification, 2006 as amended till date (iii) Forest Conservation Act, 1980 (iv) Wildlife Life Protection Act, 1972 (v) CRZ Notification, 2011 (vi) Air (Prevention and Control) of Pollution Act 1981/1987 (vii) Water (Prevention and Control of Pollution) Act, 1974/1988 (viii) Hazardous and Other Wastes (Management &Transboundary Movement) Rules, 2016 (ix) Other waste management & safety rules, regulations and guidelines; Construction and Demolition Waste Management Rules 2016, E- Waste Management Rules, 2016; Plastic Waste Management Rules, 2016; The Battery Management and Handling Rules, 2001;Ancient Monument and Archaeological Site and Remains Act, 1958. As per EIA Notification, 2006 as amended at present the project components like development of terminals & jetties does not requires environment clearance. However, Environmental clearance will need to be obtained for any project component wherever found applicable due to any amendment to the above notification. The environmental clearance under minor mineral category of EIA notification 2006 should be taken by the contractors as applicable before borrowing the earth and for setting up new quarry site. Consent to establish under Air and Water Acts for setting up batching plant, hot mix plant, DG sets, soak pit & septic tank/STP should be obtained by the contractor before setting up these facilities from State Pollution Control Boards. The contractors / IWAI will ensure compliance to the conditions of these permissions and should abide by the monitoring requirement to be imposed by the permission granting agencies. No diversion of forest land is involved in the project, however; cutting of trees will be carried out for construction of terminals and other interventions and permission will be required from concerned authorities or forests departments as per law of respective states. Waste/used oil is the only hazardous waste likely to be generated during construction and operation stage which should be managed as per Hazardous & Other Waste Management Rules, 2016. Other waste related regulations should also be followed depending on nature of waste generation during construction and operation stages as defined above. Permission under CRZ Notification, 2011 is required for establishing Haldia Terminal from West Bengal Coastal Zone Management Authority. The process for this permission has already been initiated. Permission for movement of vessel through KashiTurtle Sanctuary & Vikramshila Gangetic Dolphin Sanctuary located under Wild Life Protection Act, 19724. Process has already been initiated for obtaining these permissions. There are nine archaeological sites located within 300m area of river bank on NW-1. No construction activities are proposed closed to these sites. Permissions should be obtained from archaeological department if any construction is planned in near future within 300 m of these sites. Additional international conventions/treaties applicable for the project have been analysed. India being signatory of IMO, is obliged to follow the environmental and safety guidelines prescribed under various conventions. Some of the regulation and guidelines applicable to vessels plying in Indian inland waterways as per IWAI includes (i) Prevention of Collision on National Waterways Regulations, 2002 (ii) National Waterways, Safety of Navigation and Shipping Regulations, 2002 (iii) The 4 As per notification, restriction are imposed for fishing (larvae of Hilsha & during breeding & spawning season) only in Hislha Sanctuary xx Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 National Waterway-1 Act, 1982 (iv) New Inland Vessel Act, 2015 & Rules Under IV Act (v) Relevant other International Environmental Convention. 6.0 Key Safeguard documents A detailed description of project baseline environmental conditions, identified positive and negative environmental impacts, the mitigation measures to eliminate or minimize the adverse impacts and enhance the positive impacts, detailed environmental management plan including institutional responsibilities, implementation schedule, environmental budget, arrangement for monitoring and evaluation and grievance redressal mechanism are provided in the consolidated environmental impact assessment report for NW-1 and environmental impact assessment report of Ramnagar (Varanasi terminal), Sahibganj terminal, Farakka Lock, and Haldia terminal. The other supplementary documents prepared under this project are i) Basin Level Critical Environmental Resource Assessment report; ii) Consolidated rehabilitation action plan for NW-1, iii) Rehabilitation action plan for Sahibganj, iv) EIA Report for maintenance dredging and barge operations. 7.0 Public Consultation and Disclosure Stakeholder‟s view and perception was assessed through informal and formal public consultation meetings. The different stakeholders viz. Govt. officials, NGOs, Village Panchayats (Village Administration), people (male, female) were contacted and consulted during the course of the study. Stakeholders were informed about the project components and likely environmental impacts before seeking their views. In each consultation all efforts were made to have adequate participation from women as well. Consultations has been carried out for the project in two stages. First stage consultation was undertaken during impact assessment process to identify the concerns of people which were duly addressed through appropriate mitigation measures. Second stage consultation was undertaken after preparation of EIA report so as to assess the adequacy and acceptability of the proposed mitigation measures and management plan. Public consultations ensured involvement of public, NGO, experts in the project‟s pre-planning stage itself and addressal of their concerns and expectation from the project. The community members, government officials and NGO members opined that the proposed project would contribute to social and economic development of the region. The proposed project would contribute to increase employment opportunities for the local people during and after project implementation. The communities welcomed the project and all were in favour of the project. However, some of the fishermen and land holders have raised some concerns about the fishing activities/yield and the compensation to be given. Major issues highlighted during consultation were adequate compensation against the land, loss of livelihood, provision of alternate employment, river water pollution, fish yield and disruption of fishing activities. Each of the issues raised by stakeholders was analysed for practical and scientific basis, and for developing an appropriate mitigation, management and monitoring plan, depending on its importance and practicality. An executive summary of consolidated EA report is available for public scrutiny in local language (Hindi and Bengali) versions at IWAI website. EIA report for entire Jal Marg Vikas Project and its executive summary is also disclosed at IWAI website and xxi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 as per provisions of World Bank disclosure policies. A brief table illustrating the key concerns of the informal stakeholders is given below in Table 3. Table 3: Summary of Key Concerns raised by stakeholders and its redressal S. No. Key Concerns Redressal Social Concerns 1 Fishing community raised Such impacts are unlikely from this concern regarding effect on fish project. However, mitigation, productivity and demanded enhancement measures are support from project for the proposed under EMP for reduction same. of impacts if any due to construction & operation of NW-1 and its components. Some of the measures includes: Technical support for enhancing fish productivity by setting up demonstration nurseries and training centre through institute of repute like CIFRI Regulated/slow speed of vessel at select locations and Zero Pollution approach from vessel and terminals Intimation of dredging/piling plan to fishermen community prior to carrying out any activity Provision of sirens and strong search lights in vessels/barges to pre-warn the fishermen Provision should be made for SIA and RAP has been prepared for 2 adequate compensation for land Sahibganj and consolidate SIA/RAP acquisition wherever applicable. for NW-1. Provision of due compensation has been made as per these plans which are prepared as per applicable R&R policies. 3 People desired to have the Relocation site is proposed to be relocation site for the people selected by the concerned likely to be displaced near river authorities responsible for land Ganga. acquisition in consultation with people concerned. 4 People demanded support for Budgetary provision is made under the improvement in and around EMP for improvement of Ghats as local immersion Ghat at an enhancement measures. xxii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Durgachak (near Haldia terminal Additional enhancement measure in West Bengal) to reduce has been proposed for small congestion, especially during the enclosed areas dedicated for local festival. female bathing in every village along the NW-1 to allow female maintain their privacy while fulfilling their religious belief of bathing in river Ganga. Environmental Concerns 1 People raised concern that the Project design has considered this terminal development may lead aspect and adequate provision is to increased traffic on the made for developing access road to connecting roads which are not the terminals to avoid any kind of suitable for such an increased congestion at each terminal sites. load and needs to be upgraded. 2 Turtleswill be affected due to Maximum of 1-2 vessels per hour regular movement of vessels in are expected to move in the river in Kashi Turtle Sanctuary sanctuary area. Speed of vessels shall be maintained to 5 kmph/2.7 knots in turtle sanctuary area. Barge movement at this speed generates noise in order of 110- 140dB. Threshold noise level of turtles for change in behavioural response is 150 dB which is above the noise expected to be generated by moving barges and the impact on turtles behaviour responses is anticipated to be insignificant. Other measures are also being proposed in the EMP to minimize impact of barge movement on turtle. 3 Dolphins will be affected due to Adequate mitigative measures have barge movement during the been proposed in the project design operation phase of the project. which includes provision of propeller guards to prevent entangling of dolphins and other mammals, speed restriction in the sanctuary area and a restrictive buffer zone of 100m horizontally and 500m longitudinally either side of the river confluence areas for any dredging activity. Other measures are also proposed in management plan to reduce the impact on xxiii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 dolphins and other aquatic fauna. 4 Oil spillage from ships during Such situations are remote. Safety accident may impact the aquatic measures are proposed in the EMP flora, fauna, water quality and for vessels as well. No vessels are anti-bacterial properties of river expected to discharge any of its Ganga. liquid or oily waste in the river. Emergency response plan would deal with such situations to minimize the impact of emergency situations. It is also proposed that each vessel would have appropriate sewage treatment, treated sewage storage and waste management facilities to prevent water pollution. 5 People raised concerns Environment management plan has regarding the likely impact on incorporated the measures for water quality due to construction prevention of water pollution from and operation of terminal facility terminals, and barge operations. and cargo movement. Zero discharge approach is proposed for terminals development and barge operations. 6 People raised concern about Compensatory tree plantation (1:7 cutting of large no. of tree at basis) at Sahibganj and additional Sahibganj site. plantation is proposed to be undertaken. At all the terminal/jetty site green belt will be developed to the extent possible. This will help in minimizing the impact and will lead to reduced impact of CO2. 7 The varying LAD may lead to LAD is proposed to be maintained grounding of vessels. in the stretch between Haldia to Varanasi during entire lean period 8 Dredging may have significant Dredging is proposed to be impact on breeding and regulated during breeding and spawning season of fishes. spawning season of the fishes. 9 People have pointed Provision has been made in the outtheexisting erosion problem project design for bank protection in the Farakka feeder canal and work of 9.438 km; it is proposed to voicedthe apprehension that the be undertaken on banks of feeder NW-1 development and barge canal to prevent the erosion. movement may escalate this problem. xxiv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 10 People have suggested that Adequate parking provisions are appropriate parking facilities be proposed in each terminal site madeinside the proposed design. terminals for better management of goods carriers and to reduce traffic on existing road due to inappropriate parking on the public roads. 11 People have proposed adequate Adequate drainage provision is provisions forprevention of water made for channelizing the rain logging in and around the water at each terminal site. Fire- terminals, and for firefighting. fighting facility is also proposed at each terminal site. 8.0 Alternative Analysis Analysis of alternatives is an analytical comparison of the operational effectiveness, costs and environmental and social risks of proposed development options. This helps to analyse the options critically in relation to its impacts on all physical, social and biological environments. For this project, alternative analysis has been made for three considerations, i.e. strategic, planning and technology consideration. The summary of these analysis is presented below: 8.1 Strategic Consideration A comparison is made for “With” & “Without” project scenario for the physical, social and biological environments and status of cargo transport scenario. “With Project Scenario” is considered better for all physical, biological, social environmental and cargo transport scenario compared to “Without Project Scenario”. With Project Scenario will improve the freight transportation efficiency, reduce the GHG emissions, fuel requirement, air emissions, land acquisition, and tree cutting for maintaining and expanding cargo movement requirement. However, impacts are anticipated more on water and aquatic ecology in “With Project” scenario compared to rail and road for which mitigation and management plans are prepared to minimize the impacts. 8.2 Planning Consideration: This involves the consideration of options for location of the proposed interventions, suitability of intervention sites, design of the project layout and dredging extent. Locations are selected for proposed civil interventions (terminals/jetties) on the basis of potential of freight/cargo movement in the area and its connectivity with other modes of transport (Rail and Road). 10such locations were selected for development of 6 terminals and 1 navigational lock. One of the probable locations at Bhagalpur was ruled out due to presence of Vikramshila Gangetic Dolphin Sanctuary and based on “NO GO” areas identified in Basin Level Critical Resources Assessment study. Two sites at Varanasi and Sahibganj were identified few years back where land acquisition process was either completed or is near completion and thus were not included in the locational alternative analysis. However, acceptability of these sites from environmental aspects were assessed which were found acceptable. The xxv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 terminal sites at Haldia, proposed to be located on Government Land (Kolkata Port Trust Land) which is already being used for shipping and industrial purposes, were considered acceptable from environmental and social aspects. The location of navigational lock at Farakka is already existing and navigation lock parallel to existing lock is proposed. Remaining seven sites were analysed from environmental and social, design considerations. Based on alternative analysis three terminal sites at Ghazipur, Tribeni (Kalyani), Kalughat near Doraiganjwere considered as preferred sites for these interventions. The other three terminal sites at Barh, Kahalgaon &Baliawere not considered feasible due to (i) various environmental consideration including proximity to Vikramshila Dolphin sanctuary and Important Bird Areas, (ii) design issues such as unstable river, presence of navigational hazards and high sedimentation rate (iii) social issues concerning acquisition of land and (iv) connectivity. Further alternative analysis was carried out for probable two sites at each of the above identified three terminal locations and Farakka lock, based on environmental, social and design consideration. As per this analysis, the preferred sites for these intervention locations were considered for design and environmental impact assessment. At the time of impact assessment terminal designs were ready for Varanasi, Sahibganj, and Haldia terminals only. Considering technical feasibility, multiple layout options were available only for Sahibganj terminal& Farakka lock. These layout options were analysed for identification of most suitable design options. In case of Sahibganj terminal, Alternative 1 involves construction of U shaped jetty (25 m), aligned parallel to the River bank and connected to bank by approach trestle of 50 m and alternative 2 involves construction of jetty at the river bank aligned parallel to it. Both the alternatives were compared on multiple criteria, i.e. operational considerations, navigational aspects, ease of construction & maintenance, flexibility of expansion, construction cost and environmental considerations. Both the alternative layouts have certain advantages as well as disadvantages. It could be observed that in terms of available required depth throughout the year and marginal cost difference between two alternatives and environmental consideration, Alternative-I is found preferred alternative for development of IWT Terminal at Sahibganj. In case of Farakka lock, alternative 1 involves construction of lock parallel to the existing lock and in alternative 2, lock will be constructed D/S of the existing lock. Considering the design, requirement of land, length of embankment, availability of depth, dredging requirement etc. It is found that the alternative 1 is better than alternative 2. To maintain the river navigability, maintenance dredging is required to be planned so as to maintain the length and width of the channel and maintain LAD near the berths/jetty. IWAI proposed either maintaining 3m LAD throughout the NW-1 stretch or maintained different LAD in different stretches (3 m Haldia to Barh, 2.5 m from Barh to Ghazipur and 2.2 m from Ghazipur to Varanasi). Width5 of 45 m will be maintained throughout the navigation channel with side slope of 1:5. Alternative analysis was carried out for both these options considering environmental (dredge quality, impact on aquatic ecology and water quality), social (cultural and aesthetic 5 The channel width is proposed to limit to 45m in phase I which will further reduce the maintenance dredging requirements. . xxvi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 value, employment and socio-economic consideration) and technical feasibility (dredge quantity, navigation feasibility, economic aspects, dredgers and other infrastructure requirements). As per analysis option of maintaining different LAD at different stretch was found most preferred option. 8.3 Technological Consideration: The technological aspects were analysed in terms of dredging technology. Five type of dredgers namely cutter suction dredgers (CSD), hopper dredgers, grab/bucket dredgers and back-hoe dredgers were analysed. These were analysed based on safety, accuracy, turbidity, spills and noise criteria as well as operational feasibility. The CSD was considered as most preferred option due to least associated environmental Impact and operational feasibility. Typically, CSDs have least effect on turbidity at the dredging site. Grab dredgers and TSGDs when used with overflow, produce significantly high turbidity throughout the water column near the dredging site than do CSDs. Underwater noise generation in CDSs is comparatively lesser than other dredgers. As per experience of KoPT and IWT also CSD has proven to be the best option and is considered for maintenance dredging planning and environmental impact assessment. Additionally, to further reduce disturbance to the riverbed sediments, water injection dredgers would be used in the project. 8.4 Integration of analysis of Alternatives and Suggested Design Consideration into Project Design Since studies were being carried out along with the feasibility report preparation, the output of alternative analysis and design consideration was discussed with the design team and incorporated in the project design. Some of the design changes include provision of mechanical material handling system at Sahibganj Terminal, dust suppression system at each terminal, provision of green belt all along the terminal boundary, integration of green building concept in terminal buildings, adoption of zero discharge concept at terminals and barges, rain water harvesting, emergency response planning, exploring feasibility of using low draft vessel and alternative fuels for barge operations. The project description details presented below includes the above considerations. 9.0 Salient Environmental Features of NW-1 The salient features of environmental resources within influence area (10 Km) of NW- 1, are presented at Table 4. Topography of the whole of NW-1 (Allahabad to Haldia) falls within a relatively flat terrain of the Indo-Gangetic plain. The elevation within the influence area of the NW-1 stretch, ranges between 1 m amsl (meter above sea level) and 321 m amsl. Highest elevation levels were observed at Sahibganj area (Jharkhand) due to presence of small hillocks. Land use within influence area of the NW-1 is majorly dominated by agricultural land. About 78.9 % of the land is under cultivation; about 7.18% land is under settlement, 7.21% of the land is under water bodies, about 3.59% land is under vegetation, 2.82% land is under dry river bed and rest of the land falls under other uses. xxvii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table 4: Salient Environmental Features along NW-1 Alignment S. Environmental Within 500 m Within 2km Within 10km No. Features influence area Influence area influence area around NW-1 around NW-1 around NW-1 1 Ecological Environment A Presence of National None None None Park/Biosphere Reserves, Tiger reserve etc. Presence of Wildlife Yes None Yes Sanctuary 1. Kashi Turtle Udhwa lake Sanctuary at Varanasi sanctuary in 2. Vikramshila Dolphin Jharkhand (about 9 Sanctuary Kahalgaon to Sultanganj km away from NW-1 3. Hilsa Sanctuary stretch in west Bengal B Reserved /Protected None None Yes (Bethuadahari Forests RF, Bahadurpur RF & RF near Rajmahal Hills) C Wetland of state and None None Yes (Udhwa Bird national interest sanctuary) D Migratory route for None None None wild terrestrial animals E Presence of None Yes Yes Schedule-I Migratory birds Migratory birds at Terrestrial Fauna near Farakka important birds‟ areas Barrage and surrounding F Presence of Yes None None Schedule-I Aquatic Dolphin, and Turtle Fauna (more frequently sighted) Smooth Coated Otter and Crocodile (very rarely sited in Ganges system) G Important Bird Area Vikramshila sanctuary Yes Yes area 1. Danapur Udhwa lake Cantonment area sanctuary 2. Mokamatal 3. Kurseala river course and diyara flood plain. 4. Farakka Barrage and surround area xxviii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Environmental Within 500 m Within 2km Within 10km No. Features influence area Influence area influence area around NW-1 around NW-1 around NW-1 H Seismicity NW-1 falls in Zone-III (moderate risk) and zone IV (high damage risk zone) as per Seismic Zonal Map of India B. Social Environment I Physical Setting Rural, Industrial and Urban J Densely populated Allahabad, Sirsa, Mirzapur, Chunar, Varanasi, Zamania, Ghazipur, area Gahmar, Buxar, Ballia, Chappra, Patna, Barh, Bihat, Munger, Bhgalpur, Kahalgaon, Sahibganj, Farakka, Berhampore, Katwa, Kalna, Kolkata and Haldia are densely populated areas. K Physical Sensitive Yes Receptors Ghats at Varanasi, Patna, Temples, Schools, College and Hospital. Details are provided at section 4.7 L Archaeological Yes Monuments There are 9 archaeological sites located within 300 m area of the NW-1 and these are KardmeshwarMahadevaMandir, Ramnagar fort, archaeological excavation site, Varanasi, Manmahal and observatory, St. John's Church, Temple of Gour Chandra and Krishnachandra at Chatra (Gaur Chandra Ghat), Hazardwari Palace, SinghiDalan and Jami Masjid Details provided in section 4.7, Chapter-4 of EIA report. 10.0 Anticipated Environmental Impacts and Mitigation Measures Environmental impacts have been assessed considering present environmental setting of the project area, nature, and extent of the proposed activities. Suitable qualitative and quantitative approach was followed for identification of likely impact on each value components of environment for design construction and operation stage. The impacts were analysed under three broad categories namely (i) Impacts due to dredging operations (ii) Impacts due to barge operations (iii) Impacts due to civil interventions. Additionally, impact was analysed for climate change and riparian issues. Impacts due to land acquisition are covered under separate Social impact assessment and Rehabilitation Action Plan report and not included under this summary. Maintenance dredging & dredge disposal will be carried out during the operational phase of the project to maintain continued navigability throughout the year from Haldia to Varanasi in NW-1. Dredging of 14.85 million cubic meter will be undertaken from Haldia to Varanasi to maintain LAD of 3 m upto Barh, 2.5m upto Ghazipur & 2.2 m upto Varanasi. Impacts of the dredging are analysed for Physical Environment: on water quality and land, Ecological Environment: on aquatic ecology and avi-fauna (6 Important bird areas, VGDS, Kashi turtle sanctuary & Hilsa sanctuary), and Socio- Economic Environment: cultural (Ghats at Patna & Varanasi), archaeological (9 nos.) and livelihood of fishing community IWT mode though is safest and most environmental friendly mode of transportation, may have impact valued/critical environmental components. Barge movement may impact the water quality, river bank & bank structures, air quality, noise level, aquatic ecology, health & safety, livelihood of fishermen and socio-cultural aspects. xxix Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 The civil interventions will have largely construction and operation related impacts. Impacts are summarised based on the impact assessment carried out for Varanasi, Sahibganj and Haldia terminals and Farakka navigational lock. The impacts identified for these four sites are likely to be the similar for other interventions sites barring few site specific issues related to tree cutting, land acquisition, muck disposal and construction material sourcing. The impacts are summarised below for valued/critical environmental components in two groups i) impacts due to dredging and barge operations and ii) impacts due to civil interventions. The baseline conditions are summarised under first group itself. The impacts on climate change and riparian issues are summarised following these two groups impacts. 10.1 Impacts due to maintenance dredging and barge operations 10.1.1 Impact on land and water quality A. Baseline conditions Soil and River Bed Sediment Quality: Soil quality monitoring is carried out along NW-1 and within the critical impact zones considered for planned civil interventions as per CPCB guidelines. Soil type is influence area is dominated by alluvial soil. Soil texture varies from sandy clay to clayey loam type and soils are marginally acidic to slightly alkaline with pH ranging from 6.62-7.86. Electrical Conductivity ranges between 135.4 & 360.5 µmhos/cm. Soils in the influence area are moderately fertile. The concentration of heavy metal & pesticides in river bed sediments was found low in concentration at each sampling location and are within acceptable limit for off- shore disposal as per “Criteria for Off-Shore Dumping of Dredged Material”, USA except for cadmium which is slightly above the prescribed limit in UP stretch. Cadmium levels can be high due to industrial effluent discharge in this section. Ground and Surface Water Quality: Ground water quality monitoring is carried out along NW-1 and within the critical impact zones considered for planned civil interventions as per CPCB guidelines. TDS, Total Hardness and chloride values at Haldia and Sahibganj, Howrah and Kolkata are slightly above the desirable limit but are within the permissible limits specified of IS: 10500. Fe and Zn were detected in water samples but in lower concentration. Arsenic was detected in samples collected from Bhagalpur and Munger but in lower concentration. River water quality monitoring is carried out along NW-1 and u/s & d/s of planned civil interventions as per CPCB guidelines. River water qualities meets BDU Class „D‟ Criteria of CPCB barring few parameters pH & DO which meets class „A‟ criteria, i.e. for propagation of Wild life and fisheries B. Impact on water quality & land due to dredging operations: Impacts: Impact of dredging on water quality are increase in turbidity; reduced light transmittance; reduced DO; changes in salinity, temperature, pH & concentration of nutrients and release of heavy metals/chemicals. As per a study, DO level comes down suddenly by 2 to 2.5 mg/l for maximum of 2 minutes only at the dredge plume arrival point which is regained within 3-4 minutes as plume passes. As per baseline study, river bed sediments are non-toxic except in Allahabad to Buxar stretch where xxx Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Cadmium level is found marginally higher compared to US standard for off-shore sediment disposal. However, this higher level is unlikely to have toxic effect on aquatic life considering the sensitivity level to cadmium exposure (short terms at LC 50 level) to aquatic life as per Canadian Guidelines6. Pesticides are present in traces but much below the safe limit for off-shore disposal. Turbidity of water also increases substantially close to dredging point but it reduces with distance and almost get normalise at a distance of 700 m from dredging point. Coarser sediments settle much faster and at shorter distance. Presence of iron in sediments enhances settling of fine sediments as it acts as coagulant. Land disposal of sediments is anticipated only when sediments are contaminated and in case of Haldia terminal dredging. When the dredged material is disposed on land in form of slurry, excess water drains back to the water body which can affect the water quality. Key Mitigation Measures: Key mitigation involves reduction in dredging quantity by studying thalweg profiles, bandalling and usage of low draught vessels. Sediment loss can be minimized by wise selection of dredger depending on strata and depth and CSD are proposed accordingly. Selection of size of cutter head and other technical specifications can further be reducing dredged sediment loss. If dredge material is found contaminated at any particular location, then it should be disposed on land after decontamination. On land disposal of dredged material should be carried out only at approved TSDF site such as approved TSDF site of Haldia Dock Complex at Sagar. The contaminated dredge material shall be collected in the leak proof container for decontamination and disposal to the landfill site. The disposal facilities should be designed with adequate liners to contained the leachate and also should have provision of leachate collection and testing to periodically check the functionality of the disposal site. If dredged material is disposed on land, then the care should be taken that the tail water is collected and made free from sediments prior to its discharge back to surface water body. C. Impact on water quality due to barge operations: Impacts: Vessels generate garbage, oily waste, sewage, bilge water & ballast water which can affect the water quality of the river. Usage of antifouling paints may also impact the water quality as the paints may contains toxins. Settling of the dust of the material transported on river surface again can impact the river water quality. Ship accidents/collision may lead to spillage of the commodities transported including oil which may impact the water quality of the river. Key Mitigation Measures: Management of wastewater, oily waste, bilge water, noxious waste (if any), air emissions & garbage from vessels as per MARPOL can prevent the water quality pollution. All maintenance & repair works should be carried out at designated locations only. Only toxin free paints should be used for anti-fouling purpose. Experienced crew should be hired to minimize the accident occurrence. Information of available LAD in form of electronic charts should be made available to navigators and intimation of navigational hazards in form of cautionary signage should be displayed at required locations to minimize the accidents and spillage of material in river. Oil carrying ships (>5000 dwT) should be double hulled as prevention against oil spills. 6 As per Canadian Environmental Quality Guidelines, Canadian Council of Ministers of the Environment, 2014 xxxi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 D. Impact on river bank & river bank structures due to barge operations: Impacts: Wave generated due to vessel movement may lead to bank erosion. Impacts are anticipated to be minimal except at Feeder canal which is narrow and have erodible banks. Key Mitigation Measures: Restricting speed of vessels in narrow stretches & along sharp bends may minimize the erosion. Bank protection and bend straightening works can protect banks from erosion. 10.1.2 Impact on Air Quality and Noise Level A. Baseline conditions Meteorology: The predominant wind direction in all IMD stations located along NW-1 is from North and Northwest direction in winters and South and Southeast direction during rest of the season. The wind speed in the area ranges between 1.9 kmph (Patna) and 8.7 kmph (Kolkata). December and January constitutes winter months with daily mean minimum temperature of around 9.1oC at Patna and daily mean maximum temperature of around 26.9oC at Kolkata. April and May are the hottest months with daily mean minimum temperature of 24oC at Malda and daily mean maximum temperature of 40.4oC at Varanasi. Relative humidity ranges between 25 & 84%. The annual rainfall in the project area ranges between 1000.3 mm (Varanasi) and 1728.5 mm (Kolkata). Air Quality: Ambient air quality monitoring (PM2.5, PM10, SO2, NO2 and CO) was carried out along NW-1 and within the critical impact zones considered for planned civil interventions as per CPCB guidelines. PM10 level varies from 39 to 145 µg/m3. PM10 levels are within 100 µg/m3 at all the locations except Varanasi (near bridge), Patna and Howrah. PM2.5 levels ranges from 16 to 58µg/m3 and are within the CPCB limit of 60 g/m3. Level of SO2 & NOx ranges from 4.4 to 35.6µg/m3 and 9.0 to 48µg/m3 respectively and are within the prescribed limits of NAAQs, 2009. CO is detected at Haldia, Howrah, Patna and Varanasi only. The 8hrs CO level at these locations ranges from 0.18 to 1.2 mg/m3 and are within limits of NAAQs, 2009. Noise Quality: Noise level monitoring is carried out along NW-1 and within the critical impact zones considered for planned civil interventions as per CPCB guidelines. Ambient noise levels at all monitored locations are found within the prescribed Standards of CPCB as per land use except at Kashi turtle sanctuary because of anthropogenic activities like worship, bathing etc. B. Impact on Air Quality due to dredging and Barge movement: Impacts: Barges also generate emissions but this is far less as compared to road and rail for transportation of same quantity of cargo for the same distance. Thus impacts on air quality are anticipated to be positive. As per analysis there is reduction in emission generation of all the pollutants. Emission savings in “With project” scenario is given in Table 5. Table 5: Emission Savings Due to Shift of Freight from Road & Rail to IWT Mode Year SO2 emissions NOx CO HC emissions PM (Tonne/Yr.) emissions emissions (Tonne/Yr.) Emissions (Tonne/Yr.) (Tonne/Yr.) (Tonne/Yr) xxxii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 2016 0 0 0 0 0 2025 176.547 1305.17 511.9684 365.981 215.8993 2035 242.8597 1772.377 695.3507 495.2122 292.4799 2045 365.2669 2508.429 986.5775 684.3006 404.4284 Net Savings 5874.205 42201.2 16575.06 11700.31 6901.329 Estimated (Tonnes) from 2016-2045 Key Mitigation Measures: Material generating dust should be transported in covered conditions. Regular maintenance of vessels engine and propellers may significantly cut down air emissions. Adaptation of cleaner fuels like LNG can be explored. C. Impact on Noise Levels due to dredging and Barge movement: Impact on noise quality w.r.t air due to barge movement will be negligible and will be far less when compared to road & railways. Intermittent noise of high level may be generated only when hooters are used as warning during navigation. Noise levels w.r.t air generated due to dredging operations at source will vary from 80-90 dB(A). Noise levels reduces to 70 dB(A) at distance of 100 m, 64 dB(A) at distance of 200 m and to 56 dB(A) at distance of 500 m from source. Dredging will be carried out within the navigation channel only thus the impacts of the dredging noise on the nearby settlements are insignificant only. Also dredging operations will not be carried out after 10:00 pm. Several measures are proposed to manage the noise environment of the area. Apart from noise levels w.r.t air, high level underwater noise is generated due to dredging & barge movement. This noise has impact majorly on aquatic flora and fauna and underwater noise impacts are discussed in detail in section impact on aquatic ecology Key Mitigation Measures: Regulation of the dredging operations between 6:00 am to 10:00 pm only, dredgers should be regularly serviced and maintain to prevent noise generation due to friction, dredgers should be fitted with noise masking equipment to reduce the noise levels, barges should use hooters as and when required, i.e. for safety of fishermen and other ships. Noise from dredgers can be reduced at source (dredger) by isolation of exhaust system, by keeping engine room doors shut and by shielding. 10.1.3 Impact on terrestrial and aquatic ecology A. Baseline Conditions Biological Critical Environmental Resources: Wild life sanctuaries namely Kashi Turtle Sanctuary (Varanasi, U.P.), and Vikramshila Gangetic Dolphin Sanctuary (Bihar) lies within the NW-1 stretch. Hilsa Sanctuary notified under Fisheries Act with the aim of increasing productivity of Hilsa fishes are located at 4 locations in West Bengal Stretch. Apart from this there are 6 nos. of important bird areas including Udhwa bird sanctuary located within influence area (10 km) of the NW-1 stretch. RET species like Gangetic dolphin (Schedule-1) fresh water turtle species (frequently xxxiii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 sighted), The smooth coated Otter and crocodile (very rarely sighted) are present in the river stretch of the NW-1. Terrestrial Flora: There is no major forests area present along the NW-1. The riparian flora consists of commonly found trees, shrub and herb species. No rare and endangered plant species observed in the riparian area of the NW-1. Terrestrial Fauna: As no major forest area is present along the NW-1 stretch the terrestrial fauna is restricted to commonly found terrestrial faunal species. No Schedule-I terrestrial mammals‟ species observed along the NW -1 stretch. However, 6 IBA located within influence area of NW-1 are the major wintering site for many of migratory water birds. Some of the rarer/endangered/vulnerable avifauna has been reported in these IBAs. Aquatic Flora & Fauna: The aquatic floral and faunal diversity of NW-1 stretch comprise phytoplankton, zooplankton, zoo-benthos, fish and higher vertebrates. Phytoplankton is represented by Chlorophyceae, Bacillariophyceae, Cyanophyceae, Euglenophyceae, Xanthophyceae and Rhodophyceae groups. Dominance of Bacillariophyceae members followed by Chrophyceae and Cyanophyceae was observed in NW-1 stretch. Zooplankton comprises of Protozoans, Rotifers and Crustaceans. Phytoplankton and zooplankton diversity is little higher in Farakka to Haldia stretch in comparison of Allahabad to Farakka stretch. Macro benthos and Macro-invertebrates constitute Annelida, Arthropoda insects and Mollusca. Fish in the NW-1 stretch is represented by total of 106 species. The higher aquatic vertebrates‟ mammalian fauna present in NW -1 stretch (Allahabad to Haldia area are Gangetic dolphin (Platanistagangeticagangetica) andthe Smooth Coated Otter (Lutrogale perspicillata) which are categorized as endangered species (Schedule-I). Dolphin is found routinely moving between Allahabad to Farakka and post Farakka region of NW-1. However, these mammals are rarely sighted in Allahabad and Varanasiregion. TheSmooth Coated Otter is found throughout the length of the gangetic system but in very poor numbers and it is one of the endangered category animal as per IUCN list. Though it is not sighted during our study period but fishermen at Bhagalpur and Sultanpur only has indicated its sighting. Its number has depleted fast due to one of the most hunted animal because of its precious skin. The reptile fauna found in Gangetic system are variety of fresh water turtle species, water snake(Xenochrophispistator), Mugger Crocodile (Crocodilus Paluspris), estuarine (East Coast) Crocodile (C. porosus) and Indian Gharial (Gavilialis Gangeticus). The Mugger, Crocodile and Indian Gharial are very rarely seen in NW-1 stretch. Its presence is more reported in tributaries (Chambal river) of Ganges. The turtle and water snake are found more commonly in the NW-1. Other than water snake, other reptile faunal species are classified as endangered species. Few researchers have indicated presence of Ganges Shark (Glyphis Gangeticus) in the last part of Ganga (Hoogly river region). However, there is no confirmed news or basis available yet for the presence of this critically endangered species in the gangetic system. B. Impact on Aquatic Ecology due to maintenance dredging: Impact: Impact of dredging on aquatic ecology are change in diversity of benthic habitat, impact on behavioural response & tissue injury of aquatic organism due to increased noise levels, blocking of fish gills due to increased sediments, intake of toxic pollutants by aquatic fauna as released during dredging, smothering of benthic flora & fauna due to dredge disposal and loss of Submerged Aquatic Vegetation xxxiv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 (SAV). Noise generation from CSD is 160-180 d(B) and behavioural disturbance criteria for dolphins, turtles, fishes (>2 gm) & fishes (<2 gm) from any continuous noise exposures are 177 dB, 150 dB, 186 dB & 183 dB respectively. Noise sensitivity reference are not available for other crocodile and Smooth Coated Otter but these animals are rarely sighted. It is assumed that these animals will also have similar sensitivity range. In any case these animals prefer to stay more on banks or on wet land near banks and are unlikely to be impacts due to dredging which is most likely to undertaken in the deep stream of river. In addition, no dredging operations are proposed within or in vicinity of Kashi Turtle Sanctuary and Vikramshila Dolphin Sanctuary that minimise the possibility of the impact of dredging on such vital sensitive organisms. Thus the dredging operations noise will not lead to any significant impact on aquatic organisms. Key Mitigation Measures: Restricting dredging in biological sensitive locations like VGDS & Kashi turtle sanctuary; confluence zone of major rivers (100 m horizontally and 500m either side of major river confluence location) and during breeding &spawning season of fishes and migratory bird season may minimize the impact on aquatic fauna significantly. Reduction in dredging noise through regular servicing & maintenance of dredgers and usage of bubble curtains can significantly reduce underwater noise. Usage of bubble curtains can reduce underwater noise to appx. 10 dB. C. Impact on aquatic ecology due to barge operations: Impact: Impact of barge movement on aquatic ecology can be due to speeding vessels, spillage of material transported (oil majorly) and generation of high level underwater noise. Vessels if moving in high speed can collide with aquatic organisms leading to mortality and injury to aquatic organisms. Spillage of material transported can impact the habitat of the aquatic species. Oil spills are most significant among all spills as oil can form a layer breaking contact between water & air and reducing DO level, block gills and skin pores of aquatic organisms leading to mortality. Barge of size 1500-2000 dWT are expected to move in the waterways which generate noise levels of 110-180 dB as per speed. Speed is however restricted in sanctuary area to 5 kmph and noise levels will be maximum 140 dB. Tolerance level for behavioural response of turtles and fishes are 150 dB & 177 dB. Thus impact of vessel movement on dolphins and turtles is not anticipated. However underwater noise modelling, considering noise generation of 160 dB is carried out and it is found that noise levels will attenuate to 150 dB at distance of 4.6 m from vessel. As indicated under dredging section above, Smooth Coated Otter and Crocodile are rarely sighted and prefers to rest on wet lands of river banks, noise impacts are anticipated negligible due to its fast attenuation. Accidental impact cannot be rules out however it will of similar nature as to Dolphin and same precautions will apply for these animals as well. Another impact on aquatic species is masking of biological important sounds. Echoclation clicks of dolphins have dominant energy around 65 kHz and are beyond the man made frequency range thus impact is not significant. However, communication signals lie in same frequency range as of man-made noise and can be masked but they are naturally masked many times by the natural noise environment of water. xxxv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Key Mitigation Measures: Restricting speed of vessels in sanctuary area can maintain noise levels lower than 140 dB which are lower than tolerance levels of turtle and dolphins thus minimizing impact of noise on turtles and dolphins. Vessels should be fitted with propeller guards and dolphin deflectors to minimize dolphin accidents. D. Impact on Avifauna due to maintenance dredging: Impact: Impact on avifauna is anticipated due to disturbance of the habitat due to dredging & disposal of dredged material on banks/shallow waters and increased ambient noise levels due to dredging operations. Noise level of 85 dB(A) are generated during dredging which dissipates within 500 m distance making impact localized. Key Mitigation Measures: Restricting dredging operations during day time (6:00 am-10:00 pm) & during migratory season of birds near locations of IBAs will minimize the disturbance to resting avifauna during night time. Regular maintenance and servicing and usage of noise mufflers with dredgers can significantly reduce noise levels. Isolation of exhaust system and by keeping engine room doors shut and by shielding dredging noise can be reduced further. Onshore disposal, if required should be undertaken only at TSDF. 10.1.4 Impact on Socio economic and cultural aspects A. Baseline Conditions NW-1 traverses through four states: Uttar Pradesh, Bihar, Jharkhand, and West Bengal. There are various densely populated areas located along NW-1 such as Allahabad, Farakka, Sahibganj, Berhampur etc. As per the Census, 2011, population of the major cities & towns along NW-1 is 1,28,75,343 (67,82,150 male & 60,93,193 females) and the total numbers of Households are 2562165, population between 0-6- year age is recorded as 13,08,682. Being project of such large spatial extent, NW-1 interfaces with various archaeological, social and culturally sensitive and important locations. There are 9 archaeological important sites along NW-1 but no activity at present is proposed to be undertaken within 300 m of these sites. Ghats at Patna and Varanasi are another socially important features which may be impacted due to project. However, measures are proposed to minimize such impacts. Several festivals are celebrated on a large scale at the banks of river Ganges at different locations and time period of year along NW-1. These locations and period of celebrations are Kumbh Mela at Allahabad (between Jan-Feb), Ganga Mahotsav at Varanasi (between Oct-Nov), Dhrupad Mela at Tulsi Ghat of Varanasi (between Feb to March), Chatt Pooja at various location all along the river stretch passing through Bihar& Jharkhand state (between Oct-Nov) and Ganga Sagar Mela at Sagar (in January). Due to barge operation and dredging activities there could be interference in these celebrations. Mitigation measures are proposed to be undertaken to minimize such impacts. There are few archeologically protected monuments located along the NW-1. Since regulations restricted 300m area around these monuments as regulated zone, B. Impacts on Socio-economy and cultural aspects due to maintenance dredging: xxxvi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Impact: Impact of Dredging & disposal of dredged material are anticipated on cultural &archaeological important locations and on livelihood of fishing community. Dredging operations may impact socio-economy by disrupting fishing & boat movement, generating high noise levels near dredging location, increased river water pollution, unpleasant view and increased air pollutants. These impacts are however short term and localized as will be confined to dredging locations only. Dredging activity also pose threat to health & safety of the workers and other waterway users. No construction or interventions are planned within 300m of any of Archeologically protected monument. The Ramnagar fort is one of the protected monument. IWAI has undertaken a study with the help of Indian Institute of Technology (IIT) Roorkee to establish the effect of development of Varanasi terminal and NW-1 development. IIT in its study has establish that these developments will have no impact on this protected monument. No direct impact is anticipated on any such protected monuments or other culturally important structure due to dredging activity. Key Mitigation Measures: Dredging will be prohibited in biological & social sensitive location and at time of religiously and culturally important festivals, during breeding & spawning season of fishes and during migratory bird season to minimise impact on socio-cultural aspects. A minimum of 100 m buffer zone from the religious Ghats at Varanasi and Patna (the cultural heritagelocations) are proposed to be maintained as prohibited area for dredging for the protection of Ghats. Precautions followed for archeologically protected monument shouldalso be followed for any intervention near any culturally important heritage structures.It is also proposed to report to IWAI and ASI for any chance finding during excavation and construction stage. Timely intimation to fishermen about dredging operation and location can minimize the disturbance to fishermen. As enhancement fishermen can be provided with trainings by institutions like CIFRI to learn better fishing practices and available aids for fishing which will help them to enhance their livelihood. Measures for accident risks during dredging and arrangement of all first-aid should be available at dredging locations all the time. C. Impact on Socio-economy and Cultural Aspects due to barge operations: Vessel movement are subjected to various threats of accidents related to natural disasters like flood or cyclonic and operational hazards like Collison, fires and spillages. However, these accidents and accident intensity can be minimised with appropriate preventive measures. Key Mitigation Measures: Provision of night time navigation system, maintenance dredging, adequate and efficient river information system, vessel tracking system, Electronic Charts Display Information System - ECDIS, and Automatic Information System – AIS can minimize the accidents. Most of these measures are already under implementation by IWAI in some stretches of the NW-1 and there is proposal of extending these facilities to entire NW-1. All safety regulations as per SOLAS should be followed to maintain safety during navigation and minimize accidents. Barge operations should be regulated in consultation with local bodies during religious and culturally importantfestivals. Enhancement Measures: Support for promoting fish productivity through setting up or supporting existing fish nurseries. Also providing training and awareness support through reputed institutes or experts like CIFRI for better fishing techniques and xxxvii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Provision of supporting Studies for conservation of Dolphin and other sensitive studies should be made. 10.2 Impact & Mitigation Due to Civil Interventions Impacts due to civil interventions are expected to occur during the design, construction and operation stage of the project. Impacts due to civil interventions during different phases are discussed below A. Impact during design phase: Activities to be carried out during design phase which can impact the physical, biological and social environment are site clearance & preparation, acquisition of land & change in land use land cover. Major impacts anticipate are Removal of vegetation & tree cutting, Unpleasant view, Increased GHG emissions due to operation of construction vehicle/machinery & removal of trees, Impact on regular day to day activities in area of development due to shifting of utilities, Impact due to change in land use, Impact on drainage, Loss of households, land and assets and Loss of income source and impact on quality of life Key Mitigation Measures Tree cutting should be minimized by efficient planning of the interventions. Permission from forest department is essential prior to cutting of trees besides, compensatory plantation to be carried out as per respective state forest policy. Restoration and rehabilitation of locations occupied or used for construction purposes immediately after the given task(s) is over. Dedicated approach roads and improvement of haul roads should be considered to minimize the traffic congestion and air emissions. Traffic management should be undertaken to avoid peak hours. Utility shifting should be carried out during or prior construction phase but without disrupting common service. Necessary permissions from the area development authorities and local bodies should be obtained prior development of proposed interventions. Natural drainage pattern should be maintained by provision of adequate drainage. Compensation should be given to affected households as per R & R Act, 2013. B. Impact during construction phase Activities to be carried out during design phase which can impact the physical, biological and social environment are construction activities, material transportation and operation of machinery & construction equipment. Major impacts due to these activities are Loss of top soil, Soil contamination due to spillage of material, Bank Erosion/bed scouring, Surface water contamination due to increased run-off from construction site, High noise levels and disturbance to nearby habitation, Traffic jams, wear & tear of existing roads, increased accidents and air pollution, Unpleasant view due to construction activities, construction material storage and waste storage, Health & safety of Workers and people in nearby areas, Quality of Life, Mortality, disturbance to habitat and change in behavioural response and Tree cutting & vegetation removal Key Mitigation Measures The top soil should be preserved and used for landscaping purpose and should be given to farmers in nearby areas, if asked by them. Clean up operations should be taken up immediately after spillage of any material. Debris and excavated earth xxxviii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 should be disposed-off as per defined plan. Provision should be made for Septic tank & soak pit/STP, maintenance waste collection and treatment before reuse. Concreted floor for storage of fuel and oils should be proposed. Excavated earth should be reutilized to the extent possible in the construction activity and balance will be used for road construction or disposed for designated places like mines in case of Sahibganj. Bank/scour protection works required at planned and under planning civil intervention locations. Adequate shore & scour protection measures should be taken at Sahibganj terminal, Varanasi terminal and Farakka Lock site. Provision of acoustic enclosures for DG sets to reduce noise levels. Noise causing activities should not be carried out close to settlement areas and during night hours. Haulage roads/approach roads to be used should be maintained regularly. Restoration and rehabilitation of the areas occupied or used for construction purpose immediately after use is over. Preparation and implementation of emergency preparedness and response plan and contingency plan by contractor. Implementation of proposed environment management plant to minimize the environmental pollution and stress on existing infrastructure resources. Management of surface run-off to prevent from mixing with contaminant, provision of storm water management system, provision of sediment traps, oil interceptors with storm water drains in parking areas. Impact of piling & construction dredging should be managed by adoption of vibratory piling and usage of bubble curtains to disperse the fauna and reduce the noise level. C. Impact during operation phase at intervention sites Activities to be carried out during design phase which can impact the physical, biological and social environment are barge mooring & berthing, operational activities at terminal site and discharge of waste/waste water from intervention sites. Major impacts anticipate are Increased GHG emissions near the terminal/jetty locations due to increased material transportation and dredgers operation, Increased pollutant emissions near the terminal/jetty locations due to increased material transportation and dredgers operation, Generation of employment, Infrastructural development, Increased run-off from site, Increased noise levels and disturbance to nearby residents & Polluted water quality Key Mitigation Measures Development of thick green belt area and avenue plantation at all proposed intervention sites. Provision of sprinklers and dust suppressors at terminal sites for dust suppression should be made at site. Employment should be given to local people preferably. Skill development trainings can be undertaken for locals to train them for jobs. Storm water drainage should be collected and reuse for dust supersession. Sewage should be treated in STP constructed at site and treated water should be used for dust suppression and horticulture. 10.3 Impact on Climate Change IWT mode is most efficient and environmental friendly mode of transportation, involving least CO2 generation when compared to rail & road. Analysis is made to estimate the CO2 emissions from different mode of transportation for transportation of same quantum of cargo for similar distance. It is estimated that due to project development (model shift) CO2 emissions will be reduced and net saving of 4.54 million tonnes will be realised over a period of 30 years (till 2045). xxxix Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 10.4 Impact on Indo-Bangladesh Water Sharing Treaty (Riparian Treaty) The impact on Indo-Bangladesh water sharing treaty was analysed in terms of water flow to Bangladesh and impact on aquatic ecology and sedimentation load due to NW-1. This impact was analysed nil since no water storage or diversion structure is proposed under Jal Marg Vikas Project. Aquatic life is already fragmented due to Farakka barrage and no change is expected due to Jal Marg Vikas Project as its route diverts to feeder canal through navigation channel (Farakka navigation lock) at Farakka. 10.5 Cumulative Impact Assessment CIA is one of several tools to consider as part of an overall process of environmental and social risk assessment and management. Scope of the CIA both temporally and spatially is much larger than the EIA studies and other tools for environment and social assessment. CIA not only captures the project induced impacts but also consider the status of the already impacted VECs7/CERs, communities and considers the existing, proposed, planned and anticipated developments which may come in the influence (impact) area of the project so as the impacts of not only the project but these other developments can also be assesses cumulatively. CIA study carried out for the project in similar way has captured other developments to be undertaken in the influence area other than the proposed NW-1 project which includes railways, roadways, urban agglomerations, TPPS, Irrigation schemes etc. Difference between the CIA study and the EIA studies is elaborated in the section below which justifies the reason of carrying out multiple studies for the proposed project to assess the environmental and social impacts due to it. Cumulative Impact Assessment (CIA) of NW-1 from Allahabad to Farakka has been carried out for (a) analysing the potential impacts and risks of proposed, indirect & induced developments in the context of water flow, water availability and water quality, considering human activities and natural environmental and social external drivers on the chosen VECsover time, and (b) proposing concrete measures to avoid, reduce, or mitigate such cumulative impacts and risk to the extent possible in the influence area (10 km) on both sides of the NW-1. The influence area considered for study of the impact is based on multi dimension criteria and same is used for carrying out the EIA study of the project. At first Cumulative opinions of various stakeholders which are directly & indirectly impacted due to proposed development, and extensive review of the consolidated EIA report & basin critical resources study of the proposed project has been carried out to identify the VECs. Further, overlay mapping and GIS have been extensive used for identifying the spatial distribution of VECs. Also indicators have been identified which can determine status/conditions of VECs. Baseline study has been conducted to assess the existing condition or status of the identified VECs based on these 7 VECs are environmental and social attributes that are considered to be important in assessing risks; they may be: • physical features, habitats, wildlife populations (e.g., biodiversity), • ecosystem services, • natural processes (e.g., water and nut rient cycles, microclimate), • social conditions (e.g., health, economics), or • cultural aspects (e.g., traditional spiritual cer emonies). Critical Environmental Resource (CER) and Valued Environmental Components (VEC) are technically same referring to various key environmental resource or component like natural habitat. Critical Environment Resource word is used for Basin Level study as per terms of reference of these studies. However, for EIA studies VEC word is used. xl Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 indicators in the influence area. Further VECs under stress have been identified and are termed as hotspots. Also nature of the impacts due to proposed/planned & anticipated development on these hotspots has been assessed. It has been found that cumulative impacts due to proposed development of NW-1 on the hotspots will not be significant. Further, impacts triggered due to induced & indirect development can be mitigated & monitored due to construction & operation stage of the project. 10.5.1 Cumulative Impact Assessment Vs Environmental Impact Assessment: Difference& Utility CIA and EIA shares the same basic framework and analytical process for impact assessment but still the perspectives are different. EIA can be termed as project centred and CIA is always VECs centred. The CIA is prepared following preparation of Basin Level Critical Resource Study6 and takes into account the overall project perspective. The CIA is focused on existing condition of VECs which may be changed due to intervention of project and the other simultaneous developments taking place in the influence area.Theecological and social impacts are determined considering, past, present, and natural drivers that effects the VECs in the influence area. The assessment reflects the geographical and temporal context in which the effectis aggregating and interacting with river landscape, catchment area, town, etc8. The CIA provides the strategic consideration for project design and intervention proposed and environmental assessment to be undertaken for the Jal Marg Vikas Project. The influence area consideration for respective intervention is also derived based on CIA outcome. The focus of EIA has been on impacts assessment of specific intervention or activity on the VECs.The EIA is undertaken following CIA preparation and considering outcome of CIA such as influence area recommendations for EIA studies.In EIA study specific mitigation measures are proposed to avoid, minimize or eliminate them.Environmental Management Plan is also prepared in EIA for each intervention for effective implementation of identified mitigation measures. 11.0 Environmental Management Plan The Environmental Management Plan (EMP) is a plan of actions for avoidance, mitigation and management of the negative impacts of the project and enhancement of positive impacts. The detailed intervention and activity specific plans for Maintenance dredging, barge operations, civil interventions are given at Chapter 6 in EIA Report. EMP includes the environmental monitoring plan (specifying the parameters, frequency and responsibilities of monitoring), institutional framework, reporting requirements, auditing requirements, training awareness and capacity building programme, grievance redress mechanism and environmental budget. Consolidated EIA provides institutional mechanism, budgetary provisions and other systems and plans which are commonly applicable to all intervention and operations of NW-1. The EMPs prepared for dredging and barge operations are commonly applicable to the terminal development and operation and other intervention sites. Consolidated EIA also provide generic EMP for the interventions such as Ro-Ro Jetties, embankment protection. Additionally, standalone EMPs prepared based on 8 IFC Good Practice Handbook for Cumulative Impact Assessment and Management: Guidance for the Private Sector in Emerging Markets xli Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 site specific terminal developments at Varanasi, Sahibganj and Haldia and Navigational Lock at Farakka. These standalone EMPs are included in additional volumes (4 to 9) to this report. Environment Health & Safety (EHS) Policy and Management System: An effective environmental health and safety policy is essentially to demonstrate top management commitment for environmental protection and occupational health and safety. The policy should be communicated to all stakeholders including workers and should be freely available to them on demand. For effective and systematic implementation of the project, it is desirable that IWAI develops its Environmental and Social management systems which is auditable and effectively enforceable. Parallel can be drawn from the experience of National Highway Authority of India or Delhi Metro Rail Corporation and adopt EHS system on the similar lines. Each contractor should be contractually bound to follow such system and must have EHS management system in line with EA‟s management system. IWAI should also develop its standard technical guidelines for Environmental Assessment, Management and Reporting. Training and awareness will be an essential component of the EMPand EHS management system. It should include use of posters, bill boards/glow boards around project site and barge NW-1 alignment in Hindi, English & Regional language so as it can be understood by the workforce and community as well. Some of the important days‟celebrations such as Environment Day (June 5), Red Cross Month (March), Emergency Preparedness Week (May 1-7), National safety day (4th April), National Health Day (7th April), Fire safety day (14th April), 20th April (Earth day) can be planned for spreading the awareness for Environment Protection, Cleanliness and safety among work force and community through campaigning. Emergency Response and Preparedness Plan and Contingency Response Plan: Risks and hazards are associated with every construction site as it involves usage of heavy machinery and equipment. Similarly, risks are also associated with the operation phase are listed below: Vessel Accidents and spillage of commodities (especially oil) Leakage or spillage of oil from ships and barges at terminal/jetty Drowning in River during material handling and vessel movement Hazard to Fishing vessels/gears It is proposed that IWAI must equipped itself with guidelines and equipment for handling the emergencies. PMU should evolve its environmental, Occupational health and safety guidelines and performance protocol. Budgetary provision has been made under environmental budget. The same should be developed with the help of reputed institutions and organisation of repute. It should also follow the system of emergency response and suggested emergency response and management plan is included in the report. Responsible Carrier Programme of IWAI9: It is proposed that IWAI develops Indian Waterways Operations Responsible Carrier Programme which should be developed as part of its EHS ManagementSystemsand Emergency Response Plan and 9 Reference is drawn to the successful similar programme of American Waterways Organisation‟s Responsible Carrier Programme. http://www.americanwaterways.com/rcp-2016. xlii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Protocols Development. The programme should have the following components as well: Protocol for speed control, monitoring, and vessel tracking Protocol of waste management for barge operations and terminals management. (including zero discharges and waste disposal to river by barges and terminals. This protocol should also define about waste handling facilities at barges and waste disposal facilities at terminals for maintain zero discharge concept. Biodiversity protection including accident reporting with Aquatic mammals (dolphin) Oil spills reporting and control and remediation Near-miss reporting/lessons learned and corrective actions program Risk assessment procedures to assess and manage risks to personnel, vessels and the environment Identification of critical or essential equipment/systems Authority of the master, crew and shore side personnel Addition of document control procedures Tracking of number and volume of spills in performance measurement requirements Internal and external audit procedures and frequency Institutional Framework of IWAI: IWAI has set up a project management unit which is staffed with Environmental and Social specialists. These specialists would work as an environment and social cell (ESC) within PMU. It is proposed that each field unit will have one designated officer responsible for environment and social aspects who will also coordinate with ESC. The responsibility of ESC will be (i) development of mechanism to ensure implementation of suggestive management plans and to integrate this at policy level so as the measures can be made mandate to be followed during respective project stage (ii) to review, monitor and inspect implementation of the EMP during design, construction and operation stages; (iv) implementation of the environmental capacity building and awareness programme; (v) coordinating with field units(iv) Reviewing and ensuring effective implementation of EMP and regulatory compliance by contractor, and IWAI and (v) managing the environmental reporting, and audit process. Contractor will be responsible for implementation of Environmental Management Plan and ensuring health and safety of the construction workers at site during pre-construction & construction phase of the project Environment & Safety Compliance and Monitoring Responsibility: Project design and implementationstage: The respective contractors should be liable for implementation of suggestive EMPs and IWAI will be responsible to monitor the contractor‟s performance and adequacy of implementation of EMPs directly or through third party (PMC). Environment & Safety Compliance and Monitoring Responsibility: During Operation Phase and Emergency Situations e: IWAI should be solely responsible for implementation of the EMP and emergency response. IWAI should be liable to ensure that suggestive mitigation measures are taken up by the shippers, dredgers and other stakeholders in time and adequately. IWAI should develop the mechanism so as to ensure the adherence and compliance of the EMP. It is proposed that IWAI xliii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 will have dedicated department adequately staffed and equipped with speed monitoring, vessel positioning, and emergency response equipment like oil spills control and remediation systems. IWAI may also adopt mechanism of involving Barge operators on the line of Responsible Carrier Programme of Americans Waterways Operators. Reporting Requirements: Contractor would be required to submit monthly and six monthly reports containing the status of environment, health & safety at site to PMC (Project management consultant) & PMU of IWAI. PMC will be responsible for construction supervision and ensuring effective implementation of EMP by the contractor. PMC should report to PMU monthly about the performance and effectiveness of the EMP implemented by contractor on site and coordinate with filed units and PMU for necessary corrective actions as may be required. IWAI will also organise an independent Environment Audit which will be submitted to Bank within 3 months of completion of the second and fourth year of implementation period. Training & Capacity Building Programme: IWAI has already taken actions to augment the capacity of project management unit (PMU). A capacity building and training programme has been prepared which includes training of staff of Environmental and Social cell of PMU, contractor‟s staff (labours & engineers), PMC staff and IWAI staff on environmental management, regulatory compliance and safety aspects. Environmental Budget: Adequate environmental budget provision has been made for the implementation of the EMP. The EMP budget is proposed for environmental management for each of the proposed activity under the project. The overall budget is INR 49.91 Crore. Summary of environmental budget is given in Table 6. Detailed environmental budget component wise for civil interventions is given in the respective EIA reports. Lump sum budget for each of the planned civil intervention area planned is given below in Table 7 below. For detailed budget of each component the individual EIAs prepared for each of the proposed civil intervention can be referred. Table 6: Summary of Environmental Budget for NW-1 (Indicative) S.No. Description Amount 1. DESIGN AND CONSTRUCTION STAGE Rs in INR Technical Support of preparation of guidelines, bio-diversity conservation 90,00,000 plan for turtle and dolphin sanctuary and performance indicators Compensatory tree plantation (7000 trees) including after care and 15000000 monitoring Additional tree plantation for GHG sink (18000) including after care and monitoring Measures to Reduce GHGs by Green buildings certification & additional 90,00,000 tree plantation under plantation head Storm-water and wastewater management/ Construction of soak pits/ clean 44000000 drinking & domestic water facility/ STP construction, Zero Discharge management Provision of trainings and PPE to workers 1,72,00,000 Health check-up camps for construction workers 3,20,00,000 xliv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S.No. Description Amount Enhancement Measures 12,60,00,000 Institutional Support for Vikramshila Wild Life Sanctuary through reputed institutions Support Fish productivity enhancement through fish nursery development and training fishermen Bath shelter for women along NW-1 for maintaining privacy from vessel movement Support for cleanliness at Ghats and improvement of Ghats Environmental Monitoring in the construction phase: Terrestrial and Aquatic 58080000 Fauna, Ambient Air Quality, Surface Water Quality, Drinking Water Quality, Noise & Vibration, Soil Quality, Erosion & Siltation and River Bed Sediment Drainage Congestion and disposal of accumulated water/ Erosion & Covered in Sedimentation/ Reduction in dredging requirement project design Land/ Soil/ Noise/ Air Quality -Dust Management during construction and engineering Appointment of Safety Officers, Safety signage, fire-fighting measures & cost water ambulance etc. SUB TOTAL (Design & Construction stage) 310280000 2. OPERATION STAGE Monitoring of performance indicators viz. Terrestrial and Aquatic Fauna 59040000 including surveillance audit, Ambient Air Quality, Surface Water Quality, Ground Water /Drinking Water Quality, Noise & Vibration, Soil Quality, River Bed Sediments, Soil Erosion & Siltation, Integrity of embankments Emergency Preparedness: Accident Response: Ambulance equipped with 6,79,00,000 requisite emergency medical aid facility, First Aid Facility, Fire-fighting Equipment, Safety Trainings, Mock Drills etc. Waste Water Management (STP Operation, rainwater harvesting 2,16,00000 management and maintenance) Storm Water Management System & Waste Management System, Erosion To be part of OM Control and landscaping, Reduction in GHGs cost SUB TOTAL (Operation stage) 1,48,540,000 Or say 14.85 Cr 3. ESTABLISHMENT & TRAINING and MANAGEMENT SYSTEM) 1,65,00,000 4. SUB TOTAL (Construction + Operation + Establishment) 47,53,20,000 Or say 47.53 Cr 5. CONTINGENCIES @ 5 % on total Environmental Costs 2,37,66,000 2.38 Cr 6. GRAND TOTAL (in Rs) 499086000 Or say 49.91 Cr Or say US$ 7.34 Mn (1US$= INR 68) Table 7: Environmental Budget of Planned Civil Interventions Civil Intervention Amount (Rs in INR)-Crores Varanasi Terminal 0.10029 Farakka Lock 1.37466 xlv Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Haldia Terminal 1.20246 Sahibganj Terminal 1.64136 12.0 Conclusion & Recommendations The development of project “Jal Marg Vikas” is beneficial for the economic development of country and environment due to expected model shift of cargo movement from rail and road to IWT. With the effective implementation of the proposed mitigation measures and environment management plan, anticipated negative impacts of project can be minimised and benefits further enhanced. The project will overall bring development in the area. It is recommended that IWAI should provide desired resources for implementation of EMPs and ensure that EMPS are effectively implemented. It must institutionalize the system of period monitoring against the defined performance indicators and establish the system of half yearly reporting. It should also develop its own EHS guidelines and protocols for managing all the projects uniformly from environment health and safety prospective. System should be self-responding in nature for initiating timely corrective and preventive action if any required for the protection of environment. Adequate training should be imparted as proposed under environmental management plan to enhance the capability of concerned EA officials. Awareness programme for contractor and workers should also be organised for effective implementation of EMP. IWAI should adopt the measures for reduction of dredging. Dredging management plan including compliance to defined restriction for dredging and disposal of dredged material close to cultural and aquatic sensitive locations should be followed. It should adopt the concept of green building and energy efficient terminals. The GRIHA guidelines should be adopted for terminal design. All terminals should be designed with zero waste discharge concept to prevent pollution to river Ganga. Similarly, all barges should have integration of zero pollution concept. Each barge should be inspected by IWAI for compliance of these requirements before allowing its operation in NW-1. All consequent waste from the vessels should be managed at terminals and barge maintenance facilities. All possible measures should be adopted for GHG emission reduction including exploring the feasibility of fuel switch to LNG operated vessels. It should take all measures for conservation of aquatic sanctuaries including reduction of impact on aquatic fauna. All possible efforts should be made to minimize the impact considering the findings of CIA, Critical Resource Basin Study, Consolidated EIA Study and proposed conservation studies. IWAI should facilitate development of conservation plan for Dolphin, Turtle and sensitive species in NW-1 with the help of reputed institutions. IWAI should develop all facilities for handling emergencies as part of emergency response plan. IWAI should develop Indian Waterways Operations Responsible Carrier Programme on the line of American Waterways Operators Responsible Carrier Programme for accident and pollution free waterways operations xlvi Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 The EIA was carried out while the feasibility study was being prepared and initial finding of DPR preparation stage. Therefore, the detailed engineering design was not available. In this regard, any major changes during detailed design, or any major additional work other than the proposed project activities will require updating this environmental assessment. Also it may have to be sent to World Bank for concurrence before works commence. xlvii Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 CHAPTER 1. INTRODUCTION 1.1. Project Background Cargo movement through waterway is considered cheapest mode of transportation internationally. However, cargo movement is very low in India compared to the international scenario. To augment the capacity of waterways transportation in India, Govt. of India has constituted Inland Waterways Authority of India (IWAI)through IWAI Act in 1985. Since then IWAI, with the empowerment under above mentioned Act, has identified potential waterways and has further undertaken the task to develop, maintain and regulate the waterways for navigation. IWAI has also declared following five waterways as the national priority: • NW-1 -The Ganga (Haldia to Allahabad-1620 km) • NW-2- The Brahmaputra (Dhubri to Sadiya-891 km) • NW-3 The West Coast Canal (Kottampuram to Kollam with Udyogmandal and Champakara canals- 205 km) • NW-4- The Kakinda-Puducherry stretch of Canals with Godavari & Krishna Rivers (1078 km) • NW-5-The East Coast Canal with Brahami Rivet and Mahanadi Delta (588 km) Amongst the above five waterways, the national waterways on Ganga (NW-1 between Haldia to Allahabad) is the longest waterway (1620 km) and is of prime importance considering its locational advantages. IWAI since long has been maintaining the least available depth (LAD) of 3m between Haldia and Farakka (560km), 2.5m in Farakka – Barh (400km), 2m between Barh – Ghazipur (290km) and 1.2 to 1.5m in Ghazipur – Allahabad (370km). Even currently this waterway (NW-1) is being used for various cargo movements, as well as tourists. Already good amount of cargo movement is taking place between Haldia and Farakka (e.g. 3 million metric tonne of imported coal from Haldia to NTPC plant is being transported since October 2013 through 20 barges of 2000 dwt capacity each). Considering such a large potential and demands, IWAI has initiated the project of “Capacity Augmentation of National Waterway-1” between Haldia and Allahabad named as “Jal Marg Vikas Project”. The capacity building of this magnitude under this project warrant‟s number of additional infrastructural components (such as construction of terminals for cargo handlings, provision of navigation aids, river information systems) which are required to be developed in a phased manner. The locational overview of NW-1 is shown at Figure 1.1. 1 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Figure 1.1 : Location Map of NW-1 1.2. Need of Jal Marg Vikas Project – NW-1 Inland waterways transport (IWT) is a competitive alternative to road and rail transport, offering an economical, sustainable and environment friendly mode in terms of energy consumption, noise and greenhouse gas emissions. Infrastructure requirements of IWT in comparison to road and rail transport are also relatively low, although certain investments are essential such as in port/terminal facilities, connecting road/rail infrastructure, navigation aid and dredging facilities etc. While cargo movement through other modes of transportation are often confronted with congestion and capacity problems, IWT offers a relatively congestion free and reliable mode of transport along with availability of unmatched capacity expansion due to its large untapped potential. Till the middle of 20th century, IWT was being used as an important mode of transport in various parts of India but gradually it got confined to unorganized sector except in few states namely Goa, Assam, West Bengal, Kerala and Maharashtra primarily due to focus shift in transportation through rail and road modes. However, IWT use has shown increasing trend since 2003-2004 and touched 70 Million tonnes mark by 2011-2012 compared to only 32.48 Million tonnes in 2003-2004 which was just 0.34% of total inland cargo movements of about 1000 btkm. IWAI has set the target of increasing IWT share up to 2% of total inland cargo by 2025. The main commodities carried by IWT (which are also true with NW-1) include building materials (34%), metals\ores (19%) and coal\coke (17%). On demand side in the case of NW-1 (Allahabad – Haldia) alone, 2 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 there are 9 thermal power plants located along Ganga River stretch within UP & Bihar and 11 more are expected to become operational soon. The total requirement of coal for these power plants alone will be nearly 94.78 million tonnes per year, 21.4 MT of which will have to be imported reflecting the sea connectivity of NW-1. In addition to this, there are 7 fertilizer plants along NW-1. These are also estimated to generate an additional of 0.765 million ton of cargo requirement per year. Further, there is also large prospect of container movements for national as well as international trade. IWT in general and NW-1 in particular would play a very vital role when high quality ports/terminals with waterway connectivity is made available to facilitate the cargo movement in a cost effective and environmental friendly manner catering to the needs of large transportation movements due to enhanced industrial activities as compared to rail and/or road modes. Economic Advantage: The economic advantages of this mode compared to other surface modes have been emphasized by a number of high-powered Committees including the National Transport Policy Committee (NTPC) (GOI, 1980), the Steering Committee on Transport Planning (GOI, 1987) and a number of reports and studies (NCAER, 1974, UNDP, 1993, Rao and Kumar, 1996). Some of these studies also pointed out the potential role of connectivity that this mode could perform besides cargo movements, like providing access and connectivity to far- flung areas and the maintenance of ecological balance. The cost advantages include: Low capital Cost-Cost of development of inland waterways is estimated to be a mere 5-10 percent of the cost of developing an equivalent 4-lane highway or railway. Cost for transportation of cargo through various modes is given in Table 1.1 below in reference to the “Report of the Inter–Ministerial Committee to Identify New Areas of Private Investment in the Inland Waterways Transport (IWT) Sector” Planning Commission, (Transport Division) Table 1.1 : Cost of Transportation Through Different Modes Mode VOC/Freight (Rs/Km) Taxes Total Rs/TKm Railway* 1.36 3.71% 1.41 Highways** 2.50 3.09% 2.58 IWT 1.06 Nil 1.06 Source: Railways-Ministry of Railways, Road-TTSS, IWT-IWAI * Service Tax on rail Transport is 15.0% abatement is 70% **Service Tax on road Transport is 15.0% abatement is 75% Low maintenance cost -Cost of maintenance of inland waterway is about 20 percent of that of roads. Low Operation Costs – This is also least costs mode of transportation. According to Ministry of Railways, the freight costs by IWT are estimated as 1.06 Rs/ tkm compared to 1.41 Rs / tkm by railways and Rs 2.58 Rs/ tkm by highways. Large Cargo Potential – There is large cargo potential generation from areas along and close to NW-1 but the transportation facilities are insufficient. The potential can be judge from few of the following need: 3 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 o NW-1passes through Kolkata which is having connectivity with other states/cities and country through road and railway. Such place offers an appropriate location for development of cargo. Cargo generated at Kolkata or brought in to Kolkata from nearby areas through road/railway can be further transported to other destinations through NW-1 at lower cost o U.P. & Bihar is large agricultural belt and have high potential of producing wheat. This wheat transportation can be undertaken through NW-1 to other parts of the country o There are about 9 existing Thermal Power Plant (TPP) around NW-1 and 15 TPP under construction having total power generation potential of 21820 MW. Total coal requirement of these projects is 94.78 million tons per annum. Out of which imported coal requirement is 21.4 million tons per annum. At present on 3 million MTPA of coal is being transported to Farakka STPS. Coal is transported to these existing TPP through railways and all existing TPPs have their own railway siding. Imported coal is brought at Paradeep and Haldia ports. Further adequate depth is not available at Haldia port so 70% of coal is received at Paradeep port only. From these ports, coal is transported to destined locations through railways. However due to constrain capacity of railways, these power plants regularly face shortage. Pressure on railways will further increase after development of the 15 more TPP. NW-1 thus will serve as mode for transportation of coal to above listed TPPs will reduce burden on railways and reduce the gap in demand and supply of the coal. o Jharkhand is one of the major coal producing state of India and is endowed with app. 80 billion tons of coal of all categories. App. 70 MT of coal is transported to various part of the country from Jharkhand. Coal transportation from Jharkhand can be taken through NW-1 through destined locations o TPPs located around NW-1 will generate fly-ash which serves as raw material for cement plants and road construction. Fly-ash thus can be transported through NW-1. Assuming 25% of ash content in coal, it is estimated app. 24 million tone of fly-ash will be generated per annum. o Large quantity of cargo of construction material, fertilizers, coal, minerals and chemicals, project cargo, food & food stuff, containers and vehicles are transported across NW-1 through road & railway. These commodities if transported through NW-1 can significantly cut down the emissions and transportation cost. o Planning of IFFCO to use NW-1 for transportation of fertilizers produced at Paradeep plant to U.P. & Bihar Environmental Need: Potential for Fuel Efficiency and GHG Emission: As per an estimate, 1 horse power can carry 4,000-kilogram load in water compared to 150 kilograms and 500-kilogram load by road and rail respectively. In one study10 it is estimated that 1 litre of fuel can move 105 ton-km by inland water transport whereas the 10 As per German Federal Waterways and Shipping Administration, Error! Hyperlink reference not valid. 4 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 same amount of fuel can move only 85 ton-km by rail and 24 ton-km by road. By air, it is even less. Similarly, if we compare transportation of liquid cargo, the water transport can carry up to 827 Km (514 Miles) in one gallon of fuel against 95 KM (59 miles) and 523 Km (202 Miles) by road and rail transport11 respectively. The higher energy efficiency of IWT compared to road haulage contributes to less fossil fuel consumption and therefore to less emission of CO2, NOx, SOX and PM. In cases where IWT can provide alternatives for road haulage operations it can contribute to a reduction of polluting matters. The only disadvantage to IWT may be due to associated environmental impacts on aquatic life but the same is manageable with appropriate mitigation measures. Similar to NW-1, IWAI has declared other river systems as national waterways. IWAI has planned to interlink these waterways so as to facilitate transportation of material from one waterway to another. However, all the waterways declared cannot be linked but as per study of RITES, it is possible to link four waterways out of 6 declared waterways. NW-1 can be connected to NW-2 and NW-6 using protocol route through Bangladesh. Similarly, NW5 that extends up to Paradeep Port can also be joined in the National Waterway grid through backwaters of Hooghly and Hijily tidal canal. Connectivity would further increase the area of influence of each designated waterway system. Proposed National Waterways Grid involves overall rivers length of 3220 km (excluding Indo- Bangladesh Protocol Route). Grid is likely to serves 11 states namely; Uttar Pradesh, Bihar, Jharkhand, West Bengal, Assam, Meghalaya, Arunachal Pradesh, Tripura, Mizoram, Manipur and Odisha serving 108 civil districts. Interlinking of waterways and formation of grids is however not component of this project but a proper navigable waterway is requirement for execution of such large programme. Water way development programme onNW-1 named as “Jal Marg Vikas Project” will help in execution of national waterway grid formation project. 1.3. Overview of NW-1 IWAI under Jal Marg Vikas Project – NW-1 proposes to improve the capacity of entire stretch and continue to maintain the waterways of entire stretch between Haldia to Allahabad. However, considering the available LAD and cargo demand scenario, IWAI is focusing on the stretch between Haldia to Varanasi at present. The capacity augmentation project primarily proposes development of the following infrastructural facilities: Construction of terminals of appropriate cargo handling capacity and Equipment for facilitating integration with other modes of transportation. Three terminal sites and 11 Tennessee Tombigbee Waterway, http://business.tenntom.org/why-use-the-waterway/shipping- comparisons 5 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 one lock site have already been identified namely terminals at Haldia, Sahibganj& Varanasi and new lock site at Farakka. Kalughat and Ghazipur are identified potential sites for terminal development. One more site is to be finalized for development of terminal, currently Tribeni is under consideration. Provision of all types of navigation aids for day and night navigation. River information system with all hardware and software Provision of RO-RO Jetties Provision for bank protection / slope protection Provision of river training works for critical locations Provision for tow barges, inland vessels, survey vessels including rescue boats and survey equipment Dredging facilities for maintenance of waterways Barge Maintenance & Repair Facilities Some of the above facilities are finalised and some are in the process of identification and design. 1.4. Objective of EIA study The implementation and development infrastructure facilities as mentioned above under this project will cause various associated environmental & social impacts. The objective of this study primarily focuses on identification, assessment and quantification of the all significant impacts and their mitigation to bring them within acceptable threshold associated with all stages of project implementation namely- design, construction and operation phases of project implementation in accordance with World Bank Operational Policies, IFC Guidelines and related Guidelines published by MOEF&CC. The likely impacts are first identified for all project implementation activities with respect to physio- chemical, ecological and social environments. Institutional mechanism is also proposed to make the implementation effective to ensure that there are no significant impacts left by incorporating the requisite EMP and EMoP. Attempts have been made to identify impacts for potential activities and measures suggested to be incorporated in the design as feasible. These measures will be further updated once design aspects are fully finalised. 1.5. Extent and Limitation of EIA Study The Environmental Assessment was done in tandem with the preparation of Feasibility Report of the proposed project design. Design details and detailed layout plans of various proposed infrastructural facilities and civil interventions associated with NW-1 implementation are not yet finalized for all the components. Therefore, the EIA is based on up-to-date project details provided by the engineering consultant during the preparation of the report12, primary field investigations / assessment, secondary data collated from different Gov. Departments (centre as well as of four states as UP, Bihar, 12 The engineering details may change at detailed project report preparation stage. In the situation of change of the design, the EIA and EMP reports will be updated accordingly. 6 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Jharkhand and W. Bengal). The secondary data/information was collated from agencies such as Inland Waterways Authority of India, State Pollution Control Board, Indian Meteorological Department, Public Works Department, Public Health & Engineering Department, District Collectorate, Irrigation Department, Statistic Department, District Fisheries Department, Mining Department, Ganga Pump Canal Nahar Pariyojna Office, Forest Department, published journals\books besides various local bodies. Summary table of secondary data sources concerning different aspects is tabled in the end of this chapter. Inputs from the extensive public consultation (as described in the report) were also taken into consideration. Professional judgement and subjective interpretation of facts and observations has been applied for the preparation of the EIA Report, since the entire project is under various stages of development. As the project is under design phase thus the figures presented for planned and proposed facilities are tentative and are subject to change with the changes proposed to be undertaken by Design Consultant of the project 1.6. EIA Contents The EIA report is presented in different volumes: Main Volume: Environmental Assessment Sub Volumes: Description of Environment, annexures to Main Volume, EMP Framework for future interventions. Additional volumes: EMPs for various activities and already planned interventions Main Volume on Environmental Assessmenthas 7chapters following this introduction chapter Chapter 1: Introduction: This chapter describes project framework, objective and background including the need of the project. Chapter 2: Policy, Legal and Administrative Framework: This chapter deals with the identification & listing of applicable legislations and applicable administrative framework. It also provides screening of applicable operational policies of World Bank and other international practices and guidelines. Chapter 3: Description of Project: This chapter describes the various project components incorporated in the overall project framework. It also provides details the alternatives analysed before final selection of the most appropriate option having minimal environmental and social impact implications. Chapter 4: Anticipated Environmental Impacts and Mitigation Measures: This chapter presents summary environmental baseline condition and linked identification with magnitude of anticipated potential impact for each environmental and cultural resource. For each potential impact the mitigation measures are delineated in order to mitigate the impacts up to the threshold of acceptable residual levels. Chapter 5: Environmental Management Plan and Grievances Redress Mechanism: This chapter provide the details on the management plans and the institutional mechanism required along with resources required for effective implementation of the proposed mitigation measures and the monitoring framework essential during 7 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 construction as well as operation period. It also highlights the institutional mechanism as well as capacity building needs for the implementation. Chapter 6: Information Disclosure, Consultation, and Participation: This chapter highlights the process followed for the public consultation carried out with the various stakeholders namely public, NGO, Government bodies, prominent local bodies upfront of the project implementation initiatives. It also highlights the information generated during this process for incorporating in the final version of the report Chapter 7: Conclusions and Recommendations: This chapter provide the summary of findings and concluding remarks. Sub Volume on Description of Environment (Environmental profile and baseline of the project and influence area): Thisvolume provides background information based on primary and secondary information for physical, biological, social and cultural resources of project and influence areas. Sub Volumeon Framework for Future Intervention:It provides framework of activities and TOR for different intervention to be undertaken in future. AdditionalVolumes: EMPs: These volumesprovide EMPs for terminals already planned, navigation lock, dredging, barge operations. 1.7. Methodology This project is classified as Category „A‟ operations under the world bank environmental screening procedures specified under its operation policy 4.01. The project triggers 6 of the World Bank safeguard policy13 and requires comprehensive environmental assessment. The detailed environmental impact assessment study has been undertaken for all the proposed components to identify the environmental and social issues associated with the project. The environmental impact assessment was carried out by a consortium led by EQMS India Pvt. Ltd. in line with World Bank Operational Policies, IFC EHS Guidelines for Ports, Harbours and Terminals, IFC General guidelines for EHS, MoEF&CC EIA Guidelines for Ports and Harbours, findings of CIA and Standalone EIA studies carried out for civil interventions. Initially a basin level critical environmental resource study was carried out to identify “NOGO” and “Restricted areas”. Input of this study was used for this environmental assessment and specially designing baseline monitoring network and preparation of environment management plans. The EIA study was carried out using recommendations and findings of CIA and individual EIA studies for civil interventions, reconnaissance survey, review of previous studies, field visits, consultation with stakeholders & NGOs, review of existing data and primary data collection. The methodology was evolved in line with the CIA study, considering the defined terms of reference of IWAI for the study and IFC EHS guidelines for general industries and for ports, harbours and terminals. Extensive use of geographic information system is made to analyse the land use, drainage pattern, elevation profile 13 The world bank safeguard policies triggered are environmental assessment (OP/BP 4.01), Natural Habitats (OP/BP 4.04), Forests (OP/BP 4.36), Involuntary resettlement (OP/BP 4.12), Physical Cultural Resources (OP/BP 4.11) and Project on International Waterways (OP/BP 7.5) 8 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 and identify the environmental features of the influence area. Topo-sheets as available and Google maps were used for the above. Since it is having strong interface with aquatic ecology, larger emphasis was given for primary data collection with regard to zooplanktons, phytoplankton, fishes and aquatic fauna. Establish sampling, and observation techniques were applied for this assessment. The scope of the EIA extends well beyond the vicinity of the NW-1. The area considered for collection of data and assessment of impacts is termed as influence area for this study purpose. Influence area considered for this project is 500 m, 2 km and 10 kms in line with the CIA study recommendationsand EIA study carried out for each civil intervention. The influence area was assessed based on different project activities on different VECs. Criteria for demarcation of the influence area is discussed in detail in CIA report and is briefed in Chapter 4 of this report also. Details of the parameters studied in each zone is given below 500 m radius: All the parameters of environmental, socio-economy and cultural importance are studied within this zone. 2 km radius: All the parameters of environmental, socio-economy and cultural importance are studied within this zone also. 10 km radius: Parameters studied under this zone include environmental sensitive locations as notified by GoI, land use change, socio-economy, and geology, seismicity& drainage pattern. Since project is based on river, alternative analysis is undertaken for with and without project, technological aspects and sitting of interventions. Alternate analysis of the sites has been undertaken for selection of sites and infrastructure like roads, railway etc. for proposed interventions under this project. Analysis was carried out considering physical, biological and socio-economic impacts and technical and financial feasibility. Analysis of alternatives has also been considered at planning level of each proposed intervention. The established practices (like trend analysis, expert assessment, stakeholders‟ perception and concerns, resource availability) were followed to identify potential impact associated with the proposed project activities. Appropriate tools and techniques (like use of Air Quality and Noise prediction models) were used to identify and predict the magnitude of the impacts. Suitable mitigation measures are suggested based on the intensity of the impacts identified for offshore and onshore activities both. The Environmental Management and Monitoring plan with institutional requirements is also prepared to ensure effective implementation of the mitigation measures proposed. As per EIA Notification, 2006 as amended at present, the project components like development of terminals & jetties does not requires environment clearance. However, environment clearance may be required for the activities like borrowing of earth which should be taken by the respective contractor. Additionally, NOC/Permissions are required to be obtained by IWAI/Contractor for specific activities like setting up Hot Mix Plant, DG Sets, STP from respective agencies as indicated under legal and administrative framework. Each permission will have associated conditions which need to be complied by contractors / IWAI and same will be monitored by the permission granting agencies like State Pollution Control Boards (SPCBs). None of these 9 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 permissions require detailed environmental impact assessment however, findings of this EIA and proposed mitigation measures would be useful in obtaining these permissions. 1.8. Data Collection The objective of data collection was to provide a database of existing conditions, to be used for predicting the likely changes that are expected and for monitoring such changes. The first step was to undertake a project scoping exercise, identify the parameters to be considered, and outline the activities for collecting data on identified parameters. Sources of data were identified. Relevant available data pertaining to physical, biological (terrestrial and aquatic), and socio-economic aspects of the environment was collected from various secondary sources supported by primary data collection. Primary data was also collected with focus on sensitive receptors like religious places, habitat areas, noise, air quality, water quality (ground and surface water both), soil, biodiversity (terrestrial and aquatic both). The air quality data was collected as per latest National Ambient Air Quality standards. The Ambient air quality monitoring stations were selected over the influence area to get representative data of the area. Similarly, ambient noise level was monitored for day and night near sensitive locations, residential, and project areas. The water quality of surface and ground were monitored in the influence area to get representative water quality information. River bed samples were also tested to assess the contamination level of river bed materials. The primary data was collected between September, 2015 & February, 2016 1.9. Public Consultation Local knowledge about the ecosystem and problems associated with such a development project including sourcing of construction material and men river interface were carefully assessed and used in impact assessment and for developing mitigation plans. Consultations were held focusing on air quality, noise effect, water supply, drainage, aquatic and terrestrial flora and fauna, physical cultural resource of importance, environmental sensitive ecosystems or areas that may be affected by the project. Formal institutional level public consultation and opportunistic informal meetings involving local villagers and those who are likely to be affected due to the proposed projects were organized to determine potential environmental and socio-economic impacts. Interactions were also made with NGOs and concerned government officials. Consultation was carried out in two stage: Stage I during EIA report Preparation and stage II post EIA report preparation. A detailed description of the public consultation is presented in Chapter 6. 1.10. Cumulative Impact Assessment CIA is one of several tools to consider as part of an overall process of environmental and social risk assessment and management. Scope of the CIA both temporally and spatially is much larger than the EIA studies and other tools for environment and social assessment. CIA not only captures the project induced impacts but also consider the 10 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 status of the already impacted CERs or VECs14, communities and considers the existing, proposed, planned and anticipated developments which may come in the influence (impact) area of the project so as the impacts of not only the project but these other developments can also be assesses cumulatively. CIA study carried out for the project in similar way. Difference between the CIA study and the EIA studies is elaborated in the separate section below. Cumulative Impact Assessment (CIA) of NW-1 from Allahabad to Farakka has been carried out for (a) analysing the potential impacts and risks of proposed, indirect & induced developments in the context of water flow, water availability and water quality, considering human activities and natural environmental and social external drivers on the chosen Valued Environmental Components (VECs) over time, and (b) proposing concrete measures to avoid, reduce, or mitigate such cumulative impacts and risk to the extent possible in the influence area on both sides of the NW-1. The influence area considered for study of the impact is based on multi dimension criteria and same is used for carrying out the EIA study of the project. At first Cumulative opinions of various stakeholders which are directly & indirectly impacted due to proposed development, and extensive review of the consolidated EIA report & basin level critical resources study of the proposed project has been carried out to identify the VECs. Further, overlay mapping and GIS have been extensive used for identifying the spatial distribution of VECs. Also indicators have been identified which can determine conditions of VECs. Baseline study has been conducted to assess the existing condition or status of the identified VECs based on these indicators in the influence area. Further VECs under stress have been identified and are termed as hotspots. Also nature of the impacts due to proposed/planned & anticipated development on these hotspots has been assessed. It has been found that cumulative impacts due to proposed development of NW-1 on the hotspots will not be significant. Further, impacts triggered due to induced & indirect development can be mitigated & monitored due to construction & operation stage of the project. Some of the mitigation measures proposed under the CIA includes additional tree plantation particularly to the area prone to erosion in the catchment area of the river, control of noise and vibration for the development of the railways (EDFC), promotion of bio-pesticides and organic manure to reduce the use of chemical pesticides and resultant reduction in river pollution from the run off from the agriculture field, promotion of electric crematorium to prevent pollution from the wood burning in the crematoriums located on the river banks. The agency involved includes urban local bodies, DFCCIL, industrial development agencies, water resource departments and irrigation department. It is also proposed for IWAI to take initiative for creating awareness and bringing these departments on board for promotion of these measures through established administrative process. 1.10.1. Cumulative Impact Assessment Vs Environmental Impact Assessment: difference and utility 14 Critical Environmental Resource (CER) and Valued Environmental Components (VEC) are technically same reffering to various key environmental resourceor component like natural habitat. Critiacl Environment Resouce word is used for Basin Level study as per terms of reference of these studies. However, for EIA studies VEC word is used. 11 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 CIA and EIA shares the same basic framework and analytical process for impact assessment but still the perspectives are different. EIA can be termed as project centred and CIA is always VECs centred. The CIA is prepared following preparation of Basin level Critical Resource Study and takes into account the overall project perspective. The CIA is focused on existing condition of VECs which may be changed due to intervention of project and the other simultaneous developments taking place in the influence area.Theecological and social impacts are determined considering, past, present, and natural drivers that effects the VECs in the influence area. The assessment reflects the geographical and temporal context in which the effectis aggregating and interacting with river landscape, catchment area, town, etc15. The CIA provides the strategic consideration for project design and intervention proposed and environmental assessment to be undertaken for the Jal Marg Vikas Project. The influence area consideration for respective intervention is also derived based on CIA outcome. The focus of EIA has been on impacts assessment of specific intervention or activity on the VECs. The EIA is undertaken following CIA preparation and considering outcome of CIA such as influence area recommendations for EIA studies.In EIA study specific mitigation measures are proposed to avoid, minimize or eliminate them.Environmental Management Plan is also prepared in EIA for each intervention for effective implementation of identified mitigation measures. 1.11. References Secondary data for areas along NW-1 was also referred to authenticate & validate the primary information collected. The list of information sources, nature of data collected, purpose of data use and other reference are presented at Table 1.2. Table 1.2 : Summary of Secondary Data with Sources Source organisation Report/source Name Type of data AAQ Standards CPCB Gazette notification dated BDU Criteria 18.11.2009 on AAQ, Noise Notification, Standards CPCB &MOEF&CC and BDU criteria Noise Standards Water Quality Assessment River Water Quality of NW- Ganga 2013 1 stretch MOEF & CC Endangered Species Brochure, 2009 Endangered Species Climatological Normal 1961-1990 Met Data Indian Meteorological Seismicity and department seismic map and First order seismic micro zonation IMD Cyclone Hazard Prone Map MOEF & CC Jharkhand Wetland Atlas, Prepared by Wetland information 15 IFC Good Practice Handbook for Cumulative Impact Assessment and Management: Guidance for the Private Sector in Emerging Markets 12 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source organisation Report/source Name Type of data Space Applications Centre (ISRO), Ahmedabad and Institute of Environmental Studies & Wetland Management (IESWM), Kolkata) MOEF & CC Information on Wetlands Wetland information Geology, Ground Ground Water Boucher of Project Central Ground Water Board water related Districts information Botanical Survey of India Red Data Book of Indian Plants RET species Zoological Survey of India Red data book on Indian Animal RET species Gland, Switzerland: International Union for Conservation of Nature. IUCN IUCN (International Union for (International Union for Conservation of Conservation of Nature) RET species Nature) 1980.World Conservation 1980 Strategy: Regional strategies for international river basins and seas. Report of the standing sub-committee IWC (International Whaling on small cetaceans. Journal of Cetacean fauna Commission) 2000 Cetacean Research and Management 1 (Supplement), Fish oil as alternative to river dolphin, PlatanistaGangetica(Lebeck) oil for Mohan, R. S. L. and Kunhi, fishing catfish Clupisomagaruain the Oil impact on Aquatic K. V. M. 1996. River Gangetic, India. Journal of the fauna Bombay Natural History Society 93, 86- 88. Selected examples of small cetaceans at risk. Pp. 296-310 in: Conservation and Management of Marine Mammals Gland, Switzerland: (eds. J.R. Twiss, Jr. and R.R. Reeves) Aquatic fauna IUCN.Perrin, W.F. 1999. Smithsonian Institution Press, Washington, DC. NGBRA (Indian Institutes of GRB EMP: Ganga River Basin Technology) Flora& Fauna Environment Management Plan Main Plan Document by Consortium of NGBRA (IIT Consortium) 7 Indian Institute of Technology‟s (IITs) Ganga basin Status of Higher aquatic vertebrates in NGBRA (Indian Institutes of Ganga River (Ganga River Basin Higher aquatic Technology) Management Plan) By Consortium of vertebrates India‟s IIT Institutes Hilsa an assessment of in lower ganga basin (Ganga River Basin Management NGBRA Fish Plan) By Consortium of India‟s IIT Institutes NGBRA Status of fish and fisheries in Ganga Fish 13 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source organisation Report/source Name Type of data (Indian Institutes of River (Ganga River Basin Management Technology) Plan) By Consortium of India‟s IIT Institutes River Ganga at a Glance: Identification NGBRA Waterways quality of Issues and Priority Actions for Restoration Main Plan Document by Consortium of NGBRA (IIT Consortium) Ganga basin 7 Indian Institute of Technology‟s (IITs) Flora Publication of BHU university Flora of BHU Management Plan of Kashi turtle Turtle Kashi Turtle Sanctuary sanctuary India‟s Notified Ecologically Sensitive Areas (ESAs) Kalpavirksha Sensitive ecosystem Conservation and Biomonitoring in the Vikramshila Gangetic Dolphin Chaudhary, S. K., Smith, Sanctuary, Bihar, India. Oryx, 40 (2), B.D., Dye, S., Dye, S. And Dolphin 189-197 Prakash, S. 2006. Entrapment of Indus dolphins (Platanista minor) in irrigation canals: incidence, implications and solutions. International Whaling Commission, Quaritich.Braulik, G. 2000. Dolphin Scientific Committee Document SC/52/SM9, Cambridge, UK. Reproduction and reproductive organs Harison, R. J. 1972. in Platanistaindiand Platanista Dolphin Gangetica. Invest Cetacea. Hua, Y., Zhao, Q., & Zhang Biology and conservation of the river G. 1989.The habitat and dolphins Occasional Paper of the IUCN behaviour of Lipotesvexillifer. Species Survival Commission (No.3., Conservation Dolphin In W. F. Perrin, R. L. Jr. pp. 92-98). Brownell, K. Zhou & J. Liu (Eds.) Heavy metals and organochlorine residues in Gangetic Dolphin from Kannan, K. Sinha, R.K., India. Marine Pollution Bulletin Vol. 26 Heavy metal impact Tanabe, S., Ichihashi, H. and No. 3 pp 159-162 pergamon press U.K. on Dolphin Tatsukawa, R. 1993 Kannan, K., Tanabe, S., and Biodegradation capacity and residue Tatsukawa, R. And Sinha pattern of organochlorines in Gangetic Dolphin toxicology R.K. 1994. Dolphins from India. Toxicological and 14 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source organisation Report/source Name Type of data Environmental Chemistry. Some information on the growth of the Gangetic Dolphin with a comment on Kasuya, T. 1972. the Indus dolphin. The Scientific Morphology of dolphin Reports of the Whales Research Institute Fish oil as alternative to river dolphin, Platanista Gangetica (Lebeck) oil for Mohan, R. S. L. and Kunhi, fishing catfish Clupisomagaruain the Oil impact on Aquatic K. V. M. 1996. River Gangetic, India. Journal of the fauna Bombay Natural History Society 93, 86- 88. KK Vass, S K Mandal, S The Environment and Fishery status of Samanta, V R Suresh and P Fish River Ganges K Katiha, (CIFRI) Phenology and Biodiversity of Riparian Srivastava, P. And M.P. Plant Species of Ganga River Bank at Flora Singh, M.P. (2013) Bharwari (Kaushambi), U.P., India. Indian J.Sci.Res. 4(1) Forest Working Plan of Sahibganj Sahibganj Forest Division Flora and Fauna Forest Division India‟s Notified Ecologically Sensitive Kalpavirksha Areas (ESAs) Sensitive ecosystem The Diversity, Ecology and R.J. Rao Conservation Management of Conservation Biology Lab Freshwater turtles in Ganges River School of Studies in Zoology System Ecology & Turtles Jiwaji University, Gwalior Agriculture Department Agriculture plans Cropping pattern Census of India, Govt. Of Census of India 2011 Census data India Census of India, Govt. Of District Statistics Hand Book & Village Basic Amenities India Profile of the Project Districts Coexistence of fisheries with River Kelkar, N., Krishnamurthy J., Dolphin Conservation. Conservation Choudhary, S., and Sutaria, Biology, Vol. 24 (4): 1130-1140. Dolphin conservation D. 2010. Conservation and Management of river dolphins in Asia. Proceedings of the regional meeting on conservation and management of river dolphins. 26-27 Dolphin WWF-Nepal. 2006 May, Kathmandu, Nepal. 15 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source organisation Report/source Name Type of data Forest Working Plan of Kashi Forest Forest Division Flora and Fauna Division,Farakka Division Initial Assessment of Environmental Effect of Navigation and Infrastructure Project (WG 143-2014) Sustainable waterway within the context of Navigation and Flood Management (WG 107-2009) Climate Change and Navigation (TG3-2008) Dredging Management Practices for the Environment (WG 100-2009) Dredging Material as a Resources (WG 104-2009) Environmental Impact Assessments of Dredging and Disposal Operation (WG 10-2006) Biological Assessment Guidance for Dredged Material (WG 8-2006) Guideline, Standard and Ecological and Engineering Guidelines for Wetland recommendations as Restoration in relation to the Development, Operation and published by Environmental Maintenance of Navigational Infrastructure (WG 7-2003) Committee of PIANC Management of Aquatic Disposal of dredged material (WG 1-1998) Dredged Material Management Guide 1997. Guidelines for sustainable Inland Waterways and Navigation WG 6-2003 Environmental guidelines for aquatic, nearshore and upland confined disposal facilities for contaminated dredged material WG 5-2002 Dredging the environmental facts-where to find what you need to know? PIANC-IADC-WODA brochure-2001 Environmental management framework for ports and related industries WG 4-1999 Dredging: the fact WODA brochure-PIANC-IADC-CEDA- IAPH1999 General Environment Health & Safety Guidelines IFC, World Bank Group Environment Health and Safety Guidelines for Ports, Harbours and terminals Recommendations of the Workshop on Operationalization of NMCG & WWF Dolphin Action Plan 2010 – 2020 Workers‟ accommodation: processes and standards A IFC & EBRD guidance note by IFC and the EBRD 16 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Chapter 2. POLICY, LEGAL AND ADMINISTRATIVE FRAMEWORK 2.1. Introduction India has well defined institutional and legislative framework. The legislation covers all components of environment viz. air, water, soil, terrestrial and aquatic flora and fauna, natural resources, and sensitive habitats. India is also signatory to various international conventions and protocols. The environmental legislations in India are framed to protect the valued/critical environmental components and comply with its commitment to international community under various conventions and protocols. World Bank has also defined its Environmental and Social Safeguard Operational Policies. This assessment is about the applicability of above laws and regulations, conventions, protocols, and safeguards. The applicability of legislation to the navigational channel (waterway) improvement, will be assessed under separate EIA being carried out for waterways and NW-1 as a whole. 2.1.1. Overview of Indian Environmental Legislation and Administrative Framework The Government of India has framed various laws and regulations for protection and conservation of natural environment. The legislations are broadly divided under following categories. Environmental Protection Forests Conservation Wild Life Protection The umbrella legislation under each of above category is highlighted below: The Environment (Protection) Act 1986 was enacted with the objective of providing for the protection and improvement of the environment. It empowers the Central Government to establish authorities charged with the mandate of preventing environmental pollution in all its forms and to tackle specific environmental problems that are peculiar to different parts of the country. Various rules are framed under this Act for grant of environmental clearance for any developmental project, resources conservation and waste management. The Forest Conservation Act 1980 was enacted to help conserve the country's forests. It strictly restricts and regulates the de-reservation of forests or use of forest land for non-forest purposes without the prior approval of Central Government. To this end the Act lays down the pre-requisites for the diversion of forest land for non-forest purposes. Wild Life (Protection) Act 1972 amended 2003 was enacted with the objective of effectively protecting the wild life of this country and to control poaching, smuggling and illegal trade in wildlife and its derivatives. It defines rules for the protection of wild life and ecologically important protected areas. The MoEF&CC and the pollution control boards (CPCB - Central Pollution Control Board and SPCBs - State Pollution Control Boards) together form the regulatory and administrative core of the part. Other Ministries/Statutory Bodies/Departments responsible for ensuring environmental compliance and granting various clearances 17 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 includes state ministry /dept. of environment, regional offices of MoEF&CC and state forests/wildlife departments. 2.1.2. Applicable Environmental Legislation As per the nature of the project, screening has been done to identify the legislations applicable to the project. Legislations applicable to the project are further divided into the legislations framed by Govt. of India and Regulations applicable for vessels plying in inland waterways framed by IWAI and Ministry of Shipping, GoI. Regulations of Govt. of India applicable to the project are given in Table 2.1 and legislations framed for vessels plying in inland waterways by IWAI and Ministry of Shipping, GoI are given in Table 2.2. Table 2.1 : Summary of Environmental and Other Legislation with Applicability Screening Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission Environmental Protection Legislations Environment To protect Considered Not Environment MoEF&CC & IWAI/EPC Protection and Applicable (EIA Clearance SEIAA/SEAC Contractor for Act-1986 improve Notification 2006 does /DEAC/DEIA obtaining and Rules overall not classify A environmental there under environmen terminals/jetties/ floating Construction clearances as including t. Requires terminals on river or stage for EC for applicable. EIA prior dredging in the river as a borrowing earth Notification environmen project requiring as applicable 14th Sep tal environmental EPC contractor 2006 and clearance clearance. The should also be amendment for new, applicability of this responsible for till date modernizati legislation should be re- EMP on and assessed periodically implementation expansion from the concerned and compliance projects authority during NW-1 to environmental listed in project development and clearance schedule 1 implementation stages conditions. of EIA to ensure conformity Notification, with changes in the 2006 regulations if any). Contractor/EPC contractor for EC for borrowing of Borrowing of earth for earth. road construction as may be required, will require prior environment clearance under mining category. 18 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission Air An act to Applicable. Consent to SPCB contractor, (Prevention prevent and The applicability is due Establish (CTE) should obtain and Control control Air to emission from &Consent to CTE & comply its of Pollution) pollution operation of Operate (CTO) conditions for Act, 1981, construction equipment setting up each 1987 like batching plants, hot facility, batching mix plants, DG sets, plant, hot-mix and similarly, during plant, DG set as operation stage backup prior to its power generation, establishment material handling from SPCB related aspects. CTO should be taken by contractor for batching plant, hot-mix plant & quarry site as required prior to operation and it should be renewed before the expiry of permit. EPC contractor should also obtain CTE/CTO for each proposed facility under the project before its handover. Contractor and IWAI should be responsible to comply with the conditions as mentioned in CTO Water An act to Applicable. It is Consent to State CTE should be Prevention prevent and applicable for the Establish Pollution taken by 19 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission and Control control projects having potential &Consent to Control contractor for of Pollution) water to generate effluent Operate Boards disposal of Act, 1974, pollution. during any stage of the sewage and 1988 project. Effluents are construction of expected to be septic tank/soak generated during both pit prior to start the construction and of construction operation phase of the from SPCB. project. Compliance to the conditions mentioned in the CTE should be done by EPC Contractor CTE/CTO for each proposed facility under the project should also be obtained by EPC contractor along with CTE / CTO under Air Act. IWAI should ensure the conditions specified in CTO are complied with Noise Ambient Applicable due to No permits SPCB & EPC contractor Pollution Noise generation of noise issued under CPCB and IWAI to (Regulation Standards during construction and this act ensure and Control for different operation stage. compliance to Act) 2000 areas and Ambient Noise and zones Level Standards. amendment till date Hazardous & Protection Applicable. Project has Authorization SPCB & EPC Contractor Other to general potent to generate for storage and MoEF&CC should obtain Wastes public hazardous waste handling authorization for (Manageme against (Waste Oil) during both hazardous handling, nt and improper construction and waste storage and Transbound handling operation phase. disposal of ary storage and hazardous waste 20 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission Movement) disposal of (Waste Oil) Rules, 2016 hazardous along with waste. The CTE/CTO for air rules and water act. prescribe Also compliance the to the conditions manageme mentioned in nt authorization requiremen should be t of ensured by hazardous contractor and wastes IWAI from its generation to final disposal. MSIHC Usage and Applicable only for No specific Chief EPC contractor Rules, 1989 storage of storage of highly permit is Controller of and IWAI. hazardous inflammable liquids like required, Explosives, Compliance to material HSD/LPG however MoEF&CC the rules should precautions and DC be ensured defined under the material safety datasheets should be followed for use of hazardous substances listed under the schedules attached to this notification if any proposed to be used. Safety audit and other requirements should have to be complied if storage quantity exceeds the regulated threshold limit The Bio To control Applicable No specific Disposal EPC contractor 21 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission Medical storage, Applicable for the permit is through and IWAI. Waste transportati disposal of bio-medical required. Just authorized Compliance to Managemen on and waste from first aid comply with the disposal the rules should t Rules, disposal of centres and handling and agency be ensured 2016 Bio Medical dispensaries disposal Waste. requirements of the rule Applicable Applies to all those Approval waste resulting from Construction required from Local To manage Construction, re- and local authorities, Authorities. EPC contractor the modelling, repair & Demolition if waste Segregation, and IWAI. constructio demolition of any civil Waste generation is management Compliance to n and structure of individual or Managemen >20 tons in a and disposal the rules should demolition organization who t Rules, day or 300 tons of waste as be ensured waste generates construction 2016 per project in per rules. and demolition waste month such as building material, rubble, debris. Not Applicable as IWAI will not fall any of the categories. (Rule applies to every manufacturer, producer, consumer, bulk consumer, collection centres, To manage To obtain dealers, e-retailer, the E-waste authorization refurbisher, but not from SPCB. E-Waste dismantler and recycler covering Filing of return (Manageme involved in lead acid and SPCB Not Applicable nt) Rules, manufacture, sale, batteries maintenance of 2016 transfer, purchase, and radio- records in the collection, active forms given in storage and processing waste the Rules of e-waste or electrical and electronic equipment listed in Schedule I, including their components, consumables, parts and spares which make the product operational) 22 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission No authorization to be obtained. Applicable Plastic Waste EPC contractor To manage Rule applies to every waste management and IWAI. the plastic waste generator, local Managemen and Local bodies Compliance to waste body, Gram Panchayat, t Rules, minimization to the rules should generated manufacturer, Importers 2016 be done. Fee to be ensured and producer. be paid to local bodies, if applicable No specific registration To regulate Applicable The required. the Applicable for disposal EPC contractor Batteries Compulsion to disposal of used lead acid MoEF&CC and IWAI. (Manageme buy and sale and battery if likely to be Compliance to nt and through recycling of used in any equipment the rules should Handling) registered lead acid during construction and be ensured Rules 2001 vendor only. batteries operation stage. Coastal To regulate Considered Applicable CRZ Clearance West Bengal IWAI Zone developme only for Haldia State Coastal (IWAI has Managemen nt activities Terminal. However, it is Zone already started t Act 2011 within the proposed to be Management the process as amended 500m of confirmed from Authority and confirming and high tide concerned WB CZMA) MoEF&CC obtaining CRZ line in clearance for coastal Haldia Terminal). zone and Conditions 100 m of mentioned in the tidal clearance should influence be complied by rivers. the contractor and IWAI during both construction and operation phase of the project Forest Conservation and Wildlife Protection Legislation The Forest To protect Not Applicable. No Forest Forest NOC should be (Conservatio forest by forest land is being Clearance / Department, obtained from n) Act, 1980 restricting diverted. However large Permission for MoEF&CC forest and conversion no. of tree cutting is tree cutting. department prior 23 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission amendments of forested envisaged for which tree cutting. The Forest areas into NOC from forest Compensatory (conservatio non- department as per plantation should n) Rules forested applicable rules of the be carried out as 1981 and areas and state. (it will be required per state forest amendments deforestatio in Up and West Bengal policy. 1:8 is till date n as per current rules of recommended the states for cutting of for thus project. the trees). NOC should be obtained by contractor. All the conditions mentioned in Forest NOC should be complied with Biological Conservati Not Applicable No permit National Not Applicable Diversity on of issued under Biodiversity Act, 2002 biological this Act. Authority and diversity, State sustainable Biodiversity use of its Board component s and fair and equitable sharing of the benefits arising out of the use of biological resources, knowledge and for matters connected therewith or incidental thereto Wild Life To protect Not Applicable as no Wild life Chief Necessary Protection wildlife development is being clearance Conservator permission Act, 1972, through undertaken within the Wildlife, should be 1993 notifying buffer zone of the eco- Wildlife Wing, obtained for National sensitive zone notified Forest virgin movement 24 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission Parks and under this act. Department, of vessel through Sanctuaries MoEF&CC these zone and buffer (Kashi Turtle areas Necessary permission Sanctuary and around should be obtained for Vikramshila these virgin movement of Dolphin zones vessel through these sanctuary). zone (Kashi Turtle Permission Sanctuary should be taken andVikramshila Dolphin for any sanctuary). Permission intervention if should be taken for any planned at any intervention if planned stage within the at any stage within the buffer zone of buffer zone of eco- eco sensitive sensitive zones. zones. No clearance is (IWAI has required under Hilsa already started Sanctuary as it is process of enacted only for fish obtaining productivity permission for enhancement under movement of Fisheries Act and not vessel through under this Act. these sanctuaries have already been started) Compliance to the conditions mentioned in permits should be complied by the IWAI Safety and Other Related Legislations Chemical Requireme Not Applicable. The No permits Central, Not Applicable Accidents nt of project does not involve issued under State & (Emergency preparation handling of any this act District Crisis Planning, of on-site hazardous chemical Group Preparednes and off-site during both construction s and Disaster and operation phase Response) Manageme which may lead to 25 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission Rules, 1996 nt Plans for continuous, intermittent accident- or repeated exposure to prone death, or injury. areas. Public Protection Not Applicable. The No permits Collector of Not applicable Liability and from liability project does not involve issued under the Area Insurance arising due storage of any this act. Owner Act 1991 to chemicals (HSD) of project accidents beyond the threshold should take out from limit during construction insurance handling of and policies hazardous providing for chemicals. contracts of insurance so as he is insured against liability to give relief, before handling any such hazardous material Explosive Safe Not Applicable as no Permission for Chief Not applicable Act 1884 & transportati explosive (as described storage and Controller of Explosive on, storage in act & rules) should be usage of Explosives Rules, 2008 and use of used in the construction explosive explosive and operation stage of material the project. Petroleum Use and Applicable as storage of License to store Chief EPC Contractor / Rules, 2002 Storage of HSD/LPG or any other petroleum Controller of IWAI. Petroleum petroleum product may beyond Explosives/D Compliance to products be required for the prescribed C the rules should project purpose quantity. be ensured Central Motor To Applicable, for all the No permit Motor EPC Contractor Vehicle Act minimize vehicles at site during issued under Vehicle to follow Rules 1988 and the road construction & operation Department for all the 26 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission amendment accidents, phase this Act (Licensing construction penalizing authority, vehicles being the guilty, registration used at site Central Motor provision of authority during Vehicle Rules, 1989 compensati &State construction and on to victim Transport purpose. amendments and family Authorities) till date and check IWAI should vehicular follow the rules air and for all its vehicles noise at site during pollution. operation phase and should also monitor that loading & unloading vehicles also complied these rules Compliance to the rules should be ensured The Gas To regulate Applicable if contractor License to store Chief Contractor. Cylinder the storage store more than the gas cylinder Controller of Rules 2004 of gas / exempted quantity of more than the explosives Compliance to possession gas cylinder. regulated the rules should of gas quantity be ensured cylinder more than the exempted quantity Ancient Conservati Applicable only if any No objection Archaeologic Not applicable Monuments on of intervention is planned certificate al Dept. Gol, as yet as no and cultural and within 300 m of Indian intervention historical Archaeologic archaeological protected Heritage planned within remains 27 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission al Sites and found in sites falling along the Society and 300m of these Remains India. NW-1 Indian sites. However, it Act, 1958 According National should be to this Act, Trust for Art applicable if any area within the radii of and Culture such intervention 100m and Heritage is planned in 300m from (INTACH). future within 300 the m of such “protected resource. Property” are designated as “protected area” and “controlled area” respectively . No developme nt activity (including building, mining, excavating, blasting) is permitted in the “protected area” and developme nt activities likely to damage the protected property is not permitted in the “controlled area” without prior 28 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission permission of the Archaeologi cal Survey of India (ASI). Merchant To prevent Considered Applicable Registration National IWAI should Shipping marine as these cargos are Certificate Shipping ensure that all Act, 1958 pollution also required to register Board the barges plying from ships in India under this act. in the waterways beyond 5 are complying km of the with the rule as coastline applicable and to make the transportati on safe. Guidelines To regulate Applicable if ground No objection Central Contractor/IWAI for extraction water is extracted for certificate ground Water should obtain evaluation of of ground meeting Authority/Boa NOC from proposals/re water for drinking/domestic water rd & CGWA/CGWB quests for drinking needs of employees MoEF&CC prior digging any ground and and visitors at proposed bore well during water domestic facility& vessels construction & abstraction purpose operation phase. for drinking Compliance to and the rules should domestic be ensured by purposes in IWAI and Notified contractor areas and Industry/Infr astructure project proposals in Non-notified 29 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Applicability Type of permit Administrati Responsibility Requireme and stage of ve Authority nt applicability and indicative time frame for grant of permission areas, 2012 Note: applicable social legislations are not listed here as these are covered under SIA and RAP reports being prepared separately. Table 2.2 : Regulations Applicable on Vessels/Barges Plying in Inland Waterways Name Key Requirement Applicability Administrative Authority Prevention of Collision Regard to precautions Applicable for all the vessel IWAI on National required by the ordinary plying in National Waterway Waterways practice of Seamen and Regulations, 2002 limitation of the vessel National Waterways, Ensuring safety of navigation Applicable for all the vessel IWAI Safety of Navigation and shipping on the national plying in National Waterway and Shipping waterways Regulations, 2002 The National Provision for regulation and Applicable for all the vessel IWAI Waterway-1 Act, 1982 development of that river for plying in National Waterway purpose of shipping and navigation on the NW-1 and for the matters connected therewith or incidental thereto New Inland Vessel Economical and safe Applicable for all the vessel IWAI Act, 2015 & Rules transportation through inland plying in National Waterway Under IV Act waters 2.2. International Best Practices & Guidelines 2.2.1. Operational Policies of World Bank The project is being developed with the financial aid from World Bank. World Bank has its operational policies which safeguards the different environment and social components. World Bank operational policies triggered for this project are listed in Table 2.3. Other than the operational policies of World Bank, Guidelines of IFC (World Bank Group) are also considered for carrying out EIA study and are listed in Table 2.3. Table 2.3 : World Banks Operational Policies - Environmental & Social Safeguard Name Key Requirement Applicability Remarks Management Plans Operational Policies OP 4.01 Ensures sustainability Triggers Project Environment Environmental and environmental classified as Management Plans 30 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Requirement Applicability Remarks Management Plans Assessment feasibility of the Category A including guidelines project. Projects are considering and management classified into A, B & C nature of plans for tree category depending on activities plantation, waste the nature and extent and impacts management, Borrow of the impact. area management, Emergency response and budgetaryprovisionfor development of EHS management system and Responsible carrier Programme. OP 4.04 Ensures conservation Triggers Triggered Environment of natural habitats and for management plan Natural habitats discourages Sahibganj & and Tree Plantation Varanasi Management Plan disturbance of nay Terminal natural habitat due to Projects. No project development by other project recommending is in close adoption of alternative vicinity of method/route/approach such or adopting endangered or protected management environment measures OP 4.36 Ensures that project Triggers No diversion --do - activities do not of forest Forests disturbs/interfere with land is the forest, forest involved dwellers activities, however fauna and flora of the large forest. Prevents and number of discourages tree cutting deforestation and is involved. impacts on rights of Permission forest dependent will be people. required for felling these trees from forest department. OP 4.12 Ensures minimal Triggers Applicable RAP and Social involuntary for facilities management plan Involuntary resettlement by which Resettlement considering feasible involves alternatives project land design, assisting acquisition 31 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Requirement Applicability Remarks Management Plans displaced people to like improve their former Sahibganj living standard. terminal, Varanasi terminal etc. OP 4.11 Ensures preservation Triggers Applicable Environment of property of cultural for management plan Physical and religious Sahibganj and Social Cultural importance, heritage terminal Management Plan Resources and property of natural project as it importance and involves enhancement of shifting of cultural properties one of the community temple which exists at the site. It may be applicable for other sites for civil interventions which are under planning and identification OP 7.50 Projects on Triggers NW-1 No specific plan is international traverse required for this. Projects on waterways may affect through International the relations between Farakka Waterways the World Bank and its canal to borrowers, and Hoogly between riparian River and states. Therefore, the does not Bank attaches great affect or importance to the change the riparian making water treaty appropriate between agreements or India and arrangements for the Bangladesh entire waterway, or in any way. parts thereof, and However stands ready to assist due to in this regard. A movement borrower must notify of vessels in other riparian of River Ganga planned projects that in Farakka could affect water area which quality or quantity, is part of 32 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Name Key Requirement Applicability Remarks Management Plans sufficiently far in international advance to allow them riparian to review the plans treaty and raise any between concerns or objections India & Bangladesh, this policy is considered triggered with a view to give advance intimation of NW-1 plans of this area to Bangladesh IFC Guidelines IFC Guidelines- Technical reference Followed Applicable Environment Environment, document for for all the management plans Health& Safety guidance of general construction and emergency health & safety and response plan Guidelines measures to be taken operational (General) for general industries, activities of construction and other the project such activities IFC Guidelines- Act as reference Followed Applicable Environment Environment, document which for the management plans Health and provides guidance for terminals and emergency incorporation of RHS proposed at response plan Safety measures during EIA Sahibganj, Guidelines for study of the Ports, Varanasi & Ports, Harbors Harbours& Terminals Haldia and and Terminals will be considered for other 3 proposed terminals also The OP 4.09: Pest management, OP 4.37: Safety of Dam, OP 7.60: Project in Disputed Areas and OP 4.10: Indigenous People are not triggered for this project. Incase of Sahibganj terminal few Schedule Tribe are located in 10km radius of this terminal but are not affected from this project. World Bank‟s operational policy 4.01 (OP 4.01) categorize the project into Category A, B & C on the basis of nature and extent of the impacts anticipated from the project. Scope 33 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 of Environmental assessment studies depends on the category in which the project falls and is defined below. Category A - Projects with significant environmental impacts and requiring a full Environmental Assessment (EA), Category B - Projects with moderate environmental impacts and requiring a lesser level of environmental assessment, Category C - Projects which require no environmental analysis. Proposed Project involves augmentation of navigation capacity of NW-1 by developing various facilities like terminals, jetties, navigation aids etc. along the NW-1. Project is spread over app 1600 km and has impacts on various environment and social component. Components to be impacted due to project development are quality of life, livelihood, terrestrial and aquatic ecology, air quality, water quality, economy of the country, noise levels etc. Also it is anticipated impacts are both positive and negative but will be significant. Thus the project is classified as Category A and a detailed environment and social assessment study has been undertaken for the project. 2.2.2. Relevant International Environmental Convention A. International Maritime Organization Conventions India is member state of the International Maritime Organization (IMO). All the vessels plying in marine environment are bound to follow these conventions. These conventions are aimed at ensuring environmental protection and safety of seamen. These guidelines should also be followed by vessels/barges plying in inland water bodies to the extent possible. IMO Conventions/ Protocols relevant to the project are given in Annexure2.1 (Volume 3C). Conventions which majorly are in environmental context include MARPOL Convention 1973/78 & Ballast Water Management, 2004. MARPOL Convention, 1973/78 : The MARPOL Convention, an international convention is responsible for the preventing pollution of the marine environment by operational or accidental discharges from the ships. It is a combination of two treaties adopted in 1973 and 1978 respectively and updated by amendments through the years. This international convention was adopted in 1973 at International Maritime Organization (IMO) and covered pollution by oil, chemicals, and harmful substances in packaged form, sewage and garbage. The Protocol of 1978 relating to the 1973 International Convention for the Prevention of Pollution from Ships (1978 MARPOL Protocol) was adopted at a Conference on Tanker Safety and Pollution Prevention in February 1978 held in response to a spate of tanker accidents in 1976-1977. Measures relating to tanker design and operation were also incorporated into a Protocol of 1978 relating to the 1974 Convention on the Safety of Life at Sea, 1974. The MARPOL Convention includes regulations that are aimed at preventing and minimizing pollution from ships - both accidental pollution and that from routine operations – The convention currently includes six technical annexes delineate below: Annex I: Regulations for the Prevention of Pollution by Oil Annex II: Regulations for the Control of Pollution by Noxious Liquid Substances in Bulk 34 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Annex III: Prevention of Pollution by Harmful Substances Carried by Sea in Packaged Form Annex IV: Prevention of Pollution by Sewage from Ships Annex V: Prevention of Pollution by Garbage from Ships Annex VI: Prevention of Air Pollution from Ships (entry into force 19 May 2005) Ballast Water Management, 2004: Under this heading, IMOs‟ setup “International Convention for the Control and Management of Ship‟s Ballast Water and Sediments, 2004” for preventing the introduction of unwanted organisms and pathogens from ship‟s ballast water and sediment discharges. This is aimed to arrest the potentially devastating effects of the spread of harmful aquatic organisms carried by ballast water. This convention will require all ships to implement a Ballast Water Management Plan (BWMP) and delineates the standards for the Ballast Water Exchange (BWE) and Ballast Water Performance (BWP) under BWMP. List of Safety Related Regulations:All the legislations and regulations as per IMO applicable for vessel movements and cargo transportations through waterways is listed in Annexure 2.1. However, few are listed below, which should specifically be referred to ensure the safety of the personnel Initial Assessment of Environmental Effects of Navigation and Infrastructure Projects (WG 143 -2014) Sustainable Waterways Within the Context of Navigation and Flood Management (WG 107 -2009) Climate Change and Navigation (TG3 -2008) International Labour Organization (ILO) Code of Practice for Safety and Health in Ports (2005); General Conference of the International ILO Convention concerning Occupational Safety and Health in Dock Work, C-152, (1979) General Conference of the ILO Recommendation concerning Occupational Safety and Health in Dock Work, R-160 IMO Code of Practice for Solid Bulk Cargo (BC Code) International Code for the Construction and Equipment of Ships carrying Dangerous Chemicals in Bulk (IBC Code) International Code for the Safe Carriage of Grain in Bulk (International Grain Code) Code of Practice for the Safe Loading and Unloading of Bulk Carriers (BLU Code) International Maritime Dangerous Goods Code (IMDG Code) B. United Nations Convention on the Law of the Sea, Montego Bay, (1982): This Convention was adopted by India on 10th December 1982 at Montego Bay, Jamaica. Main objectives of the convention are: 35 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 To set up a comprehensive new legal regime for the sea and oceans, as far as environmental provisions are concerned, to establish material rules concerning environmental standards as well as enforcement provisions dealing with pollution of the marine environment; and To establish basic environmental protection principals and rules on global and regional cooperation, technical assistance, monitoring, and environmental assessment, and adoption and enforcement of international rules and standards and national legislation with respect to all sources of marine pollution. Thus the convention can be referred to understand the environmental protection principals and procedures to minimize the environmental pollution due to movement of vessels/barges and related operations C. International Maritime Dangerous Goods Code (IMDG-code) The IMDG code relates to methods of safe transport of dangerous cargoes and related activities. It sets out procedures for documentation, storage, segregation, packing, marking and labelling of dangerous goods. This convention can also be referred to understand the procedures followed by the vessels carrying the dangerous goods to ensure safety and avoid spillage and accidents. 2.3. Environmental Standards & Guidelines Project involves various activities, which may interfere with various environmental components. Thus it is required to control those activities so as the concentration of pollutant in environment should not exceeds its assimilation capacity. CPCB has issued some standards for disposal of effluents and quality of surface water body which should be referred and adhered to with regards to prescribed discharge standards at any point of time. India does not have any standard yet for disposal of dredged material, water quality in and around harbour/ports/terminals, thus standards issued by other renowned bodies are referred. Suggested list of standards is listed below and given in detail at Annexure 2.2(Volume 3C). Standards for discharge of effluent in inland surface water bodies and Marine Coastal Areas (Source: G.S.R 422 (E) dated 19.05.1993 and G.S.R 801 (E) dated 31.12.1993 issued under the provisions of E (P) Act 1986) Classification of Surface water Bodies on basis of Quality (Source: Guidelines for Water Quality Management-CPCB, 2008) Water Quality Standards for Coastal Waters, SW-IV & V-Harbour and Navigation & controlled waste disposal (EIA Guidance Manual for Ports & Harbours, MoEF&CC, GoI) Standards for permissible level of water quality indicators (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992) Permissible limit for off-shore dumping of dredged material (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992) 36 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Criteria for harmful bottom sediments (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992) Approximate Quantity of Suspended Sediments Generated by Dredging or Dumping Operations (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992). 2.3.1. Guideline, Standard and recommendations as published by Environmental Committee of PIANC PIANC- the World Association for Waterborne Transport Infrastructure is the forum which provides expert advice on cost-effective, reliable and sustainable infrastructures to facilitate the growth of waterborne transport. PIANC has published various guidelines for ensuring the sustainable development of waterborne transport. Some of the guidelines as applicable to the project are listed below. These guidelines can be referred to make the Inland water transportation system sustainable and environmental friendly. Dredging Management Practices for the Environment (WG 100-2009) Dredging Material as a Resources (WG 104-2009) Ecological and Engineering Guidelines for Wetland Restoration in relation to the Development, Operation and Maintenance of Navigational Infrastructure (WG 7- 2003) Management of Aquatic Disposal of dredged material (WG 1-1998) Dredged Material Management Guide 1997. Guidelines for sustainable Inland Waterways and Navigation WG 6-2003 2.4. Key safeguard documents A detailed description of project baseline environmental conditions, identified positive and negative environmental impacts, the mitigation measures to eliminate or minimize the adverse impacts and enhance the positive impacts, detailed environmental management plan including institutional responsibilities, implementation schedule, environmental budget, arrangement for monitoring and evaluation and grievance redressal mechanism are provided in the consolidated environmental impact assessment report for NW-1 and environmental impact assessment report of Ramnagar (Varanasi terminal), Sahibganj terminal, Farakka Lock, Haldia terminal. The other supplementary documents prepared under this project are i) Basin Level Critical Environmental Resource Assessment report; ii) Consolidated rehabilitation action plan for NW-1, iii) Rehabilitation action plan for Sahibganj, iv) EIA Report for maintenance dredging and barge operations. 37 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Chapter 3. PROJECT DESCRIPTION 3.1. Background This chapter provides the base information of development proposed. The impact analysis is carried out considering the proposed project components. This chapter is presented in following three broad parts: A: General Introduction to Jal Marg Vikas Project, Need, connectivity and River related information B: Alternative Analysis C: Development of Navigation Channel, Planned and proposed Project Components Each of above section is elaborated in detail under respective section below. A: GENERAL INTRODUCTION TO JAL MARG VIKAS PROJECT, NEED, CONNECTIVITY AND RIVER RELATED INFORMATION 3.2. Introduction- Jal Marg Vikas Project NW-1 is natural waterway, extends from Haldia (Sagar) to Allahabad and spans 1620 km crossing the states of Bihar, Jharkhand, Uttar Pradesh & West Bengal. NW-1 is The Ganga - Bhagirathi - Hooghly river system between Haldia & Allahabad. It links the ocean gateway ports of Haldia and Kolkata to Bhagalpur, Patna, Ghazipur, Varanasi and Allahabad, their industrial hinterlands, and several industries located along the Ganga basin. Alignment of NW-1 is depicted in Figure 3.1 below. Figure 3.1 : Alignment of NW-1 38 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 NW-1 is being fed by various tributaries at different locations. Major tributaries to NW-1 between Haldia to Allahabad are Tons, Gomti, Ghagra, Son, Gandak, Punpun and Kosi. Jal Marg Vikas project is aimed at augmentation of navigation in the waterway by maintaining the LAD in the waterway throughout the year for navigation, development of the navigational infrastructure and navigation aids, river training works at critical location, equipment of the necessary barges/dredgers/boats for navigation purpose and development of efficient River information system. However, to optimize the project impacts and the cost, at present it is proposed to augment the stretch between Haldia and Varanasi only. Dredging operations for maintenance of LAD will be carried out between Haldia and Varanasi only. 3.3. Project Location Project area includes entire reach of the River Ganga from Haldia to Allahabad including the areas proposed for development of project related facilities & infrastructure, i.e. terminal sites, lock site, Ro-Ro jetty sites and sites for other planned development. Stretch from Allahabad to Haldia covers four states namely Jharkhand, Bihar, Uttar Pradesh & West Bengal. Map showing location of NW-1 stretch from Haldia to Allahabad is depicted in Figure 3.2. 39 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Figure 3.2 : Location Map of NW-1 3.3.1. Rail and Road Connectivity to NW-1 There is good rail and road connectivity at important places across NW-1 which enhances the utility of MW-1 for easy movement of material from one mode of transport to another. The connectivity details are provided at Table 3.1. Table 3.1 : Road & Railway Infrastructure at Important Places Across NW-1 S. No. Place Road Connectivity Railway Connectivity 1. Allahabad (N) NH 2, NH 27, NH 96 Delhi - Kolkata 2. Allahabad (S) NH 27, NH 76 Allahabad - Mirzapur 3. Mirzapur (N) SH 5, NH 2 4. Mirzapur (S) NH 27 Mirzapur - Chunar 40 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 5. Varanasi (N) NH 29, NH 56, NH Varanasi-Ghazipur 233 6. Varanasi (S) NH 2, NH 7 Mirzapur-Buxar 7. Ghazipur (N) NH 19 Ghazipur - Ballia 8. Ghazipur (S) NH 30, NH 97 Chunar-Buxar 9. Ballia (N) NH 19 Ballia - Chapra 10. Buxar (S) NH 30 11. Patna (N) NH 77 Chapra - Begusarai 12. Patna (S) NH 30A,31,83 & 98 Patna - Jamalpur 13. Bhagalpur (N) NH 31, NH 106 Bhagalpur-Sahibganj 14. Bhagalpur (S) NH 80 Patna - Jamalpur 15. Katihar (N) NH 31, NH 131A 16. Sahibganj (S) NH 80 Sahibganj-Farakka 17. Farakka (E) NH 81, NH 34 18. Farakka (W) NH 80, NH 60 Farakka - Behrampur 19. Behrampur NH 34 Behrampur - Nabadwip 20. Nabadwip NH 34 Nabadwip - Raghunathpur 21. Barrackpur NH 34, NH 35 Barrackpur-Kolkata 22. Kolkata NH 34, NH 35 Kolkata - Bagnan 23. Howra NH 6, NH 2 24. Haldia (W) NH 6, NH 41, NH Howra- Haldia 116B 25. Haldia (E) NH 117 -- 3.4. Size and Magnitude of the Project Proposed Project-Jal Marg Vikas aims at improvement of navigation in entire stretch of NW-1 (Haldia to Allahabad). Length of the waterway is about 1620 km and traverses through 4 states namely Jharkhand, Uttar Pradesh, Bihar and West Bengal. Developments planned under the Jal Marg Vikas project includes Maintenance dredging to maintain the required LAD in waterway/channel and at the proposed terminal facilities Improved Navigation Infrastructure& Navigation Aids o Construction of 5 Nos. of Ro-Ro crossings & ferry passenger jetties. Location for these jetties is not yet identified. o Construction of 6 Nos. of terminals. Site identification and planning for 3 terminals sites at Sahibganj, Varanasi and Haldia is accomplished. Besides 2 more potential sites for development of terminals are identified at Ghazipur and Kalughat. These two sites are at initial stage of planning. One more terminal site 41 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 is to be identified along NW-1 and the likely site is at Kalyani in Tribeni, West Bengal. o Construction of Navigation Locks (New navigation lock at Farakka) o Provision for tow barges, inland vessels, survey vessels including rescue boats and survey equipment and development of low draught vessels o Development of navigation aids along NW-1 for facilitation of day & night time navigation Development of efficient River Information System with all hardware & software Provision for bank protection / slope protection and river training works for critical locations 3.4.1. Existing and Anticipated Cargo at NW-1 Cargo movement exists at present also in NW-1. 27,16,436 MT of cargo (15,11,961,380 TKM/1.512 BTKM) was transported via NW-1 during 2012-2013 (IWAI). Cargo transported include cement, fly ash, iron ore, iron ore fines, coal, steel shed, tyres, iron fines, iron ingots, Galvanized steel plain sheets, stone chips, furnace oil, high Speed diesel, lube oil, boulders, pulses, aluminium block, sand, chips, ship block, log, pulses, Manganese ore, Petroleum, Coke, Cooking coal, Rock Phosphate, Timber, Peas, Slag oil, and Non-cooking coal. An Indo-Bangladesh Protocol on Inland Water Transit & Trade also exists between India and Bangladesh apart from intra country water transport. Under Indo-Bangladesh Protocol, inland vessels of one country can transit through the specified routes of the other country. The existing protocol routes are: Kolkata – Pandu-Kolkata, Kolkata- Karimganj–Kolkata, Rajshahi-Dhulian-Rajshahi, and Pandu-Karimganj-Pandu. For Inter- country trade, four ports of call have been designated in each country, namely; India – Haldia (West Bengal), Kolkata (West Bengal), Pandu (Assam), Karimganj (Assam) and Silghat(Assam) and Bangladesh-Narayanganj, Khulna, Mongla, Sirajganj and Ashuganj. Cargo traffic and the commodities transported in NW-1 vary in different stretches. Cargo volume by rail & road mode along NW-1 stretch for year 2014 is given at Table 3.2. Table 3.2 : Current Traffic Along NW-1 Stretch (2014) Commodities By Road (in tonne) By Rail (in tonne) Total Cargo (in tonne) Coal 45258500 18723758 68222258 Construction Material 30171490 14429354 44760679 Consumer Goods 191811 0 191811 Container 2033280 0 2033280 Fertilizer 156900 1377741 1534641 Food and Food Stuff 1404369 484233 1888602 Gas and Petroleum 8400 217026 475976 Minerals and 43950 575750 1953161 Chemicals Project Cargo 186560 18250 228622 42 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Vehicles 37100 100000 137100 Total Cargo (in 79492360 35926112 121426130 tonnes) Source: HPC&HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) As per projection study undertaken by survey and marketing consultant HPC for growth of traffic for planned project life of 30 years. Three scenarios are considered for forecasting, i.e. base case (in absence of Jal Marg Vikas Project), Medium Augmentation case (Jal Marg Vikas project with 3 m LAD upto Barh, 2.5 m until Ghazipur and 2 m upto Varanasi) and Full augmentation case (LAD of 3 m upto Patna and 2.5 m upto Varanasi). For the study purpose HPC has considered medium case augmentation. Since traffic will es expected to be different for different stretches, the separate traffic projections is made for Haldia-Varanasi, Haldia-Patna & Patna-Varanasi. The traffic projection for these stretches as per medium case augmentation is given at Table 3.3, 3.4 & 3.5. Table 3.3 : Traffic Forecast for Stretch-1 (Haldia-Varanasi) Cargo Commodity Forecast Medium Augmentation Case (tons) Type Forecast Forecast Forecast Forecast Forecast MAC MAC 2020 MAC 2025 MAC 2035 MAC 2045 2015 (t) (t) (t) (t) (t) Dry Bulk Stone chips 99,336 1,01,52,467 1,27,98,104 1,70,90,680 1,98,68,049 Dry Bulk Coal 32,82,875 74,05,156 84,57,510 1,04,26,875 1,16,59,733 Dry Bulk Iron ore 0 85,444 1,12,020 1,52,328 1,61,924 Dry Bulk Limestone 0 3,889 4,932 6,925 8,050 Dry Bulk Sand 0 1,38,070 1,74,090 2,32,932 2,70,785 Bagged Food & 0 15,61,662 18,88,883 23,85,956 25,19,450 Foodstuff Bagged Cement 0 8,27,552 12,13,633 20,34,856 25,62,950 Bagged Fertilizer 0 60,061 66,117 75,037 80,216 Bagged Plastic 0 9,383 12,270 18,713 24,250 granules Bagged Textile 0 1,25,941 1,80,823 3,11,868 3,99,577 Neo-bulk Logs & 63,151 86,976 1,08,042 1,45,196 1,82,878 woods Neo-bulk Paper 0 3,745 5,282 8,320 10,480 Neo-bulk Petroleum 2,62,460 5,15,815 6,61,925 9,25,784 10,70,067 Neo-bulk Project 0 3,79,560 4,43,000 5,67,556 7,14,850 cargo Neo-bulk Statues 0 1,07,208 1,21,296 1,37,339 1,37,339 Neo-bulk Steel 0 8,86,183 10,89,119 14,69,146 18,50,424 products Ro-Ro Vehicles 0 47,863 65,484 1,09,045 1,45,370 Container General 0 18,72,123 27,83,131 48,68,543 63,44,978 43 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 cargo Total 37,07,822 2,42,69,096 3,01,85,663 4,09,67,100 4,80,11,367 Source: HPC & HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Table 3.4 : Traffic Forecast for Stretch-2 (Patna-Varanasi) Cargo Commodity Forecast Medium Augmentation Case (tons) Type Forecast Forecast Forecast Forecast Forecast MAC MAC 2020 MAC 2025 MAC 2035 MAC 2045 2015 (t) (t) (t) (t) (t) Dry bulk Coal 0 2,51,993 2,46,256 2,68,992 2,71,067 Dry bulk Sand stone 0 5,185 6,576 9,233 10,733 Dry bulk Limestone 0 3,889 4,932 6,925 8,050 Bagged Food & 0 3,32,723 4,35,396 5,94,442 6,28,316 Foodstuff Bagged Textile 0 61,229 73,563 1,01,778 1,30,401 Bagged Plastic 0 9,383 12,270 18,713 24,250 granules Bagged Cement 0 8,13,646 11,93,886 20,03,696 25,23,702 Neo-Bulk Paper 0 3,745 5,282 8,320 10,480 Neo-Bulk Project 0 2,02,152 2,24,605 2,77,894 3,50,014 cargo Neo-bulk Steel 0 4,81,730 5,77,518 7,69,196 9,68,820 products Neo-bulk Statues 0 1,07,208 1,21,296 1,37,339 1,37,339 Ro-Ro Vehicles 0 47,863 65,484 1,09,045 1,45,370 Container General 0 17,43,011 25,91,191 45,32,781 59,07,393 cargo Total 0 38,11,763 53,12,000 85,69,361 1,08,44,869 Source: HPC & HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT Table 3.5 : Traffic Forecast for Stretch-3 (Haldia-Patna) Cargo Commodity Forecast Medium Augmentation Case (tons) Type Forecast Forecast Forecast Forecast Forecast MAC MAC 2020 MAC 2025 MAC 2035 MAC 2045 2015 (t) (t) (t) (t) (t) Dry bulk Stone chips 0 23,98,814 30,23,922 40,38,168 46,94,401 Dry bulk Coal 32,82,875 69,39,211 79,69,586 98,53,827 1,10,56,473 Dry bulk Iron ore 0 9,71,959 12,25,242 16,36,197 19,02,091 Dry bulk Limestone 0 3,23,986 4,08,414 5,45,399 6,34,030 Dry bulk Sand 0 68,652 84,513 1,12,091 1,41,182 Bagged Food 1,62,487 63,63,580 79,20,893 1,04,42,930 1,19,90,623 44 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 &Foodstuff Bagged Fertilizers 0 17,94,026 26,47,350 45,96,517 59,75,527 Bagged Plastic 0 23,258 32,621 50,627 58,517 granules Bagged Textile 0 2,22,364 3,02,610 4,71,792 5,99,523 Neo-Bulk Logs and 0 6,47,972 8,16,828 10,90,798 12,68,061 wood Neo-bulk Petroleum 2,62,460 14,63,318 18,43,599 24,76,593 28,74,916 Neo-Bulk Project 0 2,64,189 3,15,652 4,24,786 5,19,963 cargo Neo-bulk Steel 0 9,39,231 11,52,032 15,42,578 19,02,495 products Ro-Ro Vehicles 0 25,886 30,543 41,522 53,199 Container General 0 2,17,457 2,95,933 4,65,037 5,85,405 cargo Total 37,07,822 2,26,63,903 2,80,69,739 3,77,88,862 4,42,56,407 Source: HPC& HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT Though above traffic projection indicated sufficient traffic cargo potential till 2045, however design consultant has considered different traffic forecasted the traffic again for the presently designed infrastructure facility. These terminals are designed on the basis of the traffic expected to be shifted at these sites from rail/road to IWT mode. Traffic projections for the planned infrastructure site are given below in Table 3.6. Table 3.6 : Traffic Forecast for Planned Navigational Infrastructural Facilities S.No. Infrastructural Projected Projected Projected Facility Cargo-2015 Cargo-2030 Cargo-2045 (MTPA) (MTPA) (MTPA) 1 Sahibganj 2.24 4.39 9.00 Terminal 2 Varanasi 0.54 1.22 1.22 Terminal (with current land) 3 Haldia Terminal 3.18 MTPA Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT 3.4.2. Depth of Navigation Channel It is planned to maintain depth of 3 m all along the stretch from Haldia to Allahabad but to optimize the cost and minimize the environmental damage, it is planned to maintain depth of 3 m from Haldia to Barh, 2.5 m from Barh to Ghazipur and 2.2 m from Ghazipur to Varanasi at present16. 16 Source of Data:(Detailed Feasibility Study for Jal Marg Vikas Project and Detailed Engineering for its Ancillary Works and Processes between Haldia to Allahabad by HOWE Engineering Projects (India) Pvt. Ltd). 45 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.4.3. Width of Navigation Channel It is planned to provide two-way cargo movements in the navigation channel and maintaining the width of channel between 60-120 m. However, at present it is planned to maintain the channel width17 of 45 m and side slopes of 1:5 from section Haldia to Varanasi.18 3.4.4. Size of the Vessel/Ships As per IWAI planning, vessels of maximum length 110 m, beam 11.4 m, draught 2.5 m- 2.8 m and air draught of 9 m will ply in NW-1 waterway19. However, the vessel size will vary in different stretched as per the available LAD and type and quantity of cargo to be transported. Vessels of size 1500-2000 DWT is expected to ply in the waterway. Study for cargo estimation is under process and size of the vessels will be finalized accordingly. At present, planned vessels designed run on diesel, however IWAI is planning to switch to CNG for operating the vessels. Proposal and study for the feasibility of using CNG as fuel is under process. IWAI is interacting with various agencies for design of the high capacity vessels which can move in low draft so as to reduce the dredging requirement. 3.5. Challenges for Project Development When it comes to the implementation of Jal Marg Vikas Project to ensure navigation in entire NW-1 throughout the year, various challenges come in picture. NW-1 is alluvial river with typical characteristic of braiding, meandering and large water level fluctuation between summer and monsoon months. Wide variations in water level are observed ranging from 2.5 m at Farakka to 16.5 m at Allahabad. Current velocity varies between 0.2m/s during lean season to 4.0 m/s during flood season in the stretch between Allahabad to Farakka. Current velocity is 1.2 m/s in Feeder Canal & 1.7 m/s (max.) in Bhagirathi river stretch. Ganga carries annual silt load of 1600 million tons. Fine silt leads to rapid shoal formation. It becomes difficult to maintain even 2 m depth during low water season throughout the stretch. The stretch between Haldia and Tribeni (196 km) is tidal and the Least Available Depth (LAD) of more than 3.0 m is maintained naturally therein. IWAI has to erect bandals and carry out dredging to maintain the LAD in upper stretches of Tribeni. Due to unavailability of adequate depth/width and navigational infrastructure facilities, navigation of the large cargos throughout the year is not possible. Major challenges for navigation in NW-1 are listed below 1. Highly braiding and meandering river 2. Large water level fluctuation 3. Unavailability of LAD for navigation throughout NW-1 and unreliable water depths 17 The width of the channel is being reduced to 45 m under phase I development. This will further reduce he dredging requirements. However, these details are under finalization stage. 18 Source of Data:(Detailed Feasibility Study for Jal Marg Vikas Project and Detailed Engineering for its Ancillary Works and Processes between Haldia to Allahabad by HOWE Engineering Projects (India) Pvt. Ltd). 19 (reference Detailed Feasibility Study for Jal Marg Vikas Project and Detailed Engineering for its Ancillary Works and Processes between Haldia to Allahabad prepared by HOWE Engineering Projects (India) Pvt. Ltd) 46 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 4. High silt load & shoal/bar/island formation leading to splitting of main channel 5. Growing of bars reducing the available depth 6. Lateral migration of the river and change in navigation line 7. Existence of power line pylons at various locations 8. Existence of pontoon bridges. About 7 pontoon bridges are present between Buxar and Allahabad which are in use. Pontoon bridges are significant threat to navigation 9. Existence of Bagmari siphon in the Farakka feeder canal for irrigation purpose which generates eddy currents, reduces water level by 0.1-0.2 m in immediate vicinity of the structure and reduction in buoyancy of vessel due to presence of air bubbles in water column above this siphon leading to increase in vessel draught 10. Existence of critical bridges (bridges with Horizontal Clearance (HC)&Vertical Clearance (VC) less than 70 m & 9 m respectively). Details of the critical bridges are given below in Table 3.7 below 11. Inadequate navigation infrastructure and aids like channel marking, inadequate fairway width, navigation lights, signals, RIS, lack of modern vessel based navigation aids, absence of effective waterway reporting & tracking system. Table 3.7 : Details of Critical Bridges on NW-1 S. No. Location Chainage Horizontal Vertical Clearance (HC)- Clearance (VC)-m m 1 Pakur Bridge 525 49.07 12.15 2 Rajendra Setu- Semaria 853 40.00 10.00 3 Malaviya-Varanasi 1308 101.50 6.56 (Rajghat Bridge) (10.37-50%, 7.97- 1-% & 7.18-1%) 4 Mirzapur 1398 30.50 2.52 (7.08-50%, 4.21-1- % & 3.22-1%) 5 Rabindra Setu/Howrah 157.8 -- 9.0 Bridge Howrah 6 Swami Vivekananda Setu 166.4 100 8.8 7 Bridge at Digha 990.5 20 -- 8 Rajendra/Mokama -- -- 10.6 -50%, 9.67- Bridge, Hathida 10% & 9.57-1% 9 Buxar Road Bridge -- -- 10.91-50%, 9.43- 10% & 9.23-1% 10 Ghazipur Road Bridge -- -- 11.82-50%, 10.35%-10% & 10.12-1% Source: IWAI &HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) 47 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 12. Apart from above bridge, some bridges at Varanasi, Balua, Hoogly and Munger are also navigational hazard. Available width of the navigation channel is reduced significantly due to presence of bridge piers of these bridges or due to their orientation w.r.t river flow or due to their location. 13. Some of the bends in the NW-1 are significant w.r.t. navigation. There are 10 significant bends in U.P. stretch, 1 bend at U/s of Farakka and 63 significant bends in West Bengal. Due to presence of these bends, additional channel width will be required. Details of the significant bends are given in Table 3.8. Table 3.8 : Details of Navigationally Significant Bends in UP stretch of NW-1 S. No. Stretch No. of Bends Uttar Pradesh-10 1. Saidpur-Varanasi 2 2. Chunar-Mirzapur 2 3. Rampur Ghat 5 4. Sirsa-Allahabad 1 Jharkhand-1 1. U/s of Farakka Navigation Lock 1 West Bengal-63 1. Haldia Diamond Sand 1 2. Diamond Sand – Howrah Bridge 5 3. Howrah Bridge - Tribeni 3 4. Tribeni - Balagarh 2 5. Balagarh - Kalna 2 6. Kalna - Samudragarh 3 7. Samudragarh - Nabadrip 2 8. Nabadrip – Patuli 6 9. Patuli - Katwa 4 10. Katwa - Plassey 7 11. Plassey - Chunarigacha 5 12. Chunarigacha - Behrampur 5 13. Behrampur - Mahamuadpur 7 14. Mahamuadpur - Nasipur 6 15. Nasipur - Jangipur 3 16. Jangipur – Farakka Lock 2 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Project Jal Marg Vikas is aimed at minimizing the above mentioned challenges to ensure the navigation in the entire stretch during most of the time in year. Implementation of project will focus on maintaining the LAD for navigation in the desired stretches, improving existing navigation infrastructure, developing new infrastructure, improved navigation aids and navigation cargos. 48 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.6. River Morphology &Mobility River Ganga is significantly mobile and changes flowing pattern in one season to another. Changes in river typology/morphology have been studies from last 10 years‟ satellite imagery by HPC. From the study it was found that, in the upper reaches, from Allahabad to Doriaganj, the river is meandering or sinuous with minor secondary branches and several chutes. The river shows a clear change of planform typology at area around Patna younger. The change is from a meandering to an anabranching typology, with multiple channels. Change in planform is due to confluence of various tributaries namely Ghagra & Gandak in left bank and Son & Punpun in the right bank. The river typology changes again, downstream of Munge where the channel shows a sinuous channel with a certain degree of braiding. Bars are common in this area. Between Kahalgaon and Manihari the main channel clearly splits in two, with a certain degree of braiding in each channel. The contribution of the Kosi River takes place near Kahalgaon. From Manihari to Farakka there is one main sinuous channel and several sinuous secondary channels. Downstream stretches of Farakka to Farakka lock and Farakka lock to Jangipur lock is an artificial canal. Reaches downstream of JangipurLock show a meandering channel with different degrees of sinuosity, from tortuous to irregular meanders. From Jangipur Lock to Tribeni the presence of oxbow Lakes is common, and cut-offs meanders20. Detailed morphology of the river in different reaches is given in Table 3.9. Changes in the River morphology are depicted in the images given in Figure 3.3 below. Table 3.9 : Morphology of River (NW-1) in different reached S. No. Reach/Stretch Chainage Morphology 1. Sagar Road – Haldia (0-35) Split channel with central islands 2. Haldia – Diamond Sand (35-60) Split channel with central islands 3. Diamon Sand –Howrah (60-145) Sinuous channel Bridge 4. Howrah Bridge -Tribeni (145-193) Irregular meandering channel with some sporadic central bars 5. Tribeni-Balagarh (193-221) Irregular meandering channel with split channels and bars. Oxbow lakes and cut-offs visible 6. Balagarh-Kalna (221-245) Tortuous meandering channel showing split channels at bends. Oxbow lakes and cut-offs visible 7. Kalna-Samudragarh (245-263) Irregular meandering channel showing some degree of split at a few locations. Oxbow lakes and cut-offs visible 8. Samudragarh-Nabadweep (263-280) Tortuous meandering channel with 20 Source of Data:(Detailed Feasibility Study for Jal Marg Vikas Project and Detailed Engineering for its Ancillary Works and Processes between Haldia to Allahabad by HOWE Engineering Projects (India) Pvt. Ltd). 49 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. No. Reach/Stretch Chainage Morphology bars at the near the inner bank of bends 9. Nabadweep-Patuli (280-322) Tortuous meandering channel with chutes atbends and several split channels. Oxbow lakes and cut-offs visible 10. Patuli-Katwa (322-345) Tortuous meandering channel with localised bars and chutes at bends and some degree of split channels. Oxbow lakes and cut-offs visible 11. Katwa-Palassey (345-371) Meandering single channel, wider at bends with some chutes. Cut- offs visible 12. Palassey-Chaurigacha (371-400) Irregular meandering channel showing chutes at bends and split of channels at particular locations. Oxbow lakes and cut-offs visible 13. Chauriga-Chaberhampur (400-421) Sinuous channel except for the approximately last 5 km of the reach. In that area the channel shows tortuous meanders and oxbow lakes. Cut-offs also visible 14. Berhampur-Mohammadpur (421-449) Irregular meandering single channel. Oxbow lakes visible 15. Mohammadpur- Nasirpur (449-479) Tortuous meandering single channel with central bars at certain locations. Oxbow lakes and abandoned meander channels visible 16. Nasirpur-Jangipur (479-505) Tortuous meandering single Lock channel. Cut-off and abandoned meander channels visible 17. Jangipur (505-544) Artificial channel Lock-Farakka Lock 18. Farakka Lock- Rajmahal (544-583) Composite river with one main sinuous channel with bars and islands and several sinuous secondary channels. Several oxbow lakes can be seen 19. Rajmahal-Manihari (583-633) Composite river with one main channel with bars and islands and several sinuous side channels 50 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. No. Reach/Stretch Chainage Morphology 20. Manihari-Karagola (633-660) Split river with sinuous channels with a certain degree of braiding that converts in a single main sinuous channel with several side channels 21. Karagola-Kahalgaon (660-690) Split river with sinuous channels with a certain degree of braiding 22. Kahalgaon-Bhagalpur (690-715) Sinuous channel with a certain degree of braiding showing bars and islands 23. Bhagalpur - Sultanganj (715-746) Sinuous channel that shows some degree of braiding. The area shows clear oxbow lakes 24. Sultanganj-Munger (746-793) Sinuous channel that shows some degree of braiding in a stretch of a few kilometres. It is a clear cut-off with the old bendy channel still showing some activity 25. Munger-Mahendrapur (793-820) Anabranched river with channels with a certain degree of braiding showing bars, islands and side channels 26. Mahendrapur-Semaria (820-853) Anabranched river with channels with a certain degree of braiding showing bars, islands and side channels 27. Semaria-Barh (853-891) Anabranched river with channels with a certain degree of braiding showing bars, islands and side channels 28. Barh-Mehnar (891-925) Anabranched river with channels with a certain degree of braiding showing bars, islands and side channels 29. Mehnar-Patna (925-955) Anabranched river with channels with a certain degree of braiding showing bars and islands 30. Patna-Doriganj (955-1000) Split sinuous channels with a high degree ofanabranching 31. Doriganj-Ballia (1000-1063) Meandering single channel, wider at bends with some chutes and several subparallel anabranches 32. Ballia-Buxar (1063-1124) Sinuous single channel, wider at 51 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. No. Reach/Stretch Chainage Morphology bends with some chutes and a sinuous side channel and certain degree of braiding 33. Buxar-Ghazipur (1124-1178) Sinuous single channel, wider at bends with some chutes and a sinuous side channel 34. Ghazipur-Saidpur (1178-1254) Sinuous channel that shows some degree of braiding in a stretch of around 10 kilometres 35. Saidpur-Varanasi (1254-1311) Meandering single channel, wider at bends with some chutes and a side channel 36. Varanasi-Chunar (1311-1344) Meandering single channel, wider at bends with some chutes and a side channel 37. Chunar-Mirzapur (1344-1398) Meandering single channel, wider at bends with several chutes 38. Mirzapur-Rampur (1398-1419) Sinuous channel that shows some Ghat degree of braiding in a stretch of a few kilometres 39. Rampur Ghat-Sirsa (1419-1506) Meandering single channel, wider at bends with some chutes and a sinuous side channel; stretches of few kilometres with split of channels less than 200 m wide 40. Sirsa-Allahabad (1506-1547) Meandering single channel, wider at bendswith some chutes and a sinuous side channels. Source: HOWE Engineering Projects (India) Pvt. Ltd. (Design Consultant) 52 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Formation of a big island with two main channels upstream of Farakka Barrage. Images from 2011(left) and 2015 (right) Example of the decay of a main channel occurring in three years Example of formation of a new channel Example of lateral migration of main channel Source: IWAI &HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.3 : Satellite Imagery of Different Years to Study Change in River Morphology 53 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.7. Bathymetry of NW-1 & River Slope Bathymetric survey is carried out between Haldia to Allahabad. Longitudinal profile of the river bed between Haldia to Farakka and Farakka to Allahabad are given in Figure 3.4& 3.5. Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.4 : Longitudinal profile of river bed from Haldia to Farakka Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.5 : Longitudinal profile of river bed from Farakka to Allahabad From Figure 3.5, it is clear that between Chainage 50-150 km which is tidal stretch of river, river bed slope is flat. Then there is 250 km where river bed slope is 1 in 11,000 which flattens in the 50-100 km downstream of the Farakka lock to around 1 in 18,000. 54 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 River slope from Farakka to Allahabad is 1 in 17,000. Longitudinal profile of river slope from Farakka to Allahabad is given in Table 3.10 below. Table 3.10 : Longitudinal Profile of River Slope from Farakka to Allahabad Reach General slope for the 50 General slope for the 100 km reach km each 550-600 1 in 10,000 1 in 32,000 600-650 Flat 650-700 1 in 12,000 1 in 12,000 700-750 1 in 12,000 750-800 1 in 12,000 (flat) 1 in 10,000 800-850 1 in 5,000 850-900 1 in 350,000 (flat) 1 in 15,000 900-950 1 in 7,000 950-1000 Flat 1 in 25,000 1000-1050 1 in 10,000 1050-1100 1 in 18,000 1 in 15,000 1100-1150 1 in 14,000 1150-1200 1 in 22,500 1 in 26,000 1200-1250 1 in 30,000 1250-1300 Flat 1 in 15,000 1300-1350 1 in 7,000 1350-1400 1 in 75,000 1 in 50,000 1400-1450 1 in 37,000 1450-1500 Flat 1 in 12,000 1500-1550 1 in 5,000 Source: IWAI &HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Cross section profile of the NW-1 at various location has also been studied by design consultant at various locations like Haldia, d/s Farakka lock, around island near Patna, Ghazipur, Varanasi, Allahabad & at meandering bend. Cross section profile of river is given at Figure 3.6. 55 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Cross section of river at Haldia Cross section of river at meandering bed (ch- 0326) Cross section of canal d/s Farakka lock Cross section of river near large island at Patna Cross section of river at Ghazipur Cross section of river at Varanasi (deep) 3. Cross section of river at Allahabad Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.6 :Cross-Sectional profile of river bed at Various Locations in NW-1 56 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.8. Available Flow in NW-1 The Ganga River is characterised by high flows during the monsoon season, approximately from July until October, and low flows during the rest of the year. Annual minimum discharges provided by IWAI at Allahabad, Mirzapur and Varanasi during the last 3 years are given below in Table 3.11& Figure 3.7. Table 3.11 : Annual minimum discharges obtained from statistical analysis Parameter Discharge (cusec) Allahabad Mirzapur Varanasi Minimum recorded flow 96 122 117 (m3/s) 1 in 2-year minimum flow 188 167 185 (50% annual probability) 1 in 10-year minimum flow 117 128 130 (10% annual probability) 1 in 100-year minimum flow 90 119 110 (1% annual probability) Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Source: IWAI Figure 3.7 : Annual minimum discharges obtained from statistical analysis As per data available with IWAI, lowest flow recorded at Buxar was 225 cusec and lowest available flow at Patna 689 cusec. These flows are considerably lower than the average dry season flows. The design discharge for the feeder channel at Farakka is around 1,100 m3/s. 57 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 As per the data available in the report “Status on River Ganga: State of the Environment and Water Quality” by the National River Conservation Directorate (2009), discharges with a probability of exceeding 50%, 10% and 90% of times at 6 stations namely Allahabad, Mirzapur, Varanasi, Buxar, Patna and Azamabad during low flow season are given in Table 3.12& Figure 3.8below. Table 3.12 : Annual Minimum Discharges at Different Locations in NW-1 Flow regime Discharge (cusec) Allah Mirzapur Varanas Buxar Patna Azamaba abad i d Q50 (flow with 50% 300 300 300 450 1050 1400 probability of exceeding) during low season Q90 (flow with 90% 175 175 175 250 600 1050 probability of exceeding) during low season Q10 (flow with 10% 450 450 450 600 1600 2000 probability of exceeding) during low season Average in October- 2000 2000 2400 3100 5500 9500 November Average in December- 500 500 500 750 1300 2200 February Average in March-May 400 400 400 500 1000 1500 Source: National River Conservation Directorate Source: National River Conservation Directorate Figure 3.8 : Annual Minimum Discharges at Different Locations in NW-1 58 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.9. Sediment Load in NW-1 NW-1 comprises of the River Ganga and the tributaries system between Haldia and Allahabad. Rivers originating from the Himalaya region (Ganga, Ghaghara and Gandak) are characterized by a predominance of fine and very fine sand. The rivers draining from the Indian craton region (Tons, Son and Yamuna) bring much coarser sediments with higher contents of coarse and medium sand. Sediments are classified into suspended and bed load depending on the size of the particles. Sediments of diameter smaller than 125µm are transported in suspension and can be deposited during the low flow period. Sediment size decreases from Allahabad to Farakka. Sediment load at different locations and tributaries of NW-1is given below in Table 3.13. Table 3.13 : Sediment Load at Different Locations and Tributaries of NW-1 Locations Sediment Load (MT/Year) From CWC From Abbas and From Jain and (available online) Subramanian Sinha (2003) (1984) Ganges at Allahabad - 228 - Farakka - 729 729 Kolkata - 328 - Gomati - 6 6 Ghaghara - 125 125 Son 22 50 - Gandak 33 24 82 Kosi 73 - 193 Source: HOWE Engineering Projects (India) Pvt. Ltd. (Design Consultant) 3.10. Water Level of NW-1 NW-1 experiences high water level variations, i.e. of order of 10 m during high season. In general, water levels are at their highest in August-September and sharply decrease in October-November. In general, they continue to decrease during the whole low flow season, from December to May, and start to raise again in June-July. The variability of water levels during the dry season is lower than during the high season, with variations of the order of 2-3m. The period of the year in which the minimum water level can occur varies with location along the river. In the upstream reaches from Allahabad to Ghazipur the minimum water levels occur from April to July. Downstream of the three major tributaries, Ghagra, Son and Gandak that join the river near Patna, the minimum water levels can occur between February and June as a result of the influence of snow melt. Minimum & Maximum surface water levels at 7 gauging stations between Allahabad and Farakka for 3 annual probability of occurrence is given in Table 3.14& 3.15& Figures 3.9 & 3.10 below 59 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table 3.14 : Minimum Water Levels for a Range of Annual Probabilities Location Minimum Water Level (m) 50% 10% 1% Allahabad 71.45 70.72 70.38 Mirzapur 63.10 62.58 62.37 Varanasi 58.59 57.91 57.27 Ghazipur 52.45 51.69 51.27 Patna 40.88 40.27 39.56 Hathida 33.28 32.59 32.18 Kahalgaon 23.64 22.96 22.57 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.9 : Minimum Water Levels for a Range of Annual Probabilities Table 3.15 : Maximum Water Levels for a Range of Annual Probabilities Location Maximum Water Level (m) 50% 10% 1% Allahabad 82.36 85.67 87.22 Mirzapur 75.65 78.77 79.89 Varanasi 70.0 72.48 73.37 Ghazipur 62.88 64.78 65.18 Patna 49.36 50.44 50.91 Hathida 41.78 42.85 43.01 Kahalgaon 30.99 32.70 32.90 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) 60 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Figure 3.10 : Maximum Water Levels for a Range of Annual Probabilities 3.11. Tidal Variation in NW-1 Tides affect the Hugli River as far as Nabadwip, at Chainage 280km. According to the Admiralty Tide Tables (Indian Ocean 2015), there is an average spring tidal range of 4.8m at Haldia. The average spring tidal range on the NW-1 route reaches a peak at Diamond Harbour, of around 4.9m before diminishing with distance landward, such that it has reduced to about 4m in Kolkata, to 1.5 to 2.0m at Tribeni (IWAI 2012 NW-1 River Pilot), and effectively to zero at Nabadwip. The tides are predominantly semi-diurnal, with two high waters, and two low waters occurring during any 24-hour period. The tidal conditions are largely governed by the (predictable) tidal cycles, but the river freshwater discharge influences the local conditions in the tidal stretch of the river significantly. In the tidal section of the waterway, in general terms, the water will continue to flow down-river on the ebb (falling tide). However, the flow direction is reversed to flow up-river on the flood (rising tide). One of the important feature of tidal stretch of NW-1 is presence of tidal bore21 which is significant risk to navigation. When a tidal bore forms in a river, the direction of flow of the water changes abruptly as the bore passes. There may be significant surges for some time after the passage of the bore wave. KoPT predicts the occurrence of the tidal bores for the year. 21 A tidal bore (or bore) is tidal phenomenon that, in particular conditions, causes the flooding tide to propagate up an estuary as a distinct wave resulting in high energies on the river bed and in the water column and a rapid change in water level associated with passage of the wave. At low water, during spring tides, the flow of the flood current is checked by the shallow and restricted bed of the Hugli River and by the seaward flow of water from the upper reaches. These conditions can lead to the creation of a tidal bore. The Hugli River tidal bores are associated with periods of large tidal ranges 61 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 B: ALTERNATIVE ANALYSIS 3.12. Analysis of Alternatives Analysis of alternatives is an analytical comparison of the operational effectiveness, costs and environmental and social risks of proposed development options. This helps to analyse the options critically in relation to its impacts on all physical, social and biological environment. For this project, alternative analysis has been made for three considerations, i.e. strategic, planning and technology consideration and they are briefed below 3.12.1. Strategic Consideration This analysis enables us to justify that why and how much the project is viable. A comparison is made for “With” & “Without” project scenario for the physical, social and biological environments. This helped in assessment and comparison of the potential impacts on these environments in both the scenario. The scenario having minimal impact is recommended for selection. This has helped us to find the benefit of development of the project. Detailed analysis is given below in Table 3.16. Table 3.16 : Alternative Analysis- “With & Without Project Scenario” Environment Without Project With Project Status of IR is oversaturated23 in many IWT mode will facilitate shift of the Transportation sections. Ideally coal and iron ore are freight from roads & IR leading to Infrastructure22 supposed to be trucked by road for reduction in congestion on already short distances, mainly from mines to congested IR & roads. This may rail sidings only. However, at present reduce the need of expansion and larger volume of cargo is being will make the transportation safe transported via road due to and reliable. Infrastructure insufficient capacity of IR. development for developing Road network is also not sufficient waterway involves comparatively and adequately developed especially lesser expenditure than required in minor towns/villages. Density of for developing IR & road network road network in India is high but the for transportation of equivalent road quality suffers in terms of amount of freight. pavement thickness, distressed bridges etc. Thus to cater the freight transportation, there is high need of 22 Transportation network for freight and passenger is backbone of economy of every country. Transportation network should be robust, reliable, cost efficient, time efficient, energy efficient and environment friendly which can ensure in time delivery of goods with no or minimal emissions or pollution involved. Economy of India is world seventh largest in the world by nominal GDP. But various hurdles are in the way to achieve further higher economic growth and some are inadequate transportation network & infrastructure, poverty, unemployment etc. India‟s rail network is world‟s 4th longest and most heavily used system in the world a nd India‟s road network is 2nd largest road network in the world. But due to its high population, India‟s road & railway network is over utilized and insufficient to cater the freight transportation requirement of the country. Thus there is need of expansion of the road/ railway network or to find out alternate & efficient mode of transportation 23 Oversaturation has implications for the quality of service of freight trains and severely restricts IR to meet customer expectation. Some of the section of IR has been working above their capacity, especially on eastern corridor line, i.e. Delhi-Howrah Currently this route face 140-150% of capacity utilization and rail route is considered congested, if its utilization is more than 80%. Speed of the freight trains remained stagnant from 25-29 kmph against design average speed of 60 kmph. Majorly nine commodities are transported through trains such as coal (46%), iron ore (13%), cement (11%), fertilizers (5%), steel (5%), raw material for steel plants (5%) except iron ore, cement (11%), food grains (5%), petroleum products (4%) and container traffic (4%) and others (2%) 62 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Environment Without Project With Project expansion & improvement of IR & road network. Physical GHG Emissions: In this scenario GHG Emissions: Their will be Environment GHG emissions associated with overall reduction in GHG emissions freight transportation through rail/road in case the cargo transport mode is mode will continue to generate GHG changed to IWT as this mode is (under as usual scenario), there by energy efficient (detailed GHG continuous increase in the CO2 emission estimates have been emissions take place. GHG made for LCA analysis) As per Emissions associated for movement analysis carried out, it is estimated of cargo (based on maximum terminal that CO2 (potential GHG) capacity as planned in phase I) emissions associated with IWT for through rail & road modes (without freight transportation (calculated for NW1 as business as usual scenario) maximum cargo upto maximum are 84 billion & 277 billion g/yr terminal capacity as planned in respectively. phase I) from Haldia to Varanasi is 4.54 million tonnes/yr. Ambien Air Quality: There are three Air Quality: As IWT is more aspects: one is the continuation of energy efficient the exhaust increase in air pollutants(calculated related emissions are going to for maximum terminal capacity as reduce proportionally. As per planned in phase I) through rail & these estimates that the NOx; SOx; road modes are 9.9, 2.8; 1.3, 1.28; CO; PM & HC emissions 3.9, 1.06; 1.6, 0.5 & 2.77, 0.5 billion associated with the model shift in g/yr respectively. The second is the transport to IWT for freight additional increase traffic on roads or transportation (calculated for rail network because of additional rise maximum terminal capacity as in cargo transport. Such additional planned in phase I) from Haldia to rise is going to create congestion in Varanasi is 2.3; 0.36; 0.99; 0.2 & the roots used and thereby causing 0.5 billion g/yr. more emission per km travel. Third is However, the truck exhaust related need for additional infrastructure to air pollutant emissions in cater the new higher transport immediate vicinity of the terminals demand by road and/or rail modes are likely to increase due to rise in which will costly and require vehicular activity of trucks and additional land as compared to IWT other vehicles due to requisite pre as well as higher pollution. Besides, and post haulage from cargo the impact on terrestrial biology due terminals. The impacts of such in to cutting of trees required for ambient air quality can be mitigated expansion of road/railway network will or reduced by adopting the further deteriorate the air quality. proposed EMP which includes even measures like site planning, adopting fuel shift or vessel/barge design, requisite operational norms of IWT vessels/barges etc., Besides there are number of impacts during construction as well as operational phase of different interventions envisaged for IWT mode warranting compromise EMP 63 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Environment Without Project With Project to mitigate the respective impacts. . Water Quality: Due to construction of Water Quality: Similarly, there are more roads for rise in road traffic number of activities (as detailed in demand will result in more paved respective reports) during surfaces, there by rising the surface construction as well operational run-off (which may also be phase of IWT implementation contaminated with oil and grease- however, these impacts have been accidental or used oil/grease) causing assessed and mitigated to the pollution of water bodies land extent that residual impacts are environmental impacts. minimal and not significant. The examples of such activities include increased contaminated run-off from construction site, pilling and dredging activities, plying of vessels/barges, usage of antifouling paints, accidental release of spillage of oil cargo etc. Loss of agricultural land and top Loss of agricultural land and top soil: The continual expansion of soil: Land requirement is minimal railway and road network to meet the and is required only for additional freight & passenger development of civil interventions transportation requirement of the like terminal, jetties, locks. Land country, warrant additional acquisition requirement is far less than the of agricultural land and loss of top soil land required for road & railway (more probable). Also construction projects. soil is to be sourced to burrow pits which is often located in agricultural fields. Material Sourcing: Construction Material Sourcing: Construction materials like asphalt, aggregates, material like aggregates, cement, soil, paints, steel, cement etc. will be sand, steel etc. will be required for required for repair and maintenance construction of navigational of existing road/railway and facilities and river bank protection expansion of road/railway. Material works. However, the material requirement for construction of requirement is comparatively lesser road/railway are fairly large as than required for maintenance and compared to IWT interventions expansion of road & railway required. networks essential for these transport modes Terrestrial & Terrestrial Ecology: Terrestrial Ecology: Aquatic ecology Terrestrial ecology will not be directly Impact on terrestrial flora is 64 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Environment Without Project With Project impacted in without project scenario. anticipated only if the land acquired However, the very need of expansion for development of civil of road & railway network to increase interventions supports vegetation. While selection of site, areas of the freight transportation may involve ecological importance and cutting of large nos. of trees and/or protected areas are avoided. impacting the forest areas affecting the terrestrial ecology. Also the existing road crosses various eco- sensitive zones & forest areas and expansion if such roads will have greater impact on terrestrial ecology. Aquatic ecology Aquatic Ecology: Road/railways running along NW-1 Development of off-shore crosses river Ganga at various structures, barge operations and locations. Construction of bridges dredging activities has significant leads to deterioration of aquatic impact on aquatic ecology which ecology due to reduction in flow. requires to be managed adequately Expansion of these bridges & to minimize the impact. construction of new bridges will have significant impact on aquatic ecology Socio-economic Loss of Valuable Time and efforts: Loss of Valuable Time and Environment In without project scenario, efforts: Shift of freight to IWT insufficient transportation system will mode will reduce the congestion on persist. Delays in material road/rails thereby reducing the transportation and gaps in need and congestion. Also IWT ensures supply will persist. Public at large will timely delivery/transportation of the continue to waste time in waiting at material due to systemized traffic jams triggered at railway movement of the vessels. crossings and roads. Pressure on land: Expansion of Pressure on land: Land road/railway network will involve loss acquisition may be required for of land and livelihood of the farmers. development of the civil intervention facility but it will be comparatively lesser than rail/road Pressure on Existing Resources: projects People tends to settle in the area Pressure on Existing Resources: which has good connectivity leading Increased traffic movement and other activities are anticipated at to congestion in the area and location of civil interventions which increased pressure on the existing may lead to increase in pressure of resources of that area. existing resources like road, water Movement safety: Road supply etc. of that area. transportation is highly vulnerable to Movement safety: IWT mode is accidents. Accidents involve loss of safest mode of transportation. life, injuries and damage of road infrastructure. 65 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Environment Without Project With Project Employment Opportunities: Employment generation involved only Employment Opportunities: for construction of new road/railway Employment generation is alignment and maintenance of anticipated at proposed civil road/rail networks interventions and large no. of indirect employment may generate due to the increased freight transportation Conclusion for Strategic Alternative Analysis: Analysing both the scenarios for above mentioned criteria it is concluded that “With Project Scenario” is beneficial for all physical, biological and social environment when compared to “Without Project Scenario”. With Project Scenario will improve the fre ight transportation efficiency, reduce the GHG emissions, fuel requirement, air emissions, land acquisition, tree cutting and land requirement required for maintaining and expanding road/railway network. However significant impact is anticipated on water and aquatic ecology in “With Project” scenario for which mitigation and management plans are prepared to minimize the impact. 3.12.2. Planning Consideration This involves the consideration of options involved in planning stage, i.e. location of the proposed interventions, suitability of site, design of the project layout and dredging extent. This enables to select the option having best planning/design with minimal implication on physical, biological & socio-economic environment. Since the EIA is carried out in tandem with the detailed engineering study, thus this facilitated to undertake the analysis of proposed alternatives with environmental point of view and planning is done on the basis of suggestive outcome of the environmental alternative analysis study. Detailed planning alternative analysis carried out with environmental perspective is discussed in sections below a. Selection of Locations for Civil Interventions Locations are selected for proposed civil interventions (terminals/jetties) on the basis of potential of freight/cargo generation of the area and its connectivity with other modes of transport (rail & road). Ten such locations were selected for development of 6 nos. of terminals and 1 no. of lock. One of the probable location at Bhagalpur was ruled out due to presence of Vikramshila Gangetic Dolphin Sanctuary and based on “NO GO” areas identified in Basin Level Critical Resources Assessment study. Some sites like site at Varanasi and Sahibganj were already identified by IWAI for development of terminals and land acquisition process was initiated so no alternatives were considered for such sites. Also alternatives for sites located on Government owned lands like Haldia terminal (located within industrial area) are not considered due to its insignificant impacts on socio-economy and 66 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 environment. However, acceptability of these sites from environmental aspects were assessed which were found acceptable. Also with location perspective, a lock is required to be constructed at Farakka only near the existing lock. Thus for construction of lock also the location is pre-decided as per requirement. Alternative analysis of locations was carried out for social, environment and engineering feasibility. Detailed location alternatives analysis is given below in Table 3.17 below. 67 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table 3.17 : Location Alternative Analysis S. Developm Advantages Disadvantages Selec Remarks Site Map No. ent, Site & tion Location Statu s 1. Terminal Environment Environment Selec No alternatives site at Considerations: Considerations: ted assessed as site Varanasi, Very less tree cutting Varanasi turtle already selected and associated (8 khajur sanctuary located land already U.P. tree & 4-5 babool at app. 2.3 km acquired. shrubs) downstream of the Anticipated impact on Social site in North turtles due to barge Considerations: direction movement is Site is agricultural Social analysed to be low as fallow land with no Considerations: nos. of barge development Site not directly movement will be Site already connected to any app. 1-2 per day with acquired by IWAI public paved road regulated speed of Site is accessible at present 5kmph. and is close to highways, roads & railway Settlements located are at app. 500 m from site thus minimal impact due to project activities Design Considerations: Availability of LAD required for berthing and movement of barges 68 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 2. Terminal Environment Environment Selec No alternatives site at Considerations: Considerations: ted assessed as site Haldia, No/very less tree Haldia was listed as located on Govt. land cutting involved critically polluted and is within the W.B. Area located within area by MoEF&CC industrial complex. industrial area thus but now moratorium Dredging can be raw materials to be on further minimized as per transported available development have requirement of the in shorter distance been lifted on 17th freight transportation Social September 2013. Considerations: Social Site located within Considerations: industrial zone of Haldia listed as Haldia Dock notified zone by complex CGWB for No R & R as site extraction of water, belongs to Haldia however no ground Dock Complex water usage is Site well connected proposed with roads & Design railways Considerations: Design Requires significant Considerations: maintenance No river bank dredging protection is required as already carried out by Haldia Dock Complex Site close to Haldia Dock Complex and can share the facilities 69 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3. Terminal Environment Environment Selec All the negative site at Considerations: Considerations: ted impacts listed are Sahibganj, Location of stone Requires cutting of manageable with quarries in nearby app. 600 trees proposed Jharkhand areas thus locally (orchard) environment & social available material to Existence of management plans be transported dolphins in this thus no major Site is not part of or stretch of River drawbacks close to any eco- which is Schedule 1 associated with the sensitive location species as per site Social Wildlife Act, 1972 Considerations: Social Sahibganj is one of Considerations: major centre of the Involves R & R thus Jharkhand for significant social sourcing building & impacts but site construction material acquisition already Site is close to initiated highway & railways, Site is not i.e. within 1-1.5 km connected to any Design paved road at Considerations: present, approach Availability of road is required to sufficient depth for be constructed berthing & Design movement of ships Considerations: at app. 75 m inside River banks and the river and thus bed are required to minimum dredging is be protected from required erosion & scouring 70 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 4. Terminal Environment Environment One Analysis to be carried site at Considerations: Considerations: site out for selection of Ghazipur, Sites are not part of Dredging may be select one of the two sites or close to any eco- required to carry ed at considered. No major U.P (2 sensitive location out at one of the Ghazi environment, social sites pur or design issue Social selected location considered Considerations: Design associated at Railway and Considerations: Ghazipur) agricultural land River unstable and available for locating channel gets silted the terminal up Good connectivity Availability of cargo 5. Terminal Environment Environment Not Lot of site site at Considerations: Considerations: Selec maintenance, river Ballia, U.P. Site is not part of or Site highly prone to ted training work, close to any eco- flooding dredging work are sensitive location Problems of involved Social sedimentation & Considerations: bank erosion and Site is close to road requirement of river & rail which training works connects to other Social cities like Varanasi, Considerations: Gorakhpur & Patna Approach road will App. 15 ha of have required to be agricultural land constructed for available at the connecting the site identified location Provision of railway Design connectivity to the Considerations: terminal site may Stretch is easily be a problem navigable Involves land Availability of acquisition 71 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 sufficient cargo for Design transportation Considerations: River is unstable and show migration High sedimentation due to confluence of secondary channel & tributaries near the site Presence of migration sand bars Potential of complex flows at confluence points of primary & secondary channel during medium & low flow 6. Terminal Environment Environment One No major site at & Considerations: Considerations: of the environmental near Locally available raw Requires tree two engineering and material (sand) for cutting sites social issues Doriaganj transportation Social consi associated with the (Semaria), dered site Site is not part of or Considerations: Bihar (2 close to any eco- May Involves land is sites sensitive location acquisition select considered Social ed at Considerations: Doraiganj Area well connected & by road & Railways to all major cities Kalughat) Agricultural land available for setting up terminal facility Design 72 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Considerations: River channel is stable No shoal formation and availability of LAD Availability of sufficient cargo for transportation 7. Terminal Environment Environment Not Stretch not feasible site at Considerations: Considerations: Selec for navigation and Barh, Site is not part of or Large nos. of tree ted large no. of tree close to any eco- cutting involved cutting required Bihar sensitive location Location of Social important bird Considerations: areas (IBAs) in Site close to road & Barh railways connecting Social site to the major Considerations: cities Requires demolition App 11.5 ha of of houses located agricultural land within site and available involves R & R Design Design Considerations: Considerations: Availability of Highly mobile river sufficient cargo for channel with transportation secondary channel especially coal due and large central to presence of TPP shoal (NTPC) Location of large pylon in the river obstructing the navigation 73 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 8. Terminal Social Environment Not High flooding risks site at Considerations: Considerations: Selec and navigational Kahalgaon Site close to road & Few trees located ted hazards and near the railway network at the site which Vikramshila Dolphin , Bihar connecting site with may require to be Sanctuary rest of the city & cut other cities Bank erosion App. 18 ha of prominent agricultural land with Site prone to no development flooding available Location near Design Vikramshila Dolphin Considerations: Sanctuary Relatively stable Social river channel Considerations: Availability of deeper Involves acquisition river channel along of land and R & R opposite banks activities Design Considerations: Presence of rocky outcrops in upstream of proposed site 9. Terminal Environment Social One One of the two sites site at Considerations: Considerations: of the is selected. No major Tribeni, Site is not part of or Involves land two environment, social close to any eco- acquisition and R & sites and design constraint W.B. (2 sensitive location R consi sites are dered Social Site is low lying and considered Considerations: requires significant is ) Site well connected land filling and thus select with road & railways have associated ed Availability of impacts like agricultural land borrowing of earth, Design loss of agricultural 74 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Considerations: soil etc. River is stable in this Design stretch Considerations: Availability of Some design sufficient cargo for constrains at both transportation the sites 10. New Lock Environment Environment One Site is to be selected at Farakka Considerations: Considerations: of the in Farakka as lock is Site is not part of or Inundation of two essential component close to any eco- existing land sites of navigation here. sensitive location consi No major Social dered environmental, Considerations: is design and social Land belongs to FBP select constraints and can be ed associated with transferred thus no Farakka site R & R involved No major development at the site Design Considerations: Lock is required at Farakka as existing lock is not properly functioning and is essential component of navigation channel of NW-1 75 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Conclusion for Location Alternative Analysis: Out of the total 10 locations, 6 locations were finalized for construction of terminal and one location is finalized for development of lock. Varanasi, Sahibganj & Haldia terminal sites were pre-decided. Also location of lock was pre-decided, i.e. Farakka. There is requirement of navigation lock in that stretch due to large water level difference in river & feeder canal and existing lock does not work optimally. Environmental, social and biological impacts of development of terminal & lock on these locations are identified and accordingly mitigation and management plans are developed. Remaining six sites were analysed from environmental, social, design considerations. Based on alternative analysis three terminal sites at Ghazipur, Tribeni, Kalughat near Doraiganj were considered as preferred sites for these interventions. The other three terminal sites at Barh, Kahalgaon &Balia were not considered feasible due to (i) various environmental considerations including proximity to Vikramshila Dolphin sanctuary and Important Bird Areas, (ii) design issues such as unstable river, presence of navigational hazards and high sedimentation rate (iii) social issues concerning acquisition of land and (iv) connectivity. Further alternative analysis was carried out for probable two sites at each of the above identified three terminal locations and Farakka lock based on environmental, social and design consideration. As per this analysis the preferred sites for these intervention locations were considered for design and environmental impact assessment. b. Selection of specific site at each selected location One or more sites were analysed at each selected locations for setting up proposed terminal or lock facility. Sites were selected and analysed for environmental, social and design consideration and the analysis is given in Table 3.18. 76 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table 3.18 : Site Alternative Analysis S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n 1a Termina Environment Environment Not Dredging requirement l site at Considerations: Considerations: selected is too high and it will Ghazipu Site is not part of Requires large have high associated or close to any quantity of cost and damage to r, U.P.- eco-sensitive dredging and aquatic environment Site 1 location thus high threat Social to aquatic Considerations: ecosystem and Site belongs to issues of Indian railways disposal of and thus does dredged sand not involve R & Social R Considerations: Site directly Land available is connected with only 3 ha which existing IR and is insufficient for connects to NH terminal through small development paved road without any Availability of the demolition and cargo traffic. NH- requires 97 has large demolition of 20 volume of traffic houses to which can be acquire 2 ha diverted here additional land Design Considerations: Site located on secondary channel of River 77 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n Ganga which is silted up and is dead channel 1b Termina Environment Social Selected No major l site at Considerations: Considerations: environmental and Ghazipu Site is not part of No paved road social impact or close to any connecting the anticipated with site r, U.P.- eco-sensitive site and and will also help in Site 2 reducing the freight location approach road is Social to be constructed load from NH-97 Considerations: Involves land thereby reducing Site is private acquisition GHGs and other air agricultural land Design pollutants with no Considerations: development on River is not it stable at this Good road & location and railway River training connectivity of works may site. require to be Design carried out Considerations: Site is located on main channel of River Ganga Availability of LAD of 2.5 m close to shoreline Availability of the cargo traffic. NH- 78 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n 97 has large volume of traffic which can be diverted here 2a Termina Environment Environment Not Involves tree cutting l site at Considerations: Considerations: Selected and acquisition of Doriaga Locally available Requires tree agricultural land nj raw material cutting (sand) for Social (Semari transportation Considerations: a), Site is not part of Involves land Bihar or close to any acquisition eco-sensitive location Social Considerations: Area well connected by road & Railways to all major cities App. 12 ha of agricultural land is available for development of terminal. Land does not support and development at present Design Considerations: 79 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n River channel is stable No shoal formation and availability of LAD Availability of sufficient cargo for transportation 2b Termina Environment Social Selected Site has no l at Considerations: Considerations: environmental, design Kalugha Locally available Involves & social issues raw material acquisition of associated t, (sand) for land Sitabga transportation nj, Bihar No environmental sensitive location will be affected Social Considerations: Availability of sufficient land Site well connected by road & railway Site is vacant and involves no development Design Considerations: 80 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n Availability of sufficient LAD River section suitable for navigation 3a Termina Environment Environment Selected Availability of l site at Considerations: Considerations: sufficient cargo, no Tribeni, Site is not part of Site is low lying major environmental or close to any area and issues, stable river W.B.- eco-sensitive requires filling channel with Site 1 manageable river location Social Social Considerations: bank protection works Considerations: Involves land makes site suitable Site is close to acquisition and R for terminal road & railways &R development which will Design connect site to Considerations: rest of the town Site located on and other cities inside bend of App 40 ha of the river and agriculture/brick naturally deep kiln land water is available available on opposite bank Design of the river Considerations: Requires River is stable in maintenance this stretch dredging for Availability of maintaining berth sufficient cargo pocket and for transportation approach Site is not part of channel to 81 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n or close to any terminal eco-sensitive location 3b Termina Environment Environment Not Disadvantages cannot l site at Considerations: Considerations: Selected be overcome through Tribeni, Site is not part of River training mitigation and or close to any works are not management W.B.- eco-sensitive acceptable at the measures Site 2 location site due to built Social up nature of land Considerations: Site is low lying Availability of 10 and requires ha of agricultural significant land land for filling and thus development of has associated terminal with no impacts like development borrowing of Site is located earth, loss of close to railway agricultural soil and road etc. connecting site Social to other cities Considerations: Internal road of Site is located in city connects site thickly populated to the highway area Design Traffic pressure Considerations: on internal city Availability of road will increase sufficient cargo significantly after for transportation development of 82 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n terminal and its expansion will be problem due to location in thickly populated area Design Considerations: Extension of railway line to the site is not easily feasible Possible water intake is located within the site A channel connecting to the main river at both ends is traversing the area & is probably a source of water for intake structure for water supply to the town Shallow water depth along the river bank and dredging will be required to 83 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n maintain the approach channel 4a New Environment Social Selected No disadvantage Lock at Considerations: Considerations: associated with the Farakka Site is not part of Some farmers site and is better w.r.t or close to any practice the second site Parallel eco-sensitive agriculture on the selected for to development of the location FBP land existing Social lock lock Considerations: Land belongs to FBP and can be transferred thus no R & R involved No major development at the site Land required is 14.86 ha Design Considerations: Length of extension of U/s channel is 190 m & D/s channel is 310 m Dredging requirement of 0.5 lakhs cum in 84 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n U/s approach channel and 0.8 lakhs cum in D/s approach channel to maintain LAD of 3m Length of FBP road to be realigned-675 m Length of boundary wall to be constructed- 1180 4b New Environment Environment Not No major environment Lock at Considerations: Considerations: Selected or engineering issues Farakka Site is not part of or Social associated but close to any eco- Considerations: parallel site is better D/S of sensitive location Land required is in all respect to this existing Social site 26.46 ha, large lock Considerations: as compared to Land belongs to other option FBP and can be considered transferred thus Design no R & R Considerations: involved Length of No major extension of U/s development at channel is 575 m the site & D/s channel is 460 m Dredging 85 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. Develo Advantages Disadvantages Selectio Remarks Site Map No pment, n Status . Site & Locatio n requirement of 1.5 lakhs cum in U/s approach channel and 1.5 lakhs cum in D/s approach channel to maintain LAD of 3m Length of FBP road to be realigned-980 m Length of boundary wall to be constructed- 1672 86 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Conclusion for Site Alternative Analysis: Alternative sites were selected in case of 4 selected locations for development of terminals and lock, i.e. terminal site at Gazipur, Tribeni and at/near Doraiganj and lock site at Farakka. Considering environmental, social and environmental implications of development of terminal, suitable sites are selected. c. Design Planning After selection of site for development of the terminals, alternatives are selected for layout design and alignment of proposed roads and railways for connecting the site. Design planning helps to optimize the project cost during construction as well as during operation phase. Such alternatives are considered at few locations as per the requirement of locations. Details of the same are given in sections below. Alternative layout designs and location of road/rail alignment to provide connectivity is assessed in case of Sahibganj terminal & Farakka lock only. No major issues are associated with the Varanasi & Haldia site so no alternatives were considered i. Alternative layout Designs at Sahibganj Site Two layout designs were considered for development of the terminal at Sahibganj site. Alternative 1 involves construction of U shaped jetty (25 m), aligned parallel to the River bank and connected to bank by approach trestle of 50 m and alternative 2 involves construction of jetty at the river bank aligned parallel to it. Both the alternatives were compared on multiple criteria, i.e. operational considerations, navigational aspects, ease of construction & maintenance, flexibility of expansion, construction cost and environmental consideration. Detailed multi-criteria analysis for both the alternatives considered is given below in Table 3.19. Table 3.19 : Alternative Layout Analysis of Sahibganj Terminal S. Criteria Anternative-1 Alternative-2 No. Description 1. Dredging at Jetty As the berth is located in deep As the berth is located on river water and connected to shoreline bank itself where shallow water is by approach trestle, there is no available, there is requirement to requirement to carry out the carry out the dredging. dredging. 2. Dredging in As there are some pockets in Same as Alternative-1 but the approach approach channel, turning circle dredging quantity is worked out to channel, turning and maneuvering area where be more in this alternative. circle and water available is less than the maneuvering required draft of design vessel, area dredging is required to be carried out. 3. Scope for As sufficient river front is available, Same as Alternative-1 Expansion there is enough scope for expansion in Alternative-1. 4. Degree of As the cargo is proposed to be Same as Alternative-1 Operation handled by combination of dumpers, pay loaders and barge loaders in Phase-1, the degree of operation is good in this alternative. 87 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 5. Ease of As Alternative-1 involves As Alternative-2 involves Construction construction of jetty along with 50 construction of jetty at river bank m long approach trestle, the only, the construction can be done construction can be carried out easily in relatively short time as easily by well-established methods. compared to Alternative-1. 6. Cost of The cost of construction for The costs of construction for Construction Alternative-1 works out to be Alternative-2 is marginally lower marginally higher in comparison to than Altenrative-1. Alternative-2. 7. Environmental Reduced dredging requirement will Larger dredging will have Consideration have lesser need for disposal of comparatively larger disturbance to dredged material and also will have river system and aquatic life. lesser disturbance to river system and aquatic life. 8. Layout Based on multi criteria matrix presented above, both the alternative layouts have certain advantages as well as disadvantages. It could be observed that in terms of available required depth round the year without need of dredging and marginal cost difference between two alternatives, and environmental consideration Alternative-I is preferred alternative for development of IWT Terminal at Sahibganj in Jharkhand. ii. Alternative Layout Design of Farakka Lock Two Options for locating the new navigation lock have been considered. In Option - I, the new lock will be located parallel to the existing lock and in Option - II, it will be located D/S of the existing lock. Sufficient distance between the two locks has been kept in Option 1 so that there is no danger to the structure of existing navigation lock. Detail comparison of Option-I and Option II is provided in Table 3.20. Table 3.20 : Alternate Site Analysis (Option-I & Option-II) S. Parameter Option-I Option-II Remarks No. 1 Land 14.86 26.46 Land required in Option-II is almost Required (ha) two times 2 Length of 190 575 Length is almost three times in extension of Option-II as compared to Option-I. U/S Approach While Option-I involves construction Channel (m) of only the left Bank of the channel and protection works on left bank only, Option-II involves construction of both the banks of the channel and bank protection works on both the banks. This means additional cost in Option-II. 3 Assuming 0.05 0.15 Quantity of excavation in Option-II is 88 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 water depth almost three times than that in Option- of the I. channel as 3- m, approximate quantity of dredging in excavation for U/S Approach Channel (million mm3) 4 Length of 310 460 Length is 150-m more in Option-II. extension of While Option–I involve construction D/S Approach of only the left bank of the channel Channel (m) and protection works of left bank only, Option-II involves construction of both the banks of the Channel and bank protection works on both the banks. This means additional cost in Option-II 5 Assuming 0.08 0.15 Quantity of excavation in Option-II is water depth almost double than that in Option-I. of the channel as 3- m, approximate quantity of earth work in excavation for D/S Approach Channel 6 Length of 675 980 Length of the road to be realigned is FBP almost 50% more in Option-II. It Inspection means requirement of additional land Road to be as well as additional cost. realigned (m) 7 Length of 1180 1672 Length of the boundary wall in Option- Boundary II is about 500-m more than the length Wall to be in Option-I. It means requirement of constructed additional land as well as additional (m) cost. 8 Layout Design Option-1 Option-2 In view of advantages of Option, I over Option II as listed above, the Option I (locating new Lock parallel to the existing lock) is recommended. Dredging requirement for option I is almost half the requirement in option II. Length of extension of U/s & D/s approach channel 89 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 is almost three times in option II as compared to option I. 675 m of existing FBP road will required to be realigned in option I whereas 980 m will be required in option II. Thus it is anticipated disturbance in case of option II is more than that in option I. Thus it is recommended to adopt the option I. Present EIA study has been carried out considering the impact of considered option I only. iii. Alternative Approach Road Alignments: Sahibganj Terminal At present site is not connected with any paved road. It is proposed to develop a four lane approach road to connect the site to NH-80. Two alignments are considered for development of the six lane road. Both the alignment‟s start & end points are at the same location and both alignments will cross the LC-54 of existing Railway line. On LC-54, it is proposed to provide the ROB to ensure smooth movement of vehicles. Comparative analysis of both the alignments is given below in Table 3.21 Table 3.21 : Alternative Road Alignment Analysis for Sahibganj Terminal S. Criteria Anternative-1 Alternative-2 No. Description 1. Environmental Cutting of trees Cutting of trees Consideration 2. Social This alignment involves widening Large land acquisition but lesser Consideration of the rural road and large nos. of displacement & dislocation. households will be impacted. Movement of large no of trucks will cause increased noise level in village area. 3. Design Length of this alignment is app. 1 Length of this alignment is app. 1.5 Consideration km. Brownfield alignment and km. Greenfield alignment. involves improvement of rural road. 4. Alignment Based on alternative analysis, it is concluded that environmental & social impacts on both the alignments are equal as both alignment involves tree cutting, land acquisition and displacement & dislocation of pucca structures. However, considering the design, alternative 1 is found to be more feasible. iv. Alternative Railway Siding Alignments Considered for Sahibganj Site It is proposed to develop railway connectivity for terminal site with existing Railway Line. Three options are considered for giving the connectivity to the terminal site and are given below. 1st Option-Near Sahibganj railway Station 2nd Option-From Level Crossing Gate No. 53 or 54 at Sakrigali Railway Station 90 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3rd Option-From loop line at Sakrigali Railway Station All the three options are analysed for environmental, social and design consideration and detailed analysis is given below in Table 3.22. Table 3.22 : Alternative Railway Siding Alignment Analysis for Sahibganj Terminal S. Criteria No Descrip Anternative-1 Alternative-2 Alternative 3 . tion 1. Descript Railway track is proposed Two sub-options as Railway track is ion to take-off near Sahibganj Options 2A & 2B are proposed to take-off from Railway Station and identified where the loop line at Sakrigali following existing main railway track from Level station and following a U- line leading to the Crossing Gate No. 53 & turn leading to the entrance of the terminal 54 shall take-off and entrance of the terminal following the curve leading to the entrance of the terminal 2. Environ Involves tree cutting Involves tree cutting Involves tree cutting mental Conside ration 3. Social Involves land acquisition, Involves land acquisition, Involves land acquisition, Conside disturbance to pucca disturbance to pucca disturbance to pucca ration structures and R & R structures and R & R structures and R & R 4. Design This option is not found to Both these sub-options Found feasible Conside be feasible as no railway have not been found to be considering the length of ration land is available near feasible in view of the track, permissible Sahibganj Station to have high level difference gradient, degree of curve additional track and also between the track and and cost involved length of track works out terminal area exceeding to be on higher side. the permissible gradient and curve limits under the Railway rules. 5. Alignme nt Based on alternative analysis, it is found that only alternative 3 is technically feasible. Social & environmental implications of all the three alignments are same. d. Maintenance of LAD Dredging is required to be carried out so as to maintain the length and width of the channel and maintain LAD near the berths/jetty. IWAI proposed either maintaining 3m LAD throughout the NW-1 stretch or maintained different LAD in different stretches (3 m Haldia to Barh, 2.5 m from Barh to Ghazipur and 2.2 m from Ghazipur to Varanasi). Alternative analysis was carried out for both these options considering environmental (dredge quality, impact on aquatic ecology and water quality), social (cultural and aesthetic value, 91 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 employment and socio-economic consideration) and technical feasibility (dredge quantity, navigation feasibility, economic aspects, dredgers and other infrastructure requirements). Both the options have their pros and cons and are discussed at Table 3.23. Table 3.23 : Alternative Analysis for Dredging Quantity Considerations Option 1 (3 m LAD Option 2 (LAD of 3 m Remarks in entire NW-1) Haldia to Barh (Bihar), 2.5 m from In Barh to Ghazipur and CUM 2.2 m from Ghazipur to Varanasi) In CUM Dredging Quantity in 31,079,576 1,48,50,000 Option 2 is app. 50% Dry Season of option 1 hence less environmental, social and economic impacts associated with option 2 Navigation In entire NW-1 Possible from Haldia Option 1 provides to Varanasi during dry better navigation season facilities Cost High Comparatively lower Cost in option 1 is app. double the cost in option 2 due to doubling of quantity Dredgers and other 32-33 (if dredgers 12 (if dredgers work Requirement of infrastructure work for 10 hours in for 10 hours in month dredgers and dredging requirement month of 25 days in of 25 days in double infrastructure is more double shift) shift for 8 months) than double in option 1 as compared to option 2 Disturbance to social, Comparatively more Comparatively less Option 1 will have cultural and aesthetic than option 2 than option 1 more disturbance as it value covers the larger stretch Disturbance to aquatic Comparatively more Comparatively less Option 1 will have flora & fauna than option 2 than option1 more disturbance as it covers the larger stretch Employment More Less Since the dredging is to be undertaken at larger stretch in option 1, employment to larger nos. of people will be provided in 92 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 option 1. As per above analysis option of maintaining different LAD at different stretch was found most preferred option. 3.12.3. Technology Consideration This enables to select the technology best suited for the site specific environment and having minimal implication of environment, social and biological component of environment. Technological consideration for selection of type of dredgers is made as maintenance dredging is one of the crucial activities of operational phase which will be continued for app. 8 month every year. a. Selection of Material Conveying System Within Terminal Site Initially it was planned to transport the material from Railway siding to stockyards to barges and vice versa through the barges/dumpers at Sahibganj Terminal as per feasibility report. But looking into the environmental impacts including the dust emissions during loading and unloading, vehicular emissions, oil spillages from transportation vehicle movement and repair, alternative system for material transportation within the terminal called as mechanical conveying system was analysed and considered as best option as it can drastically reduce the dust emissions. It was found more suitable also due to presence of residential areas (villages) closet Sahibganj terminal. This has been adopted in the plan of Sahibganj terminal. b. Selection of Dredger Selection of dredgers is important as selection of dredger has environmental implications such as effect of production rate on the project duration, the levels of turbidity and suspended sediment concentrations generated relative to background levels, the proportion of total sediment lost to the environment and the degree of contamination in the sediment. Typically, CSDs have least effect on turbidity at the dredging site and TSFDs produce similar low turbidity when used without overflow. Grab dredgers and TSGDs when used with overflow, produce significantly high turbidity throughout the water column near the dredging site than do CSDs. However, reverse is true for placement site. CSDs and TSHDs fluidise the sediments by mixing them with water than the mechanical dredgers do. Fluidized sediments by CSDs and TSHDs causes discharged material to cover larger area when unconfined. Comparative analysis of types of dredger and their relative performance related to environmental aspects is given below in Table 3.24& 3.25. Table 3.24 : Comparative Analysis of Dredgers and Their Relative Performance Related to Environmental Aspects Type of Safety Accuracy Turbidity Mixing Spill Dilution Noise Dreger Suction + - + - - 0 + dredger CSDs + + 0/+ 0/+ 0 0 + TSHD +/0 - -/0 - 0 - + Bucket - + -/0 0/+ + + - Ladder Dredger Backhoe - + -/0 + + + + 93 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Type of Safety Accuracy Turbidity Mixing Spill Dilution Noise Dreger Dredger Grab - - -/0 0 + + + Dredger + is better than average, 0 is average and – is below average Table 3.25 : Comparative Analysis of Different Type of Dredgers Related to Environmental Aspects Attributes CSD Hopper Grab/Bucket Back hoe Dredgers Dredger Dredger Type Hydraulic Hydraulic Mechanical Mechanical Strata All type-soil, Silty and gravel Silty, gravel, mud Clay & Gravel sandy, silty and and soft rock rocky Usage Inland waters Coastal areas Coastal waters Shallow waters and inland waters and confined places Underwater 172-185 d B 186-188 dB Less 186-188 dB Noise levels at 1 m- underwater at 1 μPa2m2 Ambient Air 100-115dB (A) 100-112dB (A) 115dB (A) 110-118 dB(A) Noise Level dB(A) Suspended Ordinary 4,000 2.4-5.2 0.4-5 -- Sediment PS1/- 2.2 – 4.5 Generation Ordinary 2,000 during dredging PS-0.1 – 0.3 (kg/cum)24- Annexure 3.1( Volume 3C) Suspended Ordinary 4,000 12-203 NA -- Sediment PS1/- 1.2 – 1.4 Generation Ordinary 2,000 during placement PS-NA of dredged material (kg/cum)25- Annexure 3.1( Volume 3C) Schematic Figure 3.11 diagram showing noise sources 24 Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992 25 Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992 94 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Cutter Section Dredger TSHD Grab Dredger Back Hoe Dredger Figure 3.11 : Diagrammatic Presentation of Different Type of Dredgers Showing Different Noise Source Conclusion for Selection of Dredgers The CSD was considered as most preferred option due to least associated environmental Impact and operational feasibility. As per experience of KoPT26 and IWT CSD has proved to be the best option and is considered for maintenance dredging planning and environmental impact assessment. Technical brief of the CSDs is given in Annexure 3.2( Volume 3C). 3.12.4. Integration of Analysis of alternatives and Design Input in project Design: Since studies were being carried out along with the feasibility report preparation, the output of alternative analysis and design consideration was discussed with the design team and incorporated in the project design. Some of the design changes include provision of mechanical material handling system at Sahibganj Terminal, dust suppression system at each terminal, provision of green belt all along the terminal boundary, integration of green building concept in terminal buildings, adoption of zero discharge concept at terminals and barges, rain water harvesting, emergency response planning, exploring feasibility of using 26 KOPT is using CSD dregeres. According to KoPT it is impractical to use trailer suction hopper dredger (TSFDs) for shallow draught dredging. TSFD is practically a barge mounted and in no way a viable option for inland waterways due to high cost, larger sailing distance and shallow waters. 95 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 low draft vessel and alternative fuels for barge operations. The project description details presented below includes the above considerations. C: DEVELOPMENT OF NAVIGATION CHANNEL, PLANNED AND PROPOSED PROJECT COMPONENTS The developmental activities include maintenance of Navigational Channel (Least Available Depth for Navigation), Barge operations, and Physical interventions (Such as construction of Terminals, Navigation Lock, River training structures, RO-RO Jetties). Details of these interventions are described below. 3.13. Least Available Depth for Navigation in NW-1 For navigation purpose, it is essential that minimum depth of the water is maintained in the river all the time of navigation. IWAI is currently maintaining LAD for managing the navigation in NW-1 through dredging and bandalling. Depths27 maintained by IWAI in different stretches currently is given below Haldia (Sagar) - Farakka (560 km)-2.8-3.0 m Farakka - Barh (400 km)-2.1-2.5 m Barh - Ghazipur (290 km)-1.6-2 m Ghazipur – Chunar/Allahabad (124 km)-1.2-1.5m Chuna-Allahabad (246 km)-No maintenance However, “Jal Vikas Marg” Project aims at maintenance of LAD to 3 m in entire NW -1. But to optimize the cost, deployment of dredgers, manage man-power and minimize environmental impacts, IWAI is focussing on different depths in different stretches at present. Haldia to Tribeni : 3 m (naturally available LAD) Tribeni to Farakka : 3 m (including Farakka Lock) Farakka to Barh :3m Barh to Ghazipur : 2.5 m Ghazipur to Varanasi : 2.2 m Varanasi to Allahabad (236 km)- no maintenance The above consideration also takes into account assessment of 10%, 50% and 90% frequency of occurrence of LAD during the dry season (Nov-June) for 2010-2015 carried out by design consultant which is shown at Figure 3.12. 27 As per the surveys carried out by IWAI, depths available in NW-1 naturally are as follows:. Haldia to Tribeni (196 km)- LAD of 3m- throughout the year Tribeni to Farakka (364 km)- LAD of 2.5 m – 320 days Farakka to Ghazipur (690 km)- LAD of 2 m- 200 days Ghazipur to Allahabad (370 km)-LAD of 1.5 m-170 days 96 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.12 : LAD Along the waterway for the 10, 50 & 90% frequency value 3.14. Maintenance Dredging in NW-1 Dredging is required to be carried out so as to maintain the length and width of the channel and maintain LAD near the berths/jetty. At present dredging of 0.7 million cum is being undertaken by IWAI between Farakka to Barh & Barh to Patna. However, for yearly maintenance dredging is planned as per required minimum LAD. Two options are opted for LAD. Option 1: 3m LAD thought NW-1(Haldia to Allahabad), Option 2: varied LAD between different sections between Haldia to Varanasi i.e. 3 m LAD from Haldia to Barh, 2.5 m from Barh to Ghazipur, 2.2 m from Ghazipur to Varanasi, and naturally available LAD between Varanasi to Allahabad (no dredging between Varanasi to Allahabad). Dredging quantity is estimated for achieving both the options in different sections. Dredging quantity is calculated for channel width of 45 m, and 1:5 side slope. Estimated dredging quantity will be as low as 50% in average flow conditions in option 2 compared to option1. Detail of dredging in different stretches is given in Table 3.26. For purpose of environmental impact assessment study, preferred option 2 is being considered. However, impacts of both option 1 & 2 are assessed in the impact assessment chapter. Table 3.26 : Dredging Volumes in different Stretches for Maintaining LAD in Navigation Channels and at terminal Stretch LAD (m) to be Average Annual Dredge Volume (cum) maintained as Present Day Option 1 Option 2 per option 2 2013-2014 Haldia to Tribeni 3m -- 2,400,000 2,400,000 including Haldia (2.4M cum) and Kalyani terminal (0.1 M cum) Tribeni to Farakka 3m -- 1,220,000 1,220,000 including Farakka navigation lock Farakka to 3m 3,70,000 1,570,000 1,570,000 97 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Kahalgaon including Sahibganj terminal(0.1 M cum) Kahalgaon to Barh 3m 2,390,000 2,390,000 Barh to Patna 2.5 m 3,30,000 3,189,534 1,600,000 Patna to Buxar 2.5 m -- 4,999,253 2,770,000 Including Kalughat terminal (0.5 M cum) Buxar to Ghazipur 2.5 m -- 5,793,355 1,060,000 including Ghazipur terminal at Nawapura (0.1 M cum) Ghazipur to Varanasi 2.2 m -- 1,840,000 including Varanasi terminal (0.1 M cum) Varanasi to Natural depth -- 9,816,710 Nil Allahabad Total 7,00,000 31,079,576 14,850,000 Source: HOWE Engineering Projects (India) Pvt. Ltd. (Design Consultant) India a. Requirement of Dredgers for Maintaining LAD in Navigation Channels: Maximum capacity of one dredger in one month is to dredge 50,000 cum of sand if there are 25 working days in month of 8 hours each. If dredger works at its maximum capacity for 6 months, then dredging volume per dredger of 3,00,000 cum can be achieved. Average volume to be dredged to maintain LAD in navigation channel as per option 2 is 14,850,000 cum/year thus it would require 50 dredgers working at their maximum capacity for 6 months. To optimize the nos.of dredgers, it is proposed to extend daily operation hours from 8 to 10 hrs so as nos. of dredgers required will be 40. If dredger works for 10 hrs in a day for 8 months, then dredgers required will be 24 nos. only. If dredgers work this way in 2 shifts, then no. of dredgers required will be 12 only. However excess dredging may be required when water levels are lower than average water levels during dry season. Dredging should be supplemented by bandalling works so as to increase effectiveness of dredging and reducing requirement of dredging. b. Type of Dredgers: CSD (cutter section dredgers) is proposed to be used for Jal Marg Vikas Project along with the agitation (plough dredger) dredgers and Backhoe Dredgers (BHDs). The dredging plant will require support vessels, including bunkering, survey, accommodation and tugs. Plough/agitation dredgers could be used to dredge shallow waters or removing high spots (dredge cut <0.5 m). Channel width is 45 m and CSDs used by IWAI have swing width of 35-40 m thus two CSDs can be deployed in pairs leaving the off-set to prevent overlap to dredge the channel. Dredging depth varies from 0.5-3 m, means about 1-4 cuts will be required to achieve the required depth (dredge cut <0.5 m). Water levels start reducing from mid-October and dredging operation would be required to be started during this period. Plough/agitation dredgers can be used in initial period to dredge shallow waters/ high spots. When depth reduces significantly by November CSDs will be used for dredging. Dredging operations will continue from mid-October to June. During monsoon season, i.e. July-mid October repair & maintenance of dredgers can be taken up. 98 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 c. Dredge Disposal: Disposal of dredged material through CSDs will be done through pipeline into the free stream of the river in a way to avoid material working its way back to dredged channel. This can be achieved by disposing in faster flowing water, downstream and to the side of the working dredgers and disposal of material into secondary channels or redundant channels. Material dredged by BHD will need to be placed in a barge and disposed of away from the channel as the reach of the BHD is unlikely to be sufficient enough to reach the faster flow for dispersion of the material. Therefore, it is required to find potential disposal sites for this material. 3.15. Physical Intervention 3.15.1. Navigation Aids a. Existing Navigation Aids on NW-1 Temporary channel marks for day navigation maintained between Tribeni and Allahabad all-round the year. Night navigation aids were maintained between Tribeni and Varanasi (1187km) with country boats/ MS poles fitted with navigational lights and beacons DGPS stations at Bhagalpur, Patna and Swaroopganj. 12 Nos. survey vessels. Thalweg surveys conducted fortnightly during low water period and on monthly basis in flood season 77 Cargo vessels deployed in operations between Haldia & Kolkata 3 nos. cargo vessels on voyage charter basis and 3 nos. cargo vessels on bare boat charter basis on NW-1, NW-2 and Indo-Bangladesh Protocol route Eight Cutter Suction Dredgers (CSD) one Hydraulic Surface Dredger (HSD) and one Amphibian Dredger (AD) for maintain LAD in NW-1 River Information System Development for Haldia to Farakka stretch which is 545 km in length. The project has 7 base stations, 2 control stations and has 30 vessel stations. Project costs app. INR 26.3 Cr. River information system is a form of vessel traffic management system using combination of modern technologies like automatic identification system, Radar, Meteorological & hydrological equipment and software information technology related services designed to optimize traffic and transport processes in inland navigation. The system enhances swift electronic data transfer between mobile vessels and shore stations through advance and real time exchange of information. RIS aims to streamline the exchange of information between various stakeholders of Inland Water Transport. The system facilitates exchange of real time information like, wind speed, fog conditions, danger areas, depth information, route details between operators and vessel masters. This system will enhance the inland navigation safety in ports and rivers and optimize the resource management of the waterborne transport chain which will enhance the efficiency of inland navigation and help in providing traffic and transport information to the operators for an efficient & optimal navigation on Ganga. This immensely helps in optimization of navigation and minimizes collision risks in the waterway thus benefitting the users greatly. 99 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 b. Planned/Proposed Navigation Aids on NW-1 under Jal Marg Vikas Project It is planned to develop navigation aids all along the NW-1 so as to ensure better navigation both during day and night. Navigation aids to be provided includes the following as per IWAI planning Upgrade the physical aids to navigation like channel marks, navigation lights, and signals between Haldia to Farakka Install comprehensive physical aids to navigation including navigation lights between Farakka and Allahabad Extending the NW-1 River Information System (RIS) to cover Farakka to Allahabad section also. Farakka to Allahabad stretch is further divided into Farakka to Patna and Patna to Varanasi stretch. Work on Farakka to Patna has already been started which is 410 km in length and the section Patna to Varanasi which measures 356 km is under tendering process. Farakka to Patna stretch will comprise of 6 base stations and 1 control station and cost for this stretch will cost INR 15.89 Cr. Patna to Varanasi stretch will comprise of 4 base stations and 1 control station and will cost INR 14.56 Cr. Communicating the key navigation data to users in real time e.g. detailed LAD, water levels, flow speeds, visibility, vessel congestion, operational status (one way/two traffic) etc. Other planned development to build better understanding of the waterway performance and sharing knowledge with the waterway users are detailed below. Target and prioritise immediate/short-term physical intervention measures based on feedback and reports of experience from waterway users. Collect comprehensive data on all navigation incidents, and near-misses. Analyse these data, and take appropriate actions to prevent similar occurrences in the future. Collect detailed waterway performance data e.g. vessel congestion bottlenecks, incident hotspots, and effectiveness of dredging/bandalling activities. Continuously monitor and analyse the performance to identify and prioritise waterway management activities, and report to users. Publish detailed navigational guidance information for key navigation challenges and bottlenecks. Update and upgrade the pilotage information available in the NW-1 River Pilot (particularly for middle and upper sections of the waterway) Introduce immediate- to short-term skills training programme for IWT vessel masters and crews Establish and enforce minimum competency levels and qualifications for all IWT commercial masters and crews. Establish a long-term training and apprentice scheme/system for all IWT commercial users. Build engagement with local waterway users (fishermen, ferrymen and sand miners). Establish an information feedback mechanism with these users. Raise awareness of risks (to all waterway users) and opportunities associated with additional IWT traffic on the waterway. 100 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.15.2. Navigations Infrastructure a. Existing Navigation Infrastructure Navigation infrastructure existing at NW-1 which facilitates the cargo transportation are listed below Low& High level jetties at Patna GR jetty in Kolkata Fixed Jetty at Farakka & Pakur Floating terminals at Haldia, BISN & Botanical Garden in Kolkata, Tribeni, Shantipur, Swaroopganj, Katwa, Hazardwari, d/s Farakka, u/s Farakka, Manglahaat (Rajmahal), Samdaghat (sahebganj), Bateshwarsthan, Bhagalpur, Munger, Semaria, Buxar, Ghazipur, Ramnagar (Varanasi) and Allahabad. Details of the location, Chainage, capacity, area, facilities of these above mentioned existing facilities in NW-1 are given below in Table 3.27. Map showing location of the existing developments in NW-1 is given in Figure 3.13 below. Photographs of some of existing facilities along NW-1 are given in Figure 3.14. 101 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Table 3.27 : Details of Existing Infrastructure in NW-1 A. Floating Terminals Sl. No. Name of terminal Land area Size of No. of Pontoon Cargo Handling Storage area Link approach Security Water/ Lighting Remarks with chainage (in Sq. m) berth, Barge & equipment road (in each facility (In km) water Gangway shift) front (In metre) 1 Allahabad (Ch. 8.759 Hectare Land 35 m 01 Pontoon Nil To be stored on Pucca Rasta 01 no. armed Drinking Water Generator could be 1535) berth & Barge Pontoon and open (Concreted 01 facility available provided for lighting if 300 WF 01 Pontoon space of IWAI‟s road)500 m and no.unarmed required Gangway land 5000 Sq. m metalled road 2 kmconnected with NH 76 2 Ramnagar 5.586 Hectare Land 35 m 01 Pontoon Nil To be stored on Land acquisition 01 no. armed - Being developed under Jal (Varanasi) (Ch. berth & Barge Pontoon and open in process for 01 no. Marg Vikas Project 1315) 300 WF 01 Pontoon space of IWAI‟s approach road of unarmed Gangway land 2000 Sq. m about 700m connecting with NH 07 3 Ghazipur (Ch. - 35 m 01 Pontoon Nil To be stored on KachchaRasta - Drinking Water Generator could be 1177 Km) / berth Barge Pontoon. Private (Earthen Road) facility available provided for lighting if Rajghat (Varanasi) 01 Pontoon land could be made 100m and Pucca required Gangway available if required road 100 m connected with NH 19 4 Buxar (Ch. 1124 - 35 m 01 Pontoon Nil To be stored on KachchaRasta10 - Drinking Water Km) berth Barge Pontoon. Private 0m and Pucca facility available and 01 Pontoon land could be made road 400 m Street Lights Gangway available if required connected with available as NH 84 provided by Local Administration 4 Semaria (Ch. 850 - 35 m 01 Pontoon Crane on Pontoon To be stored on Kachcha Rasta - Drinking Water Km) berth Barge available Pontoon. Private 200m and Pucca facility available 01 Pontoon land could be made road 300 m Gangway available if connected with required NH 31 5 Munger 3.40 Acre Land 35 m 01 Pontoon Nil To be stored on Pucca Rasta 100 01 no. armed Drinking Water Generator could be (Ch.793Km.) berth Barge Pontoon and open m and 01 no. facility available and provided for lighting 01 Pontoon space of IWAI‟s metalled road 5 unarmed Street Lights whenever required Gangway land 1000 Sq. m km connected available provided with NH 80 by Local Administration 6 Bhagalpur 3.86 Acre Land 35 m 01 Pontoon Nil To be stored on Pucca Rasta 300 01 no. armed Drinking Water DGPS Station is (Ch715Km.) berth Barge 01 Pontoon and open m and 02 nos Sodium Vapour operational and being Pontoon space of IWAI‟s metalled road 2 unarmed Lamps (Full utilized since 2010. Gangway land 1000 Sq. m km connected Illumination) with NH 80 102 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 7 Bateshwarsthan - 35 m 01 Pontoon Nil To be stored on Kachcha Rasta - Drinking Water Generator could be (Ch. 683Km.) berth Barge Pontoon. 200m and Pucca facility available provided for lighting 01 Pontoon road 5km whenever required Gangway connected with NH 80 8 Samdaghat - 35 m 01 Pontoon Crane on pontoon To be stored on Kachcha - Drinking Water Generator could be (Sahebganj) berth Barge Pontoon. Private Rasta300m and facility available provided for lighting (Ch.617Km.) 01 Pontoon land could be made Pucca road 1km whenever required Gangway available if required connected with NH 80 9 Manglahat - 35 m 01 Pontoon Nil To be stored on Kachcha Rasta - Drinking Water Generator could be (Rajmahal) berth Barge Pontoon. Private 100m and facility available provided for lighting (Ch. 588Km.) 01 Pontoon land could be made connected with whenever required Gangway available if required NH 80 10 U/s Farakka (Ch. 4800 35 m 01 Pontoon 01 NIL To be stored on 100 m 01 nos. armed Drinking Water Land belongs to FBP being 545.0) berth Bamboo Pontoon & land of 03 no. Sodium Vapour used by IWAI. Gangway FBP unarmed Lamps 11 D/s Farakka (Ch. - 35 m 01 Pontoon 01 NIL To be stored on Along the road NIL Street Lights Land not available pontoon 542.0) berth Bamboo Pontoon. provided by Local placed on water front Gangway Administration 12 Hazardwari (Ch. - 35 m 01 Pontoon 01 NIL To be stored on 100 m NIL Street Lights Land not available pontoon 439.0) berth Bamboo Pontoon. provided by Local placed on water front Gangway Administration 13 Katwa (Ch. - 35 m 01 Pontoon 01 NIL To be stored on 1.5 km NIL NIL Land not available pontoon 334.50) berth Bamboo Pontoon. placed on water front Gangway 14 Swaroopganj (Ch. 2337 35 m 01 Pontoon 01 NIL One Godown of 500 m 01 nos. armed Drinking Water Land taken from KoPT on 280) berth Bamboo size 4.5 x 5 m and 03 no. Sodium Vapour lease basis Gangway Open space 290 m2 unarmed Lamps 15 Shantipur (Ch. 8000 35 m 01 Pontoon NIL To be stored on 3 km 03 nos. NIL Land belongs to State 241.0) berth & 06 Modular Pontoon and open unarmed Govt. of W.B. being used 100 WF Pontoons space of IWAI‟s by IWAI. Gangway land 2000 Sq. m 16 Tribeni (Ch. 196.0) - 35 m 01 Pontoon NIL To be stored on Along the road 01 nos. NIL Land not available pontoon berth 01 Bamboo Pontoon armed 02 no. placed on water front Gangway unarmed 17 BISN Jetty & G.R. 30409.64 70 m 03 Pontoons NIL Open Space area 1 km 01 nos. armed Sodium Vapour Land taken from KoPT on Jetty-1 (Ch. 135.0) berth & 01 Steel 6000 m2 03 no. Lamps (Full lease basis 100 WF Gangway unarmed Illumination) 18 Botanical Garden 996 35 m 01 Pontoon NIL To be stored on 150 m 03 nos. Sodium Vapour Land belongs to KoPT Jetty (Ch. 134.5) berth & 50 01 Steel Pontoon unarmed Lamps (Full being used by IWAI. m WF Gangway Illumination) 19 Haldia (Ch. 35.0) 10930 70 m 04 Pontoons NIL One Godown of 3.5 km via HDC 01 nos. armed Drinking Water Land taken from Haldia berth & 01 Gangway size 12 x 30 m and 03 no. Sodium Vapour Dock Complex (HDC) on 200 m WF Open space unarmed Lamps lease basis. 1630 m2 B. Fixed RCC Jetties 103 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Sl No Name of Land area Size of No of Pontoon Cargo Handling Storage area Link approach road Security Water/ Lighting Remarks terminal with (in Sq. m) berth, Barge & equipment facility Chainage water Gangway (In km) front (In mtr.) 1 G.R.Jetty-2 (Ch. 14,557 70 m - - One Transit 500 m. 01 nos. Drinking Water Land taken from KoPT on 134.5) berth shed of size 25 armed Sodium Vapour long term lease basis. x 46 m and 03 no. Lamps (Full RCC Jetty completed and Open unarmed Illumination) being operational since space 4000 m2 Nov., 2013. 2 Farakka RCC - 115 m - - - Along the road - Drinking Water Owned by FBP this can be Jetty (Ch. 542 berth Sodium Vapour used by the common km) Lamps users. 3 Pakur RCC - 60 m - - - 1 km - - Owned by FBP this can be Jetty (Ch. 522 berth used by the common km) users. 4 Patna (Gaighat) 2.93 Acre 46.0 m Nil Shore Crane-2 45m x 14m Pucca Rasta 500 m 01 no. armed Drinking Water Permanent High level Jetty (Ch. 955Km.) berth 100 with capacity of Transit shed and metalled road 2 03 Sodium Vapour and DGPS Station is m WF 01 - 20 tonnes and open km connected with no.unarmed Lamps (Full operational and being subject to radius space of NH 30 Illumination) utilised since 2012. IWAI‟s land 1000 Sq. m (Source: Howe Engineering -Detailed Feasibility Report) 104 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Figure 3.13 : Existing Navigation Infrastructure Facilities in NW-1 105 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Mangal Haat, Jhakhand Pakur Jetty Farakka Lock Existing Patna Terminal Figure 3.14 : Photographs of Existing Infrastructure along NW-1 b. Planned/Proposed Infrastructure on NW-1 under Jal Marg Vikas Project Jal Marg Vikas project involves development of various components for capacity augmentation of NW-1. Some of these components are already planned and being implemented, some are at initial stage of planning and some are yet to be planned. Details of all such components is given below Planned Infrastructure i. Terminal sites at Haldia, Sahibganj & Varanasi ii. New Lock at Farakka iii. Bank Protection and River Training Works at existing and planned civil interventions iv. Maintenance dredging for maintenance of waterways and proposed civil interventions/navigation infrastructure Infrastructure Facilities at Initial Planning Stage i. Terminals at Ghazipur and Kalughat Facilities yet to be planned i. One similar terminal site (Kalyani at Tribeni) ii. 5 Nos. Ro-Ro Crossings and Passenger Ferry Jetties iii. Development of low draught vessel iv. River Training Works at Critical Locations like bends and civil interventions under planning 106 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 v. Bank/slope & scour protection works vi. Equipment of tow barges, inland vessels, survey vessels including rescue boats and survey equipment vii. Barge maintenance and repair facility Location of existing and proposed navigation infrastructure facilities for NW-1 under Jal Marg Vikas Project are shown at Figure 3.15. 107 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Figure 3.15 : Planned Navigation Infrastructure Facilities in NW-1 Under Jal Marg Vikas project 108 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 3.15.3. Description of Planned and Proposed Infrstructure a. Terminal at Haldia Haldia inland water terminal at River Hooghly (NW-1) is proposed to be located at River Hooghly at Industrial Zone of Haldia dock Complex near Durga Chak (J.L. No-135, Barmurchak-138 & JagatChak J.L. No-140), Haldia, District Purbi Medinipur, West Bengal. River Hooghly flows in South direction of the terminal site. Map showing location of Terminal at Haldia is given in Figure 3.16. Figure 3.16 : Location Map of Haldia Terminal 24.68 ha of land in the Haldia Dock Complex has been leased and transferred by the Kolkata Port Trust to IWAI on 30-year lease on June, 2015 for development of terminal. Site is low lying area with elevation ranging from 4-9 m amsl. Photographs of the site are given in Figure 3.17. It is required to fill the site to achieve finished level of 7 m, i.e. 2.54 m above HFL. Soil required for filling is 3.3 lakhs cum. At present site is well connected with 7 m wide paved road (Haldia-Macheda Road) connecting the site with NH-41 as well as Haldia town. The NH-41 (Haldia-Kolaghat road) is located towards west direction at about 6.0 km from the site. Figure 3.17 : Photographs of Haldia Terminal Site 109 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Terminal facility is designed to handle 3.18 MTPA of cargo. Cargo to be transported is fly ash, fertilizer, stone aggregate, edible oil & POL. It is proposed to develop administrative building, worker‟s amenity building, fuel bunkers, security office, overhead water tank, STP, underground water reservoir, compressor house for ash handing etc. The proposed terminal project will be developed in phases, i.e. phase 1A & 1 B. Phase 1 A will comprises of all the proposed developments except berth proposed for transhipment of coal and 8 nos. of fly ash storage silos and its conveyors out of proposed 16 nos. of silos and stockyard development area (future storage). Salient features of the project are given at Table 3.28 and layout plan of the terminal site at Haldia is given in Figure 3.18. Table 3.28 : Salient Features of the Haldia Terminal S. No. Salient Feature Capacity/Quantity/Nos. 1. Location Haldia Industrial Complex area, Haldia, District Purbi Medinipur, West Bengal. 2. Geographical 22°03'38.34"N & 88°08‟29.49"E Coordinates 3. Capacity of Cargo 3.18 MTPA Handling 4. Connectivity Site connected to NH-41 through 7 m wide road along western boundary of site. Nearest railway station is Durgachak Railway Station at 600 m in NE direction. Railway connectivity is not proposed. 5. Topography of terminal Site is almost flat in topography and elevation ranges of 4-9 m site amsl. Site requires levelling and filling (3.3 lakhs cum) to achieve finished level of 7 m 6. Facilities Proposed for Storage sheds (future storage area will be developed in phase HaldiaTerminal (Phase 1B) 1A & 1 B) 8 Nos. of Silos in phase 1A & 8 nos. of silos in phase 1B for flyash storage and pipeline conveyor system Unloading & Loading Areas Internal Roads Berths (4 Nos.) Water area & approach channel Administration Building Workers Amenity Building Fuel bunker Security office Weigh bridge building Lighting Towers Railway siding (future development) Other associated facilities like sewerage system, STP, dump pond, drainage system, RWH pond, fire-fighting facilities, communication system, water supply, ESS & power supply. Facilities to be shifted Existing underground ammonia pipeline of Tata chemicals further 7. towards the bank (above ground) and Existing Road to Mitsubishi Plant in South to Eastern Boundary of the site 8. Shore Protection Works The existing river bank protection works is adequate 9. LAD (Least Available 3 m for barge vessels (4 nos. berths) and 8 m for large vessel Draft) (coal transhipment berth) 10. Extension of Off-shore Offshore Extension Length of Length Width structure in River structure of off- approach of of shore trestle Berth Berth structure inside (berth + river 110 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 approach trestle) inside the river 2 Nos of 200 170 30 105 berths for barges 1 Nos of 200 170 30 120 berths for barges 1 No of berth 200 150 50 120 for barges/Berth No. 4 * length of 4 nos. approach trestle at terminal site is 145 m 11. HFL of the River 4.46 m amsl 12. Finished level of site 7m 13. Top level of berth & 14 m approach trestle 14. Dredging During 7 lakhs cum Construction Phase 15. Material Transportation Trucks, Pay loaders, Barge loaders, mobile harbour cranes System &gantry cranes. Fly ash will be transported by trucks and loaded to the silos pneumatically by pumps and then it will be loaded to barge by pipe conveyor system. 16 Nos. silos of 1200 Tonne capacity will be provided for ash storage 16. Maintenance Dredging 2.3lakhs cum/year during operation phase 17. Water Requirement- 90 KLD construction phase 18. Water Requirement- 70 KLD operation phase 20 KLD-Raw water requirement and 50 KLD potable water requirement 19. Power Requirement Connected load-5500 KW Demand Load-2400 KW 20. Storm Water System Open Storm water drains of total length 6 km Stock yard, parking area & roads –dump pond Buildings- Rain water storage sump 21. STP Capacity-Operation 30 KLD Phase 22. Dust Suppression Fly Ash-Dust extraction system on top of silos Methods Aggregate & fertilizers stockyards- Swivelling plain water sprinklers for abatement of aggregate dust generation along the length of the stockpile. Source: Site visit & HOWE Engineering Projects (India) Pvt. Ltd. (Design Consultant) India 111 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.18 : Layout of Haldia Terminal Site 112 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 b. Terminal at Sahibganj Sahibganj terminal will be developed along River Ganga, Village Samdha Nala & Rampura, Tehsil & District Sahibganj, Jharkhand. Map showing location of Terminal at Sahibganj is given in Figure 3.19. Figure 3.19 : Location Map of Sahibganj Terminal Site The requirement of land for construction of the terminal with road and rail connectivity has been estimated at 78.91 ha. The facility will be developed in two Phases. Approximately 23.98 ha of will be required for Phase- I to build the terminal. 54.93 ha will be required for the expansion of the terminal and for providing road connectivity, which is proposed to be taken up in Phase- I (B). However, the District Administration, Sahibganj has initiated acquisition proceedings for 45.20 ha of private land for the terminal under RFCTLARR 2013. In addition to this, 2.89 ha of government land will also be transferred to IWAI. Land is currently under residential and agricultural use, orchards (mango trees) and settlements. Land is undulating with level variation of 30-56 m amsl. Photographs of the site are given in Figure 3.20. At present site is not connected with any paved road. Nearest highway to the site is NH-80 (Sahibganj-Rajmahal road) located at 1.0 km from site in Southern direction. PWD is to construct a road to connect the terminal site with NH-80. 113 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Figure 3.20 : Photographs of Sahibganj Terminal Site Terminal will be developed in phases. Phase 1 of terminal is designed for handling cargo of 2.24 million MT per annum. Ultimate cargo handling from the terminal is estimated to be 9.00 million MT per annum. Salient features of project are given at Table 3.29 and layout plan of the terminal site at Sahibganj for phase I is given in Figure 3.21below. Table 3.29 Salient Features of the Sahibganj Terminal S. No. Salient Feature Capacity/Quantity/Nos. 1. Location River Ganga, Village Samdha Nala & Rampura, Tehsil & District Sahibganj, Jharkhand 2. Geographical 25°15'0.73"N & 25°15'0.73"N coordinates 3. Cargo Handling Phase I-2.24 million MTPA Capacity Phase II-4.39 million MTPA Phase III-9.00 million MTPA 4. Nature of Cargo Coal, stone chips, food grains, cement, fertilizers &sugar 114 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 to be handled 5. Connectivity Approach road to be constructed by PWD to connect to NH- 80 and Railway connectivity to be developed to link the existing railway line Nearest Railway Station: Sakrigali Railway Station (1.1 km, S) & Sahibganj Railway Station (6 km, W) Nearest Airport: Patna Airport (270 km, NW) Ferry Service: Sahibganj Ghat to Manihari Ghat 6. Topography of Undulating with level variation of 30 m-56 m terminal site 7. On-shore Stockyard for coal (6 stock piles-1.12 ha), for stone chips Facilities (8 stock piles-0.875 ha) & 1 covered shed (0.416 ha) Proposed for Unloading & Loading Areas Phase I Internal Roads (12 m wide & 3.6 km length) Administration Building Workers Amenity Building Lighting Towers Other associated facilities like sewerage system, STP, drainage system, fire-fighting facilities, communication system, water supply & power supply (ESS) Boundary wall of 2.4 m high Green belt- 15-20 m (2.9 ha) To be developed by PWD/Railways: Approach Road (1 km connecting to NH-80 crossing LC- 54) Railway Connectivity (through Sagrakali Railway Station) with provision of ROB over LC-54 for approach road to be developed 8. Off-shore Jetty & Berth (1 Nos.) Facilities Water area & approach channel Proposed for Turning Circle (2 Nos. at starting & end of channel) Phase I Shore protection (1.5 km along River Bank, 800 m in Phase I & 700 m in phase II) 9. Extension of Off- 75 m (50 m-approach trestle & 25 m jetty) length & 270 m shore structure width. (jetty & Berths) in River 10. Off-shore facilities Phase II-3 nos. of berths (1 each for coal-270 m, stone in Phase II & III chips-270 m&other cargo-160 m) (Master Phase) Phase III-3 nos. od berths (1 each for coal-400 m, stone chips-400 m &other cargo-160 m) 11. Shore Protection Retaining wall and stone pitching (30-50 kg) along the Works length of bank (1.5 km total, 800 m in phase I & 700 m in phase II) and 40 m apron inside the River. 12. LAD 1-2.5 m near shoreline 7-11 m at distance of 50 m 13. Water level 10 m fluctuation of River near Terminal Site 14. HFL of Site 30.91 m amsl 15. Finished Level of 37 m amsl Site 16. Top level of Berth 33.5 m & Jetty 17. Earthwork Phase Cut: 14.25 lakhs cum 115 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 I Fill: 2.15 lakhs cum Muck for disposal: 12.1 lakhs cum 18. Dredging During 1.5 lakhs cum Construction Phase 19. Material In Phase-1 of terminal, it is proposed to provide hopper at Transportation the coal and stone chips stockyard and the cargo should be System carried through conveyor system to the berth where it should be discharged to the vessels through barge loader 20. Maintenance 0.1 M cum in lean season Dredging during operation phase 21. River Water Phase 1: 162 KLD Requirement for Phase II: 210 KLD dust suppression Phase III: 350 KLD and horticulture 22. Municipal supply Phase 1: 46.5 KLD water for Phase II: 65 KLD domestic purpose Phase III: 90 KLD (staff & vessels) 23. Power Phase 1: 588 KW Requirement Phase II: 2535 KW Phase III: 1897 KW 24. Storm Water Storm water drain of length 3.05 km System Stock yard, parking area & roads –dump pond Buildings- Rain water storage sump 25. Sewage Phase 1: 30 KLD Generation & Phase II: 36 KLD STP Phase III: 40 KLD STP: 40 KLD capacity 26. Dust Suppression Barge Loaders- Plain water fine spray with medium Methods pressure standard hydraulic system using raw water Coal Stock Yard-Swivelling plain water sprinklers for abatement of coal dust generation along the length of the stockpile. 27. Vehicle Parking App. 1 ha Area 28. Solid Waste Solid waste to be generated from terminal facility will Generation & include majorly the food waste and the garden waste. This management waste can be disposed through the local agency in the area responsible for waste handling. Dustbins should be provided at the site for collection of the waste. Used oils from DG sets/transformers/pumps etc. may also generate at the site. Used/Waste oil will be stored in HDPE containers at the site in isolated location and will be sold to authorized vendors 29. Equipment Mobile Harbour Crane, Barge Loader, Front End Loader, Conveyor System with Fixed Hopper, Navigation Aids, Dust Suppression System Road over Bridge, Fire Fighting System, Communication and IT System, Source: Site visit &HOWE Engineering Projects (India) Pvt. Ltd. (Design Consultant) India 116 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.21 : Layout of Sahibganj Terminal Site 117 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 c. Terminal at Varanasi (Ramnagar) A multimodal terminal is proposed to be developed at Ramnagar, on river Ganga in Varanasi district in Uttar Pradesh. Map showing location of Terminal at Varanasi is given in Figure 3.22 Figure 3.22 : Location of Varanasi Terminal Site Area of 5.586 ha has been acquired for development of the terminal by IWAI and is in possession fo IWAI. Identified site is open agricultural land. However, no agriculture activity is being carried out at site at present. The proposed terminal project site falls in Ramnagar Municipal Board of Varanasi district. Photographs of the Varanasi terminal site are given in Figure 3.23. In addition to this land, area of 1.415 is to be acquired for construction of access rod to connect terminal with NH-7. Total land requirement will be thus 7.001 ha. Figure 3.23 : Photographs of Varanasi Terminal Site 118 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Terminal will be developed in phases and at present phase 1A of terminal is designed. In phase 1 A, terminal shall handle about 0.54 MT per year which is expected to grow to 1.22 MTPA by 2038.Salient features of the development of phase 1A of the Varanasi terminal are listed in Table 3.30 and layout plan of the terminal site at Varanasi for phase I is given in Figure 3.24below. Table 3.30 : Salient Features of Varanasi Terminal S. No. Salient Feature Capacity/Quantity/Nos. 1. Location River Ganga, Ramnagar, Varanasi, U.P. 2. Project site Geographical 25°15'7.90"N & 83° 1'55.45"E Coordinates 3. Project Area 5.685 ha 4. Type of Land Private Agricultural Land (12 small Khajur (Date) trees and 8 babool shrubs) but no agricultural activity is being undertaken 5. Site Surroundings River Ganga (abuts site, West) Gurha Nallah (Abuts, East & South) 6. Accessibility & Connectivity No pucca public road to access site. Site accessible through katcha village road and it connects site to NH-7. Approach road of 700 m is planned to connect the site with NH-7 for which additional area of 0.592 ha will be acquired. Nearest Railway Station – Jeonathpur (4.0 km, SE) Nearest Airport - Lal Bahadur Shastri Airport (30 km, NW) 7. Facilities Proposed 2 Nos. berths (100 m length & 36 m width each) so as 2 vessels of 80 m each can be berthed at one time. 2 mobile cranes for loading & unloading Open area at site for storage of transportation material (Edible oil tank storage area) Passenger jetty (floating pontoons-20 m X 10 m) & gangway (1.2 m wide) Stone pitching upstream & downstream river bank (35 m length downstream & 117 m length upstream) Area for DGPS 12 m wide internal roads-365 m & 22 m wide internal road-650 m Approach road to NH-7 ESS (400 sq m) building & power back-up Soak pit & septic tanks-wastewater management system Workers amenity building (30 sqm) Water supply system Storm water drainage system Earthing & lighting protection system for all conducting materials Lighting system Green area 8. Cargo to be handled Coal (imported & domestic), cement, fertilizers, wheat & crude edible oil 9. Plying vessel Multimodal LOA Beam Loaded DWT jetty (m) (m) Draft (m) 119 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. No. Salient Feature Capacity/Quantity/Nos. Maximum 2000 80 11 3.5 Ship Size Minimum 200 18 5 1.0 Ship Size 10. LAD at jetty +3.5 m 11. Maintenance Dredging 0.1 M cum 12. Eco-sensitivity Kashi Turtle Sanctuary at 2.3 km in North direction (downstream) No national park, reserved/protected forest, reserves, zoological parks, migratory bird route, protected wetland under Ramsar convention etc. are present within the 10 km radius area 13. Water Supply System Municipal Corporation, Varanasi 14. Power Requirement State grid (Purvanchal Vidyut Vitran Nigam Ltd). 120 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.24 : Layout of Varanasi Terminal Site 121 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 d. Lock at Farakka A new lock is proposed to be developed in Farakka on the Feeder Canal of Farakka Barrage adjacent to the existing lock at Farakka in Murshidabad district of West Bengal. New lock will be further West to the existing lock and will share its right bank with the left bank of the existing lock. Site is located in village Goraipada, Grampanchayat Bewa, Farakka in Murshidabad district of West Bengal. The Ganga River is flowing about 1.2 km East of the proposed lock gate site. Map showing location of Lock at Farakka is given in Figure 3.25 Figure 3.25 : Location Map of Farakka Lock The proposed project would be set up in the 14.86 ha transferred land of Farakka Barrage Project (FBP) and the land revenue area demarked by Beoa Mouza`s, JL No. 31, Sheet No.3. As per the topographic survey carried out at site by IWAI, ground levels vary from RL+13 to RL+29 m which indicate the site is almost flat with gentle slope. The lock gate site is well connected with road & rail. This road at presently passes through the site and thus will be realigned to Western boundary of the proposed lock gate site. This road connects the NH-80 is located about 1.6 km West of the proposed Lock gate site and is connected. Photographs of the Varanasi terminal site are given in Figure 3.26. Existing lock of Farakka is not working at optimal efficiency and it takes 2-3 hours to complete one operation there by reducing the possible nos. of ships which can cross through and ultimately the freight transportation efficiency. Renovation of the existing lock would keep the lock in non-operational condition for entire period, i.e. 6-31 months (WAPCOS, IWAI and FBP) thereby stopping the movement of barges/vessels in most of this period. Although this upper estimate could be reduced if parallel working is assumed. To overcome this problem and to ensure uninterrupted and efficient movement of 122 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 vessels/barges in NW-1, IWAI has proposed to construct a new lock at Farakka parallel to existing lock. Figure 3.26 : Photographs of Farakka Lock Site The new lock like the existing lock will facilitate the movement of vessels/barges from main River Ganga upstream to River Bhagirathi-Hooghly downstream through feeder canal negotiating the significant difference in water level existing in main River Ganga and feeder canal. Water level in the River Ganga and feeder canal varies according to the flow in River Ganga & the feeder canal. New lock is required as the existing lock is not functioning adequately and obstructs the movement of the vessels. The length and width (size) of the proposed lock is similar to the existing lock. Length & width of new lock will be 179.0 m & 25.148 m respectively. Lock is designed to handle four vessels of size 85 m (length) X 12 m, (width) so as two vessels are moored lengthwise and two sidewise like existing lock. The salient features of the existing lock site are given in Table 3.31 and layout plan of the lock site at Farakka for phase I is given in Figure 3.27. Table 3.31 : Salient Features of New Lock S. No. Parameters Value 1 Location Feeder Canal, village Goraipada, Grampanchayat Bewa, Farakka in Murshidabad district of West Bengal. 2 Geographical Coordinates 24°48'32.38"N to 24°49'02.23"N & 87°54' 05.63"E to 87°54' 17.18"E. 3 Land Required 14.86 ha 4 Topography RL+13 to RL+29m 5 Finished Level of Site 28.44 m 6 High Water Level U/S RL + 26.30 m High Water Level D/S RL +24.38 m 7 Length of Lock 179 m 8 Width of Lock 25.148 m 9 Av. Depth of Lock 13.10 m 10 Capacity of Lock to handle four vessels of size 85 m (length) X 12 m, (width) so no. of vessels of size 85 m as two vessels are moored lengthwise and two (length) X 12 m (width) sidewise like existing lock 123 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. No. Parameters Value 11 Seismic Risk Design Site lies in Zone III and design is calculated as per Consideration IS: 1893:2002 12 Length of extension of U/S 190 Approach Channel (m) 13 Length of extension of D/S 310 Approach Channel (m) 14 Dredging required in 0.05 + 0.08 = 0.13 upstream and downstream of approach channel to achieve water depth of 3 m 15 Counter Fort Retaining wall Top wall level 28.44 m Bottom wall level 12.8-14.8 m Slope 1V:370 H 16 Slope of Excavation along 1.5 H :1 V River Bank 17 Inlet & Outlet water 4 Nos. feeder culverts (2 U/s & 2 D/s) of length 60 Structures m each. 18 Base Slab Thickness 1.2 m 19 Main Units other than the Mitre Gates- 2 sets (two leaves per set) lock Radial Valve Gates- 4 sets (2 for U/S and 2 for D/S) Bollards - 8 nos. floating type (4 nos. each bank), 14 nos. fixed type (7 nos. on each bank) Caisson Gates/Stop logs - 2 Nos. (Used for U/S or D/S) Bulkhead Gates – 8 nos. (4 nos. for U/S and D/S) Control Room for remote control operation 20 Length of FBP Inspection 675 Road to be realigned (m) 21 Length of Boundary Wall to 1180 be constructed (m) 22 Scour Protection 2 layers of back pitching with PCC blocks of size 1 River Bank Slopes X 1 X 0.6 m and 6 m wide launching apron U/s & D/s of consisting of two layers of concrete blocks of size approach channel 1.5 X 1.5 X 0.9 m Guide wall Tied to existing lock and cut-offs to a depth of 5 m 23 Flood Protection Filling site to 28.44 m + RL, i.e. above HFL, strengthening of existing levees and banks to prevent erosion & flooding 24 Other facilities Water supply system, soak pit & septic tanks, storm water drainage system, green belt (1 ha & 900 trees) and office building 25 Water Requirement Construction Phase-16.5 KLD Operation Phase-6.5 KLD for domestic, 7.3 KLD for dust suppression & 2.7 KLD for horticulture 26 Power Requirement 557 KW 124 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 S. No. Parameters Value 2 Green Area 10000 m (1000 m X 10 m). 900 trees to be planted 27 Total time per operation 38 minutes for average water vessel. If movement of a vessel is followed by movement of another vessel in the reverse direction, the operating time is 23 minutes. Source: HOWE Engineering Projects (India) Pvt. Ltd. (Design Consultant) India 125 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume - 3 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Figure 3.27 : Layout of Farakka Lock Site 126 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 e. Bank Protection and River Training Works Erosion of banks is natural phenomenon in the alluvial rivers. However, erosion is aggravated due to construction of any structure like bridge, terminal and jetty on the river. Thus river training works includes the engineering works carried out in river to prevent the erosion of the banks, control and guide the river. It is proposed to carry out bank protection works of total 48.168 kms in the areas where erosion is observed and where civil interventions are planned to be carried out and details of the same are given at Table 3.32. Bank protection additionally also be carried out at other interventions yet to be finalised. Table 3.32 : Bank Protection Works as per Current Planning S. No. Location App. Length (km) 1. Varanasi 0.35 2. Sahibganj 1.1 3. Farakka Navigation Lock 0.75 4. Three new terminal 2.5 5. Farakka Feeder Canal 9.438 6. Farakka to Tribeni 27.43 7. Barge Repair and maintenance facility 2 8. Existing Terminals & Jetties 4.6 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) Bends are navigational hazard which requires straitening. Crucial bends likely to be considered for straightening are Bend near Mirzapur, bend near Patauli & Agradwip, bend near Sanudragrah, bend near Chumariagacha, bend near Digibaraj and sharp bend just u/s of Farakka navigation lock. These task will be taken up after detailed study on a later date. f. Terminal at Ghazipur (Nawapura) It is planned to develop terminal at Ghazipur, U.P. Planning is at initial stage for this terminal. Site finalization has been carried out. Two sites were identified and considered for development of project. Out of the two sites, preferable site is located at Village Chaukiya, Ghazipur near Nawapura. This site is located on left bank of River Ganga (main channel) and downstream of NH-97. The site is agricultural land with no development or facilities or settlements on it. Area of the site identified is app. 22 ha. Site is well connected with road & railway. Depth of the channel is more than 2.5 m close to the shoreline. However, approach road will be required to be constructed for connecting the terminal site to NH-19. Google map showing the site considered for development of terminal at Ghazipur is given in Figure 3.28. 127 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Figure 3.28 : Google Map Showing Proposed Terminal Site at Ghazipur at Nawapura g. Terminal at Kalughat A terminal site is planned to be constructed at Kalughat. Two options were considered for construction of terminal, i.e. at Kalughat and Doraiganj. By seeing the environmental, social and technical feasibility, Kalughat is considered to be suitable site for development of terminal Kalughat site is located in Parmanandpur village of Sonepur block in Saran District, Bihar. River width in the area is app. 60-100 m with water depth availability of 3.3 m in lean season. NH-19 connecting Patna in Bihar and Ghazipur in Uttar Pradesh is adjoining the terminal. It is a 2 lane bituminous road of 7 m width. The nearest railway station is at Paramanandpur, which is about 1.5 km from the terminal. Since the terminal is proposed to handle only container cargo meant for Nepal, rail connectivity may not be required. Google map showing the site considered for development of terminal at Ghazipur is given in Figure 3.29. 128 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Figure 3.29 : Google Map Showing Proposed Terminal Site at Kalughat h. Terminal at Tribeni -Kalyani (Tentative Location) It is planned to develop terminal at Tribeni. Planning is at initial stage and site selection & finalization is undergoing at present. Two locations are considered for development of terminal. First site is located on left bank of River Hoogly upstream of Road Bridge on SH-6 at Tribeni, west Bengal. Site is well connected with road & railways. Kalyani Samanta is nearest railway station. App. 40 ha of agricultural land is identified for development of terminal at this site. Some brick kilns also exist at the site. One more site is considered for development of the terminal. Site is located on the right bank of the River downstream of the road bridge at SH-6. This site is located near the thickly populated area. Out of both the options alternative 1, i.e. site located upstream if SH-6 is considered for development of terminal. Google map showing the site considered for development of terminal at Tribeni is given in Figure 3.30. 129 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Figure 3.30 : Google Map Showing Proposed Terminal Site at Tribeni i. Barge Maintenance & Repair Facility Barge maintenance and repair facility is essential component of Jal Marg Vikas Project. At present no location has been finalized for the purpose but this development is under planning. Barge maintenance and repair facility will comprise of the following Slipway: It is a ramp, which helps in moving the barge/ship to and fro from water to land. Slipway will be provided in deeper water conditions so as design vessels can be taken in docking conditions. Winch House: It should be provided in straight-line to main slipway. It is generally a single room like structure and should have adequate space for winch and electrical equipment Repair bay for large & small vessels: Repair bay for vessels should be inclined so as the vessels can slide towards the river on its own after repair under control of winch. Transfer bays: To transfer small vessels between slipway and repair bay Winches and trolleys. Winches should be provided at winch house and at transfer bay. Trolleys should be provided to receive the vessels on main slipway. Workshops and buildings with all basic utilities like water, electricity, storm water management system and waste management system. 130 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 j. Details pf Planned /Proposed Infrastructure : Waste Management at Maintenance & Repair Facility Since at this facility, vessel repair, maintenance and waste management will be carried out, proper waste management facility is required for these facilities. These facilities should be designed on Zero discharge basis and should have Effluent treatment plant so as the oil water, vessel washing water, floor washing water can be treated here. Further STP are required at these sites to treat sewage generated at facility and sewage generated from vessels. These facilities should have a proper waste management plan which should detail about segregation of different type of waste which may generate at this site or can be received from the vessels, e.g. municipal waste, recyclable waste, bio- medical waste, packaging waste, sweeping waste, plastic waste etc. For each type of waste, a specific waste management plan should be prepared. Waste treatment facility to the extent possible should be proposed within the maintenance and repair facility. For the waste which cannot be treated in-house, should be sent for treatment and disposal to authorized vendors only. List of those authorized vendors for each type of waste should be available in the plan. 3.16. Material Handling, Transportation and Storage Material handling including transportation, storage, loading and unloading will be involved at terminals and jetty sites. Material handling at some planned site is manual, i.e. is through pay loaders, barge loaders, dumpers, trucks and at some sites is mechanical through conveyor belts and pneumatically depending on type and quantum of cargo to be transported. Considering the environmental effect, it is strongly suggested to adopt mechanical mode of material handling only for loading & unloading of barges and pneumatic transportation of the fly ash to minimize dust generation. 3.17. Construction material Sourcing Construction materials required majorly for the project development are bricks, steel, cement, timbers, sand etc. It is preferred that construction material will be sourced from nearby areas preferably. Details for construction material sourcing for the planned infrastructure under Jal Marg Vikas Project are given as a reference in Table 3.33 below. Table 3.33 : Construction Material Sourcing for already Planned Interventions S. No. Location Construction Material Sourcing 1 Haldia Terminal Stone chips- Pakur quarry in Jharkhand (370 km from site) Sand- Villages Kasthakbali and Barsundra (20 km) and Damodar River (100 km) 2 Farakka Lock Stone and aggregates- Rajmahal hills (Sahibganj) at app.100 km from site 3 Sahibganj Terminal Stone and aggregates- Rajmahal hills (Sahibganj) near the site 4 Varanasi Terminal Stone and aggregates- Sirsa, Mirzapur at app. 45 km from site 131 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 3.18. Waste Disposal It is likely that waste and sewage will be generated due to anticipated human activities at major intervention locations (terminal, locks & jetties). Details of waste generation and its management is given below 3.18.1. Sewage & Effluent It is likely that sewage will be generated at the locations where interventions are proposed only. For management of sewage measures like provision of mobile toilet with anaerobic digester, provision of toilets with septic tank & soak pits are proposed during construction phase. It is proposed that soak pits should be provided in the locations away from river. During operation phase sewage should be managed by provision of well-developed sewage collection system and the collected sewage should be treated in STP (if sewage generation >5-10 KLD) and should be disposed in septic tank/soak pit if <5-10 KLD. No vessels will be allowed to discharge its waste in river during navigation or berthing. Vessels should follow MARPOL guidelines for management of sewage. 3.18.2. Solid Waste Solid waste will be generated due to project activities at the locations where interventions are expected majorly. Expected solid waste to be generated from the site is mainly municipal in nature. Some quantity of hazardous waste in form of used oil from operation of DG sets, cleaning operations etc. is expected to be generated from the intervention sites. No vessels will be allowed to discharge its waste in river during navigation or berthing. Vessels should follow MARPOL guidelines for management of solid waste. No maintenance or repair work of ships/vessels and related facilities should be undertaken at the proposed intervention sites. Site will be identified for development of workshops/maintenance hubs. Adequate waste management system should be designed for such sites for prevention of soil and water pollution. 3.19. Dust Suppression Activities like vehicular movement, material loading, unloading from trucks, material loading and unloading from barge, storage of material etc. will generate the dust during the operation phase of the project. Materials like coal, fly ash, stone aggregates, stone chips, sand etc. are likely to generate more dust as compared to other commodities like fertilizers, oil, textiles etc. Adequate dust suppression measures should be undertaken depending on the potential of dust generation. Dust suppression measures include development of green belt, provision of dust sprinklers, mechanical transportation system for loading/unloading of barges, pneumatically transportation of fly ash, and transportation of material in covered vehicles and storage of material under covered sheds. Such provisions are already incorporated under the planned navigation infrastructures (terminals at Varanasi, Sahibganj & Haldia) such as material loading/unloading through mechanical conveyor system at Sahibganj, provision of 132 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 pneumatic transportation system at Haldia for fly ash, provision of water sprinklers, green belt and transportation of material in covered conditions in all the terminal sites. Similar provision will be made for remaining proposed facilities under planning stage. 3.20. Green Belt Project development includes various intervention measures which will lead to change in land use, removal of vegetation etc. But the interventions are planned in a way so as to maintain the aesthetic value of the area by providing the adequate greens and also wherever tree cutting is associated necessary and additional compensatory plantation works are proposed. At all the proposed interventions, it will be ensured that adequate peripheral green belts and organized greens are provided. Details of the green area and trees proposed at the identified intervention locations are given in Table 3.34 below. Table 3.34 : Green Area and Tree Details for the Planned Intervention Sites S. Location Green Area (Acres) Nos. of trees No. 1 Haldia 3 acres (1.214 ha) 1200 Terminal 10 m wide tree belt all along the periphery and avenue tree plantation along roads 2 Farakka Lock 2.47 acres (1 ha) 900 10 m wide tree belt all along the periphery and avenue tree plantation along roads 3 Sahibganj 7.166 acres (2.9 ha) 3500 (1000 as compensatory Terminal 15-20 m wide tree belt all along the plantation & 2500 additional) periphery and avenue tree plantation along roads 3.21. Accident Prevention Associated hazards which may lead to accidents are fires, earthquakes, collision of vessels/barges/ships, floods, cyclones, spillage of material etc. These hazards are proposed to be managed by planning the proposed interventions considering these hazards. This planning will help in minimizing the chances of occurrence of accidents and impact of these hazards on developed infrastructure, human population and surroundings. Some of the stretches prone to the accident along the NW-1 are listed below Haldia to Howrah: Tidal section of Hugli estuary/river shared with ocean-going vessel traffic, that is subject at times to strong tidal conditions, strong seasonal winds and occasionally adverse wave conditions Howrah to Nabadwip: Tidal section of the Hugli river, shared with local commercial traffic. Subject to strong tidal conditions at times 133 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Nabadwip to Jangipur: Non-tidal section of natural river (Bhagirathi River). This section of the waterway is challenging to navigate due to sequences of sharp river bends. Section of Farakka Feeder Canal Around Bagmari Syphon: This siphon is significant navigation hazard. River information system developed and being developed by IWAI will help the vessels to judge the tides, tide level, meteorological condition, LAD, traffic and other vital information required for navigating safely and will help in prevention of accidents and collisions. 3.22. Project Cost Overall cost of the Jal Marg Vikas Project will depend on finalization of various components proposed under the project. However, fund allotted by World Bank to GOI for development of Jal Marg Vikas is about 650 million USD (~4200 Cr). Tentative capital cost for each component planned or under planning stage of Jal Marg Vikas Project is given below in Table 3.35 below. Cost considered for the terminals include land cost, development and cost of R & R (as applicable) Table 3.35 : Component Wise Tentative Project Cost of Components (Planned & Under Planning) of Jal Marg Vikas Project S. No. Capital Cost Project Cost-Phase-1 (in Millions INR) 1. Varanasi Terminal 2567 2. Sahibganj Terminal 5773 3. Haldia Terminal 7496 4. Terminal-4*(Tribeni Terminal) 4500 5. Terminal-5* 4500 6. Terminal-6* (Ghazipur terminal) 2500 7. New Farakka Navigational Lock 3735 8. Dredging 6844 9. Shore Protection Work 10000 10. River Training Works 500 11. Vessel Management System 500 12. Disaster Management System 1400 Total 50,315 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) * Site yet to be finalized. Thus cost estimated is lump sum development cost 3.23. Project Schedule The NW-1 project activities will be developed in phases. The phase I development is likely to starting inmid-2016 and expected to be completed in 5years period by 2019. The project life is considered as 30 years. Time required for construction of the various planned infrastructure in Phase-I is given below in Table 3.36 below. 134 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 3.36 : Implementation Time for Planned Interventions under Jal Marg Vikas Project (Phase-1) Component Construction Time from Start (months) Start Mid 2016 Varanasi Terminal 26 Sahibganj Terminal 30 Haldia Terminal 30 Terminal-4* (Tribeni Terminal) 30 Terminal-5* 30 Terminal-6 * (Ghazipur terminal) 30 Farakka Navigation Lock 30 NW-1 Dredging 8 Shore Protection Works 18 River Training Works 24 Vessel Management System 12 Disaster Management System 12 Project Life Considered 30 End Date Year 2045 Source: HOWE ENGINEERING PROJECTS (INDIA) PVT. LTD. (DESIGN CONSULTANT) 135 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Chapter 4. ENVIRONMENTAL IMPACTS AND MITIGATION MEASURES 4.1. Introduction Environmental Impact Assessment helps in identifying the likely impacts due to project activities for all stages of the project viz, design, construction and operation stage on the physical, biological and social environment. Impacts are quantified using established practices, tools and mathematical models followed by identification of mitigation measures to mitigate the impacts to acceptable levels. The project “Jal Marg Vikas” (NW -1) is a kind of a programme comprising of various infrastructural interventions such as construction of terminals, navigational lock, river training works, bank protection works, dredging for maintaining LAD, development of navigational aids and operation of barges. Project is at planning and feasibility stage. Impact analysis has been carried out for all proposed activities28 under NW-1 and for all three broad aspects of environment namely physical, biological and socio-economic aspects. 4.2. Valued Environmental Components Valued or critical environmental components29 (VECs) are defined as fundamental elements of the physical, biological or socio-economic environment, including physical features, habitats, wildlife populations (e.g., biodiversity), ecosystem services, natural processes (e.g., water and nutrient cycles, microclimate), social conditions (e.g., health, economics), or cultural aspects (e.g., traditional spiritual ceremonies) air, water, soil, terrain, vegetation, wildlife, fish, birds and land use that may be affected by a proposed project. VECs are environmental and social attributes that are considered to be important in assessing risks.. Critical Environmental Resource (CER) and Valued Environmental Components (VEC) are technically same referring to various key environmental resource or component like natural habitat. Critical Environment Resource word is used for Basin Level study as per terms of reference of these studies. However, for EIA studies VEC word is used. Key VECsidentified for this project requiring greater attention in reference to CIA study are climate, micro climate, aquatic ecology, impact on sensitive species namely Dolphins and Turtles, Water quality, Terrestrial flora (cutting of trees at intervention sites), Avifauna, ambient noise levels and air quality pollution from barge movement, dredging and terminal operations, land use, soil quality & ground water due to dredge (dredging) 28 Three terminals namely Ramnagar at Varanasi, Sahibganj, and Haldia and Farakka lock are the four firm up interventions. Separate EIA has also been prepared for these interventions. Outcome of these EIAs has been included in this report as well. No barrage is proposed for NW-1. DPR consultant has indicated a need of barrage for the operation of NW-1 between Varanasi and Allahabad. Since IWAI do not want to construct any Barrage on NW-1 NW-1 is likely to operate between Haldia to Varansi at this stage. 29 As per TOR of theCritical Environmental Resources (CER) was used for preparation of basin level study. The CER and VEC is same otherwise. 136 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 and muck disposal(development of terminal sites), water resources and socio-economy aspects. 4.3. Environmental Profile of NW-1 By the virtue of nature of the activities involved in the development of the project, it is evident that the project will have interface with various identified VECs at different stage of development, implementation and operation. A brief environmental profile of the NW-1 is presented in the Table 4.1 below, indicating the environmental sensitivities associated with the alignment and the influence area considered for the EIA purpose. Table 4.1 Salient Environmental Features along NW-1 Alignment S. Environmental Within NW-1 (500 M) Within 2 km area Within 10 km area No. Features around NW-1 around NW-1 1 Ecological Environment A Presence of National None None None Park/Biosphere Reserves, Tiger reserve etc. B Presence of Wildlife Yes None Yes Sanctuary 1. Kashi Turtle Sanctuary at Udhwa lake sanctuary Varanasi in Jharkhand (about 9 2. Vikramshila Dolphin km away from NW-1 Sanctuary Kahalgaon to Sultanganj 3. Hilsa Sanctuary stretch in west Bengal C Reserved /Protected None None Yes Forests D Wetland of state and None None Yes (Udhwa Bird national interest sanctuary) E Migratory route for None None None wild terrestrial animals F Presence of None Yes Yes Schedule-I Terrestrial Migratory birds Migratory birds at Fauna/AviFauna near Farakka important birds‟ areas Barrage and surrounding G Presence of Yes None None Schedule-I Aquatic Dolphin, and Turtle Fauna (more frequently sighted) Smooth Coated Otter and Crocodile (very 137 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 rarely sited in Ganges system) H Important Bird Area Vikramshila sanctuary Yes Yes area 1. Danapur Udhwa lake sanctuary Cantonment area 2. Mokama tal 3. Kurseala river course and diyara flood plain. 4. Farakka Barrage and surround area I Seismicity NW-1 falls in Zone-III (moderate risk) and zone IV (high damage risk zone) as per Seismic Zone Map of India B. Social Environment J Physical Setting Rural, Industrial and Urban K Densely populated Allahabad, Sirsa, Mirzapur, Chunar, Varanasi, Zamania, Ghazipur, area Gahmar, Buxar, Ballia, Chappra, Patna, Barh, Bihat, Munger, Bhgalpur, Kahalgaon, Sahibganj, Farakka, Berhampore, Katwa, Kalna, Kolkatta and Haldia are densely populated areas. L Physical Sensitive Yes Receptors Ghats at Varanasi, Patna, Temples, Schools, College and Hospital. Details are provided at section 4.7 M Archaeological Yes Monuments within 300 m of the river There are 9 archaeological sites located within 300 m area of the NW- bank (NW-1) 1 and these are Kardmeshwar Mahadeva Mandir, Ramnagar fort, archaeological excavation site, Varanasi, Manmahal and observatory, St. John's Church, Temple of Gour Chandra and Krishnachandra at Chatra (Gaur Chandra Ghat), Hazardwari Palace, Singhi Dalan and Jami Masjid Details provided in section 4.7, Chapter-4 of EIA report. 4.4. Influence Area Considered for Environment Impact Assessment Influence zone for study of impact assessment considered are 500 m, 2 kms and 10 kms as per outcome and recommendation of CIA. The basis of this classification is also presented at Table4.2 below. 138 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.2 Criteria for Demarcation of Influence Zone S. Impacts on VECs’s Area of Influence Concluded No. VECs Influence area 1. Cultural Largely located adjacent to river and within 200- 500 m activities, fest 500 m of the river, e.g. holy dips, holy poojas, idol and festivals immersions, fares, cremations and cremation grounds, bathing ghats etc. Some of the examples along NW-1 are chatt Pooja, Ganga Mahotsav, Magh mela, kumbh etc. Sensitive area for 300 m radius of the notified archaeological sites. 500 m 2. archaeological Many archaeological sites are present along the monuments as river stretch including Ramnagar fort, Jama Masjid, per Indian Singhi Dalan, Hazardwari Palace etc. Regulations Existence of Major cities like Varanasi, Allahabad, Haldia town, 10 km 3. major cities Patna are developed on the bank of river. Lateral (major impact on stretch of the city from river is largely within 0 to 7 river water km distance from NW-1 resources & quality) Air pollution Max. air draught of the barges is 9 m for planned 500 m 4. dispersion due to NW-1 thus height of discharge source (funnel) is barges and considered as 9 m. Generally, GLC is achieved at dredgers distance 15 times the height of the source, i.e. 15 X 9 = 135 m. Also it is considered that GLC will dilute significantly within distance twice the distance at which GLC is achieved, i.e. 270 m. Increased Dredging operations can generate noise levels of 500 m 5. ambient noise 90 dB(A), thereby increasing the ambient noise levels due to levels. Through noise modelling study it is dredging estimated that this noise reduces to 56 dB(A) which is in accordance to current noise level in the area at distance of 500 m from source. Important Bird Bird habitats along NW-1 within stretch between 2 km 6. Areas Allahabad to Haldia lies within 2 km of the main channel. Total 6 IBAs are identified out of which 5 are on bank of NW-1 and Danapur Cantonment area is at 2 km from the main channel. National Parks, Indian guidelines define that 10 km radius area 10 km 7. Wildlife around the national parks/sanctuary is to be Sanctuaries, considered as maximum buffer zone which though 139 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Wetlands vary depending on nature and location of Sanctuary. VGDS and Kashi Turtle Sanctuary is located within NW-1. Udhwa bird Sanctuary is located at 9 Km from the NW-1. Considering presence of these sanctuaries and Indianguidelines10 Km radius is considered as influence zone. 8. Flood Plains Flood plains of the Ganga River extends to kms 3 kms and varies with the stretch. The length of flood plain varies from no flood plain on one side of bank to few kms. As per study carried out by IIT Consortium “Active floodplain mapping: Defining the “River space””, it is mentioned that flood plains of river vary in different stretch. From Kanpur to Buxar, it varies from 1 km to 7.5 km but downstream of Buxar to Farakka, flood plain widens upto 42 km. Thus consideration to flood plains cannot be undertaken directly. However, as per NMCG and book “Large Rivers: Geomorphology and Management”, width of River Ganga and its active flood plains varies in range of0.5-3 kms. Active flood plain is as an area on either side of a stream/river which is regularly flooded on a periodic basis which is designated on the basis of hydrogeological criteria set for this reach, i.e. 2.33 year return period of the flood. General Practise As per the EIA guidance/technical manual 10 km 9. in India for prepared by MoEF&CC for various sectors, the EIA carrying out EIA study area is desired as 10km radius around the studies project site. 4.5. Impact Identification Impacts are highly specific and depends on the nature of the activities to be undertaken at different stages viz. design/pre-construction, construction & operation phase. The three major activities involved in the project development which may have impacts on environment at different stages are construction and operation of civil interventions, maintenance dredging and operation of barges. These activities may impact different environmental components at different stages of project life cycle. But this is always possible that all these three activities may not impact the same VECs, one activity may have more impact on one identified VECS and none on another. Thus to identify the VECs which will be impacted by each of these three activity, an interaction matrix has been developed and is presented in Table 4.3. 140 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.3 Interaction Matrix of Major Project Activities and VECs Project Maintenance Barge Civil Interventions Activity Dredging Operations Pre- Operations VECs Construction/ Construction Climate No Yes No No Micro-climate Yes Yes Yes Yes Aquatic Ecology Yes Yes Yes Yes Dolphins & No Yes No No Turtles * Not to be carried out in sanctuary areas Water Flow Yes Yes No Yes Water Quality Yes Yes Yes Yes Terrestrial No No Yes Yes Flora/Cutting of Trees Avifauna Yes No Yes Yes Ambient Noise Yes No Yes No Levels Air Quality Yes Yes Yes Yes Land use No No Yes No Water resources No No Yes Yes Socio-economy Yes Yes Yes Yes From the above matrix, it can be seen which activity is anticipated to affect which VECS. It is apparent that barge movement and maintenance dredging are operational part of the project but civil interventions involve all design, construction & operation stages. Thus all the associated activities with different stages of development of civil interventions are identified and a matrix is developed phase wise to identify the impact of all the identified activities (activities in different stages of development of civil interventions, barge movement and maintenance dredging operations). The section below identifies the impacts which these three activities will have on the identified VECs. Identified incremental impacts due to NW1 activities are superimposed to assess the significance of identified impacts on these critical environmental resources. Thereafter, cost-effective but appropriate mitigation measures are proposed to mitigate impacts and bring the residual impacts within acceptable thresholds. An EMP has been designed to ensure the effective implementation of proposed mitigation measures (refer chapter 6). 141 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.6. Impact Assessment of NW1 „Jal Marg Vikas” NW -1 project has many components namely Terminal construction, navigation lock construction, maintenance dredging, river bank protection, river training, Ro- Ro jetty construction, navigational aids and barge operations. Some components have already been finalised and some are under finalisation stage depending on the feasibility. The finalised components are terminals at Varanasi, Sahibganj, & Haldia and navigation lock at Farakka. Other terminal sites and intervention are being finalised. This EIA reports covers impact associated components of NW-1 (finalised or planned components both). Output of CIA study and EIAs prepared for finalised components are used as reference input for carrying out impact assessment of all components. Impact assessment has been carried out for all design, construction and operation stages of the project implementation. Impacts have been assessed for all the project activities in entire project life cycle for all the physical, biological and social environmental components. Brief on the various components of the NW-1 on which EIA study has been undertaken is presented below 4.6.1. Maintenance Dredging for Maintaining Minimum LAD NW-1 aims to maintain navigation channel width of 45m and side slope of 1:5 from Haldia to Varanasi. Maintenance dredging is an essential continual activity for navigation channel to maintain the requisite LAD in different NW1 stretches to facilitate smooth and efficient navigation. Maintenance dredging is to be carried out periodically as per requirement during project initiation as well as during entire operation phase of the project. To meet the objective of project, IWAI though wanted to maintain LAD of 3 m in entire NW-1 but for optimizing the dredging requirement certain minimal LAD are defined for different stretches of NW1 as indicated below: Haldia to Tribeni : 3 m (naturally available LAD) Tribeni to Farakka : 3 m (including Farakka Lock) Farakka to Barh :3m Barh to Ghazipur : 2.5 m Ghazipur to Varanasi : 2.2 m The above LAD rationalisation and selection of appropriate site will reduce dredging requirement from 31.08 million cubic meter at 3m LAD to 14.85 million cubic meter which amounts to reduction of more than half of dredging volume there by reducing the impact to the extent more than 50%. Table 4.4 indicates the stretch where dredging is planned with corresponding associated environment, cultural and social sensitivities of the respective river stretches. Impacts of dredging operations in NW-1 are assessed considering the respective sensitivities. Detailed assessment of impacts of maintenance dredging has been carried out and is given in the sections below. Impact identification matrix for maintenance dredging is given below in Table 4.5. 142 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.4 Environmental Sensitivity Vs. ImpactIdentification Matrix for Maintenance Dredging Stretch Likley Important Aquatic Important Archaeologically Sensitive Locations Having Likely Impacts and Dredging Ecology Zone Avi-fauna Locations within 300 m from Cultural & Socio- Remarks (Stretch Quantity in sites NW-1 on each side (distance economic length in cum (distance and and direction from NW-1) Importance KM) direction from NW- (distance 1) and direction from NW-1) Haldia to 2,400,000 Hilsa Sanctuary Farakka St. John's Church (300 m, E) None specific No significant Tribeni (Within NW-1)- at 4 Barrage and dredging proposed locations adjoining Temple of Gour Chandra and within this stretch Tribeni to area Krishnachandra at Chatra-Gaur hence, no significant Farakka 1,220,000 Chandra Ghat (0 m, W) (Surrounding impact anticipated. (544 km) NW-1) Hazardwari Palace (at 30 m, E) Farakka to 1,570,000 Vikramshila Gangetic Udhwa Lake Sindhi Dalan (at 300 m, W) Community Temple at No dredging is Kahalgaon Dolphin Sanctuary Bird Sahibganj Terminal proposed at (VGDS) of River Sanctuary (9 Jama Masjid (at 140 m, W) site (proposed to be Vikramshila Gangetic Kahalgaon Ganga (Within NW-1 km, W) shifted) dolphin sanctuary to Barh 2,390,000 bout 60 Km long and within 10 km stretch) Bird Area - radius of sanctuary (347 km) Vikramshila area. Kurseala is Gangetic within 10 km radius of Dolphin VGDS. Impact of Sanctuary dredging on avifauna (within river may be due to noise stretch) which gets 143 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Stretch Likley Important Aquatic Important Archaeologically Sensitive Locations Having Likely Impacts and Dredging Ecology Zone Avi-fauna Locations within 300 m from Cultural & Socio- Remarks (Stretch Quantity in sites NW-1 on each side (distance economic length in cum (distance and and direction from NW-1) Importance KM) direction from NW- (distance 1) and direction from NW-1) Mokama attenuated beyond Taal -Barah 500 m of dredging Wetlands locations to the (Along NW- prescribed day time 1) ambient noise level of 55 dB(A) for Kurseala residential areas. River Course Noise impact on and Diyara avifauna of Udhwa Flood Plains sanctuary thus is (along river) considered minimal. Mokama Taal is close to river and its avi fauna can be impact from dredging noise. Dredge material in this stretch not found contaminated. Its disposal in river is likely to have impact on aquatic ecology 144 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Stretch Likley Important Aquatic Important Archaeologically Sensitive Locations Having Likely Impacts and Dredging Ecology Zone Avi-fauna Locations within 300 m from Cultural & Socio- Remarks (Stretch Quantity in sites NW-1 on each side (distance economic length in cum (distance and and direction from NW-1) Importance KM) direction from NW- (distance 1) and direction from NW-1) and water quality. Barh to 1,600,000 None None None Ghats at Patna Non as no sensitivity Patna associated. Dredge material in this (64 km) stretch is not found contaminated. Its disposal in river is likely to have impact on aquatic ecology and water quality. Patna to 2,770,000 None Danapur None None specific Impact of dredging on Buxar cantonment avifauna may be due area (at 2 to noise which gets (169 km) km, S) attenuated beyond 500 m of dredging locations to the prescribed day time ambient noise level of 55 dB(A) for residential areas. 145 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Stretch Likley Important Aquatic Important Archaeologically Sensitive Locations Having Likely Impacts and Dredging Ecology Zone Avi-fauna Locations within 300 m from Cultural & Socio- Remarks (Stretch Quantity in sites NW-1 on each side (distance economic length in cum (distance and and direction from NW-1) Importance KM) direction from NW- (distance 1) and direction from NW-1) Noise impact on avifauna of Danapur Cantonment zone thus is considered minimal. Dredge material in this stretch not found contaminated. Its disposal in river is likely to have impact on aquatic ecology and water quality. Buxar to 1,060,000 None None None None specific Dredge material in Ghazipur this stretch not found contaminated except Ghazipur marginal higher to Varanasi 1,840,000 cadmium as per US (187) standard at two locations. However, this level is also well below the aquatic 146 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Stretch Likley Important Aquatic Important Archaeologically Sensitive Locations Having Likely Impacts and Dredging Ecology Zone Avi-fauna Locations within 300 m from Cultural & Socio- Remarks (Stretch Quantity in sites NW-1 on each side (distance economic length in cum (distance and and direction from NW-1) Importance KM) direction from NW- (distance 1) and direction from NW-1) sensitivity analysis reported by Canadian guidelines30. Its disposal in river is likely to have some impact on aquatic ecology and water quality. Varanasi to Nil Kashi Turtle None Kardmeshwar Mahadeva Mandir Ghats (0 m, W) No impact anticipated Allahabad Sanctuary (within (at 240 m, W) on these river water about 7 archaeological sites (236 km) km stretch) Ramnagar, fort (at 40 m, E) and Kashi Turtle Archaeological excavation site, Sanctuary as no Varanasi (at 130 m, E) dredging is proposed in this stretch. Manmahal and observatory (at 40 m, W) 30 There are no Indian Standard for Bed sediment levels and aquatic sensitivity. In absence of Indian standards assessment is carried out against international standards and guidelines. 147 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Stretch Likley Important Aquatic Important Archaeologically Sensitive Locations Having Likely Impacts and Dredging Ecology Zone Avi-fauna Locations within 300 m from Cultural & Socio- Remarks (Stretch Quantity in sites NW-1 on each side (distance economic length in cum (distance and and direction from NW-1) Importance KM) direction from NW- (distance 1) and direction from NW-1) Total 14,850,000 -- -- -- -- - Dredge Quantity (option 2) for Maintaining LAD in Channel (1547 km) Total 3,10,79,576 - - - - - Dredge Quantity (if (option1) LAD is maintained 3M through the stretch) 148 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.5 Projection of Likely Significance of Environmental Impacts Due to Maintenance Dredging Operations Directio Duration Location Magnitud Extent Potential Impacts n e Significance Mitigative Activity Indirect Direct Large Small Local Wide +ve -ve ST LT Loss of M No benthic Dredging biota Settleme M Yes nt of suspend ed solids Attenuati L Yes on of light in water column Dispersio L Yes n of Sediment disturbance and overfilling of dredger contamin ated sediment s Degradati L Yes on of pelagic habit Impact L Yes on Fishing & boat 149 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Directio Duration Location Magnitud Extent Potential Impacts n e Significance Mitigative Activity Indirect Direct Large Small Local Wide +ve -ve ST LT moveme nt Increase L Yes Leakage of sediments during Operation of dredgers d ambient noise level Increase M Yes d turbidity over sensitive transportation inshore habitats 4.6.2. Operational Activity-Barge Movement & Maintenance Barge movement impacts are anticipated during entire operational phase of the project. Under NW1, it is proposed that vessels of maximum length 110 m, beam 11.4 m, draught 2.5 m-2.8 m and air draught of 9 m will ply in the waterway channels. As per current planning, vessels of 1500-2000 DWT are planned to ply between Varanasi & Haldia. Speed of these vessels will range from 5-10 knots (2.7 knots in sanctuary areas). IWT mode is however, most environment friendly mode of transportation when compared to other modes like rail & road but still has significant impact on physical, biological and socio-economic environment and are discussed in sections below. Impact identification matrix for barge movement and maintenance on is presented in Table 4.6 below. 150 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.6 Identification of Environmental Impacts Due to Barge Movement & Maintenance Directio Duration Location Magnitud Extent Potential Impacts n e Significance Mitigative Activity Indirect Direct Large Small Local Wide +ve -ve ST LT Air M Yes emission Underwat M Yes er Noise generatio n and impact on aquatic organism s Barge Movement Disposal M Yes of waste/se wage Water M Yes Quality degradati on Collision L Yes with aquatic organism Bank L Yes erosion/s couring 151 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Directio Duration Location Magnitud Extent Potential Impacts n e Significance Mitigative Activity Indirect Direct Large Small Local Wide +ve -ve ST LT Impact L Yes on socio- cultural practises/ rituals Oil L Yes spillages/ leakage Improved M Yes Freight Transport ation System Reductio M Yes n in GHG emission 4.6.3. Design, Construction, Operation and Maintenance of the Civil Interventions Civil interventions proposed under the project includes terminals, locks, Ro-Ro jetties, passenger jetties, river training works, bed & scour protection works, bend correction works, and barge maintenance facility. These interventions involve civil construction activities and associated operational activities depending on the nature of intervention for barges/vessels movement such as loading and unloading activity at terminals. These interventions will have three major phases, i.e. design/pre construction, construction and operation phases. Activities during these phases will have interaction with the various components of environment and may have associated impacts which may affect the environment potentially if not addressed and mitigation measures are not taken. Most of the impact are common in nature for all the different civil interventions. However, some impacts will be specific to nature and location of the intervention. EIA studies have been carried out for four already finalised interventions namely Varanasi terminal, Sahibganj terminal, Haldia terminal and Farakka lock. Outcome of these EIA studies have been referred to conduct the environment impact assessment study of the entire project. This 152 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 EIA study defines the overall impact of the all civil interventions but it is suggested to conduct separate EIA study for the any new civil interventions yet to be planned to study site specific impacts. Impacts during different phases of interventions‟ construction and operation on physical, biological and socio-economic environment are presented in the sections below for all the environmental attributes. Impact identification matrix for civil interventions is presented below in Table 4.7 below. 153 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.7 Identification of Environmental Impacts Due to Design, Construction and Operation of Civil Interventions S. Activitie Impacts Negative Impact Positive Impact Specific Applicability Broad mitigation approach No s Short Lon Rever Irrev Short Long in the Planned applicable to all similar . Term g sible ersibl Term Term Components impacts caused at various Ter e intervention sites under Jal m Marg Vikas Project A Pre-Construction Phase i Site Removal Major Tree felling is Removal of vegetation like Clearan of required in case of shrubs, herbs and some ce & Vegetatio Sahibganj terminal trees may be unavoidable Prepara n. Loss of project among the at different intervention tion green current planned sites. Permission from cover interventions. The forest department in UP including requisite and West Bengal and trees. compensatory District Authorities in Bihar plantation is and Jharkhand is essential proposed to prior to cutting of trees compensate the loss. besides, compensatory plantation to be carried out as per respective state policies. Impact on Restoration and The aesthetic values of aesthetic rehabilitation of all different intervention site values of such locations may be disturbed due to project occupied or used for construction activities site construction Provision of project design purposes to align the immediately after the Restoration and given task(s) is over rehabilitation of all such locations occupied or used for construction purposes immediately after the given task(s) is over Impact on -- The air pollution and GHG 154 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 microclim emission from different atic status terminal and jetty sites will caused increase due to increased due to local traffic and/or tree tree cutting. Dedicated cutting approach roads and improvement of haul roads should be considered to minimize the traffic congestion. Traffic management should be undertaken to avoid peak hours. Impact on Eco sensitive areas No intervention is Eco of Kashi Turtle proposed in eco sensitive Sensitive Sanctuary and areas to avoid any impact Areas Vikramshila Dolphin on these sensitive areas. Sanctuary are identified as restricted areas. No intervention is proposed in these areas to avoid any impact on these sensitive areas. Utility Shifting of utilities is To be carried out during Shifting required in prior or during construction and Sahibganj, and but without disrupting Safety Haldia. service to public. Change in Change in land use Necessary permission Land Use from agriculture to from the area development industrial in all authorities and local identified locations bodies to be obtained prior except at Haldia to development 155 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Change in Filling of site is Natural drainage pattern to Topograp required at Haldia, be maintained by provision hy of adequate drainage ii Acquisiti Displacem Land acquisition in Due compensation and on of ent of case of Sahibganj, other support to be Land People (R and Varanasi provided to affected & R) families as per RAP. Loss of Land acquisition in Should be given adequate Livelihood case of Sahibganj, compensation and and Varanasi alternate livelihood options and assistance as suggested by people during public consultation B Construction Phase i Constru Loss of Top soil should be The top soil should be ction of Top soil preserved and used preserved and used for Termina for land escaping and landscaping purpose and l green belt should be given to farmers development at site in nearby areas, if asked or other locations by them Soil Provision made for Clean-up operations contamina Sewage Treatment should be taken up tion due to plant, maintenance immediately after spillage. spillage of waste collection and material treatment before Debris and excavated reuse. Concreted earth should be disposed floor for storage of as per defined plan. fuel and oils Excavated earth should be reutilized to the extent possible in the construction activity and balance will be used for road 156 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 construction or disposed for designated places like mines in case of Sahibganj. Surface Turtle sanctuary lying Measures should be taken water at app. 2.3 km to prevent contamination contamina distance from the of run-off and mixing of tion Varanasi terminal site contaminated run-off with and the waters near River. Sahibganj terminal supports dolphins. Thus the utmost care should be taken at these locations to minimize surface water pollution and impact on these species. Air Habitations are Measures to be taken to pollution located close to the minimize air pollutant site at Sahibganj generation by minimizing Terminal site. usage of DG sets, using Provisions are made low Sulphur diesel, for air dust pollution implementing proposed air on land or water pollution control measures during material etc. No air pollution handling, loading and causing activities should unloading. be carried out in upwind direction of any settlement or sensitive area Noise Habitations are Measures to be taken to pollution located close to the minimize noise levels by site at Sahibganj DG sets & other Terminal site. machinery/equipment 157 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Measures are provided with acoustic proposed for noise enclosures. Noise causing reduction. activities should not be carried out close to settlement areas and during night hours. Increase Measures are Traffic management in Traffic- proposed to avoid required so as to avoid Congestio traffic congestion traffic jams if any such n where required situation arises. Temporar Restoration and Restoration and y change rehabilitation of the rehabilitation of the areas in areas occupied or occupied or used for Aesthetic used for construction construction purpose (Unpleasa purpose immediately immediately after use is nt view) after use is over. over. Impact on Provision to minimize Exposure to pollutants will Health & exposure to Workers. be only during construction safety of Use of PPEs and phase. Mitigation Workers safety precautions measures should be taken and defined. to minimize pollutant people in generation nearby areas Social -- Exposure to pollutants, impact loss of land, loss of livelihood, displacement etc., all are negative impacts. These can be minimized taking suggested mitigation measures Generation of employment is positive impact of the project 158 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Impact on Impacts anticipated Measures should be taken Aquatic at all the intervention to prevent contamination Ecology locations due to of run-off and mixing of proposed contaminated run-off with construction, and River. pilling activities. Adequate preventive measures are proposed to minimize the impacts. Felling of Provision are made Compensatory tree Trees- for compensatory plantation should be Reduction tree plantation should carried out as per State of Forest Policy be carried out as per vegetation cover State Forest Policy Bank-bed Adequate shore & Required at various erosion: scour protection stretches along the NW-1 River measures should be to maintain navigation Training taken at Sahibganj channel. Shore/scour Shore/sco terminal, Varanasi protection works may be ur terminal and Farakka required at the proposed Protection Lock site civil intervention sites as Works- per requirement to prevent bank and bed erosion C Operation Phase i Berthing Climate GHG emissions are likely Overall GHG of (GHG to be increased in the emissions will be Vessels/ emissions areas near the vicinity of reduced due to shift Barges, ) the proposed civil of freight from loading &Microcli interventions like jetties road/rail to and mate and terminals due to waterways and thus unloadin increased traffic improving the g movement. Also tree microclimatic activity, cutting is envisaged at conditions as 159 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 storage proposed intervention waterway movement of development sites cause least emission material especially Sahibganj. Both generation when , the factors together may compared to road & transpor contribute in micro climatic rail. Thus reduced tation of changes in the area. For GHG emissions will material the same compensatory contribute in reducing via road plantation should be the enhanced &railway carried out minimum as anthropogenic , and per state forest policy, climate change. Mainten installation of mechanical ance transportation mechanism Dredgin for unloading & loading of g barges and development Operati of thick peripheral and ons at avenue plantation. terminal GHG emissions may also s increase due to operation of dredgers (fuel based) Air Quality Air emissions near the Air emissions in (material proposed civil intervention overall NW-1 stretch handling sites like jetties & terminal will reduced as the and are like to increase due to vehicular movement spontaneo increased vehicular and fuel burning in us fire in movement and removal of transportation of coal the vegetation near the cargo will be reduced stockyard intervention sites. Air significantly due to s) emissions are expected to shift of cargo from be generated from road/rail to dredgers. waterways. In addition to this it is made mandatory to have thick green belt area and avenue plantation at all 160 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 proposed intervention sites. Economic Yes. Development of Development of Developm proposed interventions and project overall will ent & dredging operations will bridge the gap Generatio generate employment between demand and n of option for skilled, unskilled supply due improved Employme and semi-skilled people. cargo transportation nt efficiency. Thus this will increase the manufacturing capacity of the industries generating more employment directly & indirectly. Infrastruct Proposed civil -- ural interventions will attract the developm infrastructural development ent in close vicinity Increased Development of the Provision should be Run-off & proposed interventions will made for rain water alteration increase the paved and collection and of natural surfaces and thus the run- reuse. Provision drainage off will increase and should be made for pattern natural drainage pattern peripheral drains for will be altered. However, redirecting the rain storm water drainage water flow to network is design so as to maintain natural collect and reuse the water drainage pattern for dust supersession at around the the terminal itself. intervention sites. Noise Increased noise generation Provision should be Pollution anticipated at proposed made for thick green intervention sites like plantations at terminal, jetty and lock site terminal sites as 161 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 due to increased vehicular natural noise barrier. movement & material Other noise reduction handling but the noise can at source measures be managed by taking should also be taken proposed noise as feasible. management measures in sections below. Noise is also likely to increase due to dredging activities. Provision is made to green belt is made as natural barrier at site in additional to other feasible mitigative measures Surface Zero discharge option is Degraded water Water proposed at all terminals quality due to barge Pollution site to minimize water movement, release of pollution from the site. waste/waste water from barges/ballast Dredging poses threat to water/material surface water quality due spillage during to release of sediments accident/collisions/m however these being non- aintenance contaminated as per test hubs/workshops etc. results, impact is expected Proposed water to be confined to small quality management area around the disposal measures should be sites. . taken to prevent/minimize the impacts Ground Extraction of ground water Ground water may Water may be required at get polluted if the locations where civil dredged material is interventions like disposed or stored on terminal/jetty are land 162 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 proposed. Extraction should be as per CGWB guidelines. Ground water recharge should be done as per CGWB guidelines. River Shore protection and scour Bend correction and Hydrology protection measures will river training works be taken at proposed civil are required and are intervention sites. These proposed at many may have some impacts locations to maintain on river hydrology the navigation Dredged material can also channel. These be used for river protection measures may have works if feasible reducing some impact on the requirement of natural river construction material hydrology. Health & Increased air emissions -- Safety and degraded water quality may have significant impact on health of working population and population residing in nearby areas of proposed interventions. Impact will be limited to locations where interventions are proposed and are manageable if proposed mitigation measures are implemented. Dredging operations can pose accidental and health risks for workers and waterway users 163 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Soil Proposed civil intervention River training works Erosion works enhances the may be required at and probability of erosion of different locations Contamin bank and scouring of bed. such as bend ation River bank and bed correction locations protection measures at NW-1. should be taken and are proposed at Sahibganj terminal, Farakka lock & Varanasi terminal. Terrestrial A thick green belt and -- Ecology avenue plantation should be carried out at all the sites of proposed interventions. Survival rate of the planted species within the terminal site and at other compensatory plantation site will be maintained to minimum 70%. Aquatic Aquatic ecology will be Aquatic ecology of Ecology impacted at the locations entire NW-1 may be where civil interventions impacted due to and river training works are plying of barges, proposed. spillage of material Dredging works will lead to from barges, disturbance of aquatic dredging and ecology due to removal of disposal of dredged sediments dwelling benthic material, and river community, and high training works. underwater noise. Measures as suggested in EMP should be undertaken 164 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 so as to prevent the impacts on aquatic ecology of the area Aesthetics Will be improved due to -- development of infrastructure, green belt and other facilities. 165 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.7. Impact on Climate Change& Mitigation Measures 4.7.1. Meteorology of the NW-1 and the influence area A. Meteorology: The predominant wind direction in all IMD stations located along NW-1 is from North and Northwest direction in winters and South and Southeast direction during rest of the season. The wind speed in the area was mostly ranges between 1.9 km/hour at Patna IMD and maximum of 8.7 km/hour at Kolkatta IMD for all the months of a year. December and January constitutes winter months with daily mean minimum temperature of around 9.10C at Patna (IMD Station) and daily mean maximum temperature of around 26.90C at Kolkatta. April and May are the hottest months with daily mean maximum temperature varying around 40.40C at Varanasi and daily mean minimum temperature around 240C at Malda. Relative humidity ranges between 25-84%. The annual total rainfall in all IMD stations (representing respective city/towns) ranges between 1000.3 mm at Varanasi and 1728.5 mm at Kolkatta. B. Visibility: Visibility is of key concern for safe navigation all along NW1. There are occasions with reduced visibility (characterised by the average number of days affected by fog) in NW-1 stretch. The time period over which fog is likely to affect the NW-1 route extends from October to March inclusive. There is a subtle difference in the period of the year when fog is more likely to affect navigation on different locations particularly the locations falling nearer the coast (Haldia and Kolkata) are having a larger window over which fog could occur (October to March). Berhampur is having the narrowest window (January to March). The greatest probability of fog occurring at locations along the NW-1 route is during January, the potential inland locations (Patna and Varanasi) to be affected by fog on more than 50% of days during December and January. During such conditions, the performance of vessel-mounted navigation aids, such as radar, may also be affected. 4.7.2. Climate Change Scenario in India: Generally, IWT is considered more energy efficient and emit less CO 2 per ton-km performance compared to other two transport modes namely road or rail transport modes. The average emissions from IWT mode range from 25 g CO 2/ton-km to 70 g CO2/ton-km. Whereas from road transport by truck it varies from 60-120 gr CO2/ton-km and in the case of rail mode it varies from 20-80 g CO2/ton-km depending upon fuel use transport capacity etc. In the case of IWT the variations are due to fleet structure, age and engine of vessels, fuel use, market conditions etc. All these factors are associated with IWT system efficiency which can be planned and managed to make the IWT system more efficient. Besides, the impacts of climate change are required to be managed depending upon the events occurring due to the changes in climate taking place. This type of mitigation management is known as Adoption need in IWT facilities. For example, as per World Bank report on impacts of changes in climate in India are concerned, the erratic behaviour of Indian monsoon has become a reality and is considered to be the major manifestation of climate change impacts in India. The frequency of droughts or short spells of heavy rainfall events are now being experienced 166 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 at much higher rate. It is pertinent to mention that agriculture productivity is life line of India. An abrupt change in the monsoon could precipitate a major crisis, triggering more frequent droughts as well as greater flooding in large parts of India. Droughts are expected to be more frequent in some areas, especially in north-western India, Jharkhand, Orissa and Chhattisgarh. At 2.5°C warming, melting glaciers and the loss of snow cover over the Himalayas are expected to threaten the stability and reliability of northern India‟s primarily all glacier-fed rivers, particularly the Indus and the Brahmaputra. The Ganges will be less dependent on melt water due to high annual rainfall downstream during the monsoon season. As per WB reports downward trend of river flow of the Indus, Ganges, and Brahmaputra rivers alone could significantly impact irrigation, affecting the amount of food that can be produced in their respective river basins thereby adversely impacting livelihoods of millions of people (209 million in the Indus basin, 478 million in the Ganges basin, and 62 million in the Brahmaputra basin in the year 2005). The Indus and the Ganges-Brahmaputra-Meghna Basins are the major trans-boundary rivers, and the increasing demand for water is already leading to tensions among countries over water sharing (World Bank). 4.7.3. Impact of Shift of Freight Movement to IWT Mode on Rate of Emissions of GHG: Any transport system viz rail, road and IWT has emission of GHG. It is also well established that different mode of transport has different intensity of GHG emission. However, it is already established that when we talk about bulk cargo transportation, IWT consumes the minimal fuel thus have associated minimal emissions and minimal transportation cost A detailed analysis of GHG emission to be emitted during cargo transportation in “with and without project” scenario for all the three modes has been carried out to find out the net GHG savings due to the project implementation in CIA report. It is estimated that in IWT mode emissions will be generated during construction of the proposed infrastructure due to material transportation, due to material transportation by IWT mode (barges) & trucks within terminals during operation phase and due to dredging during operation phase. These emissions were computed and were compared with emissions to be generated vide road and rail mode. Comparison of emission generation due to freight transportation vide rail, road & IWT mode and the savings of GHG emission for “With project” scenario is given in Table 4.8. Emissions expected to be generated due to material transportation during construction of the planned navigation infrastructure is given in Table 4.9. On comparison it was found that emissions generation in IWT mode is least and savings in emission is 4875601.76 tonnes. From these savings emissions to be generated during construction of the proposed infrastructure due to material transportation, due to material transportation by trucks within terminals during operation phase and due to dredging during operation phase were deducted and the net GHG savings are computed. Net GHG emissions is estimated to be 4544037.4 tonnes. Net GHG savings due to project, i.e. in “With project” scenario is given in Table 4.10. 167 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.8 : GHG Emissions Generation Due to Material transportation Vide Rail, Road & Barges During With project & Without project Scenario and GHG Savings Estimations GHG Emissions GHG Emissions GHG Savings (tonnes) Without Project (tonnes) With Project (tonnes) (Without Project-With Project) Road Rail IWT Road Rail IWT Road Rail IWT Total Year 2015 710,611 25,593 91,434 710,611 25,593 91,434 0.00 0.00 0.00 0.00 2016 760,353 26,105 91,434 813,578 26,627 91,434 -53224.73 -522.09 0.00 -53746.82 2017 813,578 26,627 91,434 870,528 27,159 91,434 -56950.46 -532.53 0.00 -57483.00 2018 870,528 27,159 91,434 931,465 27,702 91,434 -60936.99 -543.18 0.00 -61480.18 2019 931,465 27,702 91,434 996,668 28,256 91,434 -65202.58 -554.05 0.00 -65756.63 2020 996,668 28,256 91,434 889,526 25,939 95,092 107141.82 2317.03 -3657.38 105801.47 2021 1,046,501 28,822 95,092 934,003 26,458 98,896 112498.91 2363.37 -3803.67 111058.61 2022 1,098,827 29,398 97,945 980,703 26,987 103,821 118123.85 2410.64 -5876.68 114657.82 2023 1,153,768 29,986 100,883 1,029,738 27,527 107,945 124030.05 2458.85 -7061.81 119427.09 2024 1,211,456 30,586 103,909 1,081,225 29,729 112,222 130231.55 856.40 -8312.75 122775.20 2025 1,272,029 33,033 107,027 1,113,661 31,513 115,589 158367.62 1519.50 -8562.14 151324.98 2026 1,310,190 35,015 109,167 1,147,071 33,404 117,901 163118.65 1610.67 -8733.38 155995.94 2027 1,349,496 37,115 111,351 1,181,483 35,408 120,259 168012.21 1707.31 -8908.05 160811.47 2028 1,389,981 39,342 113,578 1,216,928 37,533 122,664 173052.58 1809.75 -9086.21 165776.12 2029 1,431,680 41,703 115,849 1,253,436 39,785 125,117 178244.15 1918.33 -9267.93 170894.55 2030 1,474,630 44,205 118,166 1,291,039 42,172 127,619 183591.48 2033.43 -9453.29 176171.62 2031 1,518,869 46,857 120,529 1,329,770 44,702 130,172 189099.22 2155.44 -9642.36 181612.30 2032 1,564,435 49,669 122,940 1,369,663 47,384 132,775 194772.20 2284.76 -9835.20 187221.76 2033 1,611,368 52,649 125,399 1,410,753 50,227 135,431 200615.37 2421.85 -10031.91 193005.31 2034 1,659,709 55,808 127,907 1,453,076 53,241 138,139 206633.83 2567.16 -10232.55 198968.44 2035 1,709,501 59,156 130,465 1,496,668 56,435 140,902 212832.84 2721.19 -10437.20 205116.83 2036 1,760,786 62,706 133,074 1,526,601 58,693 143,720 234184.51 4013.16 -10645.94 227551.73 2037 1,796,001 65,214 134,405 1,557,133 61,040 145,157 238868.20 4173.69 -10752.40 232289.49 2038 1,831,922 67,822 135,749 1,588,276 63,482 135,749 243645.56 4340.64 0.00 247986.20 2039 1,868,560 70,535 137,107 1,620,041 66,021 137,107 248518.47 4514.26 0.00 253032.73 2040 1,905,931 73,357 138,478 1,652,442 68,662 138,478 253488.84 4694.83 0.00 258183.67 2041 1,944,050 76,291 139,862 1,685,491 71,408 139,862 258558.62 4882.63 0.00 263441.24 2042 1,982,931 79,343 141,261 1,719,201 74,265 141,261 263729.79 5077.93 0.00 268807.72 2043 2,022,589 82,516 142,674 1,753,585 77,235 142,674 269004.39 5281.05 0.00 274285.43 2044 2,063,041 85,817 144,100 1,788,657 80,325 144,100 274384.47 5492.29 0.00 279876.76 2045 2,104,302 89,250 145,541 1,824,430 81,128 145,541 279872.16 8121.73 0.00 287993.89 4875601.76 Total GHG Savings (Tonnes) ~4.9 million tonnes 168 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 4.9 Emissions estimated to be generated due to construction material transportation for 6 terminals and locks Facility Emissions (Tonnes) Year Varanasi terminal 650 2016 Sahibganj terminal 58 2016 Haldia Terminal 2982 2016 Other three Terminals 3600 2017 Farakka Lock 2132 2017 Table 4.10 Net GHG savings due to Projcet (2016-2045) S. Year GHG GHG GHG GHG GHG Net GHG No. Savings Emissions Emissions Emissions Emission in savings (Tonnes) Within Due to Due to construction A-B-C-D-E (Without terminal dredging Empty barge of terminals Tonnes project- B C Movement and locks Withproject) Tonnes Tonnes D E A Tonnes Tonnes Tonnes 1. 2016 -53746.82 641.5 3730.3 6,857.58 3600 -68274.4 2. 2017 -57483.00 641.5 3730.3 6,720.43 5732 -74005.4 3. 2018 -61480.18 641.5 3730.3 6,583.28 0 -72133.5 4. 2019 -65756.63 641.5 3730.3 6,446.13 0 -76272.8 5. 2020 105801.47 667.1 3730.3 6,308.98 0 95408.9 6. 2021 111058.61 693.8 3730.3 6,418.70 0 100542.2 7. 2022 114657.82 728.4 3730.3 6,527.10 0 104014.7 8. 2023 119427.09 757.3 3730.3 6,696.47 0 108599.3 9. 2024 122775.20 787.3 3730.3 6,800.52 0 108227.5 10. 2025 151324.98 810.9 3730.3 6,901.66 0 134531.6 11. 2026 155995.94 827.2 3730.3 6,935.33 0 144892.3 12. 2027 160811.47 843.7 3730.3 6,897.19 0 149737.2 13. 2028 165776.12 860.6 3730.3 6,854.74 0 154735.4 14. 2029 170894.55 877.8 3730.3 6,807.84 0 159891.6 15. 2030 176171.62 895.3 3730.3 6,756.32 0 165210.9 16. 2031 181612.30 913.2 3730.3 6,700.02 0 170698.4 17. 2032 187221.76 931.5 3730.3 6,638.76 0 176359.4 18. 2033 193005.31 950.1 3730.3 6,572.37 0 182199.5 19. 2034 198968.44 969.1 3730.3 6,500.68 0 188224.2 20. 2035 205116.83 988.5 3730.3 6,423.48 0 194439.6 21. 2036 227551.73 1008.3 3730.3 6,340.60 0 216946.9 22. 2037 232289.49 1018.4 3730.3 6,251.83 0 221768.1 23. 2038 247986.20 952.4 3730.3 6,096.61 0 237655.0 24. 2039 253032.73 961.9 3730.3 5,497.84 0 243295.2 25. 2040 258183.67 971.5 3730.3 5,347.16 0 248591.7 26. 2041 263441.24 981.2 3730.3 5,192.91 0 253998.4 27. 2042 268807.72 991.0 3730.3 5,035.05 0 259517.6 28. 2043 274285.43 1001.0 3730.3 4,873.50 0 265151.6 29. 2044 279876.76 1011.0 3730.3 4,708.23 0 270902.9 169 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 S. Year GHG GHG GHG GHG GHG Net GHG No. Savings Emissions Emissions Emissions Emission in savings (Tonnes) Within Due to Due to construction A-B-C-D-E (Without terminal dredging Empty barge of terminals Tonnes project- B C Movement and locks Withproject) Tonnes Tonnes D E A Tonnes Tonnes Tonnes 30. 2045 287993.89 1021.1 3730.3 4,539.16 0 279183.7 Total 4875602 25986 111909 187230.5 9332 4544037.4 Net GHG savings from Proposed Jal Marg Vikas Project is estimated to be 4544037.4 tonnes. These emissions can be further reduced by design and operational measures. Measures for Avoidance and Mitigation of Impacts Adoption of modern designed vessels to be operated having more load carrying capacity and less draught requirement. Operating the freight vessels at slow speeds to increase the fuel efficiency and reducing the emissions. Adoption and strictly adhering to the standards as prescribed by MARPOL for managing the emissions. Switching to LNG based vessels. LNG is not only cleaner but have comparatively higher calorific value than gasoline and diesel. 4.7.4. Impact on Micro Climate of NW1 due to Civil Interventions: A. Impacts During Design & Construction Phase Impact during design and construction phase can be co-related with the increased CO2 emission due to the associated activities. CO2 emissions increase is also associated with various other NW1 project activities such as burning of fossil fuels in the vehicles, DG sets and construction equipment & machinery and cutting of existing vegetation. CO 2 being one of the most potential GHG will contribute in increasing GHG concentration and associated increased average temperature/climate change phenomenon. At this stage the proposed facilities include 3 terminal sites and 1 lock site to be developed. No major tree cuttings are anticipated with the development of Farakka lock site, Haldia terminal site and Varanasi site. However, app. 500 trees are to be cut for development of Sahibganj terminal site. Cutting of app. 500 trees may lead to sequestration of app. 855 tons of carbon. Measures for Avoidance and Mitigation of Impacts Planning and design of the project layout should be done so as to minimize the clearance of existing vegetation and felling of trees Permission from DFO should be taken prior undertaking any tree cutting. Compensatory plantation should be carried out as per state forest policy. Apart from compensatory plantation additional plantation should also be carried out so to recover the Carbon sequestration earlier. Considering average life cycle of trees as 30 years, the number of trees to be planted against loss should be 30 times to 170 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 recover in one year, but, it is not feasible practically, thus ratio of compensatory plantation should be kept as much as possible. In case of Sahibganj terminal project, compensatory plantation will be carried out in ratio of 1:7 (1:2-mandatory & 1:5 additional). Thus 3500 trees (1000-mandatory & 2500-additional) will be planted in place of 500 trees cut. Plantation of additional 2500 trees will help in recovering Carbon sequestration in 5-6 years in place of 6-7 years. In terms of Carbon value, trees of high Organic Carbon contents31 need to be planted more for faster recovery of C loss. Project design should incorporate usage of low embodied energy building & construction material, energy efficient electric equipment, water conservation fixture, and rain water harvesting measures to make project energy efficient and sustainable and to minimize the associated emissions and discharges. All terminal buildings should have energy efficient design. It should follow GRIHA guidelines and aim for highest ratings under GRIHA. Minimizing the resource requirement and waste generation through best management practices like re-use, reduce, recycle and recover. B. Impacts During Operation Phase Operation phase of these interventions will not have any significant impact on climate change drivers or climate change. However, GHG emissions are expected due to transportation of material to & fro from terminal site, material handling within the terminal sites, operation of the machinery/equipment/pumps and operation of DG sets. Though these emissions will not be significant enough however these may increase in a situation like traffic congestions if to and fro or on terminal traffic is not managed effectively. The Inland transportation will result in overall GHG emission due to model shift from rail and road to IWT as per analysis carried out in section 5.6. Measures for Avoidance and Mitigation of Impacts Management of the traffic carrying cargo to be received at the terminal/jetty site by fixing the hours and route of transportation Development of adequate road/rail infrastructure for transportation of material to & fro from terminal/jetty site to minimize the emission generation due to traffic congestion Usage of low sulphur diesel/CNG based vehicles to transport the material Adoption of energy efficient machinery for material handling & barge loading to minimize energy consumption Adoption of 4Rs, i.e. Reduce, Re-use, Recycle and Re-use for material use and fuel consumption Ensuring survivability of the plantation within site and at other locations under Jal Marg Vikas project to minimum 70%. 31 Mid-term and long-term rotational species like Jamun and Aam (Mango) are referred. These are species with life span ranging from 20 to 100 years approximately 171 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Adoption of clean energy options like solar energy, designing building to obtain green building rating of Platinum level etc. 4.7.5. Conclusion (Climate Change) From the above discussion, it can be concluded that overall GHG emissions will reduce after operationalization of the NW-1 due to shift of freight from road/rail to NW-1. However, the GHG emissions near the civil interventions may increase due to enhanced traffic movement in nearby areas and within terminal areas. The emission may also increase due to tree cutting which may be required for development of these terminals/locks. Tree cutting reduces the carbon sequestration potential of that area thereby leading to persistence of CO2 (potential GHG) in atmosphere for longer time. But with the various mitigation measures like compensatory plantation, maintenance of thick green belt around the site boundary & along the road, usage of mechanical conveying system for material transportation inside the terminal can reduce the GHG emissions significantly. 4.8. Impact Due to Natural Disasters & Mitigation Measures Natural hazard anticipated at the site are floods, cyclones and earthquake. As per seismic zone map of India, India is divided into 4 seismic zones, i.e. zone 2, 3, 4 &5. Zone 2 is least hazard zone and zone 5 is most hazardous zone. NW-1 traverses through 4 states namely: Uttar Pradesh, Bihar, Jharkhand and West Bengal. As per seismic zone map of India, these states fall under category III & IV, i.e. moderate and high damage risk zone. Thus it is essential to take this in consideration while designing the structure of proposed intervention so as the site can withstand the earthquake of moderate and high intensity. All the interventions will be developed along the river thus are prone to the flooding. The intervention should be designed considering the 50 years return HFL level of the river. Finished level of both the off-shore & on-shore structures should be above the HFL of river to prevent the flood hazard. Bunds/levees should be constructed along the stretches which floods heavily leading to high damage. At Haldia terminal site, embankments are already developed along the river by Haldia Dock Complex thus the site is not prone to flooding. Further flood protection measures are proposed at the site. Another natural hazard associated with the project is cyclone. Only the Haldia site is prone to cyclone. As per cyclone hazard map of India, region lies in very high cyclone prone area. Also the tidal variations are high in Haldia region. Thus safety and prevention measures should be included in project design to minimize the damage due to these events. Cyclone threat is not anticipated at any other planned or proposed civil intervention site. Apart from above natural disasters other occupational disasters may also occur at the site like electricity fire, fall/trip, injury, fire in stored oil etc. These hazards can be mitigated if adequate emergency preparedness plan is in place and followed during emergency situation. 172 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Measures for Avoidance and Mitigation of Impacts: Structure design of the building should be prepared considering the seismicity of the area and building should be designed for one higher seismic zone. All structures should be designed above the HFL of the river for 50 years return flood period. Adequate fire-fighting facilities/infrastructure should be provided at each intervention site Mock drills should be conducted for the workers to handle various emergency situations like floods, earthquake, cyclones etc. Emergency response cell should be developed for each site to take care and handle the expected emergency situation Emergency collection area and emergency control room should be provided at the site. Display of emergency contact nos. should be made in the emergency room and at other site locations. Emergency cell should be comprising of personnel well trained in health & safety management at sites Fuel should be stored in isolated location in HDPE tanks along with firefighting facilities provided at all fuel storage locations. Entry to high risk area like electrical panels, control room, HT lines, fuel storage area should be restricted only for authorized & trained personnel Ensure availability of the first aid & ambulance facility at each site Tie-ups with the local hospitals of the area to handle various emergency situations Regular supervision and maintenance for adequacy and intactness of the flood control measures provided at each site Nearest cyclone shelter should be notified to all the workers at the site Regular health check-ups should be conducted for the workers at site to detect the occupational hazards if any. 4.9. Impact Due to Shifting of Existing Utilities& Mitigation Measures Utility shifting may be required to be carried out at the sites where civil interventions are proposed. No utility shifting is required at Varanasi terminal. However, at Farakka site a FBP road will require to be realigned and at Haldia site existing ammonia pipe line of Tata Chemical plant and a road to Mitsubishi plant are required to be shifted. Shifting of these utilities may cause substantial inconvenience to users depending on the nature of utility to be shifted. Measures For Avoidance of Impacts: Shifting of any utility should be carried out prior to the start of construction and with consent of users to minimize the disturbance to them. Users should be pre-informed about the shifting of utility and support should be provided to users for alternate arrangement as feasible to minimise inconvenience to existing users. 173 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.10. Impact on Land Environment& Mitigation Measures 4.10.1. Status of land environment along NW-1 and influence area A. Land Use: Land use within the 10 km Radius of the NW-1 is majorly dominated by agricultural land. About 78.9 % of the land is under cultivation; about 7.18% land is under settlement, 7.21% of the land is under water bodies, about 3.59% land is under vegetation, 2.82% land is under dry river bed and rest of the land falls under other uses. B. Cropping Pattern: The Ganga River with its fertile soil is having a great influence to the agricultural economies of adjoining district along the NW-1. The Ganges and its tributaries provide a constant source of irrigation water catering to the agricultural needs of an extensive area along the NW-1. The major crops cultivated in that area include rice, lentils, sugarcane, potatoes, oil seeds and wheat. Along the banks of the river, the existence of swamps and lakes also provide a rich fertile soil for crops like legumes, chilies, sesame, mustard, sugarcane, and jute. C. Soil Quality: Most of the NW-1 stretch is dominated by alluvial soil type. The entire alluvial formation is endowed with rich soil nutrients. Soil texture along the NW-1 can be described as Sandy Clay, Sandy Loam and Clay Loam type. Soils along the NW-1 are generally neutral to slightly alkaline nature. Overall soil along the NW-1 area is of moderately fertile and not expected to be detrimental to the growth of agricultural and forest crops. D. River Bed Sediments Quality: The concentration level of heavy metal was found low in concentration and within acceptable limit as per standard (Criteria for Off-Shore Dumping of Dredged Material, USA) except cadmium which is slightly above the USA standard at some location in UP stretch that may be due to industrial effluent discharge in this section. Pesticide concentration in all sample were found far below the USA criteria. The pesticides presence is on expected line as these are predominantly used for various agriculture applications. The source of these pesticide parathion and endosulphan might be from indiscriminate applications of insecticides and pesticides for agriculture. E. Existing Waste Management Facilities along NW-1: The municipal and bio-medical waste management facility is available at select cities like Allahabad, Varanasi, Patna, Kolkatta and Haldia in the entire stretch of NW-1. Common Hazardous waste facility is available only at Haldia in NW-1 area. 4.10.2. Impacts on Land Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel Impact due to maintenance dredging on land environment is anticipated only due to dredge disposal. On land/on shore disposal is proposed only in case the river bed sediments are contaminated or in case of Haldia terminal dredging. On land or on shore disposal of river bed sediment has the potential to impact soil quality and as the excess 174 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 water in sediments leaches down to ground can also affect the ground water quality. If sediments contain heavy metals or any toxins, then the soil quality of the area may get affected and these pollutants may travel along with the seeping leachant. If the dredged material is disposed on land near the water body in form of slurry, excess water drains back to the water body thereby polluting it. This excess water may contain significant sediment load and constituent of land surface which may pollute the water quality and also may affect the shallow water area of the river which may even be breeding or spawning ground. In case situation arise for disposal of dredge sediments on river banks or land, the impact intensity would vary depending on the site sensitivity. For example, location of Eco sensitive receptors, presence of places of cultural importance, presence of spawning and breeding grounds, presence of archeologically protected places. Measures for Avoidance and Mitigation of Impacts Mitigation measures are proposed considering for the action required at design and operation stage of the project. Standards should be developed by concerned authorities for onshore and off-shore dredged material disposal and development of the process to ensure its compliance Dredged material should be checked for toxicity and contamination prior its disposal for prevention of contamination of water and its impacts on aquatic life. International standards for judging onshore & off-shore disposal of dredged material are given in Annexure 4.1 ( Volume 3C). If any stage onland disposal of dredge material is planned, then dewatering of the dredged sediments should be carried out prior to onland disposal. If dredge material is found contaminated at any particular location then it should be disposed on land after decontamination. Onland disposal of dredged material should be carried out only at approved TSDF site such as approved TSDF site of Haldia Dock Complex at Sagar. The contaminated dredge material should be collected in the leak proof container for decontamination and disposal to the landfill site. The disposal facilities should be designed with adequate liners to contained the leachate and also should have provision of leachate collection and testing to periodically check the functionality of the disposal site. Dredge material should not be disposed in river banks;Disposal should be in line with the dredging sensitivity analysis defined at Table 4.4. If dredged material is disposed on land, then the care should be taken that the tail water is collected and made free from sediments prior to its discharge back to surface water body. 4.10.3. Impact on Land Environment Due to Operations- Barge Movement Barge movement generates the ripples and waves which have potential to affect the river banks and the structures at river banks if proper mitigation measures are not taken. Waves generated due to vessel movement are of varied intensity and depends on vessel‟s speed, hull shape, and draft. The River Ganga has wide width and navigational channel mostly to be confined in middle reached of the river. Bank erosion due to vessel 175 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 movement is anticipated to be minimal along NW-1 except at Farakka feeder canal which has smaller width and has eroding banks and at bends or at narrow stretches of river. Erosion can be prevented by taking avoidance and mitigation measures as given below. Waste generated from barges if disposed off at the terminal facilities or nearby areas may impact the soil quality. Thus control measures should be taken to prevent any unaurhorized waste/sewage dumping so as impact can be avoided. Measures for Avoidance and Mitigation of Impacts Restricting the ship speed in the stretches where river is narrow and in feeder canal to prevent impact on the river banks. Entire stretch of NW-1 should be studied and speed regulations should be made for the different sections in the NW-1 as per sensitivity to erosion River bank protection works should be carried out at the bank locations which are prone to erosion. Opt for the bank protection measures in feeder canal to maintain the speed of the barges. All barges should have zero discharge facility they should have sewage treatment systemon board along with treated sewage storage facility. It should also have facility to store for the storage of other domestic and maintenance and material handling waste. Each barges should dispose these wastes at barge maintenance facilities. In absence of these facilities such waste should be disposed of at terminals. Each terminal should have the facility for suction and treatment of treated sewage from the barges and facility to handle all kind of wastes generated at the barges. These services can be provided to the barge operators on chargeable basis. 4.10.4. Impacts on Land Environment Due to Physical Interventions A. Pre-Construction/Design and Construction Stage Typical impact associated with land environment component during design and construction stage of implementation of proposed civil interventions are listed below Change in land use& Loss of agricultural land and/or fertile agricultural soil Land acquisition Change in topography Soil quality deterioration due to spillage of fuel/paint, disposal of muck or soil contamination with other construction material i. Impact on Land Use& Land Acquistion Development of terminals/jetty or other proposed structures under NW-1 can be in general classified under industrial/transportation infrastructure category. Development of these intervention will cause changes from pristine land use class. Varanasi site (5.685 ha) is already under possession of IWAI. However additional land of 1.415 ha is required to be acquired to provide connectivity to terminal site with NH-7 which is agricultural land. For development of Sahibganj terminal, total 78.91 ha of land will be required including road & rail connectivity. For phase I, 23.98 ha of land will be required and 176 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 remaining 54.93 ha will be required for phase II. Acquistion of 45.20 ha has been initiated by IWAI. Thus change in land use is associated at Varanasi & Sahibganj sites. Land at Farakka is Government land and has been transferred to Ministry of Shipping, with IWAI the custodian. Haldia site currently lie within industrial zone of Haldia Dock Complex (HDC) and no changes in land use is anticipated at this site. Land of 24.68 ha has been leased out by HDC to IWAI for 30 years. ii. Impact on Topography Varanasi site is slightly undulating with elevation varying from RL+74.0 to RL +77.0. Sahibganj site is highly undulating with level difference of 16 m and elevation range within 30-56 amsl. Excess unused muck of 12.1 lakh cum will be generated at the Sahibganj site. Haldia terminal site is a low lying area with elevation variation of 4-9 m amsl. Site requires additional filling of 3.3 lakh cum to achieve the desired level above HFL of Hoogly river. Farakka lock site is also undulating with elevation variation of RL+13-RL+29 m. To achieve the requisite level of 28.44 m so as the site is above HFL excess muck of 7.63 cum will be generated from the proposed Farakka site. So such preconstruction land levelling tasks will disturb the natural topography of the site. Excavation and filling tasks at site will lead to the loss of precious top soil. As the soil of the intervention sites being from agricultural lands thus site development tasks will lead to a loss of fertile top soil. Such land use or topographical changes are permanent in nature but the resultant impacts will not be significant once mitigated properly as the project is to be implemented keeping the overall associated economic gains of the region. iii. Impact on Soil Quality Construction waste (debris, unused iron bars or damaged support structures, quarry dustetc.) if discarded or duped in river in an uncontrolled manner may affect soil of the site or river water quality. Fuel oil/lubricants/chemicalsmay be stored at site thus the occurrence of accidental fuel spillage or leakage cannot be ruled out which eventually can contaminate the adjoining soil strata. Such soil contamination can be severe in case of voluminous leakage. Thus the mitigation measures are required to be taken to prevent the spillages & leakages so as the impacts arising due to oily spillages can be minimized. Movement of construction vehicles and equipment may lead to soil compaction on haulage roads as well as nearby areas. Soil may also be contaminated due to inappropriate disposal of used oil, lubricating oil, fuel, waste oil, effluent from vehicle/equipment washing area and oily solid waste (fuel filters, oily rags) which are likely to be generated from repair and maintenance of transport vehicles, construction equipment and machinery. Soil may also be contaminated due to inappropriate and untreated disposal of domestic solid waste and sewage from construction camps and toilets at site. Such contamination can be prevented by taking appropriate measures for mitigation of impacts. Also these impacts are short term confining to construction period only and will not be of high significance. Apart from this dredging will be required for construction of off-bank structures like berths & jetties. Construction of jetty at Sahibganj will require dredging of 0.15 million cum of river sediments and construction of jetties & berths at Haldia will require dredging 177 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 of 0.7 million cum river sediments. The river dredge material is not found contaminated (refer Table 4.59 for dredge material quality) and should be disposed-off by the contractor at site as per norms proposed under mitigation. Uncontrolled disposal of large quantity of dredged material on the banks may contaminate the productive site or aesthetic of disposal area which can be prevented by implementing dredging management plan which is provided as standalone EMP in Volume 9. The dredged sediments can also be used as fillers (for cut and fill tasks for land levelling) where ever required. Measures for Avoidance and Mitigation of Impacts Excavation and filling tasks should be carried out in parallel so as to minimize the soil erosion. Unusable debris material should be suitably disposed at pre designated disposal locations, with approval of the concerned authority. Compaction of soil should be undertaken by controlled sprinkling the water to minimize the surface runoff and erosion. Agricultural land should not be selected for setting up construction camps, borrow area (if any), plant site or any other construction purpose Well-designed water sprinkling to be carried out for dust suppression 15 cm of top soil layer should be stripped off prior to excavation and should be stored separately in covered condition and used for landscaping purpose at a later stage. This should be stored in the form of the heap with the slide slopes covered with grass Remaining excavated soil should be used for filling purpose and left over should be stored in covered conditions for use in future for construction of approach road & railway connectivity and mine rehabilitation located at 4-5 km from site. The soil storage location should be identified in advance in consultation with PWD which is likely to construct the approach road. Dredge soil should also be either utilised for construction activity or disposed along with excavated soil to the identified debris disposal site Fuel should be stored in HDPE containers on paved surfaces with provision of catchment pit to prevent soil contamination from oil spillages. Arrangement should be made for segregation of municipal solid waste into recyclable and non-recyclable waste Non-recyclable waste generated should be disposed regularly through authorized agency. Recyclable waste should be sold to authorized vendors Construction waste generated should be segregated at site into recyclable, reusable & rejected fraction. Recyclable should be sold to authorized vendor, reusable waste should be stored at site for usage and rejected fraction should be disposed at designated sites by the municipal authority If no debris or waste disposal site exists in the area then a site should be identified by contractor for debris disposal, should be approved by IWAI and should be used & manage for the same as per the Debris Management Plan Septic tank or mobile toilets fitted with anaerobic treatment facility should be provided at construction camp 178 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Aggregates will be sourced from existing licensed quarries. Copies of consent/ approval / rehabilitation plan for a new quarry or use of existing source will be obtained by DBOT contractor and submitted to IWAI. Geometric adjustment should be made if required and technically safe to minimise cutting of the tree for rail & railway construction. Separate provision should be made for compensatory tree plantation if any tree cutting is carried out for construction of road & railway link32. Hazardous waste like used oil from DG sets should be stored in HDPE containers and should be stored on paved surfaces in isolated location to prevent its spillage and contamination of soil. Used oil should be disposed through authorized vendors only. Movement of construction vehicles should be restricted to the designated haulage roads only to prevent compaction of soil in other areas The earth stockpiles to be provided with gentle slopes to prevent soil erosion. Sedimentation tanks should be provided with storm water drain to arrest the sediments and these sediments should be removed and stored with remaining excavated soil Provision of cross drainage structure like culverts should be made in the access road if required to maintain the natural drainage pattern and prevent soil erosion. Provision of side drain should be made in access road if required to prevent water logging. Shore protection works like stone pitching, and geo-textile matting along the bank and construction of stone apron in the river to prevent the scouring of banks should be undertaken Bio-turfing of embankments should be made enhance the slop stabilization Wash-off from concrete mixing tanks and wash from washing area should not be allowed to enter the soil. This wash should be collected through drains into tanks and concrete should be settled, collected, dried and re-used in the site again. B. Operation Stage Solid waste to be generated during the operation phase includes waste generated at terminal sites and waste generated in vessels which is to be received at terminal sites till the time vessel maintenance and repair facility is developed. The waste may include food waste, plastic, metal tins, papers, dredged sediments, STP sludge, e-waste and used oil from DG sets at terminal site and. These impacts could be significant and may persist for long periods if left unadressed and unless mitigated. Hence, appropriate mitigation measures are warranted to minimize the impacts. 32 Approach rroad construction is proposed to be undertaken by other agency PWD and road design shall be evolved by them only. Rail link construction will also be taken up by railways 179 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Measures for Avoidance and Mitigation of Impacts Fuel should be stored in HDPE containers on paved surfaces only to prevent spillage of fuels on the soil and thus soil contamination Periodic checking to be carried to assess the effectiveness of the stabilization measures viz. turfing, stone pitching, river training structures etc. Necessary checks and actions are required wherever there are failures Dustbins should be provided at all the required locations at the site for collection of recyclable and non-recyclable waste. Recyclable waste should be sold to authorized vendors and non-recyclable waste should be disposed through authorized agencies and should not be dumped in open. Used oil from DG sets and other equipment should be stored in HDPE containers in isolated location on paved surfaces and should be disposed through authorized vendors only and should not be dumped in open. Room should be provided for storage of E-waste at site and this waste should be sold to authorized vendors periodically and should not be dumped in open. Bio- medical waste likely to be generated at first aid centre should be disposed of following the bio medical waste disposal rules. Municipal waste generated at terminal should either be sent for landfilling through authorized agencies or should be composted within the terminal site and manure should be used for maintaining the green area within the site Vessel waste reception facility should be available at the terminal site incase maintenance facility is not in place. The waste should be received from the vessel in proper segregated and packed form.. This waste should be treated and disposed within the terminal site only but in case it is not feasible, tie ups with Government and authorized private agencies can be made for handling, treatment, storage and disposal of this waste. Also fee can be imposed on the vessel operator for letting them dispose their waste at terminal/maintenance facilities. 4.10.5. Conclusion (Land Environment) From the above discussion, it can be concluded that the land use &soil quality of the influence area may be impacted majorly due to development of civil interventions if proper mitigation measures are not taken. To mitigate the impact, efforts are done to identify non-agricultural lands for development of these facilities. However, at some sites, this cannot be avoided due to unavailability of non-agricultural land along the river, e.g. Sahibganj. Soil quality can be impacted, if sewage and waste from civil intervention sites and from vessels is not managed properly and disposed of in soil. Thus, it is essential to develop waste reception and management facility so as to prevent degradation of the soil quality near banks. Another threat to soil quality can be due to disposal of contaminated river bed sediments in soil. Thus disposal should preferably be carried out within water or in the designated TSDF sites only,to prevent soil contamination. Impacts are avoidable and 180 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 mitigable and thus will not affect the sland environment significantly if all the proposed mitigation measures are implemented. 4.11. Impact on Air Environment& Mitigation Measures 4.11.1. Status of air quality along NW-1 and influence area Ambient air quality monitoring was carried within the respective critical impact zones as per CPCB guidelines. PM2.5, PM10, SO2, NO2 and carbon monoxide were monitored at different locations in the influence area. Particulate Matter PM10 level at proposed and planned terminal and existing jetty locations along NW-1 varies from 39 to 145µg/m3. PM10 values in all locations are within the specified limit of 100 g/m3 except at Varanasi, Patna and Howrah location. PM2.5 levels were found ranging from 16 to 58 µg/m3. All value of PM2.5 is within the specified limit of 60 g/m3 except Varanasi, Patna and Howrah locations. Background level of SO2 ranged from 4.4 to 35.6µg/m3. The NOx levels were found ranges between 9.0 to 48µg/m3. The observed SO2 and NOx level was found within the national Ambient Air Quality Standard. Carbon Mono-oxides was detected in few locations i.e. Haldia, Howrah, Patna and Varanasi. The 8hrs CO level was found ranging between 0.18 to 1.2 mg/m3, which is found within the national Ambient Air Quality Standard. The PM (particulate matter) level in Varanasi, Patna and Howrah is slightly above the national ambient air quality standard (NAAQS) that is because of heavy traffic movement and presence of industries in these cities. 4.11.2. Impacts on Air environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel Dredging does not significantly affect the air quality, but operation of dredgers involves generation of emissions which may have effect on the air quality. However, the impact anticipated are localized and short term as it will be confined for the duration for which dredger will be operated and to the area where the dredger will be operated. Measures are proposed so as to minimize the emissions from dredger and the anticipated impacts. Measures for Avoidance and Mitigation of Impacts Development of emission standards by concerned authorities for regulating the dredgers emissions and development of process to ensure its compliance Usage of low sulphur content fuel Adoption of electrically operated dredgers Optimizing the dredging requirement Provision of stack of adequate height for dispersion of pollutants Adoption of catalytic reduction/convertor technology for dredgers also so as to minimize the emissions Adoption of the dredgers with most modern design which may have low fuel requirement, more efficient pumps, low resistance hull design and optimal jet system. 181 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.11.3. Impact on Air Environment Due to Operations- Barge Movement Exhaust gases from moving vessel are source of air pollution and GHG gases. However, vessels emit least air emissions compared to the road and railway modes. The impact on air quality due to vessel movement is anticipated insignificant considering the emission levels and projected vessel traffic. However, an estimation is carried out to arrive at the total emission load from the movement of vessels and corresponding load for transportation of similar amount of cargo by rail and road. Emission levels are calculated for transportation of cargo for year for base year and projected traffic till year 2045 vide all the modes, i.e. rail, railway & IWT during CIA study for both “with & Without” Project scenario. On comparing both the scenarios it is found that the associated emissions are minimal in case of the “With Project” scenario. Emission factors considered fo calculating the emissions are given in Table 4.11 and the net emissions savings is given in Table 4.12. Table 4.11 : Emission Factors Considered for Gaseous Pollutants Mode of Emission Emission Emission Emission Emission Factor Transportation Factor for Factor for Factor for Factor for for CO NOx PM SO2 HC (g/tonne km) (g/tonne (g/tonne (g/tonne (g/tonne km) km) km) km) Railway (Diesel 0.0000004 0.00000007 0.00000018 0.00000007 0.00000015 , Engines)33 34 Road 35 0.00000137 0.00000022 0.00000018 0.00000038 0.00000054 IWT (For inland 0.00000026 0.00000002 0.00000004 0.00000005 0.00000011 vessels)36 Source : HPC Table 4.12 Pollutant Emission Savings in “With” Project Scenario Year SO2emissions NOx CO HCemissions PM (Tonne/Yr.) emissions emissions (Tonne/Yr.) Emissions (Tonne/Yr.) (Tonne/Yr.) (Tonne/Yr) 2016 0 0 0 0 0 2017 0 0 0 0 0 2018 0 0 0 0 0 2019 0 0 0 0 0 33 Table 14: Rail Air Pollution Emission, in g/tonne-km (sources: Kurer, 1993-Table 5), The Environmental Effects of Freight, Organization for Economic Co-operation and Development, Paris 34 Air Quality Monitoring Research Association of India “Air Quality Monitoring Project -India Clean Air Programme (ICAP), CPCB/MoEF & EPA emission factors for rail locomotives, commercial. 35 Table 9: Truck Air Pollution Emission, in g/tonne-km (sources: Kurer, 1993, Table 5), The Environmental Effects of Freight, Organization for Economic Co-operation and Development, Paris 36 Table 7: Emissions from vessels Travelling on Inland Waterways (sources: Dutch data from the Centraal Bureau voor de Statistiek, Shoemaker and Bouman, P. 57 US data from US EPA (September 1985), p. II-3.2), The Environmental Effects of Freight, Organization for Economic Co-operation and Development, Paris 182 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Year SO2emissions NOx CO HCemissions PM (Tonne/Yr.) emissions emissions (Tonne/Yr.) Emissions (Tonne/Yr.) (Tonne/Yr.) (Tonne/Yr) 2020 130.1969 918.6861 360.6105 254.1557 150.5532 2021 136.3225 963.9684 378.4112 266.7546 157.9367 2022 140.2691 995.3974 390.2841 276.8844 164.4477 2023 145.6836 1036.694 406.2616 289.1165 171.9205 2024 141.0999 1057.2 414.4643 297.9594 175.7725 2025 176.547 1305.17 511.9684 365.981 215.8993 2026 182.2369 1345.672 527.8671 377.2085 222.5415 2027 188.1166 1387.441 544.2629 388.7823 229.3908 2028 194.1929 1430.518 561.1718 400.7131 236.4536 2029 200.4729 1474.944 578.6102 413.012 243.7369 2030 206.9639 1520.764 596.5951 425.6908 251.2477 2031 213.6735 1568.021 615.1439 438.7612 258.9933 2032 220.6094 1616.762 634.2748 452.2357 266.9814 2033 227.7801 1667.035 654.0066 466.1268 275.2198 2034 235.1939 1718.89 674.3585 480.4478 283.7165 2035 242.8597 1772.377 695.3507 495.2122 292.4799 2036 274.6302 1971.27 773.3545 548.7043 324.8223 2037 280.7583 2012.696 789.6145 560.0438 331.5812 2038 301.0431 2146.086 844.7553 589.1356 345.49 2039 307.6028 2190.205 862.0995 601.1279 352.6094 2040 314.3153 2235.255 879.8085 613.3684 359.8795 2041 321.1844 2281.255 897.8903 625.8624 367.3038 2042 328.2142 2328.227 916.3532 638.6153 374.8855 2043 335.4089 2376.192 935.2056 651.6328 382.6284 2044 342.7726 2425.173 954.456 664.9204 390.5359 2045 365.2669 2508.429 986.5775 684.3006 404.4284 Savings 5874.205 Estimated (Tonnes) 42201.2 16575.06 11700.31 6901.329 Source : HPC Material to be transported through NW-1 includes building construction materials like sand, stone aggregates, coal, textiles, fertilizers etc. Some of these commodities have potential to generate the dust majorly sand, stone aggregates, coal etc which may affect the air quality. Measures are proposed which if implemented can minimize the impacts Measures for Avoidance and Mitigation of Impacts Development of emission standards by concerned authorities for regulating the vessel emissions and development of process to ensure its compliance 183 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Material having potential to generate the dust like coal, sand stone aggregates should be transported under covered conditions. Air emissions from the vessel should be under the prescribed limits as per MARPOL and the standards (refer Annexure 4.2 in Volume 3C for standards). Regular maintenance of vessels engine and propellers. IWAI should develop the stringent norms to be followed by vessel operators and should develop the system of penalizing based on polluters pay principle in case the standards are not met or violated Adoption of cleaner fuels such as low sulphur bunker oil as per USEPA norms, 2000 (sulphur content is 0.25% for diesel oil and 2.7% for residual oil) or switching to LNG based vessels37 The vessel should operate at partial power while docking at the terminal and achieve full power back again after leaving the port area. 4.11.4. Impacts on Air Environment Due to Physical Interventions A. Pre-Construction/Design Stage Site preparation, vegetation removal and construction material handling are the key air activities during this phase of project implementation which may generate the dust and other emissions which have potential to disturb the air quality of the area if left unadressed. Preparation of site involves cut and fill activity to achieve relatively a flat surface for development. Excavation/filling activities and piled up excavated soil will generate fugitive dust emissions which may affect air quality if adequate mitigation measures are not taken. Emissions will also be generated from operation of excavators & levellers. These emissions may increase the concentration of PM (particulate matters) SO 2, NOx, & CO in the project area. Vegetation existing at site will be removed for developing the project. Bare & loose soil after vegetation uprooting/removal will be exposed to wind and will add on to the concentration of ambient dust levels. Air quality will also be affected in case tree cutting is undertaken at site as the tree act as air purifiers. As per baseline study, concentration of air pollutants in the influence area are within the prescribed limits as per NAAQS38 (National Ambient Air Quality Standards., 2009) at all 37 IWAI has initiated a talk with international agencies to design LNG based vessels for plying in NW-1 as per the requirement/dimensions of NW-1. A study has been carried out by Department of Engineering & Architecture, university of Trieste37 to assess the feasibility of LNG usage as fuel in IWT. As per the study LNG usage is advantageous due to associated less SOx emissions (0.00154 g/kWh which complies with SECA-Sulphur Emission Control Area Requirements), low NOx emissions (1.42 g/kWh), lower cost than diesel and gasoline, higher energy content when compared to diesel and gasoline (Refer Table 5.6), easy availability, lower bunkering price, lower fuel consumption & lower maintenance costs compared with a Diesel engine, lower noise generation and also price of LNG is not variable and is locked under long time contracts. As per the market study in the above mentioned study LNG can help in enhancing the IWT sector. However, some of the disadvantages of LNG based vessels involves increment of investment cost by 10-20% due to provision of LNG storage tank onboard, fuel piping system and additional safety measures and inadequate or no LNG bunkering facility availability including LNG terminals, ship supply networks 38 Central Pollution Control Board has notified National Ambient Air Quality Standards for different pollutants. The prescribed limits for relevant pollutants for 24 hourly concentration level basis are as follows: Particulate matters of 10 micron Size ( PM10 ) : 100 µ/m324 hourly average Particulate matters of 2.5 micron Size (PM2.5 ) : 60 µ/m324 hourly average Oxides of Sulphur (SO2 ) : 80 µ/m3 24 hourly average Oxides of Nitrogen (NOx ) : 80 µ/m3 24 hourly average 184 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 the planned intervention sites and also within 2 km area of the proposed site limits except at Ramnagar which being close to the road bridge. The resultant baseline level is unlikely to increase beyond prescribed NAAQS since dust emission will settle down within short distance of its source and vehicular exhaust emission will be low in quantity Above mentioned activities will increase ambient pollutants level (dust or PM, SO 2, NOx, & CO) but temporarily and will be localised. Further mitigation measures are proposed which can minimize the impacts. Measures for Avoidance and Mitigation of Impacts Provision should be made for: Excavation and filling tasks to be carried out in parallel (at any one site) and in a phased manner. The water used for sprinklers should be controlled to avoid any water pounding. Water sprinkling to be used at all dust generating sites to suppress the dust generated. Appropriate schedule of aggressive preventive maintenance of excavators/levellers/loaders and other machinery is recommended to minimize the emission generation and enhance their efficiency. Top fertile soil layer stripping is to be implementing before excavating the soil and should be stored under covered conditions for usage in landscaping at later stages Storage of surplus excavated soil in covered conditions for its use for various construction activities e.g. for filling the low lying/ depressed areas. Proper identification and marking should be done for trees to be cut and cutting permission from concerned forests department should be in place before any cutting. Compensatory plantation of trees having adequate canopy as per CPCB guidelines should be implemented. The mandatory requirement of 1:2 ratios is to be observed. and additional plantation if required, should also be carried apart from mandatory compensatory plantation as has been proposed in the ratio of 1:5 in the case of Sahibganj terminal site. Ensure survival rate of compensatory plantation at a minimum of 70% and for this a periodical monitoring and reporting (at least half yearly interval) is recommended. B. Construction Stage Construction activities to be undertaken at the planned intervention site may include an administration building, worker‟s amenity building, internal roads, lighting towers, storage yards, security sheds, berths, jetties, DGPS etc. depending on the facilities to be constructed. All the construction activities lead to generation of dust along with other pollutants. Operation of construction machinery & equipment including transport Carbon Mono Oxide (CO ) : 2 mg/m38hourly Average 185 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 vehicles, DG sets etc. generate emissions and may increase the ambient concentration of SO2, NOx, PM &CO within the construction site though confining to construction period on that site. Transportation of raw materials will generate dust and emissions from the transportation vehicles though for short duration along the transportation route. However, it will be preferable to use locally available construction material so as to reduce the transportation emissions and cost for material transport. Source of construction material for the planned facilities is given below in Table 4.13 below. Impacts anticipated during construction phase confine to the construction period only which may vary fromapproximately1.5-3 years for each facility. Thus the anticipated impacts are localized and short term. However, for the sites located close to any residential area/habitations impacts could be significant if not addressed adequately. Thus a comprehensive mitigation planning is warranted. Mitigation measures recommended to minimize the ambient air pollution (not exceeding NAAQS). Table 4.13 : Source of Construction Material for Planned Civil Interventions S. No. Location Construction Material Sourcing 1 Haldia Terminal Stone chips- Pakur quarry in Jharkhand (370 km from site) Sand- Villages Kasthakbali and Barsundra (20 km) and Damodar River (100 km) 2 Farakka Lock Stone and aggregates- Rajmahal hills (Sahibganj) at app.100 km from site 3 Sahibganj Terminal Stone and aggregates- Rajmahal hills (Sahibganj) near the site 4 Varanasi Terminal Stone and aggregates- Sirsa, Mirzapur at app. 45 km from site Measures for Avoidance and Mitigation of Impacts All vehicles delivering any material particularly any loose and fine materials like sand and aggregates should be covered. Scaffoldings, open dumps of raw material at site or construction debris should be covered with tarpaulin at all construction sites and situations. Periodic water sprinkling is mandatory at all site roads particularly the haul roads Masks and other PPE should be provided to people working in high dusty environment and the workers should be educated on the benefits of use. Loading and unloading of construction materials should be carried out preferably at designated locations in the respective projects wherein the provisions of water fogging to prevent any dust dispersion around these locations. Construction vehicle, machinery & equipment should be regularly serviced and maintained and the vehicles selected for use should comply with emission standards as per CPCB norms. Vehicles entering the construction site should also carry valid PUC certificate Low sulphur diesel should be used for operating DG sets and various other construction equipment(s) if applicable. 186 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Diesel Generating (DG) set(s) should have adequate stack height as per regulations (Height of stack = height of the building + 0.2 √ KVA.). Here the building height is the building attached to DG. Wheel wash facility should be provided at exit gate of the project site. LPG should be used as source of domestic fuel in construction camps instead of wood. Any tree cutting should not be allowed for fuel wood or any other wood requirement for construction. Mixing Plant, crushers and batching plant (fitted with adequate stack height) should preferably be located on downwind direction to ensure enough dispersion of their exhaust gases and also fitted with appropriate pollution control devices (where ever mandatory). This construction equipment should ensure preventive measures like usage of low sulphur diesel, provision of adequate stack heights, regular maintenance and regular stack monitoring. Ambient monitoring of air quality should be carried out on monthly basis to check the level of pollutants and effectiveness of proposed mitigation and EMP. C. Operation Stage Various associated air pollution sources during operation phase will primarily be with proposed civil interventions like terminal/jetties. The activities which may generate emissions at jetty/terminals are primarily due to transportation & storage activities of material (off the river& on-the river), such as loading and unloading of materials at the site (at stock yards and shed area), and loading/unloading of barges. Materials proposed to be transported include large number of diverse items such as cement, fly ash, iron ore, iron ore fines, coal, steel shed, tyres, iron fines, iron ingots, Galvanized steel plain sheets, stone chips, furnace oil, HF HSD, lube oil, boulders, pulses, aluminium block, sand, chips, ship block, log, pulses, manganese ore, petroleum coke, cooking coal, rock phosphate, timber, peas, slag oil, and non-cooking coal as per existing system. Transportation of material like coal, stone aggregates, and sand may generate dust emissions if transported in open wagons or stored in open stock yards which is likely to affect the air quality if not mitigated properly. Air quality modelling study has been carried out for select two (Sahibganj & Haldia) Terminals to predict the concentration of the pollutants due to transportation activity of cargo material to & fro from the terminal/jetty site and is given at following se ction below. For management of these emissions, mitigation measures are proposed which will significantly reduce the anticipated impacts on air quality. i. Air Modelling Study for Sahibganj terminal Site ( Operation Stage Impact) Capacity of Sahibganj terminal is 2.24 million metric tons per annum or 6788 metric tons per day. App. 400 trucks are estimated to ply both ways from terminal site daily. Transportation of cargo material through trucks will generate pollutants which will impact the ambient air quality at the site as well as on transportation roots. To predict the level of degradation of air quality, air dispersion modelling study has been carried out to predict concentration of PM10 (being the most prominent pollutant) at the time of unloading from 400 trucks based on the software AERSCREEN Model 15181. The 187 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 modelled results show that maximum additive 24 hourly concentration for PM10 at a distance of 50 m from storage area will be 27 ug/m 3 due to material loading/unloading activity at site. Graphical projection of dispersion of modelled ambient pollutant concentration during loading/unloading as a function of distance from its source is given in Figure 4.1. As per baseline data, concentration of PM10 in nearest village Samdha Nalla is 61 ug/m3. Considering the same level at project site the resultant concentration level (after adding expected increase in concentration at site) will be 88 ug/m3, which is still within the prescribed limits of PM10 (AAQS, 2009). Thus it is anticipated that the impacts will be low but persist for long periods. Hence, warranting mitigation measures to reduce further. Figure 4.1 : Output of Air Dispersion Modelling-Sahibganj Terminal Currently at Sahibganj site, provision for barge loading is made through 10 dumpers. These dumpers will lift the material through loaders. Dumpers moves about 150 m within the terminal before unloading this material into hopers of barge loaders stationed at the jetty berth. Assuming that the dumper loading and its unloading to barge hopper the loader deployed generates comparable level of emission rates of dust as from loading/unloading operations at stock yards. Hence, it is also anticipated that the predicted dust level shall be of the order of 27 ug/m3. This will tend to settle down at river surface and thereby impacts the river water quality. The spread of this dust on river water surface is again a function of wind as well as river flow. Considering the river waterspread upto 50 m is beyond the jetty area. To further reduce the impact on river water quality it is recommended to install mechanical conveyor belt system for loading & unloading of barges which will also enhance the loading/unloading efficiency and reduce time to minimize these emissions. ii. Air Modelling Study for Haldia terminal Site ( Operation Stage Impact) Materials to be transported to the site and from the Haldia terminal site are stone aggregates, edible oil & POL fertiliser and Fly ash. Coal will not be stored at the site and 188 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 only transhipment is proposed at 5th No jetty. Quantity of the material excluding the coal to be transported to and from the site is 1.57 million MTPA, i.e. 4757.6 MT (metric tonnes) per day. Thus app. 317 nos. of trucks are required for transportation of this material. Total nos. of truck movement (to & fro) will be 2 X 317, i.e. 634 trucks. Transportation of material through trucks will generate pollutants which will lead to degradation of air quality of the influence area. To predict the level of degradation of air quality, air dispersion modelling study has been carried out to predict concentration of PM10 at the time of loading & unloading from 634 trucks using the software AERSCREEN Model 15181. The results show that maximum 24 hourly concentration for PM10 at a distance of 50 m from storage area will be 21.38 ug/m 3 due to material unloading activity at site. Graphical depiction of dispersion of pollutants to be generated during unloading at various distances from generation source is given in Figure 4.2. As per baseline data, mean concentration of PM10 in near site is 29 ug/m3. Considering the same level at project site the resultant concentration level (after adding expected increase in concentration at site) will be 50.38 ug/m3, which is still within the prescribed limits of NAAQS, 2009. Thus it is anticipated that the impacts will be moderately significant but long term. Figure 4.2 : Output of Air Dispersion Modelling-Haldia Terminal Currently provision for barge loading is made through 10 no of dumpers. These dumpers will lift the material through loaders. Dumpers moves almost 275 m within the terminal and unloaded the material into hopers of barge loaders at the jetty. The dumper loading and material unloading to hopper of barge loader generates similar level of dust as from unloading of incoming material at stock yards. It is anticipated that the predicted dust level shall be of the order of 21.38 ug/m3. This will tend to settle down at river and effect river water quality considering its spread upto 50 m which is beyond the jetty area. Thus 189 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 it is recommended to install mechanical conveyor belt system for loading 7 unloading of barges to minimize these emissions. Apart from material handling & transportation, other source of emissions at site are: Emissions from DG sets Emissions due to fire in coal/oil stored at site DG sets however will be operated only in case of power failure thus expected impact is low & insignificant. But emissions result due to accidental burning of coal/oil or other stored material will be significant & will have significant impact on air quality of the area. Temperature of Varanasi & Sahibganj site is hot which can trigger fire in coal/oil. Thus mitigation measures should be taken to prevent any such accident at the site. However, climate of Haldia site is moderate so such fires are not anticipated at Haldia terminal site. Mitigation measures proposed for managing the air pollution at the planned site are discussed below. Measures for Avoidance and Mitigation of Impacts Material should be transported in covered vehicles Transportation vehicle should be properly serviced and maintain and should carry PUC certificate Material should be stored under cover sheds only especially coal, sand, aggregates etc. Thick green belt should be developed as per the provision already made in the design and maintained all along the periphery and along the roads. The green belt should be developed in canopy39 shape with local species of broad leaf variety. Species selected for development of green belt shall also be tolerant to expected pollutants and shall have the ability to adsorb the pollutants. Suggested species are suitable for different areas are also listed under CPCB guidelines for green Belt development40. Water sprinkling should be carried out during all loading and unloading activities and storage period. Further dust suppression measures should be taken at the site like vaccum collectors at dust generation areas. More frequent water sprinkling should be carried out at coal yard during summer season to prevent spontaneous fire. Storage of oil should be as per MSDS and all fire prevention & fighting measures should be provided at site 39 Canopy shape green belt design includes three row of trees with middle tree species gore more in height compared to inside and outside tree species. Each of tree will have wider leaf which forms like a curtain and acts as beerier to dust spread. Dust accumulated over leaf falls down within the site boundary. Similarly external dust gets prevented from entering the terminal site. http://cpcb.nic.in/upload/Publications/Publication_513_GuidelinesForDevelopingGreenbelts.pdf 40 CPCB guidelines for green Belt development http://cpcb.nic.in/upload/Publications/Publication_513_GuidelinesForDevelopingGreenbelts.pdf 190 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 It is recommended to provide mechanical conveying system with provision of dust collection system for loading/unloading material from barges. Pneumatic transfer only should be preferred for flyash transportation Minimizing free fall of materials to reduce the dust generation Minimizing dry cargo pile heights and containing piles with perimeter walls Removing materials from the bottom of piles to minimize dust re-suspension Regularly sweeping docks and handling areas, truck / rail storage areas, and paved roadway surfaces Monitoring of air quality should be carried out on monthly basis to check the level of pollutants and effectiveness of proposed EMP Keeping transfer equipment (e.g. cranes, forklifts, and trucks) in good working condition41 Upgrading the land vehicle fleet with less-polluting trucks and vehicles, and using alternative fuels and fuel mixtures Encouraging reduction in engine idling during on- and off-loading activities Encouraging storage planning to avoid or minimize restorage and reshuffling of cargo VOC emissions from fuel storage and transfer activities should be minimized by means of equipment selection, such as the use of floating top storage tanks or vapour recovery systems for fuel storage, loading / offloading, and fuelling activities (depending on the type of material to be stored), and adoption of management practices such as limiting or eliminating loading / unloading during poor air quality episodes or implementing tank and piping leak detection and repair programs Explore feasibility of using telescoping chutes to reduce the fugitive emissions and reduce the need for slingers for material loading & unloading. 4.11.5. Conclusion (Air Environment) From the above discussion, it can be concluded that impacts are anticipated due to excavation, material transportation, storage of raw material and vehicular transportation majorly. The residential areas close to these civil interventions are likely to be affected majorly if the adequate mitigation measures are not taken. Also impacts are likely to be occur within 2 km radius of the intervention sites. With the above proposed mitigation measures impacts can be minimized to large extent. 4.12. Impact on Noise Environment 4.12.1. Status of noise environmentalong NW-1 and influence area The noise level was measured as per the monitoring plan approved by IWAI/world bank at proposed terminals/locks, around sensitive receptors and existing Ro-Ro/jetty along the NW-1. 41 IFC Environmental, Health & Safety Guidelines-Ports, Harbors and Terminals 191 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 A. Terminal/lock sites:Ambient noise levels of the entire NW1 stretch are within the prescribed National Ambient Noise Quality Standard as well as standards prescribed in IFC general EHS guidelines for respective category for respective residential and commercial category at all the monitored locations. B. Sanctuary Area:The noise level recorded within Vikramshila dolphin sanctuary area was also found within the sensitive category threshold at all monitoring locations. However, the noise level was not meeting the sensitive criteria for Kashi turtle sanctuary area because of anthropogenic activities. There are 81 ghats along with few temples within the limit of Kashi turtle Sanctuary area. There is a large gathering of people in Ghat area in most of the time. Loud speakers in nearby temples is the another source of noise in the sanctuary area. 4.12.2. Impacts on Noise Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel Dredging operations generates noise levels of app. 85-90 dB(A). This noise level adds to the ambient noise levels of the area thereby exceeding the baseline noise levels. High noise level have serious impacts on human health and the flora & fauna residing in the area. But the noise significantly reduces and dissipates with distance. Dredging will be carried out within the river thus the noise levels due to dredging operation will reduce by the time it reaches the habitation area. Through noise modelling study as presented in section 4.12.4.1 (Table 4.14), it is seen that noise levels reduce to 56 dB(A) at distance of 500 m from source which is equivalent to baseline noise levels of the area.Thus the impact is likely to be within 500 m distance from the dredging location. Noise level due to dredging and its impact on workers and resident population can be further minimized by undertaking the following mitigation measures. Dredging also generates significant underwater noise. Impact on underwater noise generation due to dredgers is discussed in section of impact on aquatic ecology. Measures for Avoidance and Mitigation of Impacts Dredgers should be regularly serviced and maintained so as to prevent noise due to friction Workers should be provided with ear plugs to prevent exposure to high noise levels A survey on sensitive noise receptors should be carried out for area within 500 m of dredging operations Provision of noise barrier in the impacted area if any sensitive receptor is located within 500 m distance No dredging activity should be carried out beyond 10:00 PM and before 6:00 Am Formulation of noise limit standards by concerned authorities for dredgers also similar to other construction machineries and vehicles 4.12.3. Impact Due to Operations- Barge Movement Barge movement does not involve significant ambient noise generation, however significant underwater noise is generated. Impact due to underwater noise generation on 192 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 aquatic ecology is discussed in depth in section impact on aquatic ecology. The details of Noise impact assessment and modelling are given under Impact on ecology under section 4.14.2.A(ii) and 4.14.3.D(i) 4.12.4. Impacts Due to Physical Interventions D. Pre-Construction/Design and Construction Stage Source of noise pollution during the design and construction phase at the proposed intervention sites are site clearing, operation of excavators/earth moving equipment and leveller, operation of heavy machinery and equipment for construction purpose, loading & unloading of construction material and pilling & dredging activities. Typical noise generation from these equipment as per CPCB are given in Table 4.14. Table 4.14 : Typical Noise Levels of Construction Machinery/Equipment Construction Equipment for Different Noise Level in dB(A) at Activities 50 feet Bulldozer 80 Front end loader 72-84 Dump Truck 83-94 Jack Hammer 81-98 Crane with ball 75-87 Scraper 80-93 Grader 80-93 Roller 73-75 Crane 75-77 Welding generator 71-82 Concrete mixer 74-88 Concrete pump 81-84 Concrete vibrator 76 Air compressor 74-87 Pneumatic rods 81-98 Cement and dump truck 83-94 Front end loader 72-84 Paver 86-88 Truck 83-94 Tamper 74-77 Backhoe 72-93 Source: CPCB It is evident from the above table that operation of these equipment will generate high noise levels due to which it may affect the health of construction labour and nearby residents if the adequate mitigation measures are not taken. As per baseline monitoring, ambient noise levels at all planned sites (Haldia, Farakka, Varanasi & Sahibganj) are 193 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 within the permissible limits as prescribed by CPCB for residential areas. But resultant noise level (ambient noise level + increase noise levels due to operation of equipment) can be higher than the prescribed limits of CPCB. However the noise associated with the construction activity will be restricted to construction period only and thus the impact is considered to be short term & temporary. Construction machinery & equipment will not be operated throughout the day thus noise generation from these equipment is considered to be of intermittent type. Further by undertaking the mitigation measures like provision of earplugs to the workers engaged in high noise generating activities, impact due to noise pollution can be managed. As per occupation standards, workers‟ exposure to 90 dB(A) noise level should not be more than 8 hours. OSHA guidelines should be followed for exposure to specific noise levels for workers and are listed in Table 4.15. Conducting hearing tests for workers may help in monitoring the impact of the higher noise level on workers‟ health. Table 4.15 : OSHA noise exposure limits for the work environment Noise Levels in dB(A) Permissible Exposure (hours & minutes) 85 16 hrs 90 8 hrs 96 3 hrs 30 minutes 102 1 hr 30 minutes 108 40 min 115 15 min 121 6 min 127 3 min 130 1 min Source: Marsh, 1991, p.322 Thus the high noise levels are required to be managed by taking proper noise level reduction measures and preventive measures so as to minimize the impact on health due to exposure to high noise level. Noise attenuates with the distance, thus the impact of high noise level reduces with the increase in distance from activity area. Impact on nearby residents due to the noise generated is low in case of all presently planned site as habitations are located at more than 100 m at all the presently planned site. Noise level attenuation with the distance is governed by the following equation. L2 = (L1 - 20 log D2/D1-Ae-An) Wherein, L1 and L2 are the noise levels at a distance of D1 and D2 from the noise source; Ae and an are attenuation coefficient due to environment correction and background respectively. 194 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Apart from above activities piling and dredging activities are to be carried out in river for construction of berths. These activities also generate significant level of noise ranging from 85-90 dB(A). However, this will also be confined to the piling and dredging period. Noise level assessed at varying distance due to dredging or piling operations are given in Table 4.16 below. Table 4.16 : Estimated Noise levels for the piling and dredging operations Distance from Predicted Noise Level noise source Piling operations Dredging location (m) 10 85.00 90.00 30 75.46 80.46 50 71.02 76.02 100 65.00 70.00 200 59.00 64.00 500 51.00 56.00 If mitigation measures are taken, then the noise levels at the site can be reduced significantly and thus the impacts can be minimised. Measures for Avoidance and Mitigation of Impacts Provision should be made for: Barricading (Temporary noise barrier) the construction site to minimize the noise level outside the site boundary No piling and dredging activity should be carried out at night time. Restriction on Honking at the project site Hearing test for the workers prior to deployment at site and high noise areas followed by periodic testing every six months. Job rotations systems for workers, working in high noise level areas Restriction of high noise generating activity between 6:00 AM to 10:00 PM. Periodic monitoring (monthly level) of noise levels to check the level of pollutants and effectiveness of proposed EMP Protection devices (earplugs or earmuffs) should be provided to the workers operating near high noise generating machines. Construction equipment and machinery should be fitted with silencers and maintained properly. Noise measurements should be carried out to ensure the effectiveness of mitigation measures and develop a mechanism to record and respond to complaints on noise. All equipment should be fitted with silencers/noise mufflers and will be properly maintained to minimize its operational noise. Noise level will be one of the considerations in equipment selection, which will favour lower sound power levels. 195 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 E. Operation Stage Noise generation sources during operation phase are primarily loading and unloading of material at site and vessel/barges, movement of dumpers & vessel, operation of backup power generators, pumps and other equipment. However, the main effect on the environmental noise level will be from increased transportation of goods entering and leaving the terminal site. To estimate the increased noise levels generated due to material transportation, noise modelling study has been carried out Sahibganj & Haldia Terminal site. Noise modelling study for the Haldia and Sahibganj Terminal sites are given below. The anticipated impact could be significant if left unadressed. Thus adequate avoidance and mitigation measures are required to mitigate the anticipated impacts. A. Noise Modelling Study for Sahibganj Terminal Site The bulk cargo is anticipated to be carried to the site by trucks, which could result in movement of 800 trucks per day (400 coming and going out, i.e. 400 X 2) considering maximum load. Noise prediction modelling has been carried out for trucks movement in and out of the terminal for material transportation which is expected to increase all along the approach road and terminal area. The maximum noise level generation from these truck movement is estimated to be 77.6 dB (A) which will be attenuated to 65 dB (A) within a distance of 21m. Noise modelling output for movement of transportation vehicles indicating the attenuation of noise with distance is given in Figure 4.3. Figure 4.3 : Noise Modelling Output 196 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 After development of the project, land use of the site will change from residential to industrial category considering the nature of activities. The permissible noise levels within the site will be occupational standards whereas, outside the terminal area the exposure standards (CPCB guidelines) applicable will be of Industrial area that is 70 dB(A) for night time and 75 dB(A) for day time. Predicted noise level are slightly higher than the prescribed limits of CPCB. Thus impacts due to increased noise level can be significant, if proper mitigation measures are not taken. B. Noise Modelling Study for Haldia Terminal Site The bulk cargo is anticipated to be carried to the site by trucks, which could result in movement of 634 trucks per day (317 coming and going out, i.e. 317 X 2) during the full operational phase. Noise prediction modelling has been carried out for trucks movement (considering 800 trucks) in and out of the terminal for material transportation which is expected to increase all along the road and terminal area. The maximum noise level generation from these truck movement is estimated to be 77.6 dB (A) which will be attenuated to 66 dB (A) within a distance of 27m. Noise modelling output for movement of transportation vehicles indicating the attenuation of noise with distance is given in Figure 4.4. Figure 4.4 : Noise Modelling Output Land use of the site is industrial and permissible noise levels at present are well within the CPCB standards that is 70 dB(A) for night time and 75 dB(A) for day time. During operation stage these levels are expected to increase due to above mentioned activities. 197 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 However, the noise levels can be maintained within the prescribed limits of CPCB by undertaking the mitigation measures as listed below. Also measures will be taken to maintain the work zone noise levels as per OSHAS guidelines as given above in Table 4.13. Exposure of workers to the noise levels will be maintained as per the OSHAS norms. Further measures listed below will help minimizing the impact on increased noise level during the operation phase. Measures for Avoidance and Mitigation of Impacts Site boundary should be provided which can act as noise barrier Earplugs should be provided to workers involved in unloading operations Provision of thick green belt along the boundary and roads which will act as noise buffer Timely maintenance and servicing of transportation vehicles and the machinery/pumps to be used during operation phase to reduce the noise generation due to friction and abrasion Honking should be prohibited at the project site Hearing test for the workers should be undertaken before employing them and thereafter should be done after every six months Job rotations should be practised for people, working in high noise level areas Noise generating activity should be undertaken between 6:00 am to 10:00 pm. DG sets should be provided with acoustic enclosure Monitoring of Noise levels should be carried out on monthly basis to check the level of pollutants and effectiveness of proposed EMP 4.12.5. Conclusion (Noise Environment) From the above discussion, it can be concluded that civil interventions are likely to affect the ambient noise levels of the area if the mitigation measures are not taken. The proposed mitigation measures can reduce the anticipated impacts to a large extent. Some of these measures are preventive which will prevent the damage due to increase in noise levels and some are mitigable which will help in reducing the noise levels. 4.13. Impact on Water Environment& Mitigation Measures 4.13.1. Status of water environment along NW-1 and influence area A. Ground Water Quality: Three ground water samples were collected from three locations around the proposed terminal site. 8 nos. of ground water sample were also collected from the stretches facing populated zones all along the NW-1. The Physico-chemical characteristics of the ground water samples were in good agreement with IS:10500 permissible limits. The TDS, Total Hardness and chloride values at Haldia and Sahibganj, Howrah and Kolkata are slightly above the desirable limit but were within the permissible limits specified under Drinking Water Standard (IS: 10500). Heavy metals, only Fe and Zn were found present but were quite lower in concentration. The arsenic content in ground water sample of Bhagalpur and Munger were found present in lower concentration. Other 198 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 heavy metals were found in traces. Overall all the ground water quality at all sampling site is within the permissible limits specified under Drinking Water Standard (IS: 10500). B. Surface Water Quality: Surface water sample were collected from the upstream and downstream of the proposed and planned terminals/ lock and also at the river location of environmental sensitive receptors present all along the NW-1. One sample each were also collected from the other infrastructural interventions (existing ro-ro/jetty/floating terminals). Samples were collected as per the standard protocol mentioned earlier. The river water quality observations reflect that water quality meets with BDU Class D Criteria of CPCB barring few parameters PH, DO which meets „A‟ class criteria. Metall ic and pesticide level is within prescribed limit of Drinking water standard. The primary data results are similar to secondary data analyzed. The analysis concludes that the river water is good for propagation of Wild life and fisheries C. River Water Quality at dredging locations: IWAI undertakes dredging to maintain the LAD for effective navigation. To analyses the effect of dredging activity on water quality water samples in upstream and downstream of the river at different distance from the operating dredger were taken and analyses during study period. The river water quality observations reflect that the parameters like turbidity and total suspended solid increases in downstream of the dredging location up to 700 m, which gradually normalized at a distance of 1000 m from the dredging location. In upstream side of the river there were no major changes has been observed in these parameter. However, the metals like iron, copper, cadmium and lead were also detected in traces in water sample close to the dredging location in downstream. No variation was observed in other water quality parameter. D. Waste Water Generation from Major cities along NW-1: Waste water generation from cities and towns along NW-1 in Uttar Pradesh segment generated 422.6 MLD i.e. 26. % of total wastewater generation. Waste water generation from cities and towns along NW-1 in Bihar segments 376.5 MLD i.e. 14 % of total wastewater generation. The major city is Patna which generates 249.2 MLD of total waste water generated from this stretch. The cities/towns located along NW-1segment of West Bengal generate about 1311 MLD i.e. about 50 %. Out of the total waste water generation in NW-1 segment. Kolkata alone contributes 47% and Howrah generates 10% of the total waste water generation of west Bengal stretch. 4.13.2. Impacts on Water Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel Impact of dredging on water environment is anticipated due to degradation of water quality during the dredging and off-shore dredge disposal operations. Impacts on water quality due to dredging activities & off-shore dredged disposal are variable in space and time depending upon the turbidity and suspended solids levels and are domination in light transmittance of river water, reduced DO, changes in salinity, temperature, pH, availability of river water nutrients, and heavy metals/chemicals. Most significant change 199 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 in water quality results due to the spread of dredged materials plumes42during dredging & disposal resulting in changes in river water characteristics as mentioned above. A. Change in DO Level: Dredging leads to re-suspension of the oxygen deficient sediments. When these sediments come in contact with the water, the oxidation results thereby reducing the DO of the river water. As per a study in US about effect of river bed sediments (dredged material) disposal on dissolved oxygen in river, the dissolved oxygen level comes down suddenly by 2 to 2.5 mg/l for maximum of 2 minutes only at the dredge plume arrival point which regains the DO level within maximum of 3-4 minutes as plume passes. (refer Figure 4.5) (Source: Water Quality Aspects of Dredging and Dredged Sediment Disposal byG. Fred Lee & Associates, California) Figure 4.5 : Oxygen Depletion Rate vs Time for Dredge Disposal B. Due to Heavy Metals and Chemicals Toxicity: In case the sediments dredged are contaminated with heavy metals or toxic chemicals then there may be chances of dissolution the heavy metals/pesticides/chemicals in the water resulting in degradation of water quality. However as per analysis of different river bed sediments carried out across the NW-1 at probable maintenance dredging locations, 42 As per planning CSD dredgers are likely to be used in most cases and dredge river bed sediments are proposed to be disposed about 200m away from dredging point through a pipe in flowing water channel in slurry form. 200 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 reveals that the river bed sediments are non-toxic except in Allahabad to Varanasi and Varanasi to Buxerstretches whereCadmium level is found marginally higher compared to US standard (refer Figure 2.22 to 2.25 and Table 4.26 of Volueme 3A). However, this higher level is unlikely to have toxic effect on aquatic life considering the sensitivity level to cadmium exposure (short terms at LC50 level) to aquatic life as per Canadian Guidelines and presented at Figure 4.6 (source: Canadian Environmental Quality Guidelines, Canadian Council of Ministers of the Environment, 2014) Figure 4.6 : Short-term Species Sensitivity Distribution (SSD) for Cadmium in Freshwater derived by fitting the log-normal model to the short-term LC50s of 62 aquatic species. C. Due to Pesticides Presence: The river bed sediment test results (refer Table 4.26 of Volueme 3A) indicate presence of pesticide in traces and much below the safe limit defined by USA. The pesticide presence will not have any significant impact on river water quality due to very low pesticide concentration and high dilution available in river. In anoxic sediments, sulphur occurs in forms of sulphides, which gets oxidized to sulphate ions leading to reduction in DO and decrease in pH of the water which may results in slight increase of acidity. Acidic waters are generally corrosive in nature. Aquatic species ranging from planktons to large fishes are sensitive to river water pH and can strive in specific pH range only. However, considering the very large volume of water and with dilution effect pH is unlikely to change to acidic level. 201 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 D. Due to Turbidity and Ferrous Effect: Hydraulic dredging involves slurring the sediments with water in a one-part sediment to four-parts water mixture where this mixture is typically then proposed to be pumped as a slurry through floating pipe for disposal to flowing water channel away from (about 200 m) from dredging site. This dredging and disposal action will lead to increase in turbidity around dredging point and at disposal point. To analyse the effect of dredging on turbidity by CSD, primary data analysis was carried out for at varying distance before and after the dredging point. These results are presented at Table 2.23 of Volueme 3A. It establishes that turbidity of water increases substantially close to dredging point but it reduces with distance and almost get normalise at a distance of 700 m from dredging point. The instantaneous suspended sediment concentration due to disposal of dredge slurry results in the plume of fine and coarser sediments. The plume is dispersed over a significant distance by the river flow at the point of disposal which also leads to increased sediment dispersion. Coarser sediments settle much faster and at shorter distance. Fine sediments also settle faster due to the presence of iron in dredge sediments. Iron in sediments exists in a ferrous form43. Upon contact with waters containing dissolved oxygen, it is rapidly oxidized by the dissolved oxygen to ferric iron which precipitates as ferric hydroxide. Freshly precipitated ferric hydroxide has a large surface which can sorb (act as coagulant) significant amounts of a wide variety of constituents released from the sediment in water. While they are released, they are rapidly taken back to the sediments by the ferric hydroxide scavenging. Ganga River carry high sediment load and its aquatic life is accustomed to high sediment level of river. The most of fishes‟ activities are found in 15 - 30 cm depth of the river. The fishes‟ activities may be impacted depending on the depth of discharge of dredge sediment slurry in the flowing river. The impact is likely to be minimal considering the quality of dredge sediments. This impact on aquatic life/water quality will vary depending on the concentration of constituents in sediments. The impact assessment carried out is based on the constituent analysis carried out by us at current level. The disposal of dredge sediment can result in the burial of aquatic organisms leading to their death. Various studies show that many organisms that live in sediments 43 Lee et al. (1978) and Jones and Lee (1978) as part of the Corps of Engineers Dredged Materials Research Program (DMRP) conducted extensive laboratory and field studies at dredging and dredged sediment disposal sites located in many parts of the US. They found that as long as the sediment water slurry was oxic (contained dissolved oxygen) that of the over 30 chemical parameters they measured, including heavy metals, a variety of organics, and other constituents, only ammonia and manganese were released from the sediments. However, if the slurrying of the sediments with dredging site water took place in the absence of dissolved oxygen (anoxic), a large number of constituents were released to the water. This pattern of release under anoxic conditions and no release under oxic conditions is strongly supportive of the role of ferric hydroxide in acting as an efficient scavenger for constituents released from the sediments. Lee (1975) pointed out that it is important to distinguish between the scavenging ability of freshly precipitated ferric hydroxide and aged ferric hydroxide precipitate. While freshly precipitated ferric hydroxide has a high sorption capacity, aged ferric hydroxide has limited sorption capacity and will release constituents sorbed at the time of formation of the ferric hydroxide, especially if it has become dry. This is an important phenomenon that occurs in some confined dredged sediment disposal projects that leads to the potential for water quality problems associated with this method of dredged sediment disposal. 202 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 are able to migrate through appreciable depths of sediments dumped on them depending on the oxygen level in water. With the proposed mode of disposal in slurry form sudden burial level is unlikely to arrive and aquatic organism will get enough time to migrate. Measures for Avoidance and Mitigation of Impacts Mitigation measures are proposed considering for the action required at design and operation stage of the project. Standards should be developed by concerned authorities for onshore and off- shore dredged material disposal and development of the process to ensure its compliance Attempt should be made to minimizing and optimizing the dredging requirements by effective assessment and study of the Thalweg profiles of the river. This can be achieved some of the following measures: o Increase use of bandalling which helps in diverting the flow of river towards the channel and reduces the quantity of dredging o Low draft vessels should be deployed which will reduce the requirement of dredging Dredged material should be checked for toxicity and contamination prior its disposal onshore for prevention of contamination of water and its impacts on aquatic life. Standards for judging onshore & off-shore disposal of dredged material are given in Annexure 4.1 ( Volume 3C). Dredging should not be carried out during very low flow seasons so as to minimize the dispersion of fine sediments Usage of silt or air bubble screens/curtains should be explored to minimize the sediment release during dredging operations. Silt/air bubble screens can hang from surface floats or stands attached to the bottom and held upright by sub- surface floats (PIANC). The use of silt curtains is reported to considerably reduce the loss of suspended sediments from the dredge area, by up to 75% where current velocities are very low. However, they are generally ineffective in areas with high current velocities which exceed 0.5 m/s (UK Marine SACs Projects). To minimize the sediment dispersal during disposal of dredge sediments, it should be place as close to the bed possible preferable at a level of 1m above the bed to minimise the dispersal of sediments. Provision should be made of emergency response equipment like floating blooms to deal with any emergency of oil spills or leakages. Regular servicing and maintenance of dredgers should be taken up so as to prevent any leakage of the dredged material. Leakage detection of the sediment transportation pipe should be carried out regularly to prevent any sediment loss and water pollution at leakage location. Corrective actions should be taken immediately after detection of such leaks. 203 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Dredgers should be selected so as there is minimal loss of sediments during dredging and disposal both. For inland waterways and off-shore disposal of the sediments, it is found that CSD is most feasible. Ratio of cutter revolutions and pump velocity should be adjusted to ensure that cutter advancement rate is not greater than the ability of the suction pump to remove the material that is cut. This will prevent the suspension of the dredged material. Dredge cuts and lifts should be designed so as to prevent undercutting of material and hence a collapse of material locally at the cutter head, leading to an increase in the sediment being disturbed by dredging. If dredge material is found contaminated at any particular location that it should be disposed off shore. Off-shore disposal of dredged material should be carried out only at approved TSDF site such as approved TSDF site of Haldia Dock Complex at Sagar. Sensitivity along NW-1 for dredge disposal is discussed in Table 4.4 above. Dredge material if disposed on river banks or on land caution should be exercised as per the Dredging and Disposal Management Plan is prepared for entire for NW-1 considering the sensitivities discussed in Table 4.4 and is this plan is given in volume 8. Table 6.1. 4.13.3. Impact on Water Environment Due to Operations- Barge Movement Major impact on water environment is anticipated due to degradation of water quality due to discharge of liquid and solid waste from vessels into the river, dissolution of anti- fouling paints used for painting hull of the ships and oil spillages from the barges. A. Impact Due to Discharge of Liquid and Solid Waste in river: The vessels moving in waterway generates both black & grey waste water. Black water include sewage, wastewater from toilets and medical facilities, which can contain harmful bacteria, pathogens, viruses, intestinal parasites, besides many other harmful ingredients. Discharge of these black wastes untreated or inadequately treated can cause bacterial and/or viral contamination of agriculture produce, fisheries, causing risks to public health. Nutrients in sewage, such as nitrogen and phosphorus, promote excessive algal blooms, which consumes oxygen in the water and can lead to fish kills and destruction of other aquatic life. However, in this project majorly freight vessel are expected to ply. Few passenger vessels may also ply. Thus the quantity of sewage to be generated will not be large. Also it will be made mandatory that no vessel/ship can discharge its wastewater into the river. Grey water is wastewater from the sinks, showers, galleys, laundry, and cleaning activities aboard a ship. It can also contain a wide range of contaminants, including even fecal coliforms, detergents, oil and grease, metals, organic compounds, petroleum hydrocarbons, nutrients, food waste, medical and dental waste (EPA). Grey water has potential to cause adverse environmental effects because of concentrations of nutrients and other oxygen-demanding materials in particular. 204 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Solid waste generated on a ship includes glass, paper, cardboard, aluminium and steel cans, plastics and maintenance waste. It can be either non-hazardous or hazardous in nature. Solid waste that enters the water body becomes aquatic debris, and can then pose a threat to aquatic organisms, humans, coastal communities, and people that use the river water. B. Impact Due to Usage of Anti-fouling Paint: Antifouling paints with toxic content can affect the aquatic life though to a very limited extent. C. Impact Due to Settlement of Dust from Materials handling: Dust may settle on the surface of river during loading & unloading and operation of barges if appropriate preventive measures are not opted for. This dust will increase turbidity in water, and will impact the water quality and aquatic life. D. Impact Due to Oil Spillage from barges/Vessels: There could be oil spillage/leakage during the oil transportation due to leakage in oil tankers transported or due to accidents between the two vessels or due to leakages from engines of the barges and vessels. Oil spills severely affects the water quality as well the aquatic fauna. Oil forms the layer over the water and cut down the contact of atmosphere with the water lying below reducing the oxygen levels in the water. Due to generation of anoxic conditions, anaerobic digestion of organic matter starts taking place in water which leads to generation of foul smell and some acids which deteriorates the water quality. Further due to lack of oxygen, aquatic flora gets killed and add to the organic mass in the water, further reducing the dissolved oxygen levels and the water quality degradation Measures for Avoidance and Mitigation of Impacts All waste water and solid waste or maintenance waste should be disposed at the designated barge maintenance facility only. Till the time such facility is not developed, terminals should have arrangement for reception of the waste and wastewater from vessels so as to prevent its unauthorized disposal in river. A procedure should be developed by terminal facilities for reception of vessel waste, its storage and treatment and respective charges. Further a waste management plan is requisite to be formed indicating the entire process of waste segregation, collection, storage, handling over to be followed by vessels. This plan can also indicate the fee amount to be paid by waste generator as per the weight of the garbage.. Penalties should be imposed on the vessel operators in case the plan is not followed The wastewater from vessels can be sent to STP for treatment and the treated water can be used for landscaping and dust suppression at terminal sites Vessels alsomay have some facilities for treatment of the waste generated onboard like recycling/chemical toilets. Standards for discharge of wastewater & garbage from barges as per MARPOL is attached as Annexure 4.3 & 4.4 ( Volume 3C). 205 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Vessel crew/captain should be aware about the waste handling and reception facilities and procedure at terminals and should be in line with above mentioned MARPOL standards. Further it is suggested that standards should be formulated for barges for disposal of waste and sewage as per Indian scenario w.r.t to NW-1 by concerned authorities Material having potential to generate the dust like coal, sand stone aggregates should be transported under covered conditions to minimize dust generation and its settlement on river surface. Terminals should have facility to control dust pollution during barge loading and unloading actions. Provision of oil water interceptors with the bilge tank to separate oil prior discharge of bilge water into river. Bilge water should be discharged as per MARPOL requirements. Bilge water tank should be maintained as per MARPOL requirement. Standards for discharge of oily waste is attached as Annexure 4.5 ( Volume 3C). Usage of non-toxic and non TBT containing anti-fouling paints for painting vessel Oil spill control and management plan should be prepared for each terminal facility and for barge operations inNW-1 as part of EHS management system of IWAI which should be duly communicated to vessel operator. Immediate/quick clean-up of oil/other spills to prevent damage on aquatic organisms should be undertaken and ship owners should be liable for the same. Facilities should be made to ensure quick rescue and clean-up operations in case of accidents. An oil spill management plan proposed for the NW-1 by IWAI is attached as Annexure 4.6 ( Volume 3C). Crew of the vessel carrying especially oil should be competent and experienced so as they can prevent the accidents to happen as much as possible IWAI should develop the stringent norms to be followed by vessel operators and should develop the system of penalizing based on polluters pay principle in case the standards are not met or violated Ship design (of capacity > 5000 DWT) should be as per MARPOL and should be provided with double hulls/double bottoms. Speed of oil carrying vessels should be maintained to prevent accidents due to high speed. Vessels should not be washed or cleaned at terminal/jetty facility and washings should not be discharge at the terminal/jetty location. Washing should be undertaken only at the maintenance facility only. Standards for discharge of washing water from the vessels carrying noxious chemicals (vessel washing water) as per MARPOL is given in Annexure 4.7 ( Volume 3C). Incase maintenance facility is not in place then washing can be done at terminal sites also but terminal sites should have proper system for handling the washing waste from barges. All washing water should be directed through closed drains to settling tank. Supernatant water should be tested and if suitable should be sent to STP for treatment. Sludge should be tested and disposed of to municipal waste disposal facility or hazardous waste disposal facility depending on thequality of sludge. 206 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.13.4. Impacts on Water Environment Due to Physical Interventions A. Pre-Construction/Design and Construction Stage Major impact on water environment associated with the design & construction of the physical intervention are degradation of quality and depletion of resources due to usage. Activities involved during design and construction phase are excavation and vegetation removal from the site, construction activities, dust suppression, washing & cleaning and domestic use of construction workers. Water will be required for compaction of the soil, construction activities, dust suppression, washing & drinking purposes of construction workers and can be sourced from authorized private water tankers supplier or municipal supply. Water requirement during construction phase may vary from 30-90 KLD as per the nature of activity involved. For extraction of ground water (if required), prior permission from CGWB should be obtained. All planned sites lie within the safe zone as per CGWB classification except Haldia terminal site thus no significant impact is anticipated on the ground water resources. Haldia industrial zone is classified as notified zone by CGWB thus restricting withdrawal of ground water. No ground water will be used for construction purpose at Haldia site. Stage of development of ground water should also be reviewed for other planned site and the source of water should be decided accordingly to minimize the impact. All the planned sites about the water bodies, but no surface body exists within the planned sites. Thus there is potential of contamination of the water bodies abutting the site due to mixing of run-off and discharge of wastewater generated at construction site. Also due to filling, excavation works at site, natural drainage pattern at site may get disturbed. Thus it is required to keep the site free of debris and contaminants, preventing entry of wastewater in the water bodies and reestablishment of storm water drainage network by provision of well-planned storm water drainage network. Off-shore activities like piling and dredging operations for construction of berths and jetties have potential to impact river water quality. During piling & dredging operation river bed sediments will be released, increasing water turbidity and suspended soil concentration. If settled sediments are contaminated, then there is also potential of the river water to get contaminated due to mixing of contaminated bed sediments. However as per baseline study, river bed sediments of NW-1 are not contaminated. Pesticides like alpha, beta & gama endosulphan are found but are present in very low concentration. Concentrations of these pesticides are within the limits for both the on-shore & off-shore disposal of these sediments as per Japanese and Canadian standards (Refer Annexure 4.1 in Volume 3C for Standards). No standards are prescribed in India for disposal of river bed sediments. No impact on ground water quality is anticipated during construction phase of the project. Mitigation measures proposed for preventing pollution of the water resources in influence area during construction stage of project are given below. 207 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Measures for Avoidance and Mitigation of Impacts Excavation should not be carried out during monsoon season. Excavated areas should be covered to the extent possible to prevent entry of rainfall run-off in case of rains. Excavation, filling and levelling should be carried out parallel so as to minimize the exposure of loose soil to wind/water. Levelled areas should be compacted. Garland drains should be provided around the excavated/activity area so as to prevent entry of run-off from nearby areas to excavated/activity area. The storm water drain should be connected to a collection cum sedimentation pond to arrest the sediments from the run-off arising from construction site. Temporary rain water storage structures should be provided at the site to store rain water and this water should be used for dust suppression and construction activities Storm water drains should be provided in the parking areas also and these drains should be provided with oil & grease trap No waste should be disposed in river or should be littered in areas near the River bank. Site should be cleaned regularly. Proper collection, management and disposal of construction and municipal waste from site should be made to prevent mixing of the waste in run-off and entering the water bodies. Washing of vehicle and equipment should not be carried out at river or green belt canal or any other waterbody. Washing area should be provided with the storm water drains fitted with oil & grease trap. Monitoring of surface water quality should be carried out on monthly basis to check the level of pollutants and effectiveness of proposed EMP No ground water or river water should be used for construction purpose without permission of competent authority. Piling of the raw materials & debris should be avoided at the site. Storage of debris and raw material should be carried out in paved and covered areas. This will minimize interface of run-off with raw material and debris. Septic tank/soak pit should be provided at site for disposal of sewage from the toilets at site and from the labour camps. Soak pits should not be provided close to water body. In case toilets are provided near waterbody septic tanks along anaerobic digestion tank should be provided. Sewage should not be discharged into the River. Adequate number of toilets & bathrooms should be provided to prevent open defecation. Wastewater generated from the washing/cleaning area after passing through oil & grease trap & curing area should be re-used for water sprinkling and wheel washing Water use should be minimized by using RMC, practicing curing by water sprinkling, maintaining flow of sprinklers, covering the water storage tanks to minimize water evaporation, creating awareness for water conservation and regular inspections at site to monitor the leakages in water storage area 208 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 In case RMC is not used then concrete transit mixer should be washed and cleaned daily. Wash from these mixers should be collected in block work tanks which will allow settling of concrete, removal of aggregates and allowing the waste to wastewater drain. This collected waste concrete can be dried and used for various purposes at site like construction of temporary roads at site. Fuel should be stored in leak proof containers and containers should be placed on paved surface. The piling work in river should be undertaken during low flow period. Turbidity traps/curtains or Geo-Textile synthetic sheet curtain should be placed around pilling and construction area to prevent movement of sediments and construction waste. Provision should be made for geo Synthetic Screen for arresting silt flowing down stream. Sedimentation tanks should be provided at the site so as run-off from site should enter the sedimentation tanks before discharging into the river. Sedimentation tanks will trap the sediments in the run-off Natural Drainage pattern of area around should be maintained to the extent possible Dredged soil should not be dumped at river bank area and should be re-used for filling purpose if possible. Dredged sand should be disposed within river only at shoal area/areas of low environmental sensitivity. Off-shore disposal should be carried out only if sediments are contaminant. One of the site for disposal of the dredged sediments is approved TSDF site of Haldia Dock Complex. Preference should be given to source water from rivers wherever feasible in the project area with due permission from authorities Permission should be obtained from irrigation department in case river water is used and from CGWA/CGWB in case ground water is used. No dumping of waste/wastewater in the ground. Hazardous waste (if any) or wastewater should not be stored in unlined ponds Substructure construction should be limited to the dry season and cofferdams may be constructed and utilized to lift the spoil directly out of it and carried to the riverbank for land disposal. Restoration of changes in the stream, if any, made during construction to its original level Provision should be made for collection and draining of water for the piling earth. It should be used for embankment protection or road construction depending on its suitability. B. Operation Stage Water will be required during operation phase at terminal/jetties/lock sites for purpose of consumption, dust suppression, cleaning, washing, cooling and landscaping. Potable water can be sourced from ground water or municipal supply. Permission should be taken for both prior sourcing the water from CGWB or municipal department as applicable. No significant impact is anticipated on water resources as the water 209 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 requirement is not very high. Also it is proposed to treat the wastewater generated at site in STP and re-use the treat water for landscaping & dust suppression to reduce fresh water requirement. To further reduce fresh water requirement, it is proposed to provide water conservation fixtures at site. Thus impact on water resources is anticipated to be low. As Haldia is categorized as notified zone by CGWB, it is proposed that ground water will not be used during operation phase of the project at Haldia terminal site. If ground water is used, prior permission will be taken from CGWB. Run-off from the site will increase after development of the planned facilities due to increase paved areas. However, quality of the run-off in terms of sediments will improve. But the run-off may contain the oil & grease from roads & parking area and dust from storage yards. If water contaminated with this pollutant will enter the river may pollute the water and will impact the aquatic life. This run-off should not be allowed to discharge to river. Run-off from roof-top is proposed to be recharged into the ground through RWH pits and run-off from paved & green area will be discharged in dump pond. Where the run-off will be retained and the clarified water will be used at site for landscaping, cleaning and dust suppression purpose. Apart from above sources, maintenance dredging & on-shore dumping of dredged material are another sources which may impact the water quality of river during operation phase of the project. IWAI intends to maintain LAD of 3 m throughout the waterway but looking into the environmental impact of the project, IWAI at present has planned to achieve variable LAD in different stretch. Now IWAI intend to maintain LAD of 3 m from Haldia to Barh, 2.5 m from Barh to Ghazipur and 2.2 m from Ghazipur to Varanasi and no dredging proposed at present beyond Varanasi. This will reduce dredging requirement from 31.08 million cum/year to 14.85 million cum which is more than half the volume there by cutting down impact to more than 50%. This dredging quantity includes the dredging to be carried out at terminal sites for maintaining navigability throughout year. Dredging & dredge disposal activities have potential to pollute the water quality by increasing turbidity and due to mixing of contaminated sediments with water. Dredged sediments are oxygen deficient and their re-suspension in water lead to oxidation of sediments reducing DO of the water. In some cases, water may also turn slightly acidic due to suspension of anoxic sediments. To minimize the impact on water quality due to operational stage activities and dredging operations, following mitigation measures are proposed: Measures for Avoidance and Mitigation of Impacts Regular checks should be made for soil erosion and turfing conditions of river training structures for its effective maintenance Regular visual checks and cleaning of drains should be done along the alignment to ensure that flow of water is maintained through cross drains and other channels/streams Toilets to be provided with running water facility to prevent open defecation. 210 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 STP to be provided to treat the sewage generated. Treated water should be used for horticulture purpose at the site and dust suppression purpose. STP is proposed to be provided at all the planned terminal sites at Varanasi, Haldia & Sahibganj. Disposal of sewage is proposed to be undertaken through septic tank/soak pit at Farakka lock site as sewage to be generated during operation phase is estimated to be low. Storm water drainage system should be provided at the site. Arrangement should be made to collect the roof water from the building separately into a tank so as this water can be used for horticulture activity directly or can be recharged into the ground. Storm water from other areas like storage yards, stock piles and roads should be directed into a collection/dump pond. Storm water should be retained in pond so as to allow the settling of dust and suspended particles in the water, this water should be used for cleaning and dust suppression. Sludge from the dump pond should be sent for disposal along with other municipal waste Storm water drains provided in parking & road areas should be provided with oil & grease traps Monitoring of water borne diseases due to stagnant water bodies Drains should be regularly cleaned and de-silted Water conservation fixtures should be installed in toilets and kitchen area. Some of the water conservation fixtures which can be installed are dual flushing cisterns, sensor taps, low water urinals etc. No wastewater should be received from vessels and vessels should not be allowed to discharge their wastewater and solid waste in river No waste/wastewater should be discharged in river or dumped into the ground Fuel should be stored in leak proof containers and containers should be placed on paved surfaces Dredged soil should be tested for toxicity, if toxic should not be disposed back in water and should be send for disposal to approved TSDF site only. Oil should be stored in leak proof containers and storage area should be provided with facility of collecting the oil in case of spillage. The storage facility should be so designed that spilled oil should not enter the storm water and sewage drains or storm water storage pits. Oil storage facility should be contained. Oil & grit separators should be provided in the storm water drains in these areas. Fuelling of vessels is not proposed at terminal facility but in case fuelling is carried out then Fuel dispensing equipment should be equipped with “breakaway” hose connections that provide emergency shutdown of flow.. Fuelling equipment should be inspected daily to ensure all components are in satisfactory condition. Ship design (of capacity > 5000 DWTat Haldia site for coal transhipment) should be as per MARPOL and should be provide with double hulls/double bottoms. Speed of oil carrying vessels should be maintained to prevent accidents due to high speed. Sensors and hooters should be fitted with vessel which can notify the 211 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 closeness of another ship or any other potential matter which can cause accident. Immediate/quick clean-up of such spills should be undertaken and ship owners should be liable for the same. Crew of the vessel carrying the oil should be competent and experienced so as they can prevent the accidents to happen as much as possible IWAI should carry out the inspections of the vessels which are transporting the material to and fro from the terminal. Monitoring of surface water quality should be carried out on monthly basis to check the level of pollutants and effectiveness of proposed EMP 4.13.5. Conclusion (Water Environment) Water environment is likely to be affected at all the stages and due to all proposed project activities. Impact are likely to be significant also if not mitigated. However the impacts can be minimized by taking above mentioned measures to a larger extent. Regular monitoring of water quality is essential to check the adequacy and effectiveness of the proposed measures. 4.14. Impact on Ecological Environment& Mitigation Measures 4.14.1. Status of ecological environment along NW-1 and influence area A. Critical Environment Resources or VECs: Biological VECs in NW-1 are located in ecologically fragile zones which need to be protected on account of their importance for providing suitable habitats for wildlife, humans, and their role in sustaining ecological functions. There are two notified wild life sanctuaries (Kashi Turtle Sanctuary, Varanasi, UP, and Dolphin Sanctuary, Bihar and one Hilsa Sanctuary notified under Fisheries Act, WB located within the NW-1 stretch. RET (Rare, endangered and Threatened) species like Gangetic dolphin (Schedule-1) fresh water turtle species (frequently sighted), The smooth coated Otter and crocodile (very rarely sighted) are present in the river stretch of the NW-1.Hilsa fish is the another important species found in NW-1 stretch. Fishing of Hilsa is prohibited in the notified Hilsa sanctuary area. details of the Sanctuaries present in NW-1 stretch is given in Table 4.17 below. Table 4.17 Salient features of Sanctuaries present within NW-1 Applicabilit Applicabilit Regulated y of Wild y of Forest Sr. Wildlife buffer State Protection status life act for act for NW- No. Sanctuary Zone (Km NW-1 1 radius) operations operations Officially protected Turtle sanctuary, Yes 1 UP Under Wildlife No 10 Varanasi Protection Act, 1972 2 Bihar VikramshilaGan Officially protected Yes No 10 212 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Applicabilit Applicabilit Regulated y of Wild y of Forest Sr. Wildlife buffer State Protection status life act for act for NW- No. Sanctuary Zone (Km NW-1 1 radius) operations operations getic Dolphin, Under Wildlife Sultanganj to Protection Act, 1972 Kahalgaon pahad West Bengal inland Fisheries West 3 Hilsa Sanctuary Rules, 1985 to facilitate No No 10 Bengal spawning of Hilsa fish only Note: ESZ have not been notified for above sanctuaries hence default area of 10 km from the boundary of sanctuary is considered as the Eco-sensitive zone (ESZ) Terrestrial Flora: There is no major forests area present along the NW-1. The riparian flora consists of commonly found trees, shrub and herb species. No rare and endangered plant species observed in the riparian area of the NW-1. Terrestrial Fauna: As no major forest area is present along the NW-1 stretch the terrestrial fauna is restricted to commonly found terrestrial faunal species. No Schedule-I terrestrial mammals species observed along the NW-1 stretch. However, 6 IBA located within influence area of NW-1 are the major wintering site for many of migratory water birds. Some of the rarer/endangered/vulnerable avifauna has been reported in these IBA‟s. There are 6 nos. of important bird areas including Udhwa bird sanctuary. However, Udhwa bird sanctuary is located about 9.0 km away from the NW-1 stretch. Many migratory birds come to visit these IBA sites every winter from several parts of the world, including Siberia and Europe. Details of the IBAs located within 10 km area of the NW-1 are provided in Table 4.18. Table 4.18 : Important Bird Area within 10 km area of the NW-1 Protection Migration Distance Name of Important Bird Area Coordinates status period for from NW-1 State in Ganga Basin Birds (km) Officially Winter Danapur cantonment 25°39‟N 1 Not 2 km S area 85°02‟E protected Officially Winter Kurseala River Course Bihar 25°27‟N Not 2 km E 2 and Diyara Flood 87°15‟E protected along NW-1 Plains Mokama Taal (Barah) 25°28‟N Officially Winter Close to 3 Wetlands 85°42‟E NW-1 213 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Not protected Officially Winter Vikramshila Gangetic 25°17‟N Not 4 Dolphin Sanctuary Bird Within NW-1 86°56‟E protected area Protected Winter Udhwa Lake Bird 25°0‟N as 5 Jharkhand 9 km W Sanctuary 87°49‟E Sanctuary 24°48' to Officially Winter West Farakka Barrage and 14.05"N, Not Surrounding 6 Bengal adjoining area 87°55' to protected NW-1 44.28"E B. Aquatic Flora and Fauna: There are several aquatic floral species present in the riparian zone and in aquatic habitat along the whole NW-1 stretch. The floral and faunal diversity comprises phytoplankton, zooplankton, zoo-benthos including macro-invertebrates, fish and higher vertebrates. In Ganga river from Allahabad to Haldia, NW-1 segment total of 90 taxa (28 sp. of Chlorophyceae, 39 sp. of Bacillariophyceae, 11 sp. of Cyanophyceae, 5 sp. of Euglenophyceae, 5 sp. of Rhodophyceae were observed. Bacillariphyceae (diatoms) dominated having maximum abundance as compared to Cholophyceae and Cyanophyceae. The Zooplankton comprises of Protozoans (11 sp.), Rotifers (10 sp.), and Crustaceans (3 sp. of Copepods and 7 sp. of Cladocerans) were observed during study period. Habitat for Benthos in the river is aphotic zone or benthic zone. Aphotic zone of the aquatic ecosystem is zone where sunlight is completely absent. These are depending on sediments and they take the nutrients for their survival from sediments. The soil samples for benthos were collected from the sediment throughout the NW-1 stretch. The most common Benthos observed in Ganga River was Gabbia sp.Bellamya sp. Lymnaeasp, Belostomaindica and Cybister confuses. The Ichthyo-fauna is represented by 106 species, out of which 103 species belonging to family Balilooridae, Siluridae, Cyrinidea, Channidaea, Cobitidaea, Osplronemidae and Nandidae. The higher aquatic vertebrates mammalian fauna present in NW-1 stretch (Allahabad to Haldia area are Gangetic dolphin (Platanistagangeticagangetica) and the Smooth Coated Otter (Lutrogale perspicillata) which are categorized as endangered species (Schedule-I). Dolphin is found routinely moving between Allahabad to Farakka and post Farakka region of NW-1. However, these mammals are rarely sighted in Allahabad and Varanasi region. The Smooth Coated Otter is found throughout the length of the gangetic system but in very very poor numbers and it is one of the endangered category animal as per IUCN list. Though it is not sighted during our study period but fishermen at Bhagalpur and Sultanpur only has indicated its sighting. Its number has 214 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 depleted fast due to one of the most hunted animal because of its precious skin. The reptile fauna found in Gangetic system are variety of fresh water turtle species, water snake (Xenochrophispistator), Mugger Crocodile (Crocodilus Paluspris), estuarine (East Coast) Crocodile (C. porosus) and Indian Gharial (Gavilialis Gangeticus). The Mugger, Crocodile and Indian Gharial are very rarely seen in NW-1 stretch. Its presence is more reported in tributaries (Chambal river) of Ganges. The turtle and water snake are found more commonly in the NW-1. Other than water snake, other reptile faunal species are classified as endangered species. Few researchers have indicated presence of Ganges Shark (Glyphis Gangeticus) in the last part of Ganga (Hoogly river region). However, there is no confirmed news or basis available yet for the presence of this critically endangered species in the gangetic system. C. RET Species: Gangetic dolphin and fresh water turtle species (endangered and vulnerable turtle species), Smooth Coated Otter and Crocodile areSchedule I species found in the river stretch of the NW-1. Some of the vulnerable and endangered species of migratory birds are also sighted in the IBAs located along the NW-1. 4.14.2. Impacts on Ecological Environment due to Maintenance Dredging for maintaining minimum LAD in navigation channel A. Impact on Aquatic Ecology Impacts due to maintenance dredging are anticipated largely on aquatic ecology. Impact of dredging on aquatic ecology are change in diversity of benthic habitat, impact on behavioural response & tissue injury of aquatic organism due to increased noise levels, blocking of fish gills due to increased sediments, intake of toxic pollutants by aquatic fauna as released during dredging, smothering of benthic flora & fauna due to dredge disposal and loss of Submerged Aquatic Vegetation (SAV). Impacts are assessed for different scenarios as given in the following section: i. Changes in Diversity of Benthic Habitat: The impacts on diversity may range from abundance of certain species of the prevailing community or even habitat community. itself Such changes in diversity may be caused due to change occurring in river hydrodynamics and chemical or physical characteristics of river bed sediments of the impacted area. As during dredging the settled sediments are dredged thereby impacting the whole range of flora and fauna which dwells in the river bed sediments. Once the sediment organisms are dredged and removed along with the sediments the dredging process may even cause mortality of benthic organisms. However, recolonization of habitats after dredging at the site may initiate soon after dredging but it may take significant rehabilitation time though the benthic organisms are essential components for river health as being ingredients of the aquatic food chain. Rate of rehabilitation of fresh colonies is highly variable as it is governed by characteristics of remaining sediment portions. Faster recoveries have been observed in finer sizes sediments and of less saline character. Diversity rich and stable benthic habitat is most unlikely wherever regular maintenance dredging is required (which is the 215 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 case here as suspended solids get quickly settled on the bed) of the river beds in the stretches such as adjoining the terminal berths and river bed of navigation channel having lower LAD warranting regular maintenance dredging. However, it may be pertinent to point out that the habitat loss caused may not significantly impact the river ecological health because the maintenance dredging is confined to navigational channel of 45 m width in comparison to the total width of the Ganga River on the such locations. Dredging activity will not have significant impact on the larger mobile faunal species such as fishes, dolphins, and turtles. The impact assessments carried out based on under water modelling of dredging noise indicated that the noise impacts on these species for their behavioural changes may not be significant. Because these organisms normally move away from the dredging spots resulting in high underwater noise generation. In any case mortality of these aquatic species due to dredging is not anticipated. Besides, in case minimum LAD is maintained in the channel, then it also facilitates the movement of these aquatic species as enough space is available to avoid any injury from dredger or barge movements44. ii. Increased Noise Levels: Noise generation due to dredging operations also disturb the aquatic life either leading to behavioural changes, tissue/gill injury, temporary loss of habitat for the dredging period or mortality (rarely) due to dredging operations. Noise generation during dredging operations is of order of 160-180 d(B) for CSD category of dredgers. Behavioural disturbance criteria for Dolphins & turtles from any continuous noise exposures are 177 d(B) and 150 d(B) respectively45 . Noise sensitivity reference are not available for other crocodile and Smooth Coated Ottor but these animals are rarely sighted. It is assumed that these animals will also have similar sensitivity range. In any case these animals prefer to stay more on banks or on wet land near banks and are unlikely to be impacts due to dredging which is most likely to undertaken in the deep stream of river. In addition, no dredging operations are proposed within or in vicinity of Kashi Turtle Sanctuary and Vikramshila Dolphin Sanctuary that minimise the possibility of the impact of dredging on such vital sensitive organisms. However, in addition various mitigation measures are still proposed to further minimize the impact of dredging on aquatic species. As per U.S. Fish and Wildlife Service (USFWS), sensitivity level for injury in fishes is 186 dB for fish size of >2gm and 183 dB for <2gm. Thus the dredging operations noise will not lead to any injury to the fishes. Also it is likely that fishes and other moving organisms will move away from the source of disturbance and since the dredging activity is short term, the aquatic fauna will move back after the disturbance is removed. 44 Impact Analysis on “Ecology, Flora and Fauna including Fish and Fisheries due to Movement of Barges Carrying Coal Through National Waterway-1, Sagar to Farakka, ICAR-CIFRI 45 As per Environmental Impact Statement of South of Embley Project. 216 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 iii. Increased Sediment Load/Turbidity: Bothdredging as well as in-stream (dumping) disposal of dredged sediments have potential to increase the sediments or turbidity load of river water due to generation of sediment plumes during the dredging and disposal operations. Increased suspended sediments can affect filter feeding organisms, such as shellfish, through clogging and damaging feeding and breathing equipment (Brehmer 1965; Parr et al 1998). Similarly, young fish can be damaged if suspended sediments become trapped in their gills and increased fatalities of young fish which have been observed in heavily turbid water (Wilbur 1971). Adult fish are likely to move away from or avoid areas of high suspended solids, such as dredging sites, unless food supplies are increased as a result of increases in organic material (ABP Research R701 1997). Suspended sediment due to dredging operations in the water column blocks available light for photosynthesis, reducing benthic primary productivity and inhibiting the ability of benthic plants to recover from dredging impacts. However, the effect of suspended sediments and turbidity in open environment like river are generally short term (<1 week after activity) and near field (<1km from activity)46. There is only need to be concern if sensitive species are located in the vicinity of the maintained channel. Since river width is wide enough compare to 45 m wide navigational channel, it is anticipated that aquatic life will get accustomed fast to regular activity phenomenon of the river and adjust their behaviour accordingly. iv. Release of Locked Pollutants in Bed Sediments: Sediments settled on the bed may have trapped toxins, chemicals and pollutants which are trapped in them and are not affecting the water quality. The most important among the toxic pollutants are pesticides, and heavy metals. However as per analysis carried out for river bed sediments, sediments are not contaminated as covered in previous section. Therefore, any significant impacts on water quality/habitat-health of aquatic species are not anticipated. v. Disposal of Dredged Material in Aquatic Environment: Disposal of dredged material may lead to burial of existing benthic community at the location of disposal and Submerged Aquatic Vegetation (SAV) on the river bed, leading to mortality of buried community. In case of high turbidity and disposal heap is below the photosynthetic depth (adequate light penetration) then SAV cannot recover. However as discussed above, impact of suspended sediments and increased turbidity is of temporary being confined to disposal location besides of short term in nature. vi. Increased Depth During Dredging: In shallow waters, the light necessary for photosynthesis penetrates to the bottom of the water column. The LAD proposed is 3 m so the availability of sun light at bottom for clean river water will supports the growth of SAV and algae. SAV at the bottom provides 46 .As per UK Marine SACs Projects assessments 217 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 shelter and food for young fish and helps reduce turbidity by resisting water flow and thus, allow sediment generated during dumping to settle out. The benthic algae are an important component of food chain and serve as a food source for some fish species. When the water gets too deep (below 6 feet/1.8 m) the available sun light decreases and plants growth is restricted as it can no longer photosynthesize in the deep channel area. Measures for Avoidance and Mitigation of Impacts Certain measures proposed under previous sections are applicable for mitigating the impacts on aquatic ecological as well. These measures are not repeated here. Only additional measures are proposed below: Dredging plan including timeframe should be prepared for each stretch prior initiating dredging activity. No dredging should be undertaken within VGDS, Turtle sanctuaryandconfluence zone of major rivers (100 m horizontally and 500m either side of major river confluence location). Dredging operations should not be carried out during the breeding and spawning season of the valued aquatic species which is from June to August (Monsoon season). Bends and meandering locations are the most potential breeding grounds and are presented in baseline volume (Sub volume 3A) of the report. No dredging should be carried out in winter season (November to February) along Mokama Taal to minimize impact on aquatic species and avifauna. Dredging if required to be taken at critical stretches (Turtle and Dolphin Sanctuaries) as mention above then dredgers should be provided with turtle and Dolphin deflectors. This would prevent the sucking of the animals (fish or turtle) swimming nearby. But such dredgers are inefficient and costly. Measures like provision of bubble curtains or creation of agitation in water should be carried out prior carrying out dredging operations so as to provide avoidance time and let the species move away from drudging point. and to prevent any injury/mortality. Dredging operations should be halted in case of sighting of aquatic mammal in adjoin locations. Contractors should submit SOPs and action time chart with risk management plan prior to any dredging work. Dredging sub-contractor should follow the defined safety procedures to avoid accidents and spills, and IWAI should ensure that other vessel users are provided with adequate information and instruction to avoid conflict with the dredgers. B. Impacts on Avifauna Dredging and dredge Sediment disposal activities may also have certain impact on the avifauna having its habitats identified as Important Bird Area (IBA) located close to or along shallow waters areas of the river (Refers Chapter for IBA locations). However, the dredging impact will be localized and will be confined within the impact zone (may be of 500 m or less) and duration of dredging only. Avifauna may be affected during dredging periods due to high noise levels, reduction in availability of aquatic food such a fishes in dredging stretches and increase in various human activity at dredging sites. Noise level 218 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 of the order 80 dB(A) is expected to be generated from dredging operations. Apart from dredging effect, disposal of dredged material in mud flats and reed land which are habitat of the migratory and other water birds, may impact the aquatic birds. The most impacts will be confined to initial period only as on later stage avifauna will gets acclimatized to the situation. Measures for Avoidance and Mitigation of Impacts Dredging operations should be undertaken primarily to day time, i.e. 6:00 am- 10:00 pm only to minimize noise impacts on the avifauna near Important Bird Areas listed at Table 4.18above and located close to river. Dredgers should be equipped with the noise reduction/masking equipment to reduce the noise generation inside and outside water. Noise from dredgers can be reduced at source (dredger) by isolation of exhaust system, by keeping engine room doors shut and by shielding. 4.14.3. Impact on Ecological Environment ( Aquatic Ecology) Due to Operations- Barge Movement A. Impact Due to Vessel Speed and Movement on Aquatic Organisms Aquatic mammals are subjected to threat of collision by vessel speeds causing injury and death. Dolphins, fishes moving in river can collide with the moving vessels which may cause them injury and even mortality. To minimise the chances of collision, restricted vessel speed of 2.7 knots (5 kmph) is proposed within VGDS and in Kashi turtle sanctuary. Even in low speed danger still exists for juveniles of dolphins and other fishes which can get trapped / entangled with propeller‟s blades leading to injury or death. Smooth Coated Otter and Crocodile are rarely sighted speciesand prefers to rest on wet lands of river banks, noise impacts are anticipated negligible due to its fast attenuation. Accidental impact cannot be rules out however it will of similar nature as to Dolphin and same precautions will apply for these animals as well. B. Impact Due to Ballast Water Discharges on Aquatic Organisms Ballast water discharges by vessel can have a negative impact on the aquatic environment. Bulk cargo carriers use a huge amount of ballast water, which is often taken in from the coastal waters from one region and may be discharged at the next location. Such Ballast water typically contains a variety of biological materials, including plants, animals, viruses, andbacteria from the sea water intake location. As blast water may have various non-native, nuisance, invasive, exotic species that can cause ecological imbalance and economic damage to the receiving aquatic ecosystems besides certain human health problems. Since NW1 is an inland waterway transport project with movement of vessel only within same aquatic river environment no impacts due to ballast water discharges are anticipated. Though coastal vessel arrives Haldia Terminal but loaded with coal and thus will not require to discharge any ballast water. Therefore, no impact due to ballast water discharge is anticipated. 219 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 C. Impact Due to Spillage of Oil/Material in River on Aquatic Organisms Materials like coal, oil, building construction material, textiles, fertilizers etc. are proposed to be transported through the waterway. In case of accidents these materials can spill in the River and may pollute the water quality and may have significant impact on aquatic ecology. Oil spill may also occur during material unloading and loading at terminal sites. Oil spills are well known to cause significant harmful impacts on sea aquatic ecology as the oil leaks form a thin film floating over the sea water and thereby breaking contact between seawater & air (DO reaeration). This floating oil may enters the gills of fishes and other organism and block the gills, skin pores and may impact the normal functioning of the aquatic organisms. Impact of oil spills on various aquatic organisms is summarised below: Plankton: Oil spills can lead to plankton kills. The recovery of plankton will be however quicker through repopulation of the community by fresh planktons from adjacent areas not affected by oil. Eggs and larvae of fishes, crustaceans and molluscs which are highly sensitive to even low concentrations of PHc (10-100 μg/l) and aromatics (1 - 5 μg/l) in particular will be severely affected. However, it is unlikely that any localised losses of fish eggs and larvae caused by a spill will have discernible effect on the size or health of future adult populations. Benthos: These organisms have limited movements and hence, are more vulnerable to oil spills. If the thick weathered oily mass spread on intertidal areas, immediate mortalities of organisms in the zones of physical contact are expected. Sub-tidal benthos of shallow waters might also be killed or tainted if the sinking residue affects their habitats. If the residue persists for longer time in the sub-tidal or intertidal segments due to poor circulation, the recovery will be delayed. Thus, the benthic organisms near to the berth area will recover slower than the organism away from berth area due to poor water circulation near the berthing area. Fishes: A large oil spill can temporarily reduce the fish catch from the area as fish might migrate from the affected zone. Limited mortality may also occur particularly when the oil concentrations in water go abnormally high. Fishes are sensitive to oil and tend to avoid petroleum. Often fishes get tainted and unpalatable but become normal when the ambient PHC level approaches the baseline which is expected within a few days. The area which is the breeding and nursery grounds for a variety of fish and shell fish, large scale mortality of eggs and larval stages of several economically important groups may occur if oil is transported to these habitats during major accidental oil spill. Local fishermen may get affected by getting either contaminated fishes/crabs/larvae etc. or poor catch. Thus measures should be taken to prevent any oil spillage and also a plan is required to handle oil spills, if any occurs to minimize its affect on aquatic ecology. D. Impact Due to High Noise Generation During Movement on Aquatic Organisms Cargo vessels generate substantial broadband underwater noise from their propellers, motors, auxiliary machinery, gear boxes and shafts, plus their hull wake and turbulence. Diesel motors produce more noise than steam or gas turbines, but most long distance 220 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 (low frequency) noise is generated by the „hissing‟ cavitation of spinning propellers. Noise generation from the ship movement is continuous type of noise generation. Noise generation from ship movement (1500-2000 DWT) vary from 110-140 d(B). This order of noise generation may have impact on behaviour of various aquatic organisms and may lead to other injuries like tissue injury, temporary & permanent hearing loss. However physical impact on aquatic species is not anticipated as the aquatic species moves away from the source of disturbance (barge) and usually do not come close. But impacts of this level of noise can be significant on behavioural responses and audiometry of aquatic species, turtles and dolphins in particular. These impacts are analysed and presented in the following sections: i. Impacts on Behavioural Response of Aquatic Organisms and on Auditory System of Dolphins Due to Noise Generation from Moving Barges This assessment has been carried out considering the outputs of various studies vs noise and using mathematical techniques (underground noise modelling) to assess the expected noise from vessel movement in IWT in NW-1. The studies references are presented first followed by noise modelling outputs followed by impact on auditory System of Dolphins. Study by Southall et al. (2007)47 and Environmental Impact Statement of South Embley Project: A review of various studies into behavioural disturbance in high- frequency cetaceans from continuous man-made noise was carried out. As per review it was concluded that not all behavioural responses are equally significant. Behavioural changes may be relatively minor and/or brief, have the potential to affect important behaviours such as foraging, breeding and resting. Study concluded that the behavioural changes to levels below 120 dB re 1 μPa were relatively minor or brief in case of harbour porpoise. Significant and sustained avoidance behaviour was recorded when noise levels exceeded 140 dB re 1 μPa in case of harbour porpoise. For turtles and Dolphin this level is 150 dB and 177 d(B) respectively. Study by Kelkar (2008)48 into the habitat use and distribution of the Ganges River Dolphin in the VGDS. As per the study it was concluded that the number of motorised boats and boat noise were not significantly correlated with dolphin encounter rates. Small boats equipped with outboard engines can produce source levels in the order of 160 dB re 1 μPa at 1 m, with the received levels of over 120 dB re 1 μPa at 1 m up to 500 m. Although the study results suggest that boat noise is not displacing dolphins, it is not conclusively showing that such noise levels do not impact Dolphin behaviour. Study “Acoustics in marine ecology-vessel noise effects on dolphin communication -Vol. 395: 161–175, 2009 doi: Under this study sound source levels of various vessel types at different speeds are measured which are given at Table 4.19. The vessels which will be diploid in the NW-1 passing through Sanctuary areas (VGDS 47 Southall et al. (2007). Marine Mammal Noise Exposure Criteria: Initial Scientific Recommendations. Aquatic Mammals, 33(4). 48 Kelkar, N. (2008). Patterns of habitat use and distribution of Ganges river dolphins Platanista gangetica gangetica in a human- domintaed riverscape in Bihar, India. Master Thesis, Manipal University, Centre for Wildlife Studies, Bangalore 221 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 & Kashi turtle sanctuary will be 4 stroke engine vessels and propose to move with speed of 2.7 knots (5 kmph) within the sanctuary areas. Thus as per this study one can conclude that from this source the noise level to be generated from the vessels will be in range of 110-139 d(B). Table 4.19 : Vessel noise at different speeds Vessel, speed SL (0.2–40 kHz) SL (2–12.5 kHz) dB re 1 μPaRMS at 1 m dB re 1 μPaRMS at 1 m 2-stroke, 2.5 knots 112 ± 1.0 108 ± 3.0 4-stroke, 2.5 knots 110 ± 2.6 106 ± 2.2 2-stroke, 5 knots 139 ± 1.0 132 ± 3.0 4-stroke, 5 knots 138 ± 2.6 134 ± 2.2 2-stroke, 10 knots 149 ± 0.6 146 ± 0.6 4-stroke, 10 knots 152 ± 0.3 144 ± 0.5 (Source: Acoustics in marine ecology’ (Vessel noise effects on dolphin’s communication -Vol. 395: 161– 175, 2009doi: 10.3354/meps08204) Study by Renilson M, Leaper R & Boisseau O, May, 2013, “Hydro -acoustic noise from merchant ships-impacts and practical mitigation techniques”: As per this study presented the relationship of vessel speed vs noise generation from vessel and same is shown at Figure 4.7. Source: Renilson M, Leaper R & Boisseau O, May, 2013 Note: 2.7 Knots or 5 Km/h = 0.43 log speed (knots) 222 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Figure 4.7 : Broadband source levels against log10 (speed in knots) for different ship types Vessels to be used for material transportation from the NW1 terminal can be considered under category of bulk carriers. Ship movement speed in the sanctuary areas is to be restricted to 5 km/h only. The above given graph it is established that the noise level generated from bulk carriers moving with speed of 5 kmph (2.7 knots) will not be more than 130-140 d(B) (arrived based on extrapolation of above graph). Study by Plon, S, Koper, R.P., and Endangered Wildlife Trust: This study establishes the noise level generation from different vessel types. The noise level from different types of vessel is given in Table 4.20. But no relation between the noise generated with the speed of vessel is highlighted in this study. Table 4.20 : Noise Level from Different Type of Vessel Sound sources Types of Pulse Main Frequency Source sound sound duration (KHZ) level d(B) (sec) Cargo vessels Continuous n.a. 0.0-0.5 195 Small vessels Continuous n.a. 1.0-10.0 160-170 (Source: Plon, S, Koper, R.P., Endangered Wildlife Trust) Based on above studies it is established that bulk vessels moving at a speed of 2.7 knots (5 kmph) generates noise of range 130-140 d(B). However, considering the variation upper limit of 160 d9B) is also considered underwater noise modelling assessment. Under Ground Noise Modelling: Noise are the mechanical waves and the energy content dissipates in surroundings with the distance of the waves movement. Noise level received by the receiver is not of same intensity as the noise intensity at the source. There is always a propagation loss associated with the noise transmission distance. Thus noise received can be written as follows: RL = SL-PL RL- Received noise level SL- Source Sound Level PL-Propagation Loss PL can be estimated using simple equation PL = Nlog10 (R), where N is scaling factor and R is distance of receptor from source. N values differ for different environments. For the convenience here N value is taken for shallow water environment in reference with the study by Kongsberg Maritime Limited on “underwater noise propagation modelling and estimate of impact zones for seismic operations in the Moray Firth”. As per this study propagation loss is high in shallow waters due to strong interface with the surface of the river bed. N values for shallow waters vary from 15-20. For noise modelling purpose minimum noise levels considered are 130 d(B) due to barge movement and maximum noise levels are taken to be 160 d(B) (20 d(B) more than highest noise levels as per reference studies above to consider worst case scenario). Considering the noise level variation from 130-160 d(B) and N value variation 223 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 from 15-20, noise level modelling has been carried out at different receptor distances of 22.5 and 15 m from the centre line of the ship. The results for noise level modelling are presented in Table 4.21 Table 4.21 : Noise Level Modelling Result Source Sound Level 130 160 130 160 130 160 130 160 (SL)-dB Scaling Factor 15 15 20 20 15 15 20 20 considered (N Value) Distance of receptor 22.5 22.5 22.5 22.5 15 15 15 15 (R)in meter Propagation Loss (PL) 20.25 20.25 27 27 17.7 17.7 23.6 23.6 Received Noise Level 109.75 139.75 103 133 112.3 142.3 106.4 136.4 in dB by receptor Output of Underwater Noise Modelling: An estimation is carried out to assess distance of achieving the safe threshold noise level of 150 d(B) for turtle and 177 d(B) Dolphin from behavioural consideration prospective as per EIA Study of “South of Embley Project” sited above. The same is given at Table 4.22 for scaling factor of 15 and 20 N. It is concluded that noise level of 150 d(B) can be achieved at distance less than 4.6 m from centre of the ship for turtle. However, the maximum beam of ship which will ply in waterway is 11.4 m. Thus possibility of occurrence of organism at 4.6 is comparatively less. Table 4.22 : Distance estimation for achieving 150 d(B) of noise from centre of the vessel Description Scenario 1-considering Scenario 2-considering N Value 15 N vale 20 For For For For Turtles Dolphins Turtles Dolphins Threshold Safe Noise 150 177 150 177 Level -dB Source Sound Level 160 160 160 160 (SL)-dB Safe Distance-R (m) 4.6 Noise level 3.16 Noise level generated generated are less than are less than the threshold the threshold safe level safe level ii. Impact on Auditory System of Dolphins Due to Noise Generation from Moving Barges When the dolphin „s auditory system is exposed to a high level of sound for a specific duration, the sensory hair cells begin to fatigue and do not immediately return to their 224 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 normal shape (NRC 2005)49. This causes a reduction in the hearing sensitivity, or an increase in hearing threshold. If the noise exposure is below some critical sound energy level, the hair cells will eventually return to their normal shape. This effect is called a temporary threshold shift (TTS) as the hearing loss is temporary. If the noise exposure exceeds the critical sound energy level, the hair cells become permanently damaged and the effect is called permanent threshold shift (PTS). Table 4.23 below summarises the noise exposure criteria adopted for assessing hearing damage (PTS or TTS) and behavioural effects on the Ganges River Dolphin from vessel noise. The noise exposure criteria are based on the review presented by Southall et al. (2007) and also adopted by NOAA (US National Oceanic and Atmospheric Administration) in 2011. which were discussed above. Table 4.23 : Noise exposure criteria for physiological (PTS and TTS) Impact Noise exposure criteria Permanent threshold shift SEL 215 dB(M) re 1μPa2s Temporary threshold shift SEL 195 dB(M) re 1μPa2s Source: NOAA & Bangladesh Regional Waterway Transport Project 1-ESIA Report, BIWTA However, noise generation anticipated from vessel movement in NW-1 (1500-2000 DWT) is between 110-140 d(B) which is below the noise exposure criteria to cause PTS/TTS in dolphins. Thus impact on auditory systems of dolphins is not anticipated due to noise generation from barge movement. iii. Impact Due to Masking of Biological Important Noise of Aquatic organism by Noise Generated from Moving Barges Another impact of high noise level generated from moving barges is masking of biologically important sounds. These sounds may interfere with communication and social interaction and cause changes in behaviour as well. The zone of masking impact will be highly variable and depends on many factors including the distance between the listener and sources of the signal and masking noise, the level of the signal and masking noise, and the propagation of noise from the signal and masking source to the listener. It is however important to note that masking of communication and echolocation signals naturally occurs by the ambient noise environment. Man-made noise causes additional masking of a signal only when it is of a higher level than the ambient environment within the species „critical hearing bandwidth at the signal‟s dominant frequencies. Echolocation clicks produced by the Ganges River Dolphin have dominant energy 49 NRC. (2005). Marine Mammal Populations and Ocean Noise - Determining When Noise Causes Biologically Significant Effects. National Research Council, National Academies Press 225 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 around 65 kHz (Sugimatsu et al., 2011)50. This is well above the dominant frequency range of most man-made noise, including pump noise. Masking of echolocation signals is therefore not a significant issue for most man-made sources (Richardson et al., 1995). Thus it can be concluded that noise generation due to barge movement is not anticipated to interfere with echolocation ability of Ganges Dolphins. The Ganges River Dolphin is likely to produce communication signals, such as whistles, squeals or clicks, based on communication signals produced by other river dolphins. These signals generally have energy at much lower frequencies than the echolocation clicks, i.e. as low as 1-6 kHz. Communication signals are therefore more likely to be masked by man-made noise than echolocation clicks. Noise reduction measures will help in minimizing the noise generation from barge movement and will minimize masking of communication signals generated by dolphins. Measures for Avoidance and Mitigation of Noise Impacts on Aquatic Ecology Vessel speed should be restricted to 2.7 knots in VSDS and Kashi turtle sanctuary areas to reduce the noise generation from propeller. Hooting should also be prohibited in sanctuary areas. Vessel should be fitted with the dolphin reflectors Usage of non-toxic and non TBT containing anti-fouling paints for painting vessel Provision of propeller guards with vessel to minimize injury to the aquatic fauna Barge/vessel movement will be restricted to the designate route only to minimize noise disturbance of Aquatic life. If any aquatic mammal spotted, then the measures should be taken to push it away through sirens/signals and creating noise signals. If any accident of aquatic mammal occurs, then that should be reported to IWAI for rescue action through wild life or forests departments. All vessels should follow MARPOL for managing their liquid and solid waste. No vessel should discharge the liquid and solid waste in the river. All waste should be discharged at vessel repair facility only. IWAI should develop the stringent norms to be followed by vessel operators and should develop the system of penalizing based on polluters pay principle in case the standards are not met or violated Material having potential to generate the dust like coal, sand stone aggregates should be transported under covered conditions to minimize dust generation and its settlement on river surface. Provision of oil water interceptors with the bilge tank to separate oil prior discharge of bilge water into river. Bilge water should be discharged as per MARPOL requirements. Bilge water tank should be maintained as per MARPOL requirement. 50 Sugimatsu et al. (2011). Annual Behavioral Changes of the Ganges River Dolphins (Platanista gangetica) Based on the Three Long-Term Monitoring Seasons using 6-Hydrophone Array System. IEEE Symposium on and 2011 Workshop on Scientific Use of Submarine Cables and Related Technologies, (pp. 1-7). Tokyo 226 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 The proposed oil spill control and management plan (attached as Annexure 4.6 Volume 3C) should be effectively communicated for any emergency situations. Crew of the vessel carrying especially oil should be competent and experienced so as they can prevent the accidents to happen as much as possible Regular maintenance of vessels engine and Propellers. River training works should be carried out at the bank locations which are prone to erosion to minimize sedimentation & impact on water quality &aquatic organisms Adequate depth to be maintained to prevent grounding under low flow conditions. Information on available depths should be conveyed to the navigators through online systems by IWAI. River Information System being developed by IWAI will serve this purpose. Maintaining flood plains & riparian corridors wherever possible and limit potential damage to the navigation channel. Restricting the project activities in breeding and spawning ground of the fisheries which are majorly the bends in the meandering river. Design measures like bandalling and design of groin should be considered which can reduce the dredging requirement and help in meeting depth, width and steerage needs and reduces dredging requirement Modern design vessels having low draught say 2 m instead of 2.5 m for equal payload should be procured by IWAI for transportation. Modern vessel- better technology vessels or with retrofits with quieting techniques to reduce further the noise generation (specifically cavitation‟s noise). Regular patrol and inspections should be carried out to monitor the activities in waterway. Also regular monitoring of environmental attributes as proposed in environment planning plan of this should be carried out for the waterway to keep track of the condition of the environmental attributes. The navigation channel should maintain a minimum distance of 100m horizontally and 500m either side along the river at the confluence point of major tributaries with river Ganga. Enhancement Measures: Support for promoting fish productivity through setting up or supporting existing fish nurseries. Also providing training and awareness support through reputed institutes or experts like CIFRI for better fishing techniques. Provision of supporting Studies for conservation of Dolphin and other sensitive studies should be made. 4.14.4. Impacts on Terrestrial Ecology Due to Physical Interventions A. Pre-Construction/Design and Construction Stage Development of the civil interventions may require clearing of the vegetation from the proposed site. No significant vegetation is present at Farakka lock, Haldia terminal and Varanasi terminal site thus no significant impact on terrestrial ecology is anticipated. But 227 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 app. 500 trees are present at identified terminal site in Sahibganj. Mango orchards are present at the planned terminal site at Sahibganj thus tree cutting for terminal development is likely to affect the terrestrial ecology. This impact can be minimized by designing terminal to minimize tree cutting and to carry out adequate compensatory plantation. No wildlife is reported or observed during the visit at any of the proposed sites. Thus no impact on wildlife is anticipated during construction phase of the project. However, avifauna of the area may be impacted due to loss of their habitat (trees), majorly at Sahibganj site. But the site is surrounded by agricultural land and mango orchards thus sufficient habitat is present for the avifauna. Also it is proposed to plant 3500 trees in place of 500 trees which will be cut for development of the project. Trees proposed to be planted are 7 times the nos. of trees to be cut. Trees after growing up will provide excellent habitat to avifauna and insects. Also it is proposed to develop thick peripheral green belt and avenue plantation at each of proposed civil intervention site. This will help in improving the ecology of the area. For development of the project, project site may be required to excavated and filled which may impact the micro-fauna & flora residing within the soil. Also riparian fauna/flora is also likely to be affected due to project development but since construction phase is temporary and short term thus it is likely for vegetation to recover after removal of disturbance or completion of construction activities. Thus the impact anticipated due to project design & construction on terrestrial ecology are low-moderate. Also during the construction of project the transportation of heavy vehicle carrying the construction material will move in the project area. It will generate dust and noise during movement. The dust will be settled on the nearby flora of the roads and adjoining area, and covering the leaf and hence reducing the photosynthetic activity. Noise created due to increased traffic will have impact on the nearby fauna, it may have impact on the nocturnal animals/birds also. However, impact is anticipated to be short term and temporary and will be confined to construction phase only. Anticipated impacts can be minimized by taking proposed mitigation measures. None of the planned intervention site is proposed within eco-sensitive zone. Eco- sensitive zones within 10 km radius of the NW-1 alignment are Udhwa lake bird sanctuary, Farakka barrage & surrounding areas, Mokama Taal Wetlands and Kurseala River Course, Diyara Flood Plains and Danapur cantonment area. No impacts are anticipated on flora/fauna of these areas during construction & design phase as no construction activities are proposed within the river stretch along these areas. Mitigation measures proposed to minimize the anticipated impact on the terrestrial ecology are given below. Measures for Avoidance and Mitigation of Impacts Project layout design should be in a way to minimize tree cutting 228 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Permission should be obtained from forest department prior tree cutting and only the identified and permitted tree should be cut and remaining should be maintained properly Thick green belt should be developed at the periphery and along the roads on the project site which will prevent spread of dust and reduce noise propagation. Areas reserved for future development at site should also be made green by growing grass and shrubs and herbs Caution sign should be placed to prevent hunting of animals Construction activities should be undertaken from 6:00 Am-10:00 Pm especially noise generating activities. Compensatory plantation should be carried out as per state forest policy. Apart from mandatory requirement additional compensatory plantation should be carried out as being done in case of Sahibganj terminal. Green belt to be developed should be mainly naturally growing native species of the area. Green belt should be developed as per the CPCB guidelines proposed above climate section. Survival rate for compensatory plantation and green belt to be developed at the site should be monitored regularly and measures should be taken so as to achieve minimum rate of 70% All efforts should be made to minimise the cutting of tree through design changes. Layout should be designed in a way so as to minimize the tree cutting. Only trees identified for cutting should be cut. Tree cutting should be carried out only after obtaining due tree cutting permission from forest department. Workers should not use any timber or firewood as fuel for any purpose. LPG should be made available to workers in construction camp. No hazardous material or waste should be disposed in the other land or nearby area as it may harm the animals, if consumed accidently Speed limit will be regulated to prevent any accidents of animals. Regular maintenance of the dumper should be done to prevent leakage of oil so as to prevent pollution of the soil and impact on fauna and flora dependant on soil. Regular Water Sprinkling should be carried out to minimize dust generation and settling the dust on surface of flora. Trees retained at the site (after site clearance) should not be disturbed, cut or harmed in anyway. These trees should be maintained. Adequate parking space should be provided within the site for construction vehicle and equipment so as they are not parked in other areas like road side, others agricultural field, and open areas to avoid any harm to flora of that area due to movement of heavy vehicles. Construction camps should not be established inside or near the forest area Construction activities and vehicle washing should not be undertaken at the river or any other water body or close to the water body Site should be barricaded to prevent entry/trespassing of the animal in the site 229 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Hunting, poaching and harming any animal (wild or domestic)/birds by any worker or project related person should be strictly prohibited and monitored. Provision should be made for strict penalty for hunting/harming any animal/birds Illumination at the night time should be reduced during the night time (if no activity is going on) as it may disturb the nocturnal animals Noise generating activity should not be undertaken during night time to minimize disturbance to animals/birds. Noise levels should be maintained within the prescribed CPCB limits to the extent possible during the day time. Workers should not use any timber or firewood as fuel for any purpose. This will minimize the tree cutting requirement B. Operation Stage Positive impact on ecology is anticipated during the operation stage of planned interventions majorly. Thick peripheral green belt will be developed and avenue plantation will be carried out at all the proposed intervention sites. Green belt will provide excellent habitat to avifauna, insects, small animals like squirrels, lizards, chameleons etc. Tree survival rate will be monitored and will be maintained to minimum 70%. Proper after care will be done for the planned green belt and this has separate budgetary provision under the EMP. But as the interventions like terminals and jetties involve movement of vehicles at and around the site, dust level may increase in the area. This dust when settles on the leaves of the trees will hamper the photosynthesis activity. Measures for Avoidance and Mitigation of Impacts Proper aftercare and monitoring of the green belt & avenue plantation Maintaining survival rate of plantation to minimum 70% Regular watering and cleaning of the leaves to remove the accumulated dust on the leaves 4.14.5. Impacts on Aquatic Ecology Due to Physical Interventions A. Pre-Construction/Design and Construction Stage Eco-sensitive aquatic habitats identified within NW-1 are Vikramshila Dolphin sanctuary (Sultanpur-Kahalgaon) and Kashi Turtle Sanctuary at Varanasi. No civil interventions ae proposed within these locations. Also it is proposed no dredging/dredge disposal will be carried out within this stretch. Thus impacts anticipated on these eco-sensitive zones during design & construction phase are minimal. However, construction activities like dredging/piling is proposed to be carried out in river stretch along the planned terminal/jetties site. Piling & dredging activities have potential to impact aquatic ecology of the area. Anticipated impacts during construction phase on aquatic ecology for the project are given below: i. Impact of Piling/Dredging Activity due to sound Generation on Aquatic ecology: Pilling & dredging activities will be carried out for construction of proposed off-site facilities like jetties & berths. For the purpose, dredger will be placed in the River which 230 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 will occupy some physical space in the River. This space was being used by the biotic components of the river. As a behavioural response, instinctively animals at the first encounter avoid approaching the site of unknown object. This is done using echolocation, olfaction or chemo-reception, if the object is not making any sound. If object / machine starts making sound / noise, then all vertebrates through auditory acoustic sense avoid the area which has disturbing range of sound and hampers to the natural acoustic behaviour and physiology of these vertebrate fauna from fishes to dolphins. Apart from occupying the physical space, dredging and pilling activity will generate significant noise. Exposure to low levels of sound for a relatively long period of time, or exposure to higher levels of sound for shorter periods of time, may result in auditory tissue damage in fish, though recovery is generally possible within 24 hrs (Popper et al. 2005). Oscillations induced by high sound pressure levels can cause swim bladders in fishes to tear or rupture (Hastings and Popper 2005). Whereas it is possible that some (although not all) species of fish would swim away from a sound source, thereby decreasing exposure to sound, larvae and eggs of fish are often at the mercy of currents or move very slowly. Movement of the fishes and dolphins away from these places makes the place unused for foraging, spawning and local movement. This would cause crowding of organisms at other places and enhanced struggle for space and other requirements, till the disturbance has not ceased/completed. Measures for Avoidance and Mitigation of Impacts The area in which the construction of the Berth (jetty) is planned, advisable to carefully determine drop sites before anchor placement to ensure that Dolphin and fish communities that could locally still be present in the area are not unnecessarily damaged. Before starting piling allow some time to aquatic fauna to displace from the piling area. Bubble curtains can be provided at the time of pilling so as to displace the aquatic fauna prior start of construction activities Fish exclusion devises should be installed in water column around the pile driving area to prevent fish access The piling activities must be carried out in shortest possible timeframe as possible All the debris should be disposed away from river course as per debris management plan of the project. Decisions on method of construction and type of technology and equipment to be used must consider the noise and vibration levels and extent of siltation being generated. Noise and vibration levels must be far below levels that can cause injury to dolphins and other wildlife. Noise reducing devices like mufflers, enclosures should be fitted with the equipment as much as feasible. Noise barriers should also be installed 231 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Geo Textile synthetic sheet curtain & turbidity traps should be placed around pilling and construction area to prevent movement of sediments and construction waste Appropriate protocols and procedures must be prepared for sighting of dolphins and other endangered wildlife species within the vicinity of the dredging site. The objective of the protocols and procedures must be aimed at having no or minimal impacts on the respective wildlife species. ii. Impact of Piling/Dredging Activity: loss of habitat Large amount of river bed sediment (dredged Material) will be removed for carrying out bank & bed scouring and erosion protection. Bed and bank erosion/scour prevention works involve stone pitching of banks upstream & downstream, concreting of banks, construction of retaining walls/embankments along the river banks, construction of aprons across the river along the length of the proposed terminal/jetty, construction of guide walls in case of Farakka lock etc. These sediments are in habituated by various benthos (molluscs, arthropods, juvenile fishes, amphibians and reptiles etc.). Removal of these sediments will lead to mortality of these communities. Also the actual habitat will be lost permanently in the activity area due to bed and bank erosion/scour prevention works. Impact on the moving aquatic species is however anticipated to be low as they disperse when any activity is being carried out in the river. The major impact on larger organism is that the movement routes, spawning activities and foraging grounds of these organisms may be affected. These animals would also struggle for normal conditions due to increased turbidity and increased sedimentation during the dredging activity. Increased sediments and turbidity can impact the aquatic life by reducing visibility, making water coarse, choking gills of fishes etc. Thus measures should be taken to quicken up the dredging and piling activities, minimizing the noise level and controlling the sediments generation. Among the floral components rooted plants will be uprooted and destroyed totally. The primary productivity by phytoplankton will be lowered, on account of lowered transparency for light. iii. Impact of Piling, dredging and other construction activities due to release of sediments The riparian area soils are loose and sticky/clayey. Release of these sediments would cause high increase in turbidity of water during and sometime after the dredging/oiling activity. Such soil has a tendency of sticking over the skin and gills and blocking the pores and is hence harmful. Suspended sediment due to dredging operations in the water column blocks available light for photosynthesis, reducing benthic primary productivity and inhibiting the ability of benthic plants to recover from dredging impacts. But the effect of suspended sediments and turbidity in open environment like river are generally short term (<1 week after activity) and near field (<1km from activity). There is only need to be concern if sensitive species are located in the vicinity of the maintained channel. Some pollutants such as insecticides, pesticides, fertilizers may be unlocked from sediments when dredged. But soon it will be washed away along the flow. The test 232 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 results show very low concentration of pesticide. Even then there are chances that it may enter the food chain. Construction activities to be undertaken involves storage of raw material, debris, fuel, paints etc. There are likely chances that, the run-off from the site may get contaminated with these materials and when it will enter the water body may also degrade the water quality of the river. Measures for Avoidance and Mitigation of Impacts To avoid the construction debris, wash or blown into the water the area should be surrounded by silt screens, which must be placed in the water before the work starts. Geo-Textile synthetic sheet curtain can act silt screen which should be placed around pilling and construction area to prevent movement of sediments and construction waste The screens should also be placed around storage areas, to prevent waste from blowing away and to prevent sediment run-off into the river. The storm water drain should be connected to temporary sedimentation pit and collected water should be used for dust suppression. Run-off from site should also pass through oil/grease traps and flow down to the same sedimentation tank before its reuse In addition to silt screens, building guidelines of the Bonaire National Marine Park require that storage areas for sand and soil, and all work areas, must be at least 20 meters away from the high water mark and construction equipment must not be cleaned or washed within 50 meters of the high water mark. Piling and dredging activities should be carried out rapidly. Piling should not be carried out during breeding and spawning season means during rainy season. It should be carried out in low water season, i.e. pre-monsoon Piling/Dredging should be stopped for some time, if any dolphin/RET species is sighted in activity area Equipment should be maintained in good condition to prevent leaks or spills of potentially hazardous materials like hydraulic fluid, diesel, gasoline and other petroleum products Excavation activities onshore should not be undertaken during monsoon season so as to minimize sediment load of run-off Soil stabilization works in the bank must consider implications on changes in hydrological flow, current and behaviour of the river. Such changes may create new problems such as change of river course, erosion of river embankment, change in erosion and inundation pattern of the bank etc. which will in turn impact the habitat of aquatic life Workers should be trained to handle the equipment and material at site so as to minimize the spillage of materials and contamination of water All workers should be made aware of not throwing any waste in the river or any drain No construction debris/ already accumulated solid waste at site or waste generated from labour camp should be thrown in river or any drain 233 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Sewage generated from labour camp should not be directed into river but should be disposed through septic tank/soak pit Run-off from site should pass through oil/grease traps and sedimentation tank prior discharging into the river All construction and operation equipment should be maintained in good condition should be checked for oil & grease leakage Dredged soil should not be disposed in river or its banks especially during breeding spawning seasons of aquatic organisms Aquatic ecology monitoring should be carried out prior start of construction and after completion of construction so as to assess the impact of construction activities on aquatic life. All construction and operation equipment should be maintained in good condition should be checked for oil & grease leakage Nesting grounds, breeding & spawning grounds should be identified and project activities should be minimized in those areas B. Operation Stage Impact due to operation of any project is of main concern as it always persists. Construction of berths, jetties and other off-shore structure will consume physical space in water reducing the available space for the aquatic organism. Planktonic population at berth area and nearby area will reduce or will decrease drastically which will impact the primary productivity of the water body. Planktons is feed for various big fishes, thus reduce in plankton population will affect the aquatic food chain. However, area to be covered by berth is very less as compared to width of the river. Thus reduction of this much space will not have significant impact. Also it is possible that aquatic organisms may collide with these newly constructed structures. But as behavioural response, instinctively aquatic animals at the first encounter avoid approaching the site of unknown object. This is done using echolocation, olfaction or chemo-reception, if the object is not making any sound. Thus the space occupied by unknown structures will be avoided by aquatic organisms thereby reducing the chances of collisions and injury to aquatic organisms. During rains, run-off from the stockyards at jetty/terminal sites may enter the river and may contain the contaminants. This contaminated run-off may pollute river water quality, if discharged in river. Thus proper storm water collection and management system is required so as water from stockyards do not enter the river directly. Sewage & waste will be generated at intervention sites (terminal/jetties/locks) and in vessel. If this waste is disposed on the land or in river, then this waste can pollute the soil impacting the terrestrial ecology and can pollute the water impacting aquatic ecology. Release of coal dust during coal transhipment and may settle on surface of the river and will have a negative impact aquatic life. Other activities at the sites of civil interventions which may have impact on aquatic ecology are berthing & mooring of vessel, oil/material spillage, dust generation from 234 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 material transportation, barge movement and maintenance dredging for keeping the berth area navigable. Berthing & mooring of the vessel at terminal/jetties reduces the circulation of water in the area thereby reducing the air flow in the water and self- assimilative capacity of river in that stretch. If vessel is berthed for longer duration at terminal/jetty sites, then there are increased chances of release of toxins from anti- fouling coating of vessel or leakage of some oil from bilge tank into the river. All these may pollute the river water quality near the terminal/jetty sites. Movement of barges in the civil intervention area will increase after development of the proposed interventions and thus the transportation of commodities will also increase. Some of the commodities to be transported include building & construction material, and coal which may generate the dust and this dust can settle over the surface of the river. This dust will increase turbidity of water and may reduce the visibility of the water there by impacting the SAV, planktonic communities and other aquatic fauna. This dust if consumed by aquatic organisms may cause respiratory and other related problems in organisms. Thus it is required for transportation of dust generating material under covered conditions. Also coal should be kept moist so as to reduce the dust generation potential during transportation. It is proposed to transport edible oil/POL at Haldia terminal site so there are likely chances of accidental oil spillage near the terminal site or in the waterway. Oil spillages are threat to aquatic organisms and can lead to mass mortality also. Oil spills can affect all planktons, benthos and Fishes. Maintenance dredging and disposal of dredged material will also be required to be undertaken at the proposed intervention sites so as make them navigable throughout the year. As per the planning, insignificant quantity of dredging will require to be carried out at Sahibganj & Varanasi terminal site. Dolphins are found in the river stretch along Sahibganj terminal. Terminal site is located in the secondary channel so impact of dredging near terminal site on the dolphins is nil. Dredging of 30-60 lakh cum will be required at Haldia Terminal site but no dolphins are observed in that stretch of river. Quantity of dredging will depend on the duration for which terminal will be kept navigable and nos. of berths to be kept navigable. Dredging operations generate high noise levels, increased turbidity of the water, and removal of benthic community thus impacting aquatic ecology, reduce DO level in water thus reducing available oxygen for aquatic organisms, may unlock toxins trapped in the sediments etc. All these impact the aquatic environment and organisms. Impacts of dredging operation and disposal of dredged material on aquatic ecology are discussed in detail in section 5.4 of this chapter. Mitigation measures are proposed to prevent the impact of project on aquatic ecology and are given below Measures for Avoidance and Mitigation of Impacts Dust generation during loading & unloading of barges should be minimized by adopting mechanical conveying system and provision of water sprinklers for dust suppression. This will reduce the chances of disposal of dust on river surface. Materials like coal should be kept moist to suppress the dust generation. 235 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 The solid wastes, sewage, oily ballast, bilge water and bunker fuel bottoms generated from barge should not be discharged directly and it should be discharged as per the norms. Cargo Operators needs to exercise all caution to avoid any kind of accidental discharge of such wastes. Maintenance and repairing and fuel refilling of barge and vessels should be carried out at approved locations only and measures for separation and removal of oil/grease from wastewater should be kept at that site. The opposite bank of river should remain untouched to balance the impacts of active site. To the extent possible river training works (RTW) must be avoided as it destroys the natural aquatic ecosystem Location of river training works must avoid key habitat areas such as breeding and feeding grounds etc. of key biodiversity species found in the project area such as dolphins, migratory birds, reptiles, benthic organism and others. If it is necessary to do river training in key biodiversity areas, appropriate compensation with similar area and habitat type must be included in the plan Nesting grounds, breeding & spawning grounds should be identified and project activities should be minimized in those areas Dolphin Conservation: The Gangetic dolphin belongs to Order Cetacea of Class Mammalia and has been categorized as 'Endangered' by the International Union for Conservation of Nature (IUCN) in 1996. It is included in Appendix I of the Convention on International Trade in Endangered Species of Flora and Fauna (CITES), and in Appendix II of Convention on Migratory Species (CMS). Government of India provided legal protection to this species by including it in Schedule I of the Wildlife (Protection) Act 1972. It was declared as the National Aquatic Animal of India by Honourable Prime Minister, Dr. Man Mohan Singh, on 5 October, 2009. Considering this it is proposed to support Dolphin conservation activity. It is proposed to allocate a separate budget for this activity. This task may be undertaken through “The Vikramshila Biodiversity Research and Education Centre (VBREC)” together with the Whale and Dolphin Conservation Society (WDCS), the Environmental Biology Laboratory of Patna University, and T.M. Bhagalpur University, who has jointly initiated a project to improve the conservation value of Vikramshila Gangetic Dolphin Sanctuary. No wastewater or waste should be disposed in river from terminal site or from vessel into the water. Penalty should be imposed on the vessels reported of disposing waste/wastewater in the river Surface run-off from site should be collected separately in dump pond, retained and then clear water should be re-used at site for dust suppression. Run-off from building roof-top should be collected separately and should be used for plantation and cleaning purpose or should be recharged into the ground. STP should be provided at site for treatment of sewage generated. Treated water from STP should be reused completely at site and should not be discharged into river 236 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Dredged sand should not be disposed at river banks especially during breeding spawning seasons of aquatic organisms. Dredging should be avoided during the breeding and spawning seasons Instruction should be given to all vessels and all employee and staff that no dolphin or any other endangered species should be harmed due to any reason Instruction should be given to vessel operator that in case any accident with dolphin occurs that should be reported immediately to terminal authority Waiting time of vessel should be reduced at the terminal by providing the adequate loading and unloading equipment and vehicles. Vessel should be instructed for not using sharp lights and sounds as they may disturb aquatic organisms Ship speed should be controlled especially in dolphin habituated stretch to minimize dolphin kill and the design of vessel and acoustic treatment should be done for vessel so as to minimize the sound exposure of dolphins. Propeller guards should be provided for all the vessels to minimize the propeller inflicted injuries and scars. No developments should be brought up on other bank of river opposite to terminal site so as to provide the ground to aquatic organisms for their activities Dust suppressors should be used at site and at barge while loading & unloading of material to suppress the dust level. Quick clean-up operations should be carried out in case of accidents. Vessel owner should be responsible for paying the clean-up expenses in case of the accidents and pollution of river water quality Time schedule and the quantity of material allowed should be strictly checked and monitored for each ship. This will prevent overcrowding of the vessels at terminal site and thus no obstruction will be there on movement of the aquatic organisms due to vessel. Vessel should be instructed for not using sharp lights and sounds as they may disturb aquatic organisms Ship design (of capacity > 5000 DWT) should be as per MARPOL and should be provide with double hulls/double bottoms. Speed of oil carrying vessels should be maintained to prevent accidents due to high speed. Sensors and hooters should be fitted with vessel which can notify the closeness of another ship or any other potential matter which can cause accident. Survival rate of planted tree species should be monitored after every six months. Crew of the vessel carrying the oil should be competent and experienced so as they can prevent the accidents to happen as much as possible IWAI should carry out the inspections of the vessels which are transporting the material to and fro from the terminal. Aquatic ecology monitoring should be carried out yearly so as to assess the impact of terminal activities on aquatic life. 237 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.14.6. Conclusion (Ecological Environment) From the above discussion, it is evident that physical interventions development can affect both the terrestrial and aquatic ecology however barge operations and maintenance dredging operations are likely to affect the aquatic ecology if the issues identified are not addressed and mitigated adequately. Significance of the impacts of physical interventions will be different in different phases of development on both the components however the impact on aquatic ecology due to dredging and barge operations is anticipated only during operation phase of the project. The impacts can affect the ecology of the area significantly if left unadressed. Mitigation measures as proposed are essentially required to be implemented to prevent the identified impact on the terrestrial and aquatic ecology. This measures will prevent the impacts as well as will reduce the intensity of the impact on the ecology. 4.15. Impact on Social Environment& Mitigation Measures 4.15.1. Status of social environment along NW-1 and influence A. Demography: NW-1 mainly passes through four Indian states namely Uttar Pradesh, Bihar, Jharkhand, and West Bengal. Each of the state has distinct socio-economic profile. Allahabad, Sirsa, Mirzapur, Chunar, Varanasi, Zamania, Ghazipur, Gahmar, Buxar, Ballia, Chappra, Patna, Barh, Bihat, Munger, Bhgalpur, Kahalgaon, Sahibganj, Farakka, Berhampore, Katwa, Kalna, Kolkatta and Haldia are densely populated areas along NW-1. As per the Census Record of India 2011 the population of major cities/ town located along the Ganga river in NW-1 section was recorded as 12875343 comprising 6782150 male and 6093193 females. Total numbers of „Households‟ was also recorded as 2562165 and 0- 6-year age population was also recorded as 1308682. B. Fishing and Livelihood along NW-1: Ganga is the most important river and source of livelihood for countless fishers inhabiting on its bank. It is reported that almost every village along the both sides of the river are having some fishermen who earn their livelihood by fishing in the Ganga river. There is no census data available regarding fishers specifically involved in capture fisheries in the whole NW-1 stretch. Generally, one member of the family is engaged in fishing in lower stretch of NW-1(Farakka to Haldia), sometimes two, the average comes to be 1.5. However, in upper stretch (Allahabad to Farakka) the average person engaged in fishing is 1.2 that is mainly due to low catch of commercially important fish in this stretch. The fishermen do fishing for 5-12 hours daily, depending upon the season. Fishing activities is very less during monsoon season. Fishing is the main occupation to 90% of the fishers, which contribute to more than 80% of their household income. Other major occupation includes fish vending, ferry service, tourism, driving and daily labour. Most of the fisherman does not have agricultural land and small amount of income comes from labour wage, service, and petty business. In the season of less catch the youth generally engage themselves in labour works or rickshaw van pulling to earn their livelihood. 238 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 C. Culturally and religiously important places along NW-1: Ganga river is worshipped in India and holds an important place as it is considered sacred and holy river in Hindu religion. Hindus also believes that that bathing in the river on certain special occasions and periods causes the forgiveness of sins and helps attain salvation. Various festivals are also organised on the bank of rivers at different places and different period. These festivals attract very large crowds and may have bearing even on movement of barges in NW-1 during festival periods. The list of culturally and religiously important places with its festivals along the NW-1 is given at Table 4.24. Table 4.24 : Culturally and Religiously Important Places with Fair and Festivals S.No. City Place Fairs & Festivals 1 Allahabad Sangam Kumbh Mela: Kumbh mela is organised in Allahabad after every 12 years at the confluence of the 3 rivers Ganga, Jamuna and the sacred and mythological river Saraswati at Allhabad Sangam. The Greatest Kumbha Mela is held in Allahabad which is also known as Maha Kumbha Mela and is the biggest fair related to religious practices. Ardha Kumbh: Ardha Kumbh mela is organised in Allahabad after every 6th years at the confluence of the 3 rivers Ganga, Jamuna and the sacred and mythological river Saraswati at Allhabad Sangam. Period of celebration: January to February month Magh Mela: Apart from the Maha Kumbh and ardha Kumbh mela, Magh Mela is also organised in Allahabad city every year. Period of celebration: January to February month 2 Varanasi Ghats There are more than 100 Ghats along the Ganga river at Varanasi (steps leading to the water of the Ganges). The banks of the Holy River at Varanasi are the most preferred cremation grounds. 3. Bihar & Ghats Chatth Puja: Chhath is an ancient Hindu festival dedicated to the worship of the Lord Sun in November month and is mainly Jharkhand celebrated in Bihar and Jharkhand on the banks of Ganga. Period of celebration: 2 days in Oct or Nov 4 West Durga Durga Puja: Durga Puja festival marks the victory of Goddess Bengal Puja Durga over the evil buffalo demon MahishasuraThus, Durga and part Puja festival epitomizes the victory of Good over Evil. Durga of puja celebrated every year. Jharkhand and Bihar Period of celebration: 10 days in Sept or Oct 239 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 D. Tourist Place along NW-1: There are many cities along the banks of NW-1 specially Allahabad, Varanasi and Kolkata which are important from tourism prospective and attract thousands of religious and non-religious tourists every year. Varanasi, a pilgrim place for Hindus and Buddhists alone attracts over one million pilgrims every year followed by Allahabad. E. Archaeological sites along 300 m of NW-1: The archeologically protected structures/monument51 located within 300 m of NW-1 is listed at Table 4.25. Table 4.25 : Archeologically Protected area around 300 m of NW-1 Distance Direction Latitude& from NW-1 from NW- No. Name Longitude Place km 1 KardmeshwarMahadeva 25°19'13.13"N Varanasi, UP 0.24 W 1 Mandir 83° 1'20.91"E Ramnagar, fort, 25°16'9.17"N Varanasi, UP 0.04 East 2 83° 1'28.17"E Archaeological 25°19'33.72"N Varanasi, UP 0.13 North 3 excavation site, Varanasi 83° 2'4.47"E Manmahal and 25°18'27.83"N Varanasi, UP 0.04 West 4 observatory 83° 0'38.55"E Sindhi Dalan 25° 3'15.32"N Rajmahal, 0.3 West 5 87°49'51.17"E Jharkhand Jami masjid 25° 4'25.73"N Mangalhat, 0.14 West 6 87°46'39.01"E Jharkhand St. John's Church 22°34'11.38"N Council house 0.3 East 88°20'45.27"E street, Kolkata, 7 WB Temple of Gour Chandra 22°45'48.96"N Hoogly, WB 0 West and Krishnachandra at 88°20'13.76"E Chatra (Gaur Chandra 8 Ghat) Hazardwari Palace 24°11'10.27"N Murshidabad, 0.03 East 9 88°16'5.73"E WB 4.15.2. Impacts on Socio-Economic and Cultural Aspects due to Maintenance Dredging Impact of Dredging & disposal of dredged material are anticipated on cultural & archaeological important locations and on livelihood of fishing community.Dredging operations may impact socio-economy and noise levels near dredging location, increased river water pollution, unpleasant view and increased air pollutants. These impacts are however short term and localized as will be confined to dredging locations 51 As per Indian regulation no construction activity can take place within 300 m of archeologically protected monuments/ structures/site without written permission from archeological department. 240 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 only. Dredging activity also pose threat to health & safety of the workers and other waterway users. No construction or interventions are planned within 300m of any of Archeologically protected monument. The Ramnagar fort is one of the protected monument. IWAI has undertaken a study with the help of Indian Institute of Technology (IIT) Roorkee to establish the effect of development of Varanasi terminal and NW-1 development. IIT in its study has establish that these developments will have no impact on these protected. As per analysis and planning no dredging is proposed near the important cultural areas/Ghat (Refer Table 5.2 for list of Ghats). Placement of dredgers in river may disrupt the fishing activities, however dredging activities at any particular location will be for short duration and thus the impacts will not be significant. Dredging operations generate noise of 80 dB(A) which can create discomfort for the population residing on the banks specially in the night time. Dredging operations required manpower for carrying and controlling dredging operations. Thus generation of employment for skilled, semi-skilled and unskilled labour can be taken as positive impact of dredging operations. Dredging operations will enable navigation of the barges in the waterway throughout the year thereby increasing the IWT mode of transportation. This will have positive socio-economic impact in terms of employment generation. Measures for Avoidance and Mitigation of Impacts Dredging should be prohibited in biological & social sensitive location and at time of religiously and culturally important festivals, during breeding & spawning season of fishes and during migratory bird season to minimise impact on socio- cultural aspects. A minimum of 100 m buffer zone from the religious Ghats at Varanasi and Patna (the cultural heritage locations) is proposed to be maintained as prohibited area for dredging for the protection of Ghats. Precautions followed for archeologically protected monument should also be followed for any intervention near any culturally important heritage structures. It is also proposed to report to IWAI and ASI for any chance finding during excavation and construction stage. Timely intimation to fishermen about dredging operation and location can minimize the disturbance to fishermen. As enhancement fishermen should be provided with trainings by institutions like CIFRI to learn better fishing practices and available aids for fishing which will help them to enhance their livelihood. Measures for preventing accident risks during dredging and arrangement of all first-aid should be available at dredging locations all the time Dredging operations should be carried out primarily to day time, i.e. 6:00 Am- 10:00 Pm only to minimize noise impacts on the residents of nearby settlements. Dredgers should be equipped with the noise reduction/masking equipment to reduce the noise generation Dredgers should be placed in consultation with the fishermen so as to minimize the impact on their equipment/gears and their fishing activities 241 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Dredging should not be carried out in the areas close to Ghats in Varanasi and buffer of 2 km should be maintained for dredging during time of religious gatherings during Chat and Kumbh festivals. In case contaminated dredged material is disposed on land, then it should be disposed at approved TSDF sites to prevent any harm to community residing in nearby areas. One of such approved TSDF site is located Sagar (Haldia Dock Complex site) Material to be disposed on land may create nuisance odour due to exposure of anaerobic sediments with air. Thus if land disposal is involved than disposal site should not be in upwind direction of any settlement area or sensitive locations like hospitals, schools etc. Log book should be maintained for recording the accidents at site/mortality of the any marine mammal should be maintained. Analysis should be carried out to assess the reason for the accident/mortality and measures should be taken to prevent repetition of the event. Contractors having experience of dredging and well trained staff should only be allowed to carry out dredging. This will help in prevention of spillage of dredged material or any accidents during the dredging operations Dredging plan should be prepared by contractor and submitted to IWAI for approval prior to carrying out dredging operations. Dredging plan should be reviewed considering its location w.r.t environmental sensitive locations/archaeological locations/cultural festival/pollution influx in the area/dredged material quality & texture/available depth etc. as given in this EIA report and through local sources and past experience. Contractors should submit method statement & risk assessment plan prior to carrying out any dredging work. Dredger should follow the defined safety procedures to avoid accidents and spills, and IWAI should ensure that other vessel users are provided with adequate information and instruction to avoid conflict with the dredgers. Post-dredging monitoring of the sediment nature, rate of sedimentation should be made part of contractor‟s job as best dredging practise. This will provide information which can be taken into consideration before the next maintenance dredge is carried out. Re-use of dredged material should be explored if dredged material is not contaminated. Economically and environmentally feasible options can be adopted to minimize the dredge spoil burdens. Some of such measures include o Dredged sediment can be used for beach nourishment/development of artificial beach/deposition on shoal & thus enrichment of habitat o Dredged material can be explored for its usage for coast/bank protection purpose/flood protection o Use of dredged material can be explored for land filling, as construction material for road foundations, dikes, mounds, noise/wind barriers. 242 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.15.3. Impact on Socio-Economic and Cultural Aspects Due to Operations- Barge Operations A. Impact on Health & Safety Vessel movement(Shipping operations) are subjected to various threats of accidents related to natural disasters like flood or cyclonic and operational like Collison, fire, spillages. However, these accidents and accident intensity can be minimised with appropriate preventive measures. A. Natural Hazard: River Ganga is snow fed river and is perennial in nature and floods every year. Thus threats to navigation are anticipated during the heavy flow and flood like situation especially to smaller vessels. Also Haldia is located in coastal region and is prone to cyclonic threats. Haldia is classified as high cyclone risk zone as per Cyclone Hazard Map of India. Thus it is mandatory for vessels to adopt the measures and prepare emergency preparedness plan to handle emergency situations like floods and storms. B. Operational Hazard: There is also existence of various man-made navigational obstacles which pose threat to navigation such as presence of critical brides (ref Chapter 3), presence of siphon to extract water for irrigation scheme in Farakka feeder canal, presence of pylons, meandering of river, change in river course, variable depths, sharp bends. However, all these threats can be reduced and managed by physical interventions and operational controls such as provision of night time navigation system, maintenance dredging, adequate and efficient river information system, vessel tracking system, Electronic Charts Display Information System - ECDIS, and Automatic Information System – AIS. Most of these measures are already under implementation by IWAI in some stretches of the NW-1 and there is proposal of extending these facilities to entire NW-1. However, there are still possibility of collision, fire and spillages which can impact water quality and aquatic life both significantly depending on the material being transported. The effect can be more severe in case of transportation of petroleum products. This can also have effect of health of crew and nearby habitats. Measures for Avoidance and Mitigation of Impacts Provision of night time navigation system, maintenance dredging, adequate and efficient river information system, vessel tracking system, Electronic Charts Display Information System - ECDIS, and Automatic Information System – AIS can minimize the accidents. Also record of the accidents should be maintained regularly by IWAI, analysis of each accident should be carried out by IWAI to know the reason for accident and preventions should be undertaken so as not to repeat the same cause Adoption of SOLAS for maintaining the safety in vessel. Safety equipment, safety boats, lights, and signalling system should be as per the requirement of SOLAS Provision of storm shelters and other infrastructure should be provided for vessel in waterways to manage the severe weather conditions like storms, floods. 243 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Minimum passing distance between vessel and from vessel to the banks must be ensured for safe traffic conditions Establishment of signalling system and patrol services by IWAI Vessels licensed by IWAI and meeting the specified norms by IWAI should only be allowed to ply in the waterway. Each vessel should be thoroughly inspected by IWAI for compliance of require safetyand pollution control (Zero Discharge) measures before granting operational permit in NW-1. Regular echo-soundings to be carried out by IWAI to identify LAD in different stretches and draw Thalweg profiles of various stretches. This information should be made available to the users through online system Proper River information system, electronic charts display system, vessel tracking system automatic information system etc. should be developed by IWAI for its users. RIS system is already developed by IWAI for Haldia to Farakka stretch and RIS system implementation is under process for Farakka to Patna. Work for Patna to Varanasi is also under consideration. Installation of DGPS for maintaining positioning and communication system. This is already in place for NW-1 Maintenance of buoys, beacons, signs, gauges & limiting the shoals through maintenance dredging. Marking of navigation channel through beacons and communicating information about the navigation channel monthly to fishermen and the expected timing or frequency of barges to fishing community so as they can be pre-informed and he damage to their boats and gears can be reduced. Barge movement schedule should be prepared in advance and should be shared with the fishermen Carrying out river training works at critical bend locations and provision of cautionary signage at the navigational hazard locations Provision of Radar navigation during night time and low visibility timing Installation of navigation lights to make channel visible and painting beacons & bays with refractive paints for enhancing night time visibility A direct investigation of accidents through an interactive system may serve the purpose of both developing an authentic and reliable accident database and updating the current faults Sensors and hooters should be fitted with vessel which can notify the closeness of another ship or any other potential matter which can cause accident. Crew of the vessel carrying especially oil should be competent and experienced so as they can prevent the accidents to happen as much as possible Enhancement of fishing in the area by boosting and funding fish nurseries and provision of better fishing aids There should be 24-hour functional dedicated disaster management cells/ control rooms established along the waterway for monitoring movement of barges and to deal with emergencies. Provision of backup medical facility for rescue operations. This can be arranged through tie up with hospitals located along the NW-1 244 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 B. Impact on Livelihood of Fishing Communities Fishing is major occupation of the people of the nearby villages. The monthly average income of the fisherman ranged from Rs.4000 to 7000 in Allahabad to Patna stretch. However, in Varanasi stretch the most of the fisherman is engaging in boating and ferry services and earning more than fishing. In lower zone (Farakka to Haldia) the average income of fisherman is slightly high and ranging between 7000 to Rs. 10,000. The income is higher in lower zone (Farakka to Haldia) because of higher catch and high value fish (mainly Hilsa) in the catch. As per study carried out by CIFRI “Impact analysis on Ecology, Flora and Fauna including Fish and Fisheries due to movement of Barges carrying coal through National waterway no. 1 (Sagar to Farakka)”, it is found that barge movement significantly impact the fishing operations in that stretch resulting in reduction in their income. Thus similar nature impacts are anticipated due to the project. Stretch downstream of Farakka is already impacted due to existing barge movement. Impacts on stretch upstream of Farakka are anticipated to be comparatively lower than the stretch downstream. Fishing is done using large nets placed across the river in areas near Farakka and downstream of Farakka, whereas in areas upstream Farakka fishing is done near the bank areas using small size mesh gill net, traps and hooks and lines. Measures for Avoidance and Mitigation of Impacts Barge/vessel movement will be restricted to the designate navigation route only. Maintenance of buoys, beacons, signs, gauges to mark the navigation channel Crew of the vessel carrying especially oil should be competent and experienced so as they can prevent the damage to fishing gears and boats. Marking of navigation channel through beacons and communicating information about the navigation channel monthly to fishermen and the expected timing or frequency of barges to fishing community so as they can be pre-informed and the damage to their boats and gears can be reduced. Barge movement schedule should be prepared in advance and should be shared with the fishermen Regularizing the barge speed to 7-8 knots in bending areas so as bank erosion can be reduced due to barge movement resulting in lesser turbidity, enhanced planktonic growth and thus increased fish yield. River training/bank protection works should be carried out at the bank locations which are prone to erosion to reduce the turbidity in shallow areas and its impact on fish yield. All measures to reduce the water quality pollution & to prevent damage to ecology due to barge movement as proposed above should be adequately addressed and implemented so as to minimise impact on fish yield due to the project. In case of damage of fishing nets, fishing crafts and other gears of fishers, arising due to barge operation, appropriate and quick compensations may be given to the aggrieved fishers. 245 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 The barges may be fitted with powerful searchlight and may sound horn so that fishermen can realize arrival of barge at least from 500 m-1 km away to prevent damage to fishing nets Regular consultations to be carried out with the fishing communities to get their feedback on the impact due to barge movement on fishing and problems they are facing Enhancement Measures Support for promoting fish productivity through setting up or supporting existing fish nurseries. Also providing training and awareness support through reputed institutes or experts like CIFRI for better fishing techniques and Provision of supporting Studies for conservation of Dolphin and other sensitive studies should be made. C. Impact on Socio-Cultural Aspects Barge movement though restricted to the defined navigation channel but have potential to impact and interrupt the fest and festivals and other day to day activities being carried out or performed at river by the people. There are several festivals which are being celebrated at River Ganga and several rituals being performed at River by people. These activities are also likely to be impacted due to increased barge movement. Some of the important festivals are Kumbh at Allahabad (Jan-Feb), Ganga Mahotsav at Varanasi (Oct-Nov), Dhrupad Mela at Tulsi Ghat of Varanasi (Feb to March), Chatt at Bihar & Jharkhand (Oct-Nov) and Ganga Sagar Mela at Sagar (January). Thus it is essential that barge movement should be regularized at these locations during these festivals so as to prevent social conflicts. Apart from this there are about 100 ghats at Varanasi used for various purposes like bathing, idol immersion and asthi visarjan. Cremation ceremony is performed at several locations along the bank of river. Also locals of nearby villagers (both males and females) bath in river. Due to barge movement there could be uncomforting for the female bathing in the river. Barge movement may bring certain social conflict if appropriate and timely measures are not put in place. Measures for Avoidance and Mitigation of Impacts Vessel movement should be regularise in consultation with local bodies during the identified major festival period. No waste form barges should be discharged in the river. Enhancement Measures Support for establishment of small enclosed areas dedicated for female bathing in every village along the NW-1 to allow female maintain their privacy. Support for improving cleanliness and at existing ghats at Varanasi and other locations Provision for improving selected Ghats as per the demand raised during public consultation. 246 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.15.4. Impacts Due to Physical Interventions A. Pre-Construction/Design and Construction Stage Land is one of the major requirements for project development. At some of the proposed site it is also required to acquire private land. Varanasi site (5.685 ha) is already under possession of IWAI. However additional land of 1.415 ha is required to be acquired to provide connectivity to terminal site with NH-7 which is agricultural land. For development of Sahibganj terminal, total 78.91 ha of land will be required including road & rail connectivity. For phase I, 23.98 ha of land will be required and remaining 54.93 ha will be required for phase II. Acquistion of 45.20 ha has been initiated by IWAI. There are few household and community temple located at Sahibganj terminal site. Acquisition of land will disturb their livelihood & living and will make them landless. However, it is proposed to provide them adequate compensation as per R & R Act, 2013 and resettlement & rehabilitation of the displaced population should be as per R & R Plan. Further land may be required for setting up labour camps, batching plant etc. But the land will be required temporarily for construction phase. Adequate compensation should be given for the land to be used for these activities and then the land should be rehabilitated in its original condition before handing back to the owner. Any utility or CPR like community temple, school, hospital, hand pump, well etc. if required to be shifted should be shifted immediately after the dismantling so as to minimize disturbance to people. Shifting should preferably be carried out on private land. No private land acquisition is envisaged at present for Farakka lock & Haldia terminal site. Construction activities at sites of civil intervention involves excavation, filling, parking of machinery/equipment etc. which may be threat to the population and can lead to any accident. Thus it is required that site should be barricaded and entry to the site should be strictly restricted to authorized personnel only. Construction of the terminal will require transportation of raw material to the site and debris from the site. Transportation of material may increase pressure on the roads which are used by villagers. Thus the haul roads should be well maintained and in case any diversion of traffic is required on these land alternate arrangements should be made. Traffic management is utmost required so as to prevent the congestion &accidents on these roads during peak hours. Construction activities will generate high dust and noise levels which can be uncomfortable for nearby residing population. However, no habitation is within 100 m of all planned site but to mitigate this impact measures for controlling air and noise pollution are proposed to be taken during construction phase. These measures will significantly reduce the emissions and noise level. Development of the project will generate employment options for local people as construction worker, supervisors etc. thereby improving the quality of life of people. 247 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Measures for Avoidance and Mitigation of Impacts Separate SIA, LA and RAP are being prepared for the sites which involves land acquisition. Adequate compensation should be given to the people losing the land People have sentiments associated with River Ganga so relocation of people should also be given near to River only as desired by them Shifting of utilities/CPRs if any should be done immediately so as to minimize disturbance to the people or owner of the utility. Shifting should preferably be carried out at private land. The location proposed for shifting should also be acceptable by people. Skill training and assistance should be given to people so as they can get other jobs or get into other business. NGOs should be hired for this purpose Small loans should be given to the farmers losing the land and wishing to start new business Infrastructure development in form of small school, hospital, library etc. can be undertaken in the village as compensation to the disturbance caused Rest area should be provided at site in which workers can rest after the lunch hours and should not lie at site in open. This will help in preventing the accidents at site Adequate illumination should be provided at site during evening and night time till the work is being carried out Site should be barricaded and should have entry guarded by security guard. Register should be maintained for entry of outsiders. No unauthorized person should be allowed to enter the site especially village children A board should be displayed at entrance of site displaying name of project, area and hazards associated with the site on entrance and activities prohibited within and near site area in local language Workers should wear the personal protective equipment like helmet, gum boots, safety shoes, safety jackets, ear plugs, gloves etc. while working Noise level in the work zone should be maintained and followed as per OSHAS norms. Non-productive lands, barren lands, raised lands; wastelands should be used for setting up labour camps, plant sites and debris disposal site. Agricultural land should be avoided. Land should be used for establishment of construction camps, debris disposal site and plant site only after obtaining consent from land owner. Fishermen should be consulted prior restricting fishing activity in the activity area Necessary permits should be obtained by contractor from concerned authorities for setting up any batching plant or hot mix plant. Labour camps, plant sites and debris disposal site should not be located close to habitations, schools, hospitals, religious places and other community places. A minimum distance of 500 m should be maintained for setting up such facilities. 248 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Management, rehabilitation and closure of these sites should be as per the Management plans proposed for these sites. Records for starting, maintaining and closure should be maintained and should be approved by site engineers Contractors should adopt and maintain safe working practices. SOPs should be prepared for each and every activity and all activities should be undertaken as per SOPs under supervision of site engineer Training should be given to workers to handle the heavy equipment so as to prevent accidents Training should be given to workers to handle emergency situation like fire, earth quake and flood Complete medical check-up should be done for workers prior to joining and after six months of joining First aid facilities, first aid room, first aid trained personnel and ambulance should be provided at the site 24 X 7. Also tie-ups with local hospital should be done to handle emergency case, if any List of emergency nos., hospital contacts, ambulance contacts and doctors contacts should be displayed in first aid room, rest area and at all required location Working hours of labour should not exceed than standard norms as per state factory law Labour camps should be located at neat and clean location with no water logging issues and should be well ventilated with adequate illumination, kitchen and safe drinking water facility Construction labour camps and site should be properly cleaned and hygiene should be maintained Proper sanitation facility like toilet and bathing facility should be provided at site and labour camps. Wastewater generated from these facilities should be disposed through septic tanks and soak pit LPG should be provided as fuel for cooking to workers and open burning of fuel should not be allowed Wastewater from construction site should not be allowed to accumulate at site as standing water may lead to breeding of mosquitoes. Septic tanks/soak pits should be provided for its disposal Sprinkling of water should be carried out at site and haul roads, so as to minimize dust generation due to movement of construction vehicles and its impact on nearby residing population Temporary storm water drainage system should also be provided at camp site and construction site so as to drain the storm water and prevent accumulation of storm water at site and thus breeding of mosquitoes/flies Safety officers should be appointed at site so as to ensure all safety measures are taken at the site 249 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 All construction workers should be provided with personal protective equipment like helmet, gloves, gumboots, safety jackets etc. and fines should be imposed if found not wearing Job rotation should be carried out for workers exposed to high noise and dust areas Activity like smoking and consuming liquor should be prohibited at the site Awareness on AIDS should be spread among the workers Traffic manager should be present at the site all the time to manage incoming and outgoing traffic to prevent accidents Crèche facility should be provided for kids if female workers are employed Regular inspection for hygiene and safety in labour camps should be done Provision of cautionary and guiding signage in local and English language indicating the hazard associated with the site & activities. Usage of fluorescent signage, in local language at the construction sites Speed limit of vehicles should be restricted at site to prevent any accidents and fines should be imposed on vehicles if same is not maintained. All construction vehicles should follow the designated routes & timings only. Construction vehicle movement should be restricted to non-peak hours, i.e. late evening (7-12:00 pm) only. Villagers should also be given intimation of these timings. Noise level in the work zone should be maintained and followed as per OSHA norm Employment should be provided preferable to local & affected people Dustbins should be provided at labour camps for collection of waste and waste should be regularly disposed through the concerned agency Arrangement of fire-fighting should be made at site and workers should be trained to use the system in case of fire All construction vehicles should be regularly serviced and maintained and carry pollution under control certificate All proposed environmental pollution measures should be taken during construction of phase of terminal to minimize the harm to existing environmental quality of the area, which is being enjoyed by the residents of that area B. Operation Stage Civil intervention works will involve development of terminals, jetties, locks, river training work, bank and bed erosion/scour protection works etc. These developments will lead to further development of infrastructure like roads to connect these sites to the existing roads, water supply system, power supply system etc. All these facilities will also be beneficial for nearby residing population. River bank protection works, construction of bunds/levees etc. will help in controlling the floods in area thus will be beneficial for people. Development of NW-1 project does not involve extraction of water from the river, thus no impact is anticipated on existing irrigational schemes set up on the NW-1. 250 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 All the civil intervention works are components of Jal Marg Vikas project which aims at enhancing the IWT mode of freight transportation. IWT is most environment friendly, cost efficient and safest mode of transportation. Transportation of material through waterway will reduce the risk of accidents, cost of transportation and GHG emissions associated with transportation. Reduced cost of transportation will reduce the ultimate cost of the goods to be manufactured thereby benefiting the consumers. Increased freight movement and low transportation cost will boost the economy of the country. Shift of freight from road or railway to waterway will also reduce the GHG emissions & other associated pollutants with the project. Also this will reduce the pressure on existing roads and railways there by reducing the need of further land acquisition for expansion or development of new roads. Project will also generate large scale direct and indirect employment for unskilled, semiskilled and skilled workers. Employment opportunity will improve the quality of life of people in the area. Project may also induce development of various other facilities like warehouses, industries, roads, power supply etc. in the area. Thus project will lead to overall development of the whole area. However, there may be some negative impacts of the project at sites of proposed interventions. Traffic movement near these sites will increase due to increased nos. of vehicles carrying goods to & fro from these sites. Increased traffic involves generation of increased air emissions, increased pollution, increased noise level and increased risks of accidents in the area. Increased traffic will exert the pressure on the existing roads near the site. All these may increase the pollution level in the area and quality of life of people in nearby area may get affected. Thus it is required to upgrade the infrastructure like roads which will be used for project during operation phase and adoption of proposed pollution control measures to minimize the negative impact of project on society. Development of these civil interventions also may impact the quality of River Ganga. People are spiritually attached with the river thus impact on the quality of water of River Ganga will impact the sentiment and spiritual value of people. Increased cargo movement may also hamper fishing movement or damage the fishing gear of fishermen. Also there may be chances of reduction of fish yield in the river due to increased barge movement and increased pollution thereby impacting livelihood of farmers. Mitigation measures are required to be taken to prevent the impact on socio-economic environment Measures for Avoidance and Mitigation of Impacts Traffic management should be carried out at site so as to reduce the congestion and accident risk. Roads to be used for material transportation should be maintained. Routes and time for material transportation should be fixed. All vehicles carrying the material should be green tagged and should carry PUC certificate. All vehicles carrying transportation material should be properly serviced and maintained. All vehicles carrying material should have some 251 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 restricted speed limits and should not be overloaded. Monitoring of these vehicles should be done through GPS. Separation of people from vehicles and making vehicle passageways one-way, to the extent practical. Regular maintenance of plantation along the roadside should be done. No invasive plantation near the road. Plantation along the road side should be maintained and trimmed timely to prevent accidents. Proper street lighting should be given at site and at approach road to prevent accidents. Traffic managers should be deputed at haul roads, approach roads and within the site. All the workers at site involved in material handling, traffic management and other such operations should wear the safety equipment like helmets, gum boots, safety shoes etc. Honking within the site should be prohibited. Spill prevention and control and emergency responsive system including spill control and management plan should be developed and effectively implemented at the terminal facilities & jetties Surface of terminal areas should be of adequate strength to support the heaviest expected loads; level, or with only a slight slope; free from holes, cracks, depressions, unnecessary curbs, or other raised objects; continuous; and skid resistant Providing safe access arrangements suitable for the sizes and types of vessels calling at their facilities. These access arrangements should include guard rails and / or properly secured safety nets to prevent workers from falling into the water between the vessel side and the adjacent quay. Provision should be made for inspection and approval all slings before use Clearly marking (indicating its own weight) all lifting beams and frames, vacuum lifting, or magnetic lifting device which does not form an integral part of a lifting appliance and every other item of loose gear weighing more than 100 kilograms (kg) Development of system to Inspectdisposable pallets and similar disposable devices before use and avoiding re-use of such disposable devices,equipping lifting appliances with means of emergency escape from the driver's cabin and a safe means for the removal of an injured or ill driver Risk of free fall of materials should be minimized by installing telescoping arm loaders and conveyors Materials handling operations should follow a simple, linear layout to reduce the need for multiple transfer points Emergency plan for vehicles carrying hazardous material should be in place Implementation of the environment management plan as proposed to prevent the environmental pollution during operation phase 252 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Vessel should comply with safety norms and should maintain the speed so as to prevent the accidents. In case of accidents, ship owner should be responsible for clean-up operations Employment should preferably be given to local people. Women should be given equal opportunity for work. Emergency preparedness and response plan should be available at the site for all the natural and occupational hazards associated with the site. The plan should be approved by health & safety officer. The plan should be implemented by EHS cell at the site. Safety training should be given to the terminal staff for managing the floods, earthquake, fire, ship accidents like situation. Emergency collection area should be designated at the site which is safe. All workers should be directed to collect at this area in case of emergency. Fire-fighting facility should be provided at site and trained personnel should be available at site who can operate the fire extinguishers and other fire-fighting equipment. Development activities as CSR should be carried out in the village and nearby areas for development of area Meetings should be conducted with nearby people six monthly to address the problems they are facing. A grievance redressal cell should be set up at each intervention site. People should be communicated about the facility & system of grievance redressal so as they can launch their complaints, if any easily Fishing activity should not be stopped in the entire river. However docking of the boats by fishermen in zone of 100 m around the terminal facility/jetty should be prohibited so as their boats are not damaged due to arrival and wave action of ships approaching the terminals and jetties. 4.15.5. Conclusion (Social Environment) From the above discussion, it is evident that all the three activities (physical interventions, barge movement and maintenance dredging) have potential to affect the various aspects of the social environment. River Ganga is considered sacred and lots of spiritual activities are associated with the River. Other than these many people depend on the River for livelihood. Also river is source of water in many villages located at its bank. Thus any interference with the river may affect the cultural and social activities associated with the river. These impacts may be significant and may lead to social issues if not mitigated at right stage of project development. To prevent these impacts, mitigation measures are proposed for each of the proposed activity and for each stage of project. These measures are to be implemented strictly to prevent the identified impacts. 4.16. Impact on Indo-Bangladesh Water Sharing Treaty and Downstream water users in Bangladesh River Ganga flows to Bangladesh after Farakka. A feeder canal is constructed to divert water from Ganga to Hooghly river as per agreement between India and Bangladesh. 253 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 This treaty is known as “The Indo Bangladesh Ganga Water Sharing Treaty‟ and was signed on 12 December 1996 between Indian and Bangladesh. The Treaty is essentially regarding the sharing of lean-season flow. The sharing formula agreed in the Treaty is related to actual flows at various levels and not to 75% dependable flows as in past agreements. The basic formula is that of equal sharing of the lean-season flows by the two countries. This applies to a range of flows. India diverts water through feeder canal which has full diversion capacity of 1132.66 cumec at a flow level of 2,123.74 cumec (75,000 cusec). Any water above this flow goes to Bangladesh without sharing with India. The Jal Marg Vikas Project is aimed to waterways (NW-1) between Allahabad to Haldia. As per current planning NW-1 navigational channel width will be of 45 m and maximum LAD of 3m (range from 2.2 m to 3 m). NW-1 route moves as per River Ganga alignment upto Farakka and diverts its route to Farakka Feeder Canal through Farakka Navigation Lock prior to Farakka Barrage. The route diversion view of NW-1 at Farakka is shown at Figure 4.8. Figure 4.8 View of NW-1 route at Farakka and Control location for River Ganga Water flow to Bangladesh 254 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 An assessment of impact of Jal Marg Vikas Project over this treaty and downstream users in Bangladesh was made against water flow, Aquatic Biodiversity and sedimentation load was made qualitatively and presented at Table 4.26. Table 4.26 : Analysis of Impact on Indo Bangladesh Water Sharing treaty and Down Stream River Water Users Component Before NW-1 After NW-1 Remarks Water Flow Level As per Treaty No Change India diverts maximum of remains as per 1132.66 cumec, the peak treaty capacity of Farakka feeder canal. This water flow will remain the same since no water diversion or storage structure is proposed under Jal Marg Vikas Project. Aquatic Bio Diversity Already No Change. Since NW-1 diverts its route fragmented through Farakka Feeder Canal prior to Farakka Barrage, this project will not interfere with ecological aspects of Farakka barrage even during construction of additional Farakka navigation lock which is proposed to be constructed along existing lock at the same navigational channel. The aquatic life is already fragmented and aquatic and avi fauna are accustomed to existing situation. Increase in silt load Silt load All dredge No change on this aspect is due to disposal of reduce in river material is expected as under NW-1 Dredge Material downstream of disposed in dredged river bed sediments will Farakka water channel be disposed in flowing water barrage due to itself and no stream only. water storage change in at Farakka sedimentation barrage load dynamics. 255 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 4.16.1. Conclusion (Indo -Bangladesh Water Sharing Treaty and Downstream water users in Bangladesh) Jal Marg Vikas project will not change river dynamics in terms of water flow, or aquatic biodiversity or sedimentation load. Therefore, this project will not have any impact on this treaty and downstream users of water in Bangladesh. 4.17. Impacts Due to Maintenance Facilities for Barge Repair and Maintenance It is proposed to develop the maintenance facilities for barge/vessel repair and maintenance along the NW-1, however the location of same has not been finalized yet. Thus the location specific impact of the maintenance facilities could not be assessed. However, impacts due to such facilities in general are discussed in this section. Maintenance facilities use and store a wide range of chemicals and other materials, many of which may be hazardous. Examples include fuels, oils, alkaline and acidic solutions, cleaning solvents, disinfectants, detergents, degreasers, rust inhibitors and antifouling paints. These materials need to be used carefully and stored securely to prevent leakage and spills and pollution of soil in the area. There are fair possibilities of soil, water, noise and air pollution due to construction and operation of such facilities. Some of the activities undertaken at these facilities having potential to pollute environment arecleaning of the hulls scraping & sanding; water based pressure cleaning of hulls & exterior of boat; painting; Fiberglassing; welding& metal fabrication; engine maintenance & repair and generation of solid waste due to cleaning, repair & maintenance. All these activities may have significant impact on the environmental and social components, if not managed properly. Table below details out the activities and type of pollution resulting from it and the management required for the same. Table 4.27 : Activities at Barge Maintenance & Repair Facilities, Their Impacts and Mitigation Measures S. Activities Affect Impact on Mitigation Measures No. Environment 1 Hazardous Spillage and Soil quality Storage of these materials in Materials & Leakage deterioration contained facilities in isolated Chemicals Surface and location use and ground water These storage facilities should quality have dedicated drainage system storage deterioration provided with oil interceptors Contamination of Training of the workers on handling land of these materials and chemicals to Effect on flora and prevent spillage and wastage fauna in nearby Availability of the emergency areas response plan for handling such Air pollution due to spillage and leakage as soon as odour any such spillage or leakage Impact on society happen due to Quick clean up mechanism after 256 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 environmental such spillage and leakage pollution and odour List and quantity of the hazardous Exposure of materials and chemicals should be workers to the available at the site chemicals and MSDS for each chemical should be hazardous available at the site and all the materials workers should be trained and Fire accidents may instructed about the possible happen in this area hazard of each chemical stored or used in case of spillage and exposure. Material should be handled as per MSDS Workers should be trained to handle situations after leakage, spillage and accidental exposure of workers due to spillage/leakage Fire evacuation plan should be displayed everywhere in location so as it is legitimate and this plan should be explained and communicated to all workers. Fire mock drills should be conducted every quarter and all the workers should know how to operate fire extinguishers Fire alarm/hooter should be provided. Fire exits which are LED Lit should be provided Emergency assembly area should be provided and it should be closed to the exit door and should be communicated to all the worker Drivers transporting these materials should be given the induction on safe driving and vehicle should be maintained as per the Haz waste, 2016 rules Combustible waste materials should not be stored in these areas Material should be stored as per requirement and excess piling up of materials should be avoided Store volatile and flammable solvents and other liquids in sealed containers away from heat, naked flames, direct sunlight, oil or other flammable liquids and fire hazards. Store incompatible chemicals separately (e.g., the fibre glassing catalyst methyl ethyl ketone peroxide should not be stored anywhere near flammable liquids or other dangerous goods) Seal and clearly label all storage 257 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 containers and smaller decanting containers. Where possible, fit containers with taps or pump the liquid to minimise the potential for spills Place chemically compatible trays under container taps to catch spills or drips. Replace the lids on containers of solvent, resin, fibreglassing initiator and accelerator promptly after use, to reduce evaporative loss and contamination by dust. Keep and maintain spill clean-up equipment, such as absorbent materials, non-toxic dispersants boom (mechanical barriers for containing liquids). Sorbents can be made of peat, cotton, vermiculite, polypropylene fibre, wool or pine bark. Train staff in the use of spill clean- up equipment Contain and clean up spills or leaks immediately if it is safe to do so. Do not hose the substances onto soil or into any inland, estuarine or coastal waters Do not use sawdust or other readily combustible absorbents to clean up flammable liquid spills Dispose of contaminated clean-up materials in accordance with the Waste Management sections of these guidelines. 2 Removal of Generation of Spread of the Usage of anti-fouling paints free anti-fouling paint debris, removed from toxic material. Non-toxic paints paint from sludge, dust antifouling paint which are silicon based should be vessels‟ hull- and other particle & debris in used as antifoiling paints air and soil Proper waste management plan through particles that deteriorating the should be prepared to handle & scraping and may contribute soil quality dispose the waste generated from scrubbing to water, soil Contamination of this operation and air the run-off with Dust suppressers like water pollution and these debris and sprinklers should be provided in may be harmful sludge this area to aquatic life. Contamination of Thick green belt should be the ground water developed all around the periphery due to leaching of to suppress dust and minimize the sludge direct exposure if people to the dust generated during generated from these facilities paint removal Workers should wear gloves while Exposure of using the chemicals and cleaning workers to the dust agents and aprons and masks to 258 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 generated prevent inhalation of dust Fit sanders, grinders and other power tools with dust extraction and collection systems. Do not burn off antifouling coatings as this may generate highly toxic fumes, smoke and gases. 3 Cleaning of Generation of Generation of large Cleaning area should be paved vessels‟ wastewater quantity of washing area provided with drains and oil exterior containing water containing interceptor cleaning the toxic material Use water-based or biodegradable Contamination of strippers, cleaners and degreasers. agents, the soil with the Use phosphate-free detergents solvents, wastewater wherever possible and scrub with a chemical, generated due to soft brush to absorb the detergent. detergents, washing operations Use biodegradable spray-type grease, paints Contamination of cleaners that do not require rinsing. etc. river water bodies, Wherever possible, use hot water, if this wastewater rags or a brush instead of is allowed to enter chemicals the water bodies Dilute corrosion and rust removers and may lead to to the correct concentration eutrophication Testing of the paint to be removed Biological particle should be carried out at facility prior stick to vessel‟s removal exterior may be If any removed underwater coating present in this is contaminated with biocides or washing water other hazardous chemicals and which may become therefore must be handled and weed on land stored as controlled waste Mechanical and manual cleaning should be undertaken in place of the blast cleaning to save water as well as spread of pollutants along with the spray particles Prevent spray drift from escaping the work area by locating moveable waterproof screens alongside and behind the operator and avoiding pressure water blasting operations during windy conditions If the surface of vessel to be cleaned contains paint with more than 0.5% lead content, then the area being cleaned should be totally encapsulated with a waterproof membrane and operators working inside the encapsulating membrane should be completely protected from contact with all wastewater. If abrasive blast cleaning is undertaken, preferable wet and vaccum abrasive cleaning shall be 259 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 undertaken In case dry abrasive blast cleaning is carried out then it should not be carried out during windy days and abrasive blast chamber vented to atmosphere via an effective dust collector Ensure that the screening material for outdoor/open-air blasting is tear- resistant, UVresistant, fire retardant and of suitable material and construction (preferably fully enclosed) to prevent the escape of fine dust Avoid the use of silica sands (e.g. river sand, beach sand or quartz rock) and avoid using copper slag, zinc slag or any other abrasives that contain toxic heavy metals. Use recyclable and more environmentally benign abrasives such as garnet, ilmenite, chilled iron grit, cast steel grit or cast iron shot. ETP should be provided to treat the washing water generated STP should be provided to treat the sewage generated due to domestic use No-run-off from site should allow to get into rivers or accumulate at site or nearby areas Proper waste management plan should be developed so as to handle, store, manage and dispose the waste generated Treated water should be re-used for dust suppression, colling and landscaping and no treated water should be disposed off in river or in ground Workers should wear gloves while using the chemicals and cleaning agents and aprons 4 Painting of Spillage of Deterioration of soil Usage of Paints containing low Vessels paints and quality and may be VOCs emissions of ground water due Spray painting should be minimized VOC while to leaching of the so as to minimize the spraying of spillage paints tiny particles into the air while spray spray or Emission of VOCs painting manual from paints and Painting should be carry out on the painting deterioration of air paved surfaces which should have quality which may drains fitted with oil interceptors also have health Paint storage facilities should also 260 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 impacts be paved surfaces and should have Generation of fine drains fitted with oil interceptors particles while Painting facility should be located in spray painting isolated location so as to minimize which may remain exposure of all workers to paint suspended in air area and should be surrounded by leading to air thick tree belt all around pollution Mix paints in drip trays under cover Risk to workers and in a sealed, bunded and well due to exposure to ventilated paint bay. Do not mix or VOCs and paints prepare antifouling paints in containing toxic locations that are subject to floods chemicals Spray paint large objects on a sealed and bunded surface that is either fully enclosed (sides and top) with screening material or fully screened (sides only) to a height two metres above the structure. Spray paint only in calm conditions. Keep spray guns and lines clean and well maintained to reduce emissions; also spray perpendicular to the surface being sprayed and maintaining a uniform distance from the surface. Use efficient spray equipment (transfer efficiency > 65%) such as high volume low pressure (HVLP) spray guns for all outdoor/open- air spraying. Use corrosion inhibitors that are compatible with surface coating requirements, biodegradable and free from chromates, nitrates and nitrites. Corrosion inhibitors also commonly contain zinc that can contaminate stormwater and land. Use a wash station for cleaning spray equipment and scrape the paint cup free of any residual paint with a spatula before cleaning the equipment with solvent Workers should be provided with the masks to minimize inhalation of the VOCs and gloves to minimize exposure of paints to body Deck paints and paints used in cabin areas of boats can usually be treated like normal household paints. Clean up spilt paint (particularly water-based paint) and allow the remaining paint to dry rather than washing it into the wastewater 261 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 collection system After painting, wipe/squeeze as much paint as possible from the brushes, trays and rollers back into the paint tin for future use Paint out excess paint onto an absorbent material such as an old rag or newspaper. Allow it to dry before disposal. Keep adequate supplies of rags and other absorbent materials for cleaning up small fuel and oil spills Clean engine parts in a properly designated wash bath or over catch pans located in a covered, sealed and bunded area that is graded to a collection pit or sump Where possible, clean engine parts with a brush rather than with solvents or aqueous degreasers such as alkaline or caustic soda Use water-based or biodegradable strippers, cleaners or degreasers wherever possible. Use a funnel when pouring fuel into drums or tanks or use hand pumps to remove fuel from drums. Drain oil filters before disposal and never place any containers or boats containing residual oil, fuel or other fluids in industrial waste bins unless they have been drained and wiped clean Use bilge pump/separation services at your facility. When using containers filled with water to clean water-based paint from brushes and rollers, allow the paint solids to settle by leaving the container overnight. Pour the water out onto the garden or grassed area in the morning and use an old rag or newspaper to wipe out the solids from the bucket. Do not rinse paint containers into storm water drains, gutters or sewers Allow empty paint and thinner containers to air-dry before disposal. 5 Maintenance Leakage or Generation of large Consents from state under Air Act, operations spillage of amount of 1981, Water Act, 1974 and grease and hazardous and Hazardous and Other Waste Rules non- should be obtained prior setting up 262 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 solvents, hazardoussolid and operating such facilities generation of and liquid waste All conditions of consents should debris like Soil & water quality be followed and compliance of the metal wastes, deterioration if this same should be submitted as waste is allowed to prescribed in consents to regulatory greased mix with soil and bodies and should be maintained cottons/clothes, run-off monthly at site empty Used oil, fuel and Proper waste collection, containers of solvents used in segregation, storage, management chemicals, cleaning may spill and disposal plan for both used oil, while maintenance hazardous and non-hazardous leftover operation and may liquid and solid waste lead to soil and Storage of hazardous waste in solvents, dry water pollution isolated location under covered paint and other Generation of shed and in covered containers waste odour from these separately from other non- waste hazardous solid & liquid waste Risk to workers Inventory of the both hazardous using tools, and non-hazardous waste should chemicals, working be maintained. Records of on height, welding hazardous waste should be operations and maintained as per Haz. Waste other activities Rules, 2016 This waste if not Tie-ups with vendors having managed properly hazardous waste authorization and dumped in under haz. Waste rules, 2016 for open may be transportation & disposal of hazard to avifauna hazardous waste and other animal if SOP should be prepared for each ingested activity to be undertaken stating the mistakenly by them equipment to be used for the Odour from this activity, chemical required, safety waste may measures to be taken, safety generate leading to equipment to be used, PPE to be air pollution and used, instruction for using the tools discomfort to the and keeping them back, society procedures for keeping the tools High noise levels incase work is to be left in middle. may be generated These SOPs should be in the maintenance communicated to workers at time of and repair area joining and prior starting the activity Proper EHS cell should be established to take care of safety procedures and safety of workers at site. This cell should conduct safety meeting on monthly basis Rest area for workers should be provided so as they should not have used floors of these facilities for lying down Kitchen area and cafeteria should be provided in separate location so as there is no exposure of food and the chemicals used at site 263 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Proper cleaning and washing facility should be provided at the site for cleaning up after working First-aid room should be provided at the site with stretcher, first-aid box containing materials as per State‟s Factory law, ambulance facility and certified First Aid Trainers List of contact nos. of safety officers and other emergency control services like hospital, fire brigade should be displayed everywhere in the plant and should be communicated tow worker Proper lux levels should be maintained at site and working hours should be restricted to day time. If working in night time lux levels should be maintained as per IFC General EHS guidelines Workers should be provided with air masks, ear plugs, safety shoes, googles as required as per EHS plan and SOP of each activity Work zone noise levels should be maintained as per OSHAS norms and ambient noise levels should be as per standards given in Noise Rules 2000. No noise generation activity should be carried out during night time. Incorporate acoustic barriers, damping and insulating materials in the facility‟s design and layout. Use the natural topography and consider landscaping improvements (fencing, mounds and structures) to serve as noise barriers No facility should be established within 500 m of habitation area/forest area/sensitive areas like school, hospital & temple Fit mechanical ventilation systems (e.g. air conditioners and fans) with noise-proof ducting and acoustically designed intake and exhaust openings Enclose or acoustically screen potentially noisy equipment and undertake noisy activities in areas where noise can be muffled. Fit silencers and/or exhaust 264 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 mufflers to air compressors, pumps, fans, blowers and other noisy machinery. Reduce structural-borne noise and vibration by mounting equipment on isolating platforms or rubber mats. Specify noise-reduction options when purchasing new plant and equipment Restrict internal work to similar hours unless there is effective sound-proofing of the building. Minimise engine idling and testing. Regularly maintain all equipment and vehicles by attending promptly to any loose parts, rattling covers, worn bearings and broken components. Display signs indicating noise restrictions and requirements (where relevant). Records for accidents and near- miss happened at site should be maintained. Detailed analysis for each incident should be carried out and report should be prepared detailing the reasons, causes, damages, loss and improvement to be taken Emergency response plan should be available at site all the time. It should contain all the SOPs, waste management plans, emergency contact nos, list and nos. of PPEs, safety procedures at site, details of disaster management system like fire, earthquake, flood, cyclone etc. as applicable to the site. This ERP should be communicated to all the workers. Visitors to the site should not be allowed to enter site without proper PPE and induction training Records of training, mock drills, safety meetings, maintenance of the equipment, O & M works, quantity of material used, waste generated & disposed, PPE purchased & discarded should be maintained Daily checklists should be maintained for carrying out cleaning and safety works at the site and it should be signed by the EHS head 265 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 or authorized person on daily basis Fresh water for workers should be tested on monthly basis to assure its compliance to IS:10500 Signage should be displayed outside cautioning the presence of hazardous material at site. Signage should be provided in the entire facility for adoption and implementation of EMP and EHS system Capacity building of EHS staff of the contractor and the client should be undertaken regularly through trainings and awareness programmes in regard to implementation of EMP, ERP and adoption of new waste management and safety techniques Maintenance activities should be undertaken in the bunded and sealed areas to ensure that Maintenance facility and work area should be minimum 1 m above the HFL of the River Use a drip tray or groundsheet under the engine to collect oil, grease, solvents or detergents 6 Fiberglassing Generation of Generation of Contain and control all spray VOCs during air pollution emissions. The recommended fiberglassing due to VOCs method is to work inside a building, due to usage of generation and keeping the doors closed while dust using mechanical ventilation solvents like generation equipment. acetone. during Where practical, hand lay-up Generation of cleaning, methods are recommended over dust during trimming, spray gun applications as hand lay- fibreglass grinding, up releases less styrene. trimming, sanding and For spraying, use airless, air- drilling of assisted, or HVLP spray guns. grinding, fibreglass Internal mix, airless spray guns sanding and Risk to safety result in lower styrene emissions drilling of workers due than other types of spray guns. to inhalation of Ensure that the spray lay-up excess dust, equipment is properly maintained VOCs and and periodically cleaned. This will during drilling, avoid glass jamming in the spray trimming, gun chopper mechanism and the grinding and generation of additional waste such similar (resin and glass) when fixing it. works Use a gun wash station or similar for the cleaning of spraying equipment. Reduce the amount of grinding and 266 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 sanding as much as possible by trimming with a knife or mechanical cutter when articles have solidified but not yet hardened. Securely wrap all sanding and grinding dusts prior to disposal. Workers should be provided with the masks to minimize inhalation of the dust and gloves while using the chemicals like acetone to minimize exposure Plantation should be developed all around the facility Goggles and gloves should be provided to the workers involved in cutting, trimming, grinding, sanding and drilling operations of fibreglass 7 Welding and Generation of Generation of Pressure of the gas in cylinder Metal dust, small odour, smokes and should be checked so as to prevent fabrication metal particles, fumes leading to explosion smoke, fumes air pollution Workers should wear face shield, Direct exposure of googles, jackets, gloves and safety which may lead workers to shoes to prevent exposure to UV to soil, water radiations during radiations and air welding & metal Face masks should be provided to pollution fabrication and all workers working in the area to chances of blast minimize smoke inhalation during welding Conduct all metal cutting operations operations on a sealed surface inside a screened area to minimise the horizontal dispersion of metal fragments and allow the sweeping or vacuuming of metal scraps and filings Securely wrap all dusts and other grinding wastes prior to disposal in an industrial bin. Source: Environment Guidelines for Boat Repair and Maintenance, Department of Environment, Parks, Heritage and the Arts Environment Division Tasmania 4.18. Cumulative Impact Assessment Cumulative impacts are those that result from the successive, incremental, and/or combined effects of an action, project, or activity (collectively referred to in this document as “developments”) when added to other existing, planned, and/or reasonably anticipated future ones. Planned Jal Marg Vikas Project is augmentation of navigation capacity of NW-1 through construction of new navigation infrastructure, maintaining LAD through dredging & bandalling, river training works, bank protection works and improvement of existing and development of new navigational aids. NW-1 traverses through major cities which are highly populated. Various festivals and religious rituals are associated with the River Ganga. Developments like TPPs & industrial areas also 267 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 exist along the NW-1. Total 5 bird areas and 3 eco-sensitive zones, i.e. Kashi turtle sanctuary, dolphin sanctuary & Udhawa sanctuary exists within 10 km of the NW-1. Planned developments, existing developments and existing sensitive zones will interact with each other to produce the cumulative impacts. Cumulative Impact Assessment (CIA) of NW-1 from Allahabad to Haldia has been carried out for (a) analysing the potential impacts and risks of proposed, indirect & induced developments in the context of water flow, water availability and water quality, considering human activities and natural environmentaland social external drivers on the chosen Valued Environmental Components (VECs)52/Critical Environmental Resources (CERs) over time, and (b) proposing concrete measures to avoid, reduce, or mitigatesuchcumulativeimpactsandrisktotheextentpossible in the influence area (10 km delineated boundary on both sides of the NW-1). At first Cumulative opinions of various stakeholders which are directly & indirectly impacted due to proposed development, and extensive review of the consolidated EIA report & basin critical resources study of the proposed project has been carried out to identify the VECs. Further, overlay mapping and GIS have been extensive used for identifying the spatial distribution of VECs. Also indicators have been identified which can determine status/conditions of VECs. Baseline study has been conducted to assess the existing condition or status of the identified VECs based on these indicators in the influence area. Further VECs under stress have been identified and are termed as hotspots. These hotspots have also been verified through stakeholder consultation. Total 14 zones are identified as hotspots. These include Haldia, Daimond Harbor to Nischintpura, Kolkata, Mahesthala, Katwa to Hoogly Ghat, Lalbagh in Farakka to Murshidabad, Mangalghat, Rajmahal, Sahibganj, Pirpanti, Kahalgaon, Bhagalpur, Munger, Semaria, Begusarai, Barh, Patna, Buxar, Ghazipur, Varanasi & Allahabad. Also nature of the impacts due to proposed/planned & anticipated development on these hotspots has been assessed. Type and nature of the cumulative impact has been evaluated on all VECs in each hotspot. It has been identified that nature of impact varied from low to moderate. For example, Varanasi, Patna and Howrah, air quality of the area is already impacted due to high PM10 concentration. Varanasi turtle sanctuary and Dolphin sanctuary are the eco-sensitive zones in NW-1 which are being impacted due to existing development and will be impacted due to development of NW-1 and other upcoming and planned development in the area. Other areas like Barh, Danapur, Bhagalpur etc are sensitive due to presence of important bird area. Varanasi will be the common station of upcoming EDFC and NW-1 and exchange of material will be taking place between these two points. Rating is provided to assess impact of each identified 52 VECs are environmental and social attributes that are considered to be important in assessing risks; they may be: • physical features, habitats, wildlife populations (e.g., biodiversity), • ecosystem services, • natural processes (e.g ., water and nutrient cycles, microclimate), • social conditions (e.g., health, economics), or • cultural aspects (e.g., traditional spiritual ceremonies). Critical Environmental Resource (CER) and Valued Environmental Components (VEC) are technically same referring to various key environmental resource or component like natural habitat. Critical Environment Resource word is used for Basin Level study as per terms of reference of these studies. However, for EIA studies VEC word is used. 268 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 activity on VECs and it is found that impact on these hotspots due to existing, planned and upcoming development varies from low to moderate. As per the impact assessment, it is also found that the identified impacts are mitigable and mitigation plan for the impacts has been described. Further, impacts triggered due to induced & indirect development can be mitigated & monitored due to construction & operation stage of the project. 4.18.1. Cumulative Impact Assessment Vs Environmental Impact Assessment: Difference& Utility. CIA and EIA shares the same basic framework and analytical process for impact assessment but still the perspectives are different. EIA can be termed as project centred and CIA is always VECs centred. The CIA is prepared following preparation of Basin Level Critical Resource Study6 and takes into account the overall project perspective. The CIA is focused on VECs thus it considers the existing condition of VECs, conditions of VECs which may be changed due to intervention of project and the condition of VECs which may be changed due to other simultaneous developments taking place in the same influence area. The ecological and social impacts are determined considering, past, present, and natural drivers that effects the VECs in the influence area. The assessment reflects the geographical and temporal context in which the effect is aggregating and interacting with river landscape, catchment area, town, etc.53 . It defines the GHG assessment due to the project. The CIA provide the strategic consideration for project design and intervention proposed for example for Barge movement and operations. The influence area consideration for respective intervention is also derived based on CIA outcome. In EIA the focus has been on project, its activities and the impacts its activities will have on the VECs. The ESIA is undertaken following CIA preparation and considering outcome CIA such as influence area recommendations for ESIA studies. In EIA study, impact on VECs is identified due to the project and mitigation measures proposed to avoid them, minimize them or eliminate them and if any of it is not possible then compensating the affected individual. It defines the environmental plan to mitigate the identified impacts. 53 IFC Good Practice Handbook for Cumulative Impact Assessment and Management: Guidance for the Private Sector in Emerging Markets 269 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Chapter 5. PUBLIC CONSULTATIONS AND DISCLOSURE 5.1. Introduction Public consultation is one of the key components of the environmental assessment. The environmental and social impact assessment team conducted public consultations in project site and influence areas. The approach involved a mix of conventional as well as participatory/ rapid rural appraisal (PRA/ RRA), focus group discussions (FGD) and one- to-one discussion. Two stage consultations have been carried out in line with World Bank Guidelines for conducting public consultations. First level consultations was carried out prior and during impact assessment studies and second level consultations was carried out after completion of impact assessment studies. This chapter provides details of the public consultations and participation activities undertaken during the environmental and social impact assessment studies for the project “Jal Marg Vikas” extending from Allahabad to Haldia. During public consultation, emphasis was placed on a fully-inclusive, open and transparent public participation process in the transfer of information regarding the project and likely impacts from the project on each component of environment. A number of stakeholders are involved in this project ranging from the locals, local bodies, state ¢ral level Government agencies and Non-Government Organizations. 5.2. Methods of Public Consultation 5.2.1. First Stage Consultations Both the informal and formal consultations were conducted during the EIA study to obtain the views of people about the project and to ensure their involvement. Issues pertaining to both environment and social were discussed in depth during the consultations. A. Informal Consultation: Informal consultations were carried out between June, 2015 to February, 2016, prior and during the EIA studies of different components of the Jal Marg Vikas project. Informal consultations are undertaken in reference to proposed interventions and activities of NW-1 at respective locations. One to one and focused consultations were conducted following informal interview approach. No questionnaires/ brochures were supplied to the participants. The discussions were primarily focused on receiving maximum inputs from the participants regarding their acceptability and environmental concerns arising out of the project. Consultation was started with the short description of the upcoming project components under Jal Marg Vikas Project. The objectives, proposed developments and the possible impacts of the project components and connectivity aspects the project were also explained. The study team recorded their perceptions, demands and recommendations, about the project. Informal consultation was carried out for different 270 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 planned components at different time periods. The detail of the same are given in Table 5.1. Table 5.1 : Detail of Developmental Activity and Period of Public Consultation S. Details of Developmental Activity Period No. 1. Haldia Terminal Sep, 2015 2. Farakka Lock June, 2015 3. Sahibganj Terminal July-Nov, 2015 4. Varanasi Terminal Oct-Nov, 2015 5. Movement of Barges in Buxar & Patna Area Feb, 2016 Visit was made to the villages and offices of the local bodies, Government officials, Universities and NGOs to interact with different stakeholders and obtain their views. Local people interacted includes farmers, fishermen, boatmen, land owners, cultivators and students. Interaction with females was also done during the informal focused group discussions. During the consultation, it was found that people are aware about the IWAI planning for development of terminals, navigation lock, and navigation channel. Following briefing about the project and its likely impacts on environment, people were asked about their views, issues and expectation from the project. Focus on both environmental and social issues was given during the consultation. B. Formal Consultation Formal consultations were carried out for the interventions sites where large land acquisition is involved. Two large scale consultations have been carried out, one for Farakka Lock development on 9th October, 2015 at Bewa Panchayat, Farakka and second for Sahibganj Terminal on 16th October, 2015 at Ashram, Samda Nala village, Sahibganj. Invitation letter were sent through e-mail letters well in advance. Additionally, were also given in person to local bodies, Government officials & NGOs for attending the public consultation, much before the formal public consultation meeting. Locals were given invitation by personally visiting the villages. List of the stakeholders invited for the consultation meeting at Farakka Lock and Sahibganj Terminal are attached as Annexure 5.1 (Volume 3C). Copy of one invitation letter sent to stakeholder is attached as Annexure 5.2 (Volume 3C) for reference. 5.2.2. Second Stage Consultations Second stage public consultation was carried out after the completion of impact assessment studies on 22nd February, 2016 at Morya Hotel, Patna. Second stage public consultation was carried out with the experts, NGOs, Government Officials, prominent 271 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 personalities, and other interested parties for interaction on EIA findings (identified impacts and proposed mitigation measures) to get their opinions and suggestion for enhancing the acceptability of the project by the public and improvement in mitigation and management plan. 5.3. Objective of Public Consultation The public consultations were conducted with the following objectives: To create awareness and generate understanding about the project among stakeholders, and to collect their opinion, suggestions for planning and designing of the project To assess positive as well as adverse socio economic and environmental impacts in the area through participatory methods such as walk through and focus group discussions. To identify the need and concern of the public To assess cultural patterns and behaviour of local communities towards the project To understand the environmental and social issues associated with the project through discussions To understand suggestions and opinions of the community, Government officials and NGOs on mitigation measures to counter and check the adverse and negative impact that threaten the socio economic environment in the area. To understand the satisfaction level of people with proposed mitigation and management measures proposed for the project Summary of consultation: 5.4. Outcome of Informal Stakeholder Consultation People and are supportive of the project in general. Extract of the informal public consultation meetings held are attached as Annexure 5.3( Volume 3C).. Main concerns raised during the consultation with redressal measures is given at Table 5.2. Photographs of informal public consultation are given in Figure 5.1 Table 5.2 : Summary of Key Concerns raised by Stakeholders and its redressal. S. No. Key Concerns Redressal Social Concerns 1 Fishing community raised Such impacts are unlikely from this concern regarding effect on fish project. However, mitigation, productivity and demanded enhancement measures are support from project for the proposed under EMP for reduction same. of impacts if any due to construction & operation of NW-1 272 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 and its components. Some of the measures includes: Technical Support for enhancing fish productivity by setting up demonstration nurseries and training centre through institute of repute like CIFRI Regulated/slow speed of vessel at select locations and Zero Pollution approach from vessel and terminals Intimation of dredging/piling plan to fishermen community prior to carrying out any activity Provision of sirens and strong search lights in vessels/barges to pre-warn the fishermen 2 Provision should be made for SIA and RAP has been prepared for adequate compensation for land Sahibganj and consolidate SIA/RAP acquisition wherever involved. for NW-1. Provision of due compensation has been made as per these plans which are prepared as per applicable R&R policies. 3 People desired to have the Relocation site is proposed to be relocation site for the people selected by the concerned likely to be displaced near river authorities responsible for land Ganga. acquisition in consultation with people concerned. 4 People demanded support for Budgetary provision is made under the improvement in and around EMP for improvement of Ghats as local immersion Ghat at Durga an enhancement measures. Chak (near Haldia terminal in Additional enhancement measure West Bengal) to reduce has been proposed for small congestion, especially during the enclosed areas dedicated for local festival. female bathing in every village along the NW-1 to allow female maintain their privacy while fulfilling their religious belief of bathing in river Ganga. Environmental Concerns 1 People raised concern that the Project design has considered this terminal development may lead aspect and adequate provision is to increase of traffic on the made for developing access road to connecting roads which are not the terminals to avoid any kind of suitable for such an increased congestion at each terminal sites. load and needs to be upgraded. 2 Turtle will get impacted due to Maximum of 1-2 vessels per hour regular movement of vessels in are expected to move in the river in Kashi Turtle Sanctuary. sanctuary area. Speed of vessels should be maintained to 5 kmph/2.7 273 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 knots in turtle sanctuary area. Barge movement at this speed generates noise in order of 110-140 dB. Threshold noise level of turtles for change in behavioural response is 150 dB which is above the noise expected to be generated by moving barges and the impact on turtles behaviour responses is anticipated to be insignificant. Other measures are also being proposed in the EMP to minimize impact of barge movement on turtle. 3 Dolphins will be affected due to Adequate mitigative measures have barge movement during the been proposed in the project design operation phase of the project. which includes provision of propeller guards to prevent entangling of dolphins and other mammals, speed restriction in the sanctuary area and a restrictive buffer zone of 100m horizontally and 500m longitudinally either side of the river confluence areas for any dredging activity. Other measures are also proposed in management plan to reduce the impact on dolphins and other aquatic fauna. 4 Oil spillage from ships during Such situations are remote. Safety accident may impact the aquatic measures are proposed in the EMP flora, fauna, water quality and for vessels as well. No vessels are anti-bacterial properties of river proposed to discharge any of its Ganga. liquid or oily waste in the river. Emergency response plan is proposed to deal with emergency situations to minimize the impact of emergency situations. It is also proposed to mandate that each vessel would have appropriate sewage treatment, treated sewage storage and waste management facilities to prevent water pollution. 5 People raised concerns Environment management plan has regarding the likely impact on incorporated the measures for water quality due to construction prevention of water pollution from and operation of terminal facility terminals, and barge operations. and cargo movement. Zero discharge approach is proposed for terminals development and barge operations. 6 People raised concern about Compensatory tree plantation (1:7) cutting of large no. of tree at basis at Sahibganj and additional 274 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Sahibganj site. plantation is proposed to be undertaken. At all the terminal/jetty site green belt will be developed to the extent possible. This will help in minimizing the impact and will lead to reduced impact of CO2. 7 The varying LAD may lead to LAD is proposed to be maintained grounding of vessels. in stretch between Haldia to Varanasi during entire lean period 8 Dredging may have significant Dredging is proposed to be impact on breeding and regulated during breeding and spawning season of fishes. spawning season of the fishes. 9 People have raised the concern Provision has been made in the about existing erosion problem project design for bank protection in the Farakka feeder canal and work of 9.438 km are proposed to raised the apprehension that the be undertaken on banks of feeder NW-1 development and barge canal to prevent the erosion. movement may escalate this problem. 10 People have suggested to make Adequate parking provisions is appropriate parking facilities proposed in each terminal site inside the proposed terminals for design. better management of goods carriers and reduce traffic on existing road due to inappropriate parking on the public roads. 11 People have proposed to make Adequate drainage provision is adequate provisions of made for channelizing the rain prevention of water logging in water at each terminal site. Fire- and around the terminals, and fighting facility is also proposed at for firefighting. each terminal site. Session 1: Consultation with Boatmen and Fishing Session 2: Consultation with Boatmen, Sqatters and Fishing community community 275 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Session 3: Consultation with Boatmen and Photograph of Baluva Ghat Fishing community FGD at Gharaipara Village with local Socio-economic survey carried out by villagers. AIAID representative Consultation with villagers in Ashram, Rampur Consultation with villagers in Ashram, and Samdhanala Samdhanala 276 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Consultation with villagers in Samdha nala, Consultation with fishermen in Sahibganj Naya Tola Asram Consultation at Samda Nalla Ghat Consultation in Village Rampur Consultation with fishery Department Consultation with Villagers in Rampur 277 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Consultation with Villagers in Village Area & Ashram in Rampur Village Stakeholder Consultation with Mr. Purnendu SC with Haldia Municipality Chairman Office at S. Naskar at HDA office Haldia Haldia. 278 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 FGD with local residential at Durgachak,Haldia SC with Haldia Block Development Officials at Haldia KII with local fishermen at Durgachak,Haldia Photo from project location at Durgachak,Haldia BisarjaniGhat at Durgachak which located in Consultation with fisherman 279 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 nearby proposed project site. Consultation with Fisher man Consultation with boat man near Pathakali ghat Consultation with locals at Ram Rekha Ghat, Consultation with locals at Adi Nath Ghat, Buxar Buxar Consultation with locals at Gai Ghat, Patna Consultation with WII, IWAI Officials and DFO, Kashi Figure 5.1 : Photographs of Informal Consultations 5.4.2. Formal Public Consultation Meetings Formal public consultation was conducted for Terminal at Sahibganj & Lock at Farakka. Formal consultation at Sahibganj was conducted on 16th October, 2015 in Ashram, Samda Nala village, Sahibganj. Formal consultation at Haldia was conducted on 9th 280 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 October, 2015 at Bewa Panchayat, Farakka. Request for support and participation in public consultation meeting was sent to stakeholder, Grampanchayat, Project Affected Families(PAF) and Local Administrations. Some of the stakeholders were invited by giving invitations personally. Villagers were invited through Gram Sarpanch and also by giving door to door invitations. A. Formal Consultation in Sahibganj Meeting was started with brief introduction about the project by Mr. Ravi Kant, Director IWAI, Patna. At the community meetings information on the socio-economic studies, environmental impact studies and other engineering related to the proposed terminal of IWAI were discussed. He requested stakeholders to cooperate and provide information to these teams for facilitating their studies. The stakeholders and community members were then given an opportunity to raise their concerns regarding the proposed project. About 700 people participated in the PCM. Meeting was attended by Government officials, PAF‟s, World Bank Officials, IWAI Official, Environment and Social Impact Assessment team and General public. The summary of the key concerns/views and observations of the different stakeholders are presented in Table 5.3. Photographs of the formal public consultation meeting are given in Figure 5.2. Attendance sheet for the PCM is attached as Annexure 5.4( Volume 3C). Table 5.3 : Summary of Formal Public Consultation Meeting at Sahibganj Sl. NO. Person Name/organization, Outcome (concerns and suggestions) / Phone, Address Views 1 Person/ Organization: Shri K.K. Shri K.K. Tiwari told that the area behind the Tiwari terminal site is protected forest. He told that Designation: Divisional Forest forest department has plans to carry out Officer, Sahibganj afforestation and grasses/shrubs in 5 km area E mail: sbgforest@gmail.com of the Ganga River and along the Railway Phone: 09431306331 lines in Udhwa Region for benefit of livelihoods Address: Divisional Forest Office, of local communities. Also forest department Sahibganj, Jharkhand has plan to develop wetland. His concerns about the project development are 1. Dolphins will be impacted due to the movement of cargo so mitigation measures should be taken to minimize the accidents 2. Water pollution may result due to disposal of sewage from terminal and from vessels and disposal of solid and other waste in River Water. Thus mitigation measures and management plan should be prepared to prevent water pollution. 3. Surveys should be carried out to identify the breeding and spawning grounds of fishes and project activities should not be undertaken in those regions 281 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Sl. NO. Person Name/organization, Outcome (concerns and suggestions) / Phone, Address Views 4. Construction activities should not be carried out during spawning and breeding seasons 5. Piling and construction within water should be carried out during low flow period 6. Measures should be taken to minimize the impact of the project on aquatic organism 4. 21 Person/ Organization Shri Jayant Ranjan raised the following Consulted: Shri Jayant Ranjan concerns: Designation: District Fisheries 1. About 5000 fishermen depend on River for officer their livelihood Phone: 09835031630 2. Major fish species in the area are Indian Email:jayant.ranjan21@gmail.com Major carps, singhi, shrimps, Mystus sp. Address: Department of catfishes, tengra etc. These are Fisheries, Sahibganj commercially important species. Project development may affect the production of fishes in the River and will affect the livelihood of people 3. Breeding and spawning grounds of the fishes should be identified and care should be taken that no development should be carried out in these regions 4. Dolphins are very sensitive and care should be taken that minimum disturbance should be caused to dolphins 5. Mechanism should be developed for river clean up during accidents, oil spills, spillage etc. 6. Dredged material should be disposed in safe places and dumping should not be carried out on banks as these are habitat to various important species. 7. Fish catch may reduce due to increase in water pollution due to project development 8. Project may increase the export of frozen fishes and also there is potential for growth of commercial fisheries 4. Person/ Organization: MrsMunni Mrs. Munni Gaud raised the following Gaud concerns: Phone: 07808789116, 1. Appropriate compensation should be given 7070603324 to the land owners 2. Alternate employment options should be provided to people who are losing their complete land 3. Developments should be carried out in the nearby areas also for development of 282 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Sl. NO. Person Name/organization, Outcome (concerns and suggestions) / Phone, Address Views villages 4. Fishing activity should not be prohibited in river after development of terminals 5. Farmers practising river terrace agriculture should not be stopped 5. Person/ Organization: Mrs Usha Mrs. Usha Khalkoo raised the following Khalkoo concerns: Phone: 9801018326,9801352024 1. Villagers are opposing the project as they Address: Gram Panchyat Head, are losing their land and they do not have Hathigarhi any alternate employment option and are completely dependent on agriculture for their livelihood 2. Compensation should be given to villagers as per prevailing market rate, then they may get interested in selling their land 3. Alternate livelihood options should be provided to affected people 4. Pollution should not increase at the site and nearby areas due to project development 6. Person/ Organization: Mr Mr. Niranjan Kumar informed the survey of Niranjan Kumar land is under process and some more time is Designation: Additional Deputy required to finalize the award list and land Collector + Land Acquisition details. officer, Sahibganj Phone: 09431306331 Location/ Address: District Collectorate Office Sahibganj, Jharkhand 7. Person/ Organisation: Mr Vishal Mr Vishal Chandra raised the following points: Chandra 1. He was in favour of project and said that Address: Jharkhand the project is good for betterment of the RajyaVidutVitran Nigam Ltd area Sahibganj Jharkhand 2. This project will increase the development opportunities in the area 3. Shifting of LT line may be required from village which will be a challenging task 4. IWAI should be responsible to compensate for shift of the utilities 8. Person/ Organization: Mr Sushil Mr Sushil Kumar said that project is good for Kumar Executive Engineer PWD development of the area and raised the Address: Public works following points: Department Sahibganj, Jharkhand 1. Land acquisition will be the major hurdle for project development as one of the PWD project of road is also on hold due to difficulties in land acquisition 283 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Sl. NO. Person Name/organization, Outcome (concerns and suggestions) / Phone, Address Views 2. No paved public road connects the site to the highway or other road. Also it is expected that traffic will increase in the area, thus to prevent dust generation and traffic congestion, it is required to construct minimum 4 lane road to connect site to NH-80. 3. ROB should also be constructed above the railway line to allow smooth flow of traffic 4. Green belt should be maintained along the approach road to suppress the dust generation 5. Assessment of increase in traffic should also be carried out on existing roads so as expansion can be planned when required 9. Person/ Organization: Dr. Dr. Bhagwant said that in his point of view, Bhagwant Marandi project will lead to overall development of the Designation: Chief Medical area. Healthcare facilities will also increase in Officer the area after development of project. Address: CMO,Health Department, Sahinganj, Sahibganj, Jharkhand 10 Person/ Organization: Mr Safaij He supported the project and said that project Reiz, is beneficial for overall development of area Address: Ganga pump Canal and improvement of living standards of people. Nahar Pariyojna (Irrigation Department, Sahibganj, Jharkhand 11. Person/ Organization: Mr Faiku He supported the project and said that project Ram is beneficial for overall development of area Address: District Mining Officer, and improvement of living standards of people. Sahibganj, Jharkhand He is ready to extend his support to IWAI, if required 12 Person/ Organization: Mr Vinay He said that land acquisition is under process Kumar Mishra and (5 staff and they are trying to identify land near the members) village for relocation and resettlement of Address: District Land Acquisition displaced families and facilities Officer Sahibganj, Sahibganj, Jharkhand 13. Person/ Organization: Mr. He gave confirmation to villagers that no Prashant Kumar Additional additional land will be acquired for terminal Director, IWAI and (6staff construction. Land will be acquired as per law members) of land. He explained about the project to Address: IWAI, Bhagalpur, villagers and clarified the queries of people Jharkhand during meeting. 14. Person/ Organization: Villagers Villagers were highly concerned and raised 284 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Sl. NO. Person Name/organization, Outcome (concerns and suggestions) / Phone, Address Views of Samda Nala and Rampur following points village (Direct and Indirect 1. They said that land should be acquired as Affected Persons) per prevailing market rates 2. Alternate employment options should be provided to people who are losing their land 3. Land should be provided to affected people within or near village for relocation and resettlement 4. Fishing should not be prohibited in the River due to project development 5. Employment opportunity should be provided preferably to local people 15. Other Participant Mrs. Abha Singal Joshi, Consultant World Bank Mrs. Mridula Singh, World Bank Mr Pranaykumar +2 persons from social team of IWAI Consultant Mr Krishna + 2 persons from Environment team of IWAI Consultant Media: Dainik Jagaran, Hindustan 285 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Figure 5.2 : Photographs of Formal Consultation at Samda Nala Village, Sahibganj B. Formal Consultation in Farakka Meeting was started with a brief about the project, objective of the Environmental and social impact assessment studies, associated likely environmental and social issues requiring attention for sustainable development. The stakeholders and community members were then given an opportunity to raise their concerns and suggestions regarding the proposed project. The summary of the key concerns/views and observations of the different stakeholders are presented in Table 5.4. Photographs of the formal public consultation meeting are given in Figure 5.3. Table 5.4 : Summary of formal Stakeholder Consultation, at Farakka Sl. Person Name/organization, Outcome (concerns and suggestions) / NO. Phone, Address Views 1. Kesang Dhendup Bhutia BDO,Farakka, welcomed the project BDO & Block Executive Officer development and assured his and Farakka Block Development local administration cooperation for the Office,Farakka,Murshidabad project implementation. Also mentioned that without addressing environmental and social concern/impact in a structured manner no project can be completed on time successfully. Any kind of toxic pollution by the vessel like oil spillage and chemicals in the river water, transport emissions, needs to be considered. The project implementing agency should be careful about river erosion during the vessels movement. River bank erosion has a permanent effect upon the socio-economic conditions and demographic dislocation. As Farakka BDO, he appealed to the authority that they should provide jobs to the local unemployed youth based on their skill and should give business opportunities to the local people. The access road needs to be widened and upgraded to ensure smooth traffic movement because it has an important link with NH-34. A traffic management plan needs to be in place. He suggested that the project should employ local people in the proposed location on a priority basis provided 286 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 they have the required skills. The health safety and protection of labour and other community members should be considered on project site as well as nearest locality of the villages during the operation phase. Also suggested for adequate mitigation measures in EIA/SIA to address to erosion if and where identified. The public consultation meeting should be held at different places for awareness of the people and Grievance RedressalCommittees should be active with timely conflict resolution. The interviewee was optimistic that implementation of this project would change the current socio-economic scenario of the local communities. 2. Kesang Dhendup Bhutia BDO,Farakka, welcomed the project BDO & Block Executive Officer development and assured his and Farakka Block Development local administration cooperation for the Office,Farakka,Murshidabad project implementation. Also mentioned that without addressing environmental and social concern/impact in a structured manner no project can be completed on time successfully. Any kind of toxic pollution by the vessel like oil spillage and chemicals in the river water, transport emissions, needs to be considered. The project implementing agency should be careful about river erosion during the vessels movement. River bank erosion has a permanent effect upon the socio-economic conditions and demographic dislocation. As Farakka BDO, he appealed to the authority that they should provide jobs to the local unemployed youth based on their skill and should give business opportunities to the local people. The access road needs to be widened and upgraded to ensure smooth traffic movement because it has an important link with NH-34. A traffic management plan needs to be in 287 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 place. He suggested that the project should employ local people in the proposed location on a priority basis provided they have the required skills. The health safety and protection of labour and other community members should be considered on project site as well as nearest locality of the villages during the operation phase. Also suggested for adequate mitigation measures in EIA/SIA to address to erosion if and where identified. The public consultation meeting should be held at different places for awareness of the people and Grievance RedressalCommittees should be active with timely conflict resolution. The interviewee was optimistic that implementation of this project would change the current socio-economic scenario of the local communities. 3. He suggested that the project should Mr. Arnab Chakraborty employ local people in the proposed Journalist(Malda&Murshidabad location on a priority basis provided Division) they have the required skills. UttarbangaSamgbad The health safety and protection of Farakka,Murshidabad labour and other community members should be considered on project site as well as nearest locality of the villages during the operation phase. The interviewee was optimistic that implementation of this project would change the current socio-economic scenario of the local communities. 4. Mr.Jahid Hussain Arun The authority can support them Director, through livelihood restoration Mahadevnagar Rural Welfare programmes. Society, Farakka,Murshidabad Also suggested for safety and protection from the construction site near the locality of the villages and The consensus described as during the construction period authority should consider the vulnerable health issues like HIV/AIDS because Murshidabad is one of the vulnerable health related district in West Bengal. 288 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Figure 5.3 : Photographs of Formal Consultation Meeting at Farakka 5.5. Second Stage Consultation Second stage consultation for the project was held at Patna on 22.02.2016 at Patna with IWAI team, environmental and design consultants and experts of various fields. Identified impacts were discussed during the consultation and discussion was held on adequacy of the mitigation and management measures proposed. Suggestions were given and concerns were raised by the experts during the consultations. Suggestions and concerns are given in the Table 5.5. Photographs of the consultation are attached as Figure 5.4.List of invitee of the consultation is attached as Annexure 5.5( Volume 3C). Table 5.5 : Summary of the Second Stage Consultation at Patna S. Person Consulted Concerns Raised No. 1 Mohd. Najeeb Ahsan, Sr. Alignment of Jal Marg Vikas Project‟s Environmental Social Management. Management Plans and afforestation plans with the DPR‟s of Specialist, National Namami Gange would be appropriate. Mission for Clean Ganga Facilities of Ferry and Ro-Ro crossings should be examined in detail under the JMV Project. Provision of Water Ambulance for transportation of patients in congested cities. 289 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 S. Person Consulted Concerns Raised No. Disaster Management and Emergency Response System should be developed under the project. Plan for treatment of waste water and re-use should be developed. As traffic on NW-1 would increase in future; proper planning for deployment of river patrolling and security is required. Last mile connectivity should be examined properly. 2 Dr. S. Samanta, Principal Documenting the impacts along the river and understanding Scientist, CIFRI the various relationships with the river is important. IWAI is also a stakeholder in river. As other stakeholders need water in river for different uses as irrigation, drinking etc., IWAI also require water for navigation. The role of the project on overall water management in the river must be clarified. 3 Shri Vishva Ranjan, Environment friendly waste disposal mechanism is required Urban Planning & Urban for vessels. Development Specialist, Need of a Charter for ensuring waste is not directly Patna discharged in the river and third party monitoring to ensure the same. Waste management has been included in the draft revised Indian Vessels Act. 4 Shri K. Praveen Rao, Reconstitution of Project Oversight Committees with Chief Conservator of representation of appropriate Forest Officers. Forests-Kanpur, Afforestation along the banks of Ganga should be done Department of Forest, under the project. U.P 5 Professor R.K Sinha, Vessel traffic management system should be developed Head, Zoology Dept., under the Project. Patna University Dolphins are National aquatic animals and are blind. Noise generated due to vessel movement should be controlled to avoid adverse impact on dolphins. Propellers on the vessels should be caged for safety of the dolphins 6 Shri Rakesh Tiwary, Astt. Proper planning should be done to maintain sufficient depth Professor, A.N. Sinha by conserving wet lands and constructing reservoirs (rain Institute of Social Studies water harvesting) and releasing them in the river during lean season in the system. Long term modelling of rivers should be ensured to meet the water depth requirement Cumulative impact on the society due to the project should be studied in details and proper mitigation measures should be adopted 290 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 291 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Figure 5.4 : Photographs of Formal Second Stage Consultation Meeting at Patna 5.6. Conclusion and Disclosures: Stakeholder‟s view and perception was assessed through informal and formal public consultation meetings. Two stage consultation has been carried out for the project. This ensures involvement of public, NGO, experts in the project‟s pre-planning stage itself and addressal of their problems and expectation from the projects. The community members, Government officials and NGO members voiced that the proposed project will contribute in social and economic development of the region. The proposed project should contribute to increase employment opportunities for the local people during and after project implementation. The communities welcomed the project and all were in favour of the project. However, some of the fishermen and land holders have raised some concerns about the fishing activities/yield and the compensation to be given. Major issues highlighted during consultation were adequate compensation against the land, loss of livelihood, provision of alternate employment, river water pollution, fish yield and disruption of fishing activities. Each of the issues raised by stakeholders were analysed for practical and scientific basis, and for evolving appropriate mitigation measures, EMP, depending on its importance and practicality. An executive summary of consolidated EA report is available for public view in local language (Hindi and Bengali) versions at IWAI website. EIA report for entire Jal Marg Vikas Project and its executive summary is also disclosed at IWAI website and as per provisions of World Bank disclosure policies. 292 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Chapter 6. ENVIRONMENTAL MANAGEMENT PLAN 6.1. Introduction The Environmental Management Plan (EMP) is the synthesis of all proposed mitigation and monitoring actions, set to a time frame with specific responsibility assigned and follow-up actions defined. EMP is a plan of actions for avoidance, mitigation and management of the negative impacts of the project. Environmental enhancement is also an important component of EMP. A detailed set of mitigation measures have been compiled in view of the likely impacts associated with the proposed “Jal Marg Vikas” Project. 6.2. Objective of Environmental Management Plan The EMP consists of a set of mitigation, monitoring and institutional measures to be taken during the design, construction and operation (post-construction) stages of the project. The EMP has been designed keeping in view the regulatory and other requirements to ensure the following: Minimum disturbance to the environment and social components Compliance with the environmental acts, rules and guidelines of GoI & maintaining the quality of air, water, soil and noise as per the prescribed norms by regulatory bodies. Conservation of natural resources to the extent possible Enhancement of Project benefits for Society & Environment Sustainable development and operation of project 6.3. Environmental Management Plan Major activities associated with the project are construction and operation of the civil interventions, barge movement and maintenance dredging. Barge movement and maintenance dredging will be carried out during the operation phase of the project only whereas development of civil interventions will have components distributed during design, construction and operation phases. Civil interventions include construction of jetty, terminals, river training works, bend corrections, barge maintenance facility, and RO-RO jetties. A detailed environmental management plan for each associated development for all the three phases of the project, i.e. design/pre-construction, construction and operation phase is prepared as applicable. EMP lists the activities involved, associated impact with each activity on environment, suggestive mitigation measures, allocated environment budget for impact mitigation,implementationplan covering monitoring, reporting and implementation and supervisory responsibility. Consolidated EIA provides institutional mechanism, budgetary provisions and other systems and plans which are commonly applicable to all intervention and operations of NW-1. The EMPs prepared for dredging and barge operations are commonly applicable to the terminal development and operation and other intervention sites. Consolidated 293 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 EIA also provide generic EMP for the interventions such as Ro-Ro Jetties, embankment protection. Additionally, standalone EMPs prepared based on site specific terminal developments at Varanasi, Sahibganj and Haldia and Navigational Lock at Farakka. 6.3.1. Environmental Management Plan for Maintenance Dredging Maintenance dredging will be carried out during operation phase of the project to maintain LAD for navigation. Maintenance dredging will be carried out as per the availability of the depth naturally and depth required for movement of the cargo depending on the size of the cargo planned to ply in the stretch. Estimation of the required amount of maintenance dredging in different stretch of the waterway is estimated by the design consultant. A sensitivity analysis was carried out of the entire NW-1 stretch from environmental biological and social sensitivity prospective v/s dredging and dredge disposal. This analysis is presentedat Table 6.1. Consideration dredging practices impact analysis and the above sensitivity the environmental management plan for dredging is given in Volume 8. 6.3.2. Environmental Management Plan for Barge Movement The project Jal Marg Vikas aims ensuring the movement of barges in NW-1 during the entire year. Barge movement as discussed in Chapter 5 have certain associated impacts on environment which is required to be mitigated and managed to prevent environmental damage. Environmental management plan for barge movement is given in Volume 9. 6.3.3. Environmental Management Plan for Civil Interventions Civil interventions proposed to be undertaken for the project are Terminals, navigational lock, Ro-Ro jetties, Bank protection measures, barge maintenance slipway and river training works. Terminal construction involves construction of berths, jetties, loading and unloading areas, material storage areas, internal roads, and administration building. Ro- Ro jetties are the extension inside the river from land facilitating movement of vehicles carrying cargo onto the vessel directly on wheels. Ro-Ro jetty involve development of the walkway and area for berthing of the vessels. No material loading/unloading operations are undertaken at Ro-Ro jetties. Bank protection works includes stone pitching, and construction of retaining walls. River training works will include bend corrections, closure of secondary channel, and construction of guide walls. All these activities will interface with various environmental, biological and socio-economic components of the influence area and will impact them. Assessment of those impacts is carried out in detail in Chapter 5 and mitigation measures are suggested to minimize the impacts. Management plan has been prepared for implementation of suggestive mitigation measures along with the budget and responsibility of the agencies involved. Environmental management plan for (general) terminal, navigation locks & River Training Structures/Bank Protection measures for construction and operation phase and for Ro-Ro Jetties are given in Annexure 6.1 & 6.2( Volume 3C). 294 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 C. EMPs for Planned Civil Interventions Standalone specific EMPsare prepared for each of proposed civil intervention i.e. Sahibganj, Varanasi& Haldia Terminal and Farakka NavigationLock based on these intervention specific EIA studies. These EMPs are included in Volume 4, 5, 6 & 7. 6.4. Institutional Framework of IWAI for Environmental Management For effective implementation of the proposed environmental management plan, it is necessary to have permanent organizational set up charged with the task of ensuring effective implementation of EMP and to monitor the implementation efficiency. IWAI has set up a project management unit which is staffed with environmental and social specialists. These specialists would work as an Environment, Occupational Health & Safety and Social management cell (EHS) within PMU. It is proposed that each field unit will have one designated officer responsible for environment and social aspects who will also coordinate with EHS Cell. The major responsibilities of IWAI and of EHS cell would be: To develop the mechanism so as to ensure that proposed mitigation measures are discussed and integrated at policy level so as they become mandate for various stakeholders to be followed To implement the environmental management plan To assure regulatory compliance with all relevant rules and regulations To ensure regular operation and maintenance of pollution control devices To minimize environmental impacts of operations as by strict adherence to the EMP To initiate environmental monitoring as per approved schedule Review and interpretation of monitoring as per approved schedule Review and interpretation of monitoring results and corrective measures in case monitored results are above the specified limit Maintain documentation of good environmental practices and applicable environmental laws as ready reference Maintain environmental related records Coordination with regulatory agencies, external consultant, monitoring laboratories Maintain log of public complain and the action taken Efforts should be made for setting up of common conservation cell consisting of one marine biologist, and ecologist, a sociologist and a fishery expert The EHS cell should have all basic record keeping facilities such as hard ware/software facilities, adequate space, vehicle (transport) and basic furniture and all simple instruments such as GPS, Digital camera, Hand held noise metre etc. The cell should have all basic environmental management data of the project that includes but not limited to the following: Environmental Impact Assessment Report (both well preserved soft and hard copy) and Environmental Management Plan 295 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 All valid and up to date regulatory permits and consent papers All latest Environmental legislations, policies, codes and manuals for ready references A list of consultants on environmental management need to be kept with yearly revision of the list. This will help to receive proper advice in case of an emergency or are requirement and also to implement day to day environmental management activities. Over a period of time a system to understand and absorb the new revisions and changes in the environmental requirements and practices are to be established. This can only be achieved by regular training and genuine capacity building initiatives. IWAI should also ensure availability of adequate resources. Institutional framework for the project is given in Figure 6.1. Figure 6.1 : Institutional Framework of IWAI 296 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 6.4.2. Effective Implementation of Environmental Management Plan during Construction Phase Pre-construction and construction activities are taken by the contractor to whom work will be awarded. For implementation of Environmental Management Plan during pre- construction and construction phase, it is necessary that EMP for construction phase should be shared with the contractor so as he is aware of the environmental provision he has to keep during construction phase and he can do budgeting accordingly. This will ensure effective implementation of the EMP. Thus IWAI should include the EMP as environmental and social safeguard measures in the bid document. EMP implementation by contractor can be achieved by following ways: Incorporation of contractor‟s EMP in bid document and instructing him to keep environmental provisions in planning while budgeting Contractor should have full-fledged environment health and safety management cell (EHS Cell) to ensure the implementation of the EMP and the SHE policy aiming at achieving the goals of safety, health and environmental management. The contractor EHS cell should have all the expertise in the field of Environment Health and Safety. The designated EHS officers should have adequate experience for implementing and monitoring the similar nature of EMPs. The contractor EHS cell should function in close coordinationwith PMU of IWAI and PMC to the project. The contractor EHS cell should submit the EMP compliance and applicable regulatory and IWAI EHS systems compliance on monthly basis. Mandatory Deputation of environmental and social expert (by contractor) at site Environmental & social experts to be deputed should have broad experience of working in similar field Linking payments of the contractor to environmental performance Assigning penalties in case the environmental safeguard measures are not taken up adequately Appointing PMU/PMC to monitor the performance of contractor and compliance of the EMP by contractor. PMU/PMC is responsible to communicate the status of compliance/non-compliance of EMP by contractor to project proponent and suggest the measures to be taken to contractor to meet the gaps/non-compliances. PMU/PMC can be appointed by IWAI through tendering process again and the company‟s having experience of managing similar kind of projects should only be appointed for the PMU/PMC work only. 6.5. Environmental Health & Safety (EHS) Policy and EHS Management System An effective environmental health and safety policy is essentially to demonstrate top management commitment for environmental protection and occupational health and safety. The policy should be communicated to all stakeholders including workers and should be freely available to them on demand. required to be prepared for the project and it should be communicated to the workforce through displaying posters/bill boards/posters/glow boards and campaigning around the work site. Posters should be in 297 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Hindi, English & Regional language so as it can be understood by the workforce. Verbal communication through campaigning also should be carried out. Some of the important days such as Environment Day (June 5), Red Cross Month (March), Emergency Preparedness Week (May 1-7), National safety day (4th April), National Health Day (7th April), Fire safety day (14th April), 20th April (Earth day) can be planned for spreading the awareness for Environment Protection, Cleanliness and safety among work force through campaigning. For effective and systematic implementation of the project, it is desirable that IWAI (The EA) develops its Environmental and Social management systems which is auditable and effectively enforceable. Parallel can be drawn from the experience of National Highway Authority of India or Delhi Metro Rail Corporation and adopt EHS system on the similar lines. Each contractor should be contractually bound to follow such system and must have EHS management system in line with EA‟s management system. IWAI should also develop its standard technical guidelines for Environmental Assessment, Management and Reporting. Training and awareness will be an essential component of the EMP and EHS management system. It should include use of posters, bill boards/glow boards around project site an d barge NW-1 An effective environmental health and safety policy is essentially required to be prepared for the project and it should be communicated to the workforce through displaying posters/bill boards/posters/glow boards and campaigning around the work site. Posters should be in Hindi, English & Regional language so as it can be understood by the workforce. Verbal communication through campaigning also should be carried out. Some of the important days such as Environment Day (June 5), Red Cross Month (March), Emergency Preparedness Week (May 1-7), National safety day (4th April), National Health Day (7th April), Fire safety day (14th April), 20th April (Earth day) can be planned for spreading the awareness for Environment Protection, Cleanliness and safety among work force through campaigning. 6.6. Environmental Standards for operation and maintenance of Various Civil Interventions, Barge Movement and Dredging Operations Mentioned activities have potential to pose threat on the environmental quality. Regulatory Authorities of India and other countries have specified certain limits of pollutants which, if maintained, environmental pollution can be maintained. No guidelines and standards are as of now available in India, which deals with the liquid and sewage waste management & disposal and air emissions from barges, terminal sites and at arrange maintenance facility during barge movement. Also no guidelines or standards on dredging and dredge disposal is available in India either for onshore or off- shore disposal. Guidelines are also not available on EHS management system to be followed by barges, terminal sites, dredging contractors, jetty sites, maintenance facilities. Such guidelines and standards should be developed by IWAI and other regulatory bodies in close association with IWAI. Further a monitoring mechanisms should also be developed so as to monitor the compliance of these guidelines and standards. Until the guidelines or standards are developed, IWAI can refer to the international guidelines and can make it mandatory to follow these guidelines by the 298 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 stakeholders (terminal & jetty operators, barge operators, material transportation company, maintenance facility operators and other). until the new guidelines come up. Further IWAI is required to develop the infrastructure which is essential need as per these guidelines so as no violation of the guidelines happen. Some of the international standards available in relation to dredge disposal, waste disposal, emissions management and some of national standards on water, air and construction standards are listed below. Details of Environmental standards applicable for the operation and maintenance stage of the project and that should be adhered to are listed below. Details of each of the standards are given in Annexure 2.2 (Volume 3C) of this report. Standards for discharged of effluent in inland surface water bodies and Marine Coastal Areas (Source: G.S.R 422 (E) dated 19.05.1993 and G.S.R 801 (E) dated 31.12.1993 issued under the provisions of E (P) Act 1986) Classification of Surface water Bodies on basis of Quality (Source: Guidelines for Water Quality Management-CPCB, 2008) Water Quality Standards for Coastal Waters, SW-IV & V-Harbour and Navigation & controlled waste disposal (EIA Guidance Manual for Ports & Harbours, MoEF&CC, GoI) Standards for permissible level of water quality indicators (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992) Permissible limit for off-shore dumping of dredged material (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992) Criteria for harmful bottom sediments (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992) Approximate Quantity of Suspended Sediments Generated by Dredging or Dumping Operations (Source: Assessment of the Environmental Impact of Port Development, United Nations, New York, 1992) MARPOL 73/78 for prevention of pollution from ships SOLAS (Safety of Life at Sea) as per latest amendments (Chapter I-XII) CPWD Norms for construction of off-shore works, river bank protection structure, carrying out dredging works, river raining works 6.7. Environment Monitoring Plan(EMoP) The objective of environmental monitoring during the construction and operation phases is to compare the monitored data against the baseline condition collected during the study period to assess the effectiveness of the mitigation measures and the protection of the ambient environment based on national standards. The following are the main objectives of the environmental monitoring program: Provides information for documentation of monitoring of mitigation measures and impacts 299 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Tool for the statutory authority of unanticipated adverse impacts or sudden changes in the environmental condition due to the proposed project Provides information that could be used for evaluating the effectiveness of implemented mitigation measures Provides information that could be used to verify predicted impacts and thus validate impact prediction techniques The effectiveness of the mitigation measures being followed during construction and operational phases can be assessed and the measures can be revised, made more stringent and reinforced based on the monitoring results Environmental Monitoring can also serve a basic component of a periodic environmental regulatory auditing program for the proposed project A monitoring schedule has been developed based on the environmental components that may be affected during the construction & operation phase of the project and is given in Table 6.2. Environment monitoring indicators identified are listed below Monitoring Indicators Air quality- ambient air quality levels & stack emissions Surface Water quality Drinking water quality- for construction labours Noise levels- ambient noise level and work zone noise levels Soil quality- dredged sand quality and soil quality Solid & Hazardous Waste Management Wastewater disposal Re-plantation success / survival rate Soil Erosion at river banks and bed scours Aquatic ecology– plankton, benthic communities, dolphins, turtles and other aquatic species These indicators should be evaluated periodically based on the monitoring results, baseline conditions, predicted impacts and mitigation measures. Water Quality: No significant change in water quality is perceived due to the project in the operation phase. Hence, it is suggested that if the monitored value for any water quality parameter exceeds by more than 20% of its last monitored status the monitoring frequency should be increased and suitable measures taken if increase in value is due to project activity reasons Tree Plantation: The 70% survival rate of re-plantation should be monitored on the first year of the operation phase in consultation agency assigned for tree plantation. If the survival rate is found below 70%, additional tree should be planted and survival rate monitoring should be again taken up after 3 years. This cycle should continue until the 70% survival rate is achieved 300 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Aquatic Ecology: Details about ecological aspect should be periodically collected in terms of effect on breeding and spawning ground, accidental damage to dolphin if any or other aquatic fauna, fish productivity. Corrective action should be initiated if IWAI activities or Barge operation are resulting in any damage to Aquatic fauna or fishermen activities. Soil Erosion: No significant soil erosion is anticipated during construction and operation phase. In the construction phase some localised bank erosion may be noticed. Erosion may be noticed in the narrow areas of Farakka Canal. However, if bank soil erosion is noticed during construction and operation phase, the corrective action should be initiated and frequency of check be increased to assessed the tendency of recurrence. Safety and Emergency Preparedness: Safety measures like signage board, navigation GPS system, and other accident prevention measures for barge movement are proposed. Periodic physical and preparedness check should be carried out. If any aspects of safety and emergency preparedness is found ineffective than appropriate corrective action should be taken. 6.8. Monitoring for Implementation of EMP During project design and implementation stage the respective contractors should be liable for implementation of suggestive EMPs and IWAI will be responsible to monitor the contractor‟s performance and adequacy of implementation of EMPs directly or through third party (PMC). However, during operation stage, IWAI should be solely responsible for implementation of the EMP& Emergency Management. IWAI should be liable to ensure that suggestive mitigation measures are taken up by the shippers, dredgers and other stakeholders in time and adequately. IWAI should develop the mechanism so as to ensure the adherence and compliance of the EMP. 6.9. Reporting Requirement for EMP and EMoP 6.9.1. Reporting Requirement during Pre-Construction & Construction Phase Contractor is responsible for implementation of Environmental Management Plan and ensuring health and safety of the construction workers at site during pre-construction & construction phase of the project. Thus it is required by contractor to submit the monthly and six monthly compliance reports containing the status of environment, health & safety at site to PMC (Project Management Consultant) & PMU of IWAI. PMC/IWAI will be responsible for construction supervision and ensuring effective implementation of EMP by the contractor. PMC should report to PMU monthly about the performance and effectiveness of the EMP implemented by contractor on site and coordinate with filed units and PMU for necessary corrective actions as may be required. PMC will be hired by IWAI who will be responsible to identify gaps between the proposed environmental, safety and health management plan and actually implemented status of the system by contractor. PMU on basis of site inspections and PMC reporting, will issue orders to contractor for corrective actions with time in which gap is to be met and penalty clause in case of non- compliance. Submissions to be made by contractor to PMC/PMU are given below: 301 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Monthly SHE Report- Details of daily & monthly man hours of workers; fresh incident analysis; detail of SHE inspection, internal audits & SHE communication activities; data on air, noise, soil and water quality; housekeeping details and health & welfare details Monthly Environment Reports- Details of environmental monitoring parameters and monitoring data as per proposed EMoP; nos. of work fronts open & associated issues; compliance to management Systems, ILO and National legislative requirements as applicable; compliance to world bank requirement; green belt management status, tree cutting & afforestation and PUC & green tag status of vehicles at construction site Monthly Progress Report: Detailing tasks undertaken till date, tasks under progress and the planned tasks for next months Monthly Accidental Reporting and Investigation Report Six monthly compliance reports for compliance of regulatory permits and EMP requirements. 6.9.2. Reporting Requirement during Operation Phase IWAI should ensure the implementation of Environmental Management Plan for the operation phase as suggested. IWAI should maintain the following records/reports Six monthly compliance report of suggested EMP Audit Report for compensatory plantation Energy audit reports of the terminal buildings Accident and Investigation Report Report containing details of dredging quantities and LAD maintained in different stretches IWAI should be liable to ensure that suggestive mitigation measures are taken up by the shippers, dredgers and other stakeholders in time and adequately. IWAI should develop the mechanism so as to ensure the adherence and compliance of the EMP. It is proposed that IWAI will have dedicated department adequately staffed and equippedwithspeed monitoring, vessel positioning, and emergency response equipemnts(like oil spills control and remediation systems). IWAI may also adopt mechanism of involving Barge operators on the line of Responsible Carrier Programme of Americans Waterways Operators. 6.10. Audits & Inspection Audits and inspections are integral part of the Environmental Management Plan. Audits and inspection helps to evaluate the performance of the implemented system and provides the rating and identify the non-compliances and gaps between the proposed and implemented system. Audits should be regularly held so as non-compliances can be identified at each stage and can be complied with by taking corrective actions. Some of the audits to be taken up by contractors include SHE management system LEED or GRIHA certification of green building compliance for terminal buildings. Regulatory Compliance 302 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 IWAI will also organise an independent Environment Audit which will be submitted to Bank within 3 months of completion of the second and fourth year of implementation period 6.11. Mechanism for Feedback and Adjustments As part of the feedback mechanism, the EHS of PMU should monitor project compliance based on monitoring reports, audit and inspection reports with respect EMP, EMoP and applicable laws, rules and regulations. EHSwill report to PD quarterly. In case, any deviation from the contract requirements with respect to proposed EMP is observed, the same should be corrected within a fortnight through contractor and PMC and records maintained for the same. EHS will also verify the facts reports through periodic site visits. Public involvement should be encouraged and ensured throughout the lifecycle of the project. The EHSshould gather and maintain information on any damage or public concern that may be raised by the local people, NGOs and local authorities. While immediate solutions are to be worked out with the help of contractor, a detailed report will be submitted to the PMU and PD for information or detailed consideration, as the case may be. The PMC and ESC will be responsible to bring it to the notice of the PMU and PD. Resulting decisions should be communicated back to PMC and contractor for correction and future implementation. 6.12. Trainings & Capacity Building Trainings are essential for skill building and making people competent in carrying out the operations/tasks and handling emergency situation in planned manner.IWAI has already taken actions to augment the capacity of project management unit (PMU). A capacity building and training programme has been prepared which includes training of staff of Environmental and Social cell of PMU, contractor‟s staff (labours & engineers), PMC staff and IWAI staff on environmental management, regulatory compliance and safety aspects. Some of the trainings which are required to be conducted are given in Table 6.3. 6.13. Emergency Response and Preparedness Plan and Contingency Response Plan Risks and hazards are associated with every construction site as it involves usage of heavy machinery and equipment. Similarly, risks are also associated with the operation phase are listed below: Vessel Accidents and spillage of commodities (especially oil) Leakage or spillage of oil from ships and barges at terminal/jetty Drowning in River during material handling and vessel movement Hazard to Fishing vessels/gears It is proposed that IWAI must equipped itself with guidelines and equipment for handling the emergencies. PMU should evolve its environmental, Occupational health and safety guidelines and performance protocol. Budgetary provision has been made under environmental budget. The same should be developed with the help of reputed institutions and organisation of repute. It should also follow the system of emergency 303 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 response. A suggested Emergency management and Response plan is included at Annexure 6.3( Volume 3C). Responsible Carrier Programme of IWAI54: It is proposed that IWAI develops Indian Waterways Operations Responsible Carrier Programme which should be developed as part of its EHS Management Systems and Emergency Response Plan and Protocols Development. The programme should have the following components as well: Protocol for speed control, monitoring, and vessel tracking Protocol of waste management for barge operations and terminals management. (including zero discharges and waste disposal to river by barges and terminals. This protocol should also define about waste handling facilities at barges and waste disposal facilities at terminals for maintain zero discharge concept. Biodiversity protection including accident reporting with Aquatic mamals (dolphin) Oil spills reporting and control and remediation Near-miss reporting/lessons learned and corrective actions program Risk assessment procedures to assess and manage risks to personnel, vessels and the environment Identification of critical or essential equipment/systems Authority of the master, crew and shore side personnel Addition of document control procedures Tracking of number and volume of spills in performance measurement requirements Internal and external audit procedures and frequency 6.14. Authorities and their Responsibilities for Implementation of EMoP The authorities and responsibilities for the implementation of the environmental management plans should be tiered based on the activity and as per institutional framework. All the policy decisions, including incorporation of the EMP requirements in compliance to loan covenants should be the responsibility of the IWAI (EA). Projects should be implemented by Project Management Units (PMU). IWAI has set up Environmental, Occupational Health & Safety and Social Management Cell (EHS) within PMU. EHS will ensure that the environmental mitigation measures are being implemented effectively. The EHSshould, among others ensure that the EIA Reports comply with national and Bank guidelines, monitor the status of implementation, and preparation of monitoring reports. PMU will depute its officer at filed level unit with additional responsibility for Environmental and social management who will also coordinate with EHScell at PMU. It is also proposed to appoint PMC who will supervise contractor and PMU to ensure effective implementation of management plan proposed. EHScell will be technically supported by independent subject experts who should be hired on need basis (Air, Noise, Water, and Aquatic). 54 Reference is drawn to the successful similar programme of American Waterways Organisation‟s Responsible Carrier Programme. http://www.americanwaterways.com/rcp-2016. 304 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 The most essential component of the Environment Monitoring Plan is the execution of the Plan in accordance with the monitoring schedule provided therein. The EHScell andconcerned field unit will be responsible for timely monitoring of various parameters and compliance with the mitigative measure proposed. A resultant data base is proposed to be maintained. A Management Information System (MIS) is also proposed to be put in place for effective flow of information between various levels and functions within PMU, EHS cell, PMC and contractor. 6.15. Enhancement Measures: Implementation Plan The enhancement measures are proposed to meet stakeholders‟ expectation and enhance the positive impacts. Three proposal regarding dolphin conservation, fish productivity and cultural aspects. IWAI will be having prime responsibility for the same. Budgeting provision is made in the EMP for all the three enhancement proposal. EHS cell will obtain quotations and finalise implementation modalities, success indicators in consultation with proposed agency. The implementation plan will also be submitted to World Bank for information. 6.16. Regulatory Clearances /Permission Required Statutory clearances will be obtained for any project component wherever found applicable. Certain other permits are required for example consent to establish from State Pollution Control Board for setting up hot mix plant. All such permits are supposed to be obtained by the contractor who should obtain it before setting up any facility attracting these permissions. The most important and time-consuming clearances are permission for barge movement through Kashi Turtle Sanctuary and Vikramshila Dolphin Sanctuary but this permission is required for operation stage of project for movement of vessel through these sanctuaries. This process has already been initiated by IWAI. 6.17. Grievance Redress Mechanism (GRM) The concern/grievances from local/affected people may come up related to inappropriate implementation of various components of EMP. These issues can be easily addressed through acknowledgement, evaluation and corrective action and response approach. To resolve grievance from public or stakeholders concerning the project will be directed to the PMU/Director concerned. Firstly, it will be assessed if the grievances are genuine or suggestion is acceptable. Accordingly, response will be given within 15-30 days by the PMU in consultation with PMC and Director concerned. In case the PMU is unable to resolve the issue, the matter will be forwarded to Project Director at Head Quarter. The corrective action will be started as per the response or action plan indicated to the stakeholder. The outcome should also form part of quarterly report to World Bank . Hierarchy of escalation of complaint though GRM is presented below. GRM pocess flow diagram is given in Figure 6.2. Detailed GRM is given in RAP prepared for the project. 305 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Hierarchy of escalation of Complaint Figure 6.2 : Grievance Redressal Cell 6.18. Environment Budget Environment budget has been prepared for design, construction and operation phase of the project. The Environmental budget includes the cost of environmental structures like Sewage Treatment Plant, Air Pollution Control System at terminals, monitoring, enhancement measures, GHG reduction, training and awareness and technical support for establishment, enhancement measures and environmental guidelines. Environmental budget is estimated as Rs 49.9 crores. The detailed break-up of costs is given at Table 6.4. Lump sum budget for each of the planned civil intervention area planned is given below in Table 6.5 below. For detailed budget of each component the individual EIAs prepared for each of the proposed civil intervention can be referred. 306 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 6.1 Dredging and Disposal Management Plan for NW-1 Stretch/Dredging Biological, cultural, social and religious Aquatic sensitivity Management Measures Quantity & Sensitivity Quality/Proposed Disposal Location Sensitive Breeding & Spawning zone Period and grounds Stretch: Haldia to Farakka Imp. Bird area- Farakka Barrage and adjoining area Hilda Peak spawning season for Dredging should be regulated during July-August Dredged Qty: 3620000 (Surrounding NW-1) Sanctuary Hilsa is July-August Dredge disposal should not be carried out within cum between Tribeni to Archaeological locations- St. John's Church (300 m, (Within NW- Breeding & Spawning Sanctuary area and other defined sensitive Farakka E), Temple of Gour Chandra and Krishnachandra at 1)- 4 grounds for Hilsa: Stretch locations Dredged Quality: Not Chatra-Gaur Chandra Ghat (0 m, W) & Hazardwari locations between Nischintpur Dredge disposal should be carried out at minimum contaminated Palace (30 m, E) (Kolkata) & Diamond distance of 100 m from bank Disposal Location: In Fest & Festivals: Ganga Sagar Mela at Sagar Harbour, Hoogly ghat & Dredging & disposal should not be carried out river/shoals/scours (January) Kalna and Lalbagh to during time & location of festivals Farakka55 Stretch: Farakka to Barh Imp. Bird Area- Udhwa Lake Bird Sanctuary (9 km, Vikramshila Major Birth season for Dredging should be stopped if Dolphins are Dredged Qty: 3960000 W), Vikramshila Gangetic Dolphin Sanctuary-VGDS Gangetic Dolphin is October to sighted cum (within NW-1), Mokama Taal (Barah) Wetlands Dolphin March56 Dredge disposal should not be carried out within Dredged Quality: Not (Along NW-1) & Kurseala River Course and Diyara Sanctuary Breeding Ground: Very Sanctuary area and other defined sensitive contaminated Flood Plains (Along NW-1) (within NW-1) shallow waters for giving locations Disposal Location: In Archaeological locations- Sindhi Dalan (300 m, W) birth Dredge disposal should be carried out at minimum river/shoals/scours & Jama Masjid (140 m, W) distance of 100 m from bank Religious locations: Community Temple at Dredging & disposal should not be carried out Sahibganj Terminal site (to be shifted) during time & location of festivals Fest & Festivals: Chatt (Oct-Nov) Stretch: Barh to Patna Fest & Festivals: Chat (Oct-Nov) None Peak spawning season for Dredging should be stopped if any dolphin or big Dredged Qty:16,00,000 Indian Major Carps is May- aquatic species is sighted cum August Dredging should be avoided during May-August Dredged Quality: Not Breeding & Spawning Dredge disposal should be carried out at minimum contaminated grounds: Shallow waters and distance of 100 m from bank Disposal Location: In areas inundated during Dredging & disposal should not be carried out river/shoals/scours monsoon season57 during time & location of festivals 55 Perspectives of reproductive biology and spawning behavior of Indian shad ( Tenualosa ilisha)-A global review, Utpal Bhaumik, Former Divisional Head, Riverine Ecology and Fisheries, Central Inland Fisheries Research Institute, Barrackpore, India 56 Ganges River Dolphins, WWF (http://wwf.panda.org/what_we_do/endangered_species/cetaceans/about/river_dolphins/ganges_river_dolphin/) 57 Genetic Resources of Indian Major Carps, Their Distribution and Characterization, FAO (http://www.fao.org/docrep/006/x3850e/X3850E02.htm) 307 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Stretch/Dredging Biological, cultural, social and religious Aquatic sensitivity Management Measures Quantity & Sensitivity Quality/Proposed Disposal Location Sensitive Breeding & Spawning zone Period and grounds Stretch: Patna to Buxar Imp. Bird Area- Danapur cantonment area (2 km, S) None Peak spawning season for Dredging should be stopped if any dolphin or big Dredged Qty:27,70,000 Fest & Festivals: Chatt (Oct-Nov) Indian Major Carps is May- aquatic species is sighted cum August Dredging should be avoided during May-August Dredged Quality: Not Breeding & Spawning Dredge disposal should be carried out at minimum contaminated grounds: Shallow waters and distance of 100 m from bank Disposal Location: In areas inundated during Dredging & disposal should not be carried out river/shoals/scours monsoon season during time & location of festivals Stretch: Buxar to Varanasi Archaeological locations- Kardmeshwar Mahadeva None Peak spawning season for Dredging should be stopped if any dolphin or big Dredged Qty: 29,00,000 Mandir (240 m, W), Ramnagar, fort (40 m, E), Indian Major Carps is May- aquatic species is sighted cum archaeological excavation site, Varanasi (130 m, E) August Dredging should be avoided during May-August Dredged Quality: Not & Manmahal and observatory (40 m, W) Breeding & Spawning Dredge disposal should be carried out at minimum contaminated Cultural locations: Ghats grounds: Shallow waters and distance of 100 m from bank Disposal Location: In Fest & Festivals: Ganga Mahotsav at Varanasi areas inundated during Dredging & disposal should not be carried out river/shoals/scours (Oct-Nov) & Dhrupad Mela at Tulsi Ghat of monsoon season during time & location of festivals Varanasi (Feb to March) Stretch: Varanasi to Fest & Festivals: Ganga Mahotsav at Varanasi Kashi Turtle Spawning season for River Dredging should be regulated during July-August Allahabad (Oct-Nov), Dhrupad Mela at Tulsi Ghat of Varanasi Sanctuary Turtles: March-April Dredge disposal should not be carried out within Dredged Qty: Nil (Feb to March) & kumbh at Allahabad (Jan-Feb) (within NW-1) Breeding & Spawning Sanctuary area and other defined sensitive Dredged Quality: NA grounds: Wetlands/River locations Disposal Location: NA banks Dredge disposal should be carried out at minimum distance of 100 m from bank Dredging & disposal should not be carried out during time & location of festivals 308 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 6.2 : Environment Monitoring Plan for Construction & Operation Phase S. Aspect Parameters to No of Standard methods Role & Responsibility No. be monitored sampling for sampling and locations & analysis Implement Supervision frequency ation Construction Period 1. Air Quality PM10, PM2.5, Three Fine Particulate Contractor IWAI & PMC (Ambient & SO2, NOx, CO Locations up Samplers for PM2.5 Stack)- wind and Respirable Dust terminal, lock downwind Sampler for & jetty sites direction PM10fitted with including Gaseous sampling project site. arrangements for Once in 3 SO2 and NOx, months CO analyser; 2. Surface Physical, River u/s & d/s Grab sampling and Contractor IWAI & PMC Water chemical and of the analysis by using Quality- biological proposed standard methods terminal, lock facility & jetty sites Once a month 3. Drinking Physical, Drinking water Grab sampling and Contractor IWAI & PMC water chemical and for labour analysis by using Quality- biological camps standard methods terminal, lock Once a month & jetty sites 4. Noise Level- Day time and Construction Noise meter Contractor IWAI & PMC terminal, lock night time noise labour camp, & jetty sites level (max, min construction & Leq levels) site and nearest habitation Once a month 5. Soil Quality - Soil texture, Construction Collection and Contractor IWAI & PMC terminal, lock type, site, labour analysis of samples & jetty sites Electrical camps and as per IS 2720 conductivity, debris disposal pH, site infiltration, Once in 6 porosity, etc., months 6. River Bed Texture, type, River bed near Collection and Contractor IWAI & PMC Sediment- Electrical sites of analysis of samples terminal, conductivity, terminals/locks as per IS 2720 lock, jetty pH, /jetty sites infiltration, Once in 6 porosity, etc., months and biological compounds 7. Green Belt- Plantation Green belt Survey, counting, Contractor IWAI & PMC terminal & survival rate area at site- recording & reporting lock site periphery of (jetty site if site and along green belt roads developed) Once in year 8. Soil Erosion- --- Upstream & Survey & Contractor IWAI & PMC terminal/lock downstream of observation; Extent & jetty site, civil and degree of site for river intervention erosion; Structures bed and sites and sites for controlling soil bank of river bank erosion protection protection/river 309 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 S. Aspect Parameters to No of Standard methods Role & Responsibility No. be monitored sampling for sampling and locations & analysis Implement Supervision frequency ation and sites of training works river training Six monthly structures development 9. Aquatic Phytoplankton, U/s and d/s of Plankton net of Contractor IWAI & PMC ecology- Zooplankton the civil diameter of 0.35 m, terminal/lock and species intervention No.25 mesh size 63 & jetty site, diversity index sites and and analysis by site for river location of river using standard bed and training methods. bank works/bank protection protection and sites of works river training Six monthly structures development 10. Integrity of --- locations of Survey & Contractor IWAI & PMC embankment existing & sites observation; Extent - locations of of proposed and degree of existing & sites for erosion; Structures newly embankments for controlling soil constructed construction erosion embankment along NW-1 s along NW- 1 Operation Phase 1. Air Quality PM10, PM2.5, Three Fine Particulate NABL IWAI (Ambient & SO2, NO2, HC Locations up Samplers for PM2.5 accredited Stack)- and CO wind and Respirable Dust Lab to be terminal, lock downwind Sampler for contracted & jetty sites direction PM10fitted with by IWAI including Gaseous sampling project site. arrangements for Once in 6 SO2 and NOx months CO analyser 2. Surface Physical, River u/s & d/s Grab sampling and NABL IWAI Water chemical and of the analysis by using accredited Quality- biological proposed standard methods Lab to be terminal, lock facility contracted & jetty sites Once in by IWAI quarter 3. Drinking Physical, Drinking water Grab sampling and NABL IWAI water chemical and for staff analysis by using accredited Quality- biological Once a quarter standard methods Lab to be terminal, lock contracted & jetty site by IWAI 4. Noise Level- Day time and Two locations: Noise meter NABL IWAI terminal, lock night time noise Project site & accredited & jetty sites level (max, min nearest Lab to be & Leq levels) habitation - contracted Once in by IWAI quarter 5. Wastewater Physical, Terminal site, -- NABL IWAI Management chemical and testing of accredited -terminals biological of sewage and Lab to be sewage and STP treated contracted 310 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 S. Aspect Parameters to No of Standard methods Role & Responsibility No. be monitored sampling for sampling and locations & analysis Implement Supervision frequency ation STP treated water by IWAI water Once in quarter 6. Plantation- Plantation Maintenance Survey, counting, IWAI IWAI terminal & survival rate of and survival recording & reporting lock site 70% loss of existing (jetty site if - Once in year green belt developed) 7. Soil Erosion- --- Upstream & Survey & IWAI IWAI terminal/lock downstream of observation; Extent & jetty site, civil and degree of site for river intervention erosion; Structures bed and sites and sites for controlling soil bank of river bank erosion protection protection/river and sites of training works river training Six monthly structures development 8. Aquatic Phytoplankton, U/s and d/s of Plankton net of IWAI IWAI ecology- Zooplankton the civil diameter of 0.35 m, terminal/lock and species intervention No.25 mesh size 63 & jetty site, diversity sites and and analysis by site for river location of river using standard bed and training methods. bank works/bank protection protection and sites of works river training Six monthly structures development 9. River Bed Physio- River bed near Depth Sampler IWAI IWAI Sediments- Chemical sites of terminal, Parameters terminals/locks lock, jetty /jetty sites Once in 6 months 10. Integrity of --- locations of Survey & IWAI IWAI embankment existing & observation; Extent - locations of newly and degree of existing & constructed erosion; Structures newly embankments for controlling soil constructed along NW-1 erosion embankment s along NW- 1 311 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 6.3 Training & Capacity Building S. Target Subject(s) Method Time Frame Basis for Costs No group and Estimation . Estimated Training Total Cost Material (INR) Preparati (INR or Rs) on 1 All Project Environmental Lectures cum Six monthly 2,00,000 12,00,000 Staff of EA Overview: interaction to be per involved in Environmental organized for training implementati Regulations, all the staffs and 6 on of the new regulations, involved in such project Project related EA trainings provisions of various Acts/ Guidelines, process and methodology for EIA / EMPs 2 Contractor Implementatio Workshops and Before 1,00,000 20,00,000 staff at site n of EMPs: Seminars beginning of per responsible Basic features the training 20 for of an EMP, implementati sites for 2 implementati Planning, on of each years on of EMP, designing and sub project PMC & PMU execution of and annually environmental after that mitigation and enhancement measures, monitoring and evaluation of environmental conditions – during construction and operation 3 Contractor Environmentall Workshops and Before 1,00,000 20,00,000 staff at site y Sound Site visits beginning of per responsible Construction the training 20 for Practices: implementati sites for 2 implementati Clean on of each years on of EMP, construction sub project PMC & PMU technology, and annually alternatives after that materials and techniques for construction, Waste Management and minimization in construction, pollution control devices and 312 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 methods for construction sites and equipment, Environmental clauses in contract documents and their implications, protection of flora and fauna, Environmental monitoring during construction 4 Contractor Monitoring Lectures, Before 1,00,000 20,00,000 staff at site Environmental Workshop and site beginning of per responsible Performance visits the training 20 for during implementati sites for 2 implementati Construction: on of each years on of EMP, Air, Water, Soil sub project PMC & PMU and Noise, tree and annually survival after that Monitoring requirement and techniques, Evaluation and Review of results, Performance indicators and their applicability, possible corrective actions, reporting requirements and mechanisms 5 Health & Emergency Mock drills, Before 1,00,000 40,00,000 Safe Preparedness, training, lectures beginning of per trainings, Health, Safety, the training 20 mock drills Risk and implementati sites for 2 for fire & Contingency on of each years earthquake Management sub project situation and and Disaster and six handling Management monthly after other that till the emergencies construction like floods, continues cyclones for contractor work force, environment 313 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 al specialist, health & safety officers and environment al specialists of PMU & PMC 6 Public Awareness Workshops and Before 1,00,000 40,00,000 /contractors‟ programmes trainings beginning of per workers with on the training 20 involvement environmental implementati sites for 2 of protection and on of each years environment measures being sub project al specialists implemented by and six of contractor, EA and their monthly after PMC & PMU role in that till the sustaining the construction measures taken continues including for noise pollution, air pollution, safety, soil conservation, and tree plantation, tree plantation and importance of tree loss prevention to minimize C-loss. 7 PMU, PMC Restoration of Lecture/Presentati Annually 1,00,000 20,00,000 and sites viz borrow ons (prior per Engineering areas, excavation of training 20 Staff of construction borrow area) sites for 2 Contractor. Camps, years DFO Occupational health and safety, management systems, tree plantation, Faunal protection and sustainability. tree plantation and importance of tree loss prevention to minimize C-loss Reporting Formats/proced ure 314 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 8 PMU, IWAI Long-term Workshops and Every six 1,00,000 40,00,000 Environmental seminars monthly per Issues in during training 20 Project operation sites for 2 Management: phase of years Designing and project implementing environmental surveys for ambient air, noise, vibration, biological and water quality surveys, data storage, retrieval and analysis, contract documents and environmental clauses, risk assessment and management, contingency planning and management and value addition Rescue and rehabilitation of River Ganges Dolphin Total Cost for Training 2,12,00,0 00 315 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Table 6.4 : Detail Break-up of Environment Management Budget Component Item Unit Quantity Rate Amount DESIGN AND CONSTRUCTION STAGE Technical support for Lump 1 Nos. 90,00,000 90,00,000 preparation of guidelines, bio- sum Technical diversity conservation plan for Support turtle and dolphin sanctuary and performance indicators Plantation in intervention sites No. of 25000 trees 500 Rs/tree 1,25,00,000 (terminal/jetty/locks)- trees Greenbelt provisional development Survival loss including No. of 25000 trees 100 Rs/tree 25,00,000 aftercare trees Drainage Provision of adequate Covered in project design and engineering cost -- Congestion surveillance and disposal of accumulated water Erosion & Embankment and River Bank Covered in project design and engineering cost -- Sedimentation Protection Measures Measures to River training works Covered in project design and engineering cost -- Reduce Bandalling dredging Catchment treatment requirement Lump sum Rs 1500000 for certification of each 90,00,000 Green buildings certification terminal sites for 6 locations. Measures to Plantation Cost of plantation covered under plantation head Reduce GHGs Any building improvement-part of construction cost Compensation against land As required for specific site and is included -- Land separately under SIA/RAP reports. Soil contamination protection Covered in project design and engineering cost -- (Septic tanks, grease taps Soil etc.) and rehabilitation of borrow areas/debris disposal site/plant site & labour camps Canopy for DG sets Covered in project design and engineering cost -- PPEs like ear plug Noise Timely maintenance of the machinery, equipment and vehicles Barricading the site Provision of storm water and Estimated @ RS 3,00,000 for construction site & 1,80,00,000 wastewater management 3,00,000 for labour camps (40 camp sites max. & system 20 construction sites) Construction of soak pits at Estimated @ RS 3,00,000 per site estimated 40 1,80,00,000 construction sites & labour camp sites max. & 20 construction sites Water camps Provision of clean drinking & 20,000 Per month for 20 months‟ average for 20 80,00,000 domestic water facility at sites labour camps and construction site 316 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 STP construction, Zero Including I project design and engineering costs - Discharge management (collection of storm water and its distillation and use, and rain water harvesting Air Quality - Water Sprayer / Watering for -- Covered in project design and engineering cost Dust Dust suppression Management Green belt development, dust during control system, mechanized construction material handling systems for Covered in project design and engineering cost material loading and unloading at terminal and vessel. Safety Appointment of Safety Covered in project design and engineering cost -- Officers Safety signage, fire-fighting Covered in project design and engineering and -- measures& water ambulance cost etc. Provision of trainings and -- 1,72,00,000 PPE to workers Health Health check-up camps for Camp 2 camp 4 lakhs/camp 3,20,00,000 construction workers s /year/site-20 sites for 2 years of construction period Enhancement Institutional Support for No 1 Lump sum 1,00,00,000 Measures Vikramshila Wild Life Sanctuary through reputed institutions Support for Fish Nurseries No 1 Lump sum 4,50,00,000 Development for enhancing Fish productivity, and training (@ Rs 1,50,00,000 per of fishermen from CIFRI or year for three years) similar institute of repute Bath shelter for women along No 305 shelter On average one shelter 6,10,00,000 NW-1 for maintaining privacy per village @ Rs 2,00,000 from vessel movement per shelter Support for cleanliness at No 1 Lump sum 1,00,00,000 Ghats and improvement of Ghats such as for Durga Chak Emersion Ghat Terrestrial and Aquatic Fauna 3,00,000 per season per site (Once in six month) 2,40,00,000 20 sites for 2 years Ambient Air Quality 50,000 per monitoring per site (Once in three 80,00,000 Environmental month) Monitoring in the 20 sites for 2 years construction Surface Water Quality 24,000 for upstream & downstream (Once in 1,15,20,000 phase month) 20 sites for 2 years Drinking Water Quality 12,000 (Once in month) 57,60,000 20 sites for 2 years 317 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Noise & Vibration 10,000 per monitoring (Once in month) 48,00,000 20 sites for 2 years Soil Quality, Erosion & 50,000 per Site (Once in six month) 40,00,000 Siltation and River Bed 20 sites for 2 years Sediment SUB TOTAL (DESIGN AND CONSTRUCTION 310280000 STAGE) 31.03 Crores OPERATION STAGE Erosion Visual Check Lump To be part of Regular maintenance and - Control and Sump operation costs landscaping Green buildings Covered in project design and engineering cost -- Modern designed vessels complying with MARPOL for Measures to emissions Reduce GHGs Adoption of alternate energy options like solar power, LNG based vessels as possible Ambulance equipped with Lump Lump sum provision of Rs 16800000 per 6,79,00,000 requisite emergency medical aid Sump year (@ Rs 2400000 per site for 7 site for Emergency 3 years, one doctor and one paramedical Preparedness: facility, First Aid Facility, Fire- officer and one driver per site) +1,75,0000 Accident fighting Equipment, Safety (onetime costs of ambulance and other Response Trainings, Mock Drills etc. requirements @ Rs 25,00,000 per site for 7 sites) STP Operation, rainwater Lump To be part of Regular maintenance and 2,16,00000 harvesting management and Sump operation costs Waste Water Management maintenance Lump sum provision of Rs 1200000 per site per annum for 6 sites for 3 years Maintenance of Storm water Lump To be part of Regular maintenance and - drains Sump operation costs Storm Water Management maintenance of Storm water (provision made under waste water System storage ponds and dump management head) ponds Collection, segregation and Lump To be part of Regular maintenance and - Waste disposal of municipal waste, Sump operation costs Management hazardous waste (used oil) System and dredged soil Terrestrial and Aquatic Fauna 3,00,000 per season per site (Once in six month) 3,60,00,000 including surveillance audit 20 sites for 3 years Ambient Air Quality 50,000 per monitoring (Once in six month) 60,00,000 20 sites for 3 years Surface Water Quality 24,000 for upstream & downstream (Once in 57,60,000 Monitoring of quarter) 20 sites for 3 years performance Ground Water /Drinking Water 28,80,000 12,000 (Once in quarter) 20 sites for 3 years indicators Quality Noise & Vibration 10,000 per monitoring (Once in quarter) 20 sites 24,00,000 for 3 years Soil Quality, River Bed 50,000 ((Once in six month) 60,00,000 Sediments, Soil Erosion & 20 sites for 3 years Siltation, Integrity of embankments 318 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 SUB TOTAL (OPERATION PHASE) 1,48,540,000(1 4.85 Cr) TRAINING and AWARENESS Training Environmental training & - - Included in overall NW-1 40,00,000 awareness Project Budget ESTABLISHMENT AND SYSTEMS Establishment Supervision Consultant - - Included in overall NW-1 - (environment and Social) Project Budget Construction Stage (Site - Included in overall NW-1 - Environmental officer) Project Budget Operation Stage - - Included in overall NW-1 - Project Budget Management Adoption of EHS 1 1 Lump sum 50,00,000 Systems management systems Management Information and 1 1 Lump sum 75,00,000 tracking system SUBTOTAL (ESTABLISHMENT & TRAINING and MANAGEMENT SYSTEM) 1,65,00,000 SUB TOTAL (Construction, and Operation and mobilization) 450258000 45.025 Cr CONTINGENCIES @ 5 % on total Environmental Costs 2,37,66,000 Or say 2.38 Cr GRAND TOTAL (in Rs) 499086000 Or say 49.91 Cr Or say US$7.34 Mn (1US$ - INR 68) Table 6.5 : Environmental Budget of Planned Civil Interventions Civil Intervention Amount (Rs in INR)-Crores Varanasi Terminal 0.10029 Farakka Lock 1.37466 Haldia Terminal 1.20246 Sahibganj Terminal 1.64136 319 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Chapter 7. SUMMARY, CONCLUSIONAND RECOMMENDATIONS 7.1. Summary and Conclusions Jal Marg Vikas Project involves navigation capacity augmentation of the NW-1 so as to ensure the navigation through IWT mode throughout the year in entire NW-1. NW-1 is natural waterway, extends from Haldia (Sagar) to Allahabad and spans 1620 km crossing the states of Bihar, Jharkhand, Uttar Pradesh & West Bengal. Project area includes entire reach NW-1 (Haldia to Allahabad) including the areas proposed for development of project related facilities & infrastructure, i.e. terminal sites, lock site, Ro-Ro jetty sites and sites for other planned development. NW-1 stretch traverses through various major cities and towns which are well connected by roads and railways. Developments proposed under Jal Marg Vikas project includes maintenance of LAD in navigation channel (3 m from Haldia to Barh, 2.5 m from Barh to Ghazipur and 2.2 m from Ghazipur to Varanasi), development of navigation infrastructure such as navigation aids, terminals (6 nos.), ro-ro crossings (5 nos.)/locks (1 no.), procurement of barges/dredgers and other necessary equipment, development and implementation of river information system, treatment of navigational hazards and carrying out bank protection and river training works at required locations. Studies were carried out by survey consultant, existing cargo movement across the stretch of NW-1 through road & rail is 121426130 tonnes. Forecasted cargo studies are carried out by the survey consultant and cargo generation potential across NW-1 (Haldia to Varanasi) by year 2045 is expected to be 4,80,11,367 tonnes. The project being of large spatial extent, is planned to be developed in phases. At present planning has been carried out at 3 terminal sites, i.e. at Sahibganj, Varanasi and Haldia. Sahibganj, Varanasi and Haldia terminal are designed to handle the cargo of 2.24 MTPA, 0.54 MTPA and 3.18 MTPA respectively for phase I depending on available infrastructure. Navigation channel of 45 m width is planned to be maintained from Haldia to Varanasi stretch through dredging between Haldia and Varanasi. No dredging beyond Varanasi is planned to be undertaken at present. Dredging quantity of app. 14.85 million cum is estimated to be undertaken between Haldia and Varanasi to ensure year round navigation. This also includes the dredging quantity to be undertaken at the terminal sites. Major dredging requirement is anticipated at Haldia terminal only. For purpose of dredging, 12 nos. of dredgers are estimated to be required. CSD along with agitation dredgers and backhoe dredgers are proposed to be used for carrying out dredging. Dredged material will majorly be disposed within the river and will be taken to land for disposal, if found to be contaminated. Baseline study has been carried out in the project area to study the existing conditions of environmental and social parameters at site. The whole NW-1 (Allahabad to Haldia) falls within a relatively flat terrain of the Indogangetic plain. The elevation within the 10 km area of the NW-1 stretch ranges between 321 m to 1 m. highest elevation was observed at Sahibganj area (Jharkhand) that is because of small hills present in this area. Land use within the 10 km Radius of the NW-1 is majorly dominated by agricultural land. The predominant wind direction in all IMD stations located along NW-1 is from North and Northwest direction in winters and South and Southeast direction during rest of the season. The wind speed in the area was mostly ranges between 1.9 km/hour at Patna IMD and maximum of 8.7 km/hour at Kolkata IMD for all the months of a year. December and January constitutes winter months with daily mean minimum temperature of around 9.1 0C at Patna (IMD Station) and daily mean maximum temperature of around 26.90C at Kolkata. April and May are the hottest months with daily mean maximum temperature varying around 40.40C at 320 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 Varanasi and daily mean minimum temperature around 240C at Malda. Relative humidity ranges between 25-84%. The annual total rainfall in all IMD stations (representing respective city/towns) ranges between 1000.3 mm at Varanasi and 1728.5 mm at Kolkata. PM10 values in all locations are within the specified limit of 100 g/m3 except at Varanasi, Patna and Howrah location. All value of PM2.5 is within the specified limit of 60 g/m3 except Varanasi, Patna and Howrah locations. The observed SO2 and NOx level was found within the national Ambient Air Quality Standard. Carbon Mono-oxides was detected in few locations i.e. Haldia, Howrah, Patna and Varanasi and is found within the national Ambient Air Quality Standard. Ambient noise levels of the entire NW-1 stretch are within the prescribed National Ambient Noise Quality Standard for respective residential and commercial category at all the monitored locations. The Physico-chemical characteristics of the ground water samples collected for study purpose were in good agreement with IS:10500 permissible limits except TDS & total hardness values at Haldia, Sahibganj, Howrah & Kolkata. As is found to be present in ground water of Bhagalpur & Munger but in low concentration. As per surface water quality monitoring, river water quality observations reflect that water quality meets with BDU Class D Criteria of CPCB barring few parameters PH, DO which meets A class criteria. Metallic and pesticide level is within prescribed limit of Drinking water standard. Most of the NW-1 stretch is dominated by alluvial soil type. The texture of soil along NW-1 stretch is sandy clay and clay loam type. The analysis reflected that the soils are generally neutral to slightly alkaline nature. Overall soil along the NW-1 area is of moderately fertile. The concentration level of heavy metal in river bed sediments was found low in concentration and within acceptable limit as per standard (Criteria for Off- Shore Dumping of Dredged Material, USA) except cadmium which is slightly above the USA standard at some location in UP stretch that may be due to industrial effluent discharge in this section. Pesticide concentration in all sample were found far below the USA criteria. The pesticides presence is on expected line as these are predominantly used for various agriculture applications. There are three notified wild life sanctuaries (Kashi Turtle Sanctuary, Varanasi, UP, Dolphin Sanctuary, Bihar and Hilsa Sanctuary, WB located within the NW-1 stretch. There are 6 nos. of important bird areas including Udhwa bird sanctuary, located within 10 km area of the NW-1 stretch. Gangetic dolphin (Schedule-1) and fresh water turtle species are present in the river stretch of the NW-1. On the basis of the baseline data and associated project activities, impacts of the project activities on social and environmental parameters were analysed. It is predicted that project will have impact on air, water, noise, soil, drainage, hydrology and ecology and socio- economy of the area. However, mitigation measures and management plans are proposed for mitigating the anticipated negative impacts of the project. Environment management plans are prepared to prevent/control/abatement of pollution resulting from project activities in different stages. Environment management plan defines the institutional framework responsible for implementation of EMP, environment monitoring plan and environment management budget. As per the EIA study, it is concluded that the development of project “Jal Marg Vikas” is beneficial for the economic development of country by increasing the freight transportation and is beneficial for environment by shifting freight load from road/railway to waterways and cutting down carbon emission. However, project development will have many impacts on social and environmental parameters. Mitigation measures and management plans are prepared in line with impacts anticipated. If the proposed mitigation measures are taken and 321 Consolidated Environmental Impact Assessment Report of National Waterways-1 : Volume 3 environment management plan is implemented, anticipated negative impacts of project can be reduced and benefits can be further enhanced. The project will overall bring development in the area. Recommendations: It is recommended that IWAI should provide desired resources for implementation of EMPs and ensure that EMPS are effectively implemented. It must institutionalize the system of period monitoring against the defined performance indicators and establish the system of half yearly reporting. It should also develop its own EHS guidelines and protocols for managing all the projects uniformly from environment health and safety prospective. System should be self-responding in nature for initiating timely corrective and preventive action if any required for the protection of environment. Adequate training shall be imparted as proposed under environmental management plan to enhance the capability of concerned EA officials. Awareness programme for contractor and workers shall also be organised for effective implementation of EMP. IWAI should adopt the measures for reduction of dredging. Dredging management plan including compliance to defined restriction for dredging and disposal of dredged material close to cultural and aquatic sensitive locations shall be followed. It should adopt the concept of green building and energy efficient terminals. The GRIHA guidelines shall be adopted for terminal design. All terminals shall be designed with zero waste discharge concept to prevent pollution to river Ganga. Similarly, all barges shall have integration of zero pollution concept. All consequent waste from the vessels shall be managed at terminals and barge maintenance facilities. All possible measures shall be adopted for GHG emission reduction including exploring the feasibility of fuel switch to LNG operated vessels. It should take all measures for conservation of aquatic sanctuaries including reduction of impact on aquatic fauna. All possible efforts shall be made to minimize the impact considering the findings of CIA, Critical Resource Basin Study, Consolidated EIA Study and proposed conservation studies. IWAI should facilitate development of conservation plan for Dolphin, Turtle and sensitive species in NW-1 with the help of reputed institutions. IWAI should develop all facilities for handling emergencies as part of emergency response plan.IWAI shall develop Indian Waterways Operations Responsible Carrier Programme on the line of American Waterways Operators Responsible Carrier Programme for accident and pollution free waterways operations The EIA was carried out while the feasibility study was being prepared and initial finding of DPR preparation stage. Therefore, the detailed engineering design was not available. In this regard, any major changes during detailed design, or any major additional work other than the proposed project activities will require updating this environmental assessment. Also it may have to be sent to World Bank for concurrence before works commence. 322