Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized MAKING FIJI CLIMATE RESILIENT Assessment Climate Vulnerability Photo: Fijian Government PREPARED BY THE GOVERNMENT OF THE REPUBLIC OF FIJI WITH THE SUPPORT OF ACP-EU Natural Disaster Risk ReducƟon Program An iniƟaƟve of the African, Caribbean and Pacific Group, funded by the European Union and managed by GFDRR Photo: Alana Holmberg/World Bank. 2 Climate Vulnerability Assessment Foreword 10 Acknowledgements 14 Abbreviations 16 Executive Summary 18 Vulnerability in reality: Our home, our people 30 1. The Context: Fiji and Climate Change 40 2. The Objectives: Fiji’s Development Plan and Objectives 44 3. The Threats: Natural Hazards and Long-Term Climate Change 46 3.1 Fiji faces a high and increasing level of disaster risk 47 3.1.1 Past events demonstrate the high risk level in the country 47 3.1.2 Many natural hazards are expected to become more intense or more frequent 49 3.1.3 High asset risk is explained by large exposure and high vulnerability in various sectors 56 3.1.4 Despite the population’s resilience, the risk to livelihoods and well-being is high and natural hazards keep people in poverty 66 3.1.5 Managing hazards requires actions in multiple sectors to avoid unacceptable risk to development objectives 80 3.2 Climate change creates long-term threats to Fiji’s development plans 82 3.2.1 Sea-level rise will multiply coastal risks and threaten some settlements in the absence of major investment 82 3.2.2 Impacts on agriculture and food security threaten a vulnerable portion of the population 83 3.2.3 Health issues will change as a result of development and climate change 89 3.2.4 Tourism plays a critical role in Fiji’s economy and is subjected to multiple stressors 93 3 4. The Options: Five Major Intervention Areas to Adapt to Climate Change 96 4.1 There is a window of opportunity to ensure serviced land and housing in safe areas 100 4.1.1 Appropriate land-use planning is critical for safer urban development, and safe areas can be identified for future development 101 4.1.2 The residential land shortage should be addressed in a resilient and sustainable manner 104 4.1.3 Informal settlements should be upgraded, taking into account current and future risks, where security of tenure can be successfully negotiated with the landowner 104 4.2 Strengthened infrastructure will help to meet the needs of the Fiji economy and population 105 4.2.1 Large investments in flood risk management and coastal protection measures will be required 105 4.2.2 The transport sector has the largest investment needs for building the country’s resilience 107 4.2.3 Strengthening the resilience of the energy sector will require a range of critical investments 110 4.2.4 Water sector investments are needed to protect assets against natural hazards 113 4.2.5 Investments in health and education infrastructure are needed to strengthen existing assets and construct new, robust facilities 115 4.3 Support for agriculture and fisheries development should be smart for climate, the environment, and the economy, now and for the future 116 4.4 Conservation policies can protect assets and reduce adaptation costs 117 4.5 The government needs to build socioeconomic resilience, take care of the poor, and keep economic growth inclusive 118 4.5.1 Improving early warning effectiveness and preparedness will save lives and protect assets 118 4.5.2 Social protection can be further strengthened to make the population better able to cope with shocks, and insurance-based solutions can be explored 119 4.5.3 Improving the health care system is a development priority 122 4.5.4 Targeted gender interventions and specific measures to protect vulnerable populations can complement actions in different sectors 123 4 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 5. The Foundations: Evidence-Based Decision Making and Well-Managed Public Finances 124 5.1 Evidence-based decision-making for future resilience requires additional data collection and analytical work 125 5.1.1 Data collection and analytical work are the foundation for efficient action 125 5.1.2 Asset management systems could improve the efficiency of infrastructure maintenance, cut costs, and increase resilience 127 5.2 Development under climate change requires well-managed public finance and significant investment capacity 127 5.2.1 Various tools can be mobilized to manage economic shocks and contingent liabilities 128 5.2.2 Meeting infrastructure investment needs will require private sector participation and increased international financing 132 5.2.3 Climate finance could support Fiji’s adaptation and resilience efforts 133 6. Conclusions: The Need for Global Action 134 Appendix 1. List of Priority Interventions to Strengthen Resilience 136 Appendix 2. List of Contributors 156 References 160 Glossary 166 Executive Summary 5 Photo: Alana Holmberg/World Bank. 6 Climate Vulnerability Assessment TABLES ES.1: Effect of climate change on natural disasters’ impact on poverty 22 ES.2: Summary of identified sectoral needs over the next 10 years to strengthen resilience of Fiji 27 3.1: Direct impact of major disasters, 1970–2016 48 3.2: Estimated losses from tropical cyclones 50 3.3: Estimated losses from pluvial and fluvial floods 52 3.4: Monthly rainfall changes for the cyclone season in 2050 and 2100 relative to present day 53 3.5: Percentage increases in median flooded area at Tikina level relative to present-day baseline 53 3.6: Increase in asset losses from floods as a result of climate change 53 3.7: Transport-related economic losses from flood events 59 3.8: Percentage of assets flooded by a one-in-five-year flood event 60 3.9: Percentage of asset value located in the flood zones for the 5-year and 100-year return period flood and various flood depths 63 3.10: Support provided under Phase 1 of the Fiji government’s Help for Homes initiative for affected households, based on the losses they experienced 70 3.11: Changes to the Social protection system after Tropical Cyclone Winston 71 3.12: Scalability challenges for social protection programs 72 3.13: Impact of tropical cyclones and fluvial and pluvial losses on poverty 80 3.14: Magnified negative impact of natural disasters on poverty as a result of climate change 81 3.15: Expected impact of climate change on Fiji crops, livestock, and forestry 86 3.16: Expected impact of climate change on Fiji fisheries 87 3.17: Expected impacts of climate change on specific agricultural products 88 4.1: Summary of identified sectoral needs to strengthen resilience of Fiji over the next 10 years 100 5.1: Estimation of contingent liabilities of the government of Fiji, including tropical cyclones 129 7 FIGURES ES.1: Human settlement patterns in Fiji. 19 ES.2: Percentage of Fiji population who experienced shocks during the 12 months before the Household Income and Expenditure Survey (HIES) survey 2013–14. 21 ES.3: Critical road segments in Viti Levu. 26 1.1: Climate change affects natural hazards in Fiji as well as exposure, vulnerability, and socioeconomic resilience. 43 3.1: Percentage of Fiji population who experienced shocks during the 12 months before the HIES survey 2013–14. 49 3.2: Human settlement patterns in Fiji. 55 B3.1.1: Critical road segments in Viti Levu and Vanua Levu. 58 3.3: Types of water sources used for urban water systems. 61 3.4: FEA’s power infrastructure, as of December 31, 2016. 62 3.5: Health and education facilities in Fiji. These play a key role during and after disaster, either as shelter or to deliver health care. 64 3.6: The distribution of asset losses due to tropical cyclones and floods for Fiji. 65 3.7: Multiple coping mechanisms used by households in Fiji. 67 3.8: Percentage of the population who use the formal banking system in Fiji. 68 3.9: Increase in beneficiary numbers under the core social protection programs. 69 3.10: Government budget for social protection programs. 69 3.11: Percentage of top-up assistance spent on various items. 71 3.12: Impact of 100-year tropical cyclone event on Ba Province. 78 3.13: Effect of a 100-year tropical cyclone on the income distribution of the country. 78 3.14: Share of tourism in Fiji’s economy, in terms of GDP and employment. 92 3.15: Projected change in tourism revenue due to climate change by 2030. 94 4.1: Increase in fiscal spending related to resilience and climate change. 97 8 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT B4.1.1: Digital elevation model data for Nadi. 5.1: An illustrative mix of instruments to manage 103 contingent risk in Fiji B4.2.1: 130the resilience of the road network Structures given priority in upgrading to increase in Vanua Levu and Viti Levu. 108 B4.8.1: Effect of different levels of disaster response on well-being losses in Ba Province after a 100-year tropical cyclone event. 121 B4.8.2: Financing needs from additional social expenditures at various return periods, to ensure either a response similar to the one following Winston or a wider and stronger response. 121 B5.1.1: Funding of government explicit contingent liability (loss to public assets and infrastructure). 131 BOXES 3.1: Transport infrastructure criticality analysis 58 3.2: Natural hazards and gender-based violence 75 3.3: The socioeconomic resilience model 76 3.4: Case study: Multiplier impacts of TC Winston (2016) on fisheries activities 85 4.1: Identifying safe areas and informing risk-sensitive land-use planning through risk analyses 102 4.2: Criticality analysis to identify interventions in the road network that could reduce service losses 108 4.3: Opportunities for private sector engagement in the transport sector 110 4.4: Aligning adaptation needs with mitigation commitments and the Nationally Determined Contribution 112 4.5: Opportunities for private sector engagement in the energy sector 112 4.6: Opportunities for private sector engagement in the water sector 114 4.7: Opportunities for private sector engagement in education and health 114 4.8: Investigating a wider and stronger scalable component with the PBS 120 Executive Summary 9 FOREWORD Photo: Fijian Government 10 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The Fijian Government led the preparation of Fiji’s first- On top of the investment we’ve already poured into ever Climate Vulnerability Assessment (‘CVA’), with support adaptation efforts, the report highlights five priorities over from the World Bank, to put facts and numbers behind the the next ten-year period, with a total estimated investment climate experiences of the Fijian people. The results of requirement of FJD9.3 billion. These include the design and the CVA reinforce what we already know to be true—that construction of more resilient towns and cities, with a focus the situation we face is urgent and the world needs to on developing safe greenfield sites; improving infrastructure immediately raise its ambition to tackle this great threat. services; support to climate-smart agriculture and Further, the CVA shows us that vulnerable nations will need fisheries; the conversation of ecosystems and the natural much greater access to financing to properly adapt to a environment to protect development assets; and building changing climate. up our overall socioeconomic resilience by caring for those most vulnerable and promoting inclusive economic growth. The Climate Change Division within our Ministry of Economy directed a multi-sector task force that brought The implementation of these interventions will not be together expertise from across Government to integrate without challenges, but it is possible with well-managed adaptation and risk management in carrying out this public finances and informed decision-making, along with assessment. Through this approach, the task force has put support from the international community – a key agenda forward a number of strategies to enhance Fiji’s resilience item of the Fijian COP23 Presidency led by our Honourable to geophysical and climate-related hazards. Prime Minister. The CVA will inform Fiji’s development planning and As COP23 President, we understand this is not the time to investment decisions for years to come, and provides a point fingers or lay blame; we are here to listen, learn, and specific blueprint that quantifies the resources necessary share the experiences of ordinary Fijians. Only together to climate-proof Fiji, giving us a full account of the threat can we take on this great challenge facing humanity, only that climate change poses to our national development. together can we drive climate action that spares our planet from the worst effects of climate change, and only together The effects of climate change are wide-reaching, touching can we build resilience so that climate change does not nearly every aspect of our national development. And it limit Fiji’s development, nor the development of any climate- is ordinary men and women in Fiji and in every climate- vulnerable nation. vulnerable nation who are already experiencing the harsh reality of climate change. The CVA indicates that in Fiji alone, we are looking at average losses of more than FJD500 million annually due to floods and tropical cyclones, representing five per cent of our GDP. The Fijian Government stands ready to do whatever is necessary to keep our development sustainable by boosting the resilience of Fiji and the Fijian economy, but we need the resources and expertise necessary to make that happen. Hon. Aiyaz Sayed-Khaiyum Attorney-General and Minister responsible for climate change Foreword 11 The Paris Agreement, adopted in December 2015, commits This report, prepared by the Government of Fiji with support the world to taking action to limit global temperature rise from the World Bank, and financed by the Global Facility for to below 2oC by the end of the century. But Paris is also a Disaster Reduction and Recovery, is designed to show how global commitment to help build resilience and adaptation countries, and SIDS in particular, can develop an adaptation capacity among vulnerable countries – especially those and resilience plan drawing on extensive data and analysis most at risk from climate change, such as Small Island of the risks and threats and integrated with countries’ Developing States (SIDS). existing development plans and objectives. It builds on the significant efforts by the Government of Fiji over the last 10 The global community has witnessed the major disasters years to collect data and implement programs to reduce that recently devastated the Caribbean region, as well as and prepare for climate and disaster risks. those in Fiji in March 2016 and Vanuatu in February 2015. Lives were lost, millions of people were left in need of The report is particularly impressive in its use of innovative humanitarian aid, and the economic and social costs were analyses and methodologies. For instance, it investigates enormous and are still being counted. As climate change the impact of natural disasters on poverty and inequality, progresses, disasters like these are becoming all too so that the government can make risk management common, and require that we act now, in a concerted way, decisions that are informed by poverty impacts and not to help countries and communities prepare for, cope with, just based on aggregate costs. Its analysis of the road and recover from shocks – and in the process build long- network can help to ensure that available maintenance term resilience. resources are concentrated on the most important bridges and road segments. And it proposes an adaptation and Almost every country in the world has now submitted resilience plan with cost estimates and a comprehensive national climate targets – the Nationally Determined list of interventions that can help connect the adaptation Contributions, or NDCs – as part of the Paris process. For challenge to investment needs and financing options. many vulnerable countries, adaptation to climate change is necessarily a major focus of their NDCs. These also provide This report will also help governments and development a roadmap for support by partners such as the World Bank partners, such as the World Bank Group, work together Group to help countries develop capacity to adapt and build to better understand climate risks, identify priorities for resilience. As countries revise and update their NDCs, an adaptation and resilience, and integrate climate change important dimension of this support will be through climate into development planning. For us at the Bank Group, it vulnerability assessments and the integration of climate and will serve as a resource to help identify how we can best disaster resilience into development plans. support efforts by Fiji and other countries towards more resilient development. Part of the challenge for all countries is to identify the major threats posed by climate change to their development I want to congratulate the Government of Fiji on the objectives. What are the main concerns? Damage to publication of this important report. I fully expect that livelihoods and infrastructure caused by tropical storms? other countries and SIDS in particular will benefit from The impact of higher temperatures on agriculture yields? the approach and findings laid out here. The threat of sea level rise to coastal cities and harbors and fresh water sources? A good understanding of these threats can help set priorities for resilience actions, and funding and resources can be concentrated where they will have the maximum impact on people’s well-being and countries’ development outcomes. Victoria Kwakwa Vice President, East Asia and the Pacific The World Bank 12 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Photo: Alana Holmberg/World Bank. Foreword 13 ACKNOWLEDGEMENTS Photo: Alana Holmberg/World Bank. 14 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The successful completion of this report within a short time frame is due to significant effort from a large number of people. We would like to acknowledge them here and in the list of contributors at the end of the report. The report has been driven by the government of Fiji and The World Bank contributed significant resources to the supported by the World Bank Group. It would not have been writing of this report, with over 40 staff members providing possible without the dedication and support of the various input. The World Bank team was co-led by Denis Jordy, ministries and departments of the government of Fiji, which Stephane Hallegatte, Habiba Gitay, Keiko Saito and Simone provided the time of their staff and their accompanying Esler. Considerable support was also provided by Katherine expertise. Their drive and dedication underpins this Baker, Andrew Hurley, Julie Rozenberg, Brian Walsh, and government-led approach to climate risk management the Global Facility for Disaster Reduction and Recovery and is a model for how government entities can work in (GFDRR). The communications component of the climate coordination for a more resilient Fiji. vulnerability assessment was led by Tom Perry with support from Alana Holmberg, Kara Mouyis, Arieta Rika, and the Special acknowledgment is extended to the Attorney- virtual reality production company S1T2. The report was General and Minister for Economy, Public Enterprises, designed by Heidi Romano, with pacific design elements Civil Service and Communications, the Honorable Aiyaz by Lainee Fagafa and edited by Anne Himmelfarb. A full Sayed-Khaiyum, for his leadership, support, and cooperation list of contributors is included in Appendix 2. throughout the assessment. The staff at the Ministry of Economy, particularly Mr. Nilesh Prakash, Director of To all those who contributed their time and knowledge, Climate Change, Mr. Vineil Narayan, Ms. Alisi Vosalevu, the joint government of Fiji–World Bank team expresses and Mr. Mesake Semainaliwa, contributed significantly to its deepest gratitude and appreciation. the analysis and coordinated the work input from across government ministries and agencies. Acknowledgements 15 ABBREVIATIONS Photo: Alana Holmberg/World Bank. MAKING FIJI CLIMATE RESILIENT AFL Airports Fiji Limited MoE Ministry of Economy CIU Construction Implementation Unit MoEHA Ministry of Education, Heritage and Arts CPA Care and Protection Allowance MoHMS Ministry of Health and Medical Services Cat DDO Catastrophe Deferred Drawdown Option MoIT Ministry of Infrastructure and Transport DoE Department of Energy MWCPA Ministry of Women, Children and Poverty Alleviation DTCP Department of Town and Country Planning NCD Noncommunicable disease ECAL Environment and Climate Adaptation Levy NDC Nationally Determined Contribution FAO Food and Agriculture Organization of the United Nations NDMC National Disaster Management Council FEA Fiji Electricity Authority NDMO National Disaster Management Office FLMMA Fiji Locally Managed Marine Area NEOC National Emergency Operations Centre FMS Fiji Meteorological Service NGO Nongovernmental organization FNBC Fiji National Building Code PAFCO Pacific Fishing Company FPNF Fiji Provident National Fund PBS Poverty Benefit Scheme FRA Fiji Roads Authority PCCAPHH Piloting Climate Change Adaptations to Protect Human Health GBV Gender-based violence PCRAFI Pacific Catastrophe Risk Assessment GCM Global circulation model and Financing Initiative GDP Gross domestic product SMEs Small and medium enterprises GFDRR Global Facility for Disaster Reduction SHS Solar home systems and Recovery SOE State-owned entity GTM Global Tsunami Model SOP Standard operating procedure HIES Household Income and Expenditure Survey SPS Social Pension Scheme IPP Independent power producer Abbreviations 17 EXECUTIVE SUMMARY Photo: Alana Holmberg/World Bank. 18 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Fiji is a small island nation in the South Pacific Ocean with a population of about 900,000. The country has an area of 18,000 km2 spread over Natural hazards and climate change represent a major 332 islands, of which about 110 are inhabited. Most of the obstacle to the achievement of these objectives. population lives on two large islands, Viti Levu and Vanua Tropical cyclones have already affected GDP growth in a Levu (figure ES.1). significant manner. Tropical Cyclone (TC) Winston in 2016 caused damages amounting to F$2 billion, or 20 percent Fiji faces significant development challenges, and the of GDP. The cost of natural hazard–induced disasters government has set ambitious development objectives to is likely to increase over the coming decades, driven by address them. Economic growth in Fiji has been relatively socioeconomic trends—such as increasing urbanization slow in the last decades. Recently, the 20-year and 5-year and concentrations of development along coastlines— National Development Plan was prepared to respond to this and climate change. In addition, other parallel impacts of situation; its ambitious objectives are to more than double climate change, such as sea-level rise, ocean acidification, the real gross domestic product (GDP) per capita by 20361 increased risk of flood or the spread of vector-borne and to provide universal access to all services, including diseases into new areas, may also affect development housing, electricity, clean and safe water and sanitation, outcomes and options. high-quality education, and health care. 1. The plan aims at quadrupling GDP per capita in nominal terms, assuming inflation of 2 to 3 percent. FIGURE ES.1: Human settlement patterns in Fiji. Source: World Bank team. Executive Summary 19 This report seeks to inform development planning and This methodology is replicable and can support the design investment decisions in Fiji. It pilots a methodology that and update of the adaptation components of the Nationally can be replicated in other countries to assess climate and Determined Contributions of the Paris Agreement. disaster vulnerability and design climate change adaptation This report provides a useful approach for performing a and risk management plans and strategies. vulnerability assessment that starts from one country’s national development plans and objectives, and that enables The report aims to quantify and enhance the the preparation of adaptation plans. This approach could understanding of the threat that natural hazards and be used by other countries in the region and elsewhere, climate change pose to the country’s Development Plan including but not limited to other island states. and objectives. In analyzing the climate vulnerability of Fiji, this study considers two dimensions: (1) the physical threats The report includes four key messages: to the country created by current climate variability and climate change, including shocks such as tropical cyclones and floods as well as longer-term stressors like sea-level MESSAGE 1: rise or temperature impacts on health; and (2) development needs and opportunities of the country, as described in the 20-year and 5-year Development Plan. The analysis Fiji is already exposed to large natural identifies threats that could jeopardize Fiji’s development risks, and climate change is likely needs and opportunities, and the interventions that could to amplify these risks, threatening minimize these threats. the development objectives of the An innovative approach has been used to undertake the analysis presented in this report, combining a cross- country’s Development Plan. sectoral climate vulnerability assessment and preparation of integrated adaptation and disaster risk management plans. The methodology combines sectoral analysis Fiji is especially vulnerable to floods and tropical cyclones, considering multiple dimensions of climate vulnerability— which already have significant impacts on the economy including infrastructure, governance and financing, and population of the country. As shown in figure ES.2, socioeconomic aspects and population characteristics, many Fijians have experienced natural disasters, in and the environment. When possible, sector-level studies particular tropical cyclones and floods. have been integrated into a national-level assessment, with The average asset losses due to tropical cyclones and risks measured in monetary terms and through their impact floods2 are estimated at more than F$500 million per on poverty. Analysis at the sector level has contributed to year, representing more than 5 percent of Fiji’s GDP.3 the identification of priorities for action within each sector, Much larger losses are experienced after rarer events; for enabling the creation of a resilience and adaptation plan instance, a 100-year fluvial flood could cause asset losses that has been assessed in terms of investment needs in excess of F$2 billion. Asset losses are particularly large and recurrent expenditures. for the transport sector and for buildings (46 percent and The analysis is limited by the availability of data and 44 percent of the total respectively, excluding agricultural models, the large uncertainty in future climate change, asset losses). Other natural hazards—such as drought and and the existence of multiple approaches to cope with landslides—could not be quantified in this study but add to each issue. As a result, some interventions cannot be these risks. For instance, the economic losses caused by described or evaluated precisely, and the report sometimes Fiji’s 1998 drought were estimated at between F$275 million recommends more work or in-depth analysis of some of and F$300 million. those interventions. This additional work could be technical Socioeconomic resilience, an indicator of the population’s (e.g., model development or data collection) or institutional ability to cope with and recover from disaster losses, is (e.g., consultation with stakeholders, policy dialogue, or strengthened for Fiji by relatively low poverty levels, high risk-informed decision making). In some other cases, financial inclusion, and strong social protection systems. available information is sufficient to identify important Among the 117 countries analyzed in the World Bank opportunities. Considering the scope and schedule of Unbreakable report, Fiji is ranked 71st, with a social the present study, however, the interventions recommended resilience indicator of 56 percent.4 in this report would all require specific additional work before implementation. 20 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Cyclones Floods Death or illness of household member/income earner Agricultural shock Employment Shock Other Theft of assets Conflict/violence Landslide/erosion Fire 0% 10% 20% 30% 40% 50% 60% 70% Other countries’ resilience ranges from 21 percent (in Haiti) to 81 percent (in Denmark), with most small islands FIGURE ES.2: between 40 percent and 55 percent. This analysis Percentage of Fiji population who experienced shocks accounts for the fact that if a shock triggers a reduction in during the 12 months before the Household Income and Cyclones income to an individual or family, the same reduction in Expenditure Survey (HIES) survey 2013–14. Cyclones Floods implications for people at different income has very different and floods are the most common of all climate and non- income levels.of Death or illness While the well-off can reduce nonessential household climate-related shocks. member/income earner spending and use savings or borrowing to make up for the Agricultural shock Source: World Bank team estimates from Fiji Bureau of Statistics, losses, poorer people may be forced to cut back on HIES 2013–14. essential expenditures Employment Shock like food, housing, education, or health care. To assess the “well-being losses” caused by a Other disaster, the analysis accounts for differences in coping capacity (e.g.,Theft of assets access to savings or social protection) and gives a higher value to Conflict/violencedrops in consumption5 when they affect poor people than when they affect richer individuals.6 2. The flood figure includes only losses from fluvial and pluvial floods; Landslide/erosion coastal floods losses are included in tropical cyclone losses. The analysis indicates that because disaster losses are not Fluvial floods are floods that occur when rivers burst their banks evenly distributed throughout Fire the population and affect poor as a result of sustained or intense rainfall. Pluvial floods are floods people disproportionately, a F$1 loss in assets due to a that occur when heavy precipitation saturates drainage systems, disaster in Fiji has an impact 0% 10% equivalent on the population 20% to 30% particularly and urban areas. 50% in flat 40% 60% 70% a drop in national consumption by F$1.8. Thus, in terms of 3. Tropical cyclone losses are based on figures from the Pacific well-being, the F$500 million in average annual asset losses Catastrophe Risk Assessment and Financing Initiative (PCRAFI), adjusted with new exposure estimates, and flood losses are from from tropical cyclones and floods is equivalent to a an analysis by SSBN (Sampson, Simon, Bates and Neal from F$900 million drop in annual consumption. University of Bristol, UK.), using the SSBN Global Flood Hazard Model. These losses include the consequences of high-frequency Tropical cyclone and floods losses also translate into an low-intensity events, such as those occurring on average once a average of 25,700 people being pushed into poverty every year, which are not usually recorded in disaster databases. year in Fiji. Rare disasters could have a much bigger impact: 4. Hallegatte et al. 2017. the 100-year tropical cyclone would force almost 50,000 5. Consumption is the amount of goods and services that people buy, Fijians, about 5 percent of the total population, into poverty. self-produce, or extract from their environment. 6. This analysis is done using the HIES 2013–14 household survey to account for differences across households in income, access to savings and borrowing, coverage by social protection, and pre- disaster income and consumption, and using an elasticity of the marginal utility of consumption equal to 1.5. Executive Summary 21 TABLE ES.1 Effect of climate change on natural disasters’ impact on poverty HAZARD AVERAGE NUMBER OF PEOPLE PEOPLE FALLING INTO POVERTY FALLING INTO POVERTY EVERY YEAR FOR THE 100-YEAR EVENT (and percent of total population) (and percent of total population) 2017 2050 2100 2017 2050 2100 Tropical cyclones 7,300 (0.9%) 7,300 (0.9%) 7,300 (0.9%) 48,000 (5.7%) 48,000 (5.7%) 48,000 (5.7%) Fluvial floods 11,400 (1.4%) 16,000 (1.9%) 17,900 (2.1%) 105,000 (12.5%) 125,000 (14.8%) 132,300 (15.7%) Pluvial floods 7,000 (0.8%) 9,100 (1.1%) 11,000 (1.3%) 66,000 (7.8%) 89,500 (10.6%) 107,500 (12.8%) TOTAL 25,700 (3.1%) 32,400 (3.8%) 36,200 (4.3%) Source: World Bank team, based on asset loss estimates from PCRAFI for tropical cyclones and SSBN for floods. Note: There is an uncertain overlap between tropical cyclones and floods, making it difficult to disaggregate the various hazards. However, sensitivity analyses have shown that this overlap does not affect results significantly. Tropical cyclone losses are presented as constant, as there’s is a large uncertainty in future cyclone behaviour, frequency and intensity. These numbers also assume a stable population. Climate change will magnify natural hazards in the In addition to natural disasters, climate change brings country. The future of tropical cyclones is very uncertain, long-term threats, especially sea-level rise, health impacts, but most models suggest an increase in the proportion and agricultural losses. Over the long term, sea-level rise of high-intensity storms and higher storm surge losses.7 could create a major threat for Fiji, and especially for small Mean sea level is projected to increase significantly in the low-lying islands with low population density. Tens of latter part of the 21st century, possibly exceeding 100 cm in thousands of people are living in low-lying outer islands; 2100. The implication for coastal flooding, including cyclone these locations would be difficult and expensive to protect storm surge, wave setup,8 and astronomical tide, is that the against sea-level rise and storm surges, possibly making current 100-year return period event in Lautoka may occur some of these settlements unsustainable over the long term. on average once every two years in 2100 under a high- In addition, long-term climate change will affect health in the emissions scenario. Climate models disagree regarding Pacific, with impacts through vector-borne disasters (such as how rainfall will change due to climate change. However, dengue fever), water-borne disease (especially diarrhea), and heavy precipitation and floods are generally expected to noncommunicable disease sensitive to temperatures such as increase, possibly very significantly. The increase in losses cardiovascular and respiratory diseases. These health issues would be mostly from low-intensity, high-frequency floods. threaten the Fiji population and will challenge the health care system, and could also have a negative impact of some key The fraction of GDP lost every year due to tropical sectors of the economy, especially the tourism sector, which cyclones and floods could increase by up to 50 percent is highly vulnerable to negative risk perceptions. Considering by 2050 (reaching more than 6.5 percent of GDP). When the effect of temperature only, one simulation suggests that expressed in absolute terms (rather than as a portion climate change may decrease tourism revenues in Fiji by of GDP), average asset losses would increase by much 18 percent by 2030. In addition, some climate models project more than 50 percent. The number of people pushed into a reduction in average rainfall in Fiji, which is a particular poverty each year by natural disasters would then increase concern, as 55–65 percent of its energy supply is generated by 25 percent (from 25,700 to 32,400 per year) (table ES.1). through hydropower. Future changes in coastal flood risk could not be quantified, but will magnify the increase in risk. 7. Australian Bureau of Meteorology and CSIRO 2014. 8. Wave setup is the increase in mean water level due to the presence of breaking waves. 22 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The agriculture sector is an important sector and MESSAGE 2: is threatened by climate change. Around 64,500 Fiji households (37 percent) derive some form of income from agriculture,9 which makes up approximately 8 percent The government has made significant of GDP (2015 GDP). Agriculture income is particularly efforts to reduce climate and disaster important for people living below or close to the poverty line. Almost half of those living below the poverty line rely risks, better prepare for natural on agriculture for at least part of their income, compared disasters, and respond to major shocks. to a quarter of people above the poverty line. With the current distribution of income, each percentage point decrease in agricultural income increases the poverty head The government is committed to better understanding count in Fiji by 1,000 people. Climate change will affect the and mitigating the impacts of climate change and natural environmental conditions, such as temperature, rainfall, hazards. Since 2013, the government’s spending on and humidity, the availability of water for irrigation, and investments to strengthen resilience has grown fourfold, the distribution of pests, affecting agricultural yields in Fiji. from approximately F$89 million (3.74 percent of total Significant risks for local productions have been identified.10 annual budget) to F$359 million (9.85 percent of total Climate change could also affect food security in Fiji. budget) in the 2016–17 fiscal year. In 2007, the Cabinet According to the Fiji Household Income and Expenditure endorsed the National Climate Change Policy Framework, Survey (HIES) 2013–14, poor people spend on average 29 resulting in Fiji’s first National Climate Change Policy percent of their income on food, with some households (2012). This policy defines the objectives and strategies spending much more; by contrast, people above the for mainstreaming climate change issues into different poverty line spend only around 18 percent. An increase in sectors. The Green Growth Framework11 further supports food prices by 1 percent—due to local production losses Fiji to better integrate sustainable development and climate or global price increase—would be enough to push 1,000 adaptation strategies into future development planning. Fiji’s people below the poverty line. It could also have serious commitment to disaster risk reduction is evidenced through implications for access to a sufficient and nutritious its National Disaster Management Plan (1995), the national diet and thus have long-lasting impacts on physical and Disaster Management Act (1998), and its endorsement of cognitive development, particularly for children. the Hyogo Framework for Action (2005–15) and Sendai Framework for Disaster Risk Reduction (2015–30). Many development goals highlighted in Fiji’s 20-year and 5-year Development Plan are potentially threatened by In recent years the government has invested in reducing natural risks and climate change. The implementation of natural risks and preparing for natural disasters, and this plan must therefore take these risks into account. the population and economy demonstrated remarkable Given the impact of natural disasters on economic resilience after TC Evan and TC Winston hit the country in activities, especially those of the poorest, it may be 2012 and 2016. The 2013–14 household survey highlights particularly challenging to meet the objectives of the resilience of the population: less than 10 percent of quadrupling (nominal) per capita income, doubling real per households relied on negative coping strategies (such as capita income, and eradicating poverty. Further, changes in reducing food intake) after TC Evan affected the country. health issues could affect major expanding industries such The impact of TC Winston in 2016 illustrates the strength as tourism, with impacts on long-term growth prospects (and some weaknesses) of Fiji’s preparedness and and job creation. In addition, some development objectives resilience. Early warnings were provided to the population, at the sector level will be made more difficult to achieve, reducing the human losses that could have been much such as providing affordable housing to all, improving worse. Infrastructure services—such as electricity or transport (due to the large impacts of hazards on transport airport services—were restored rapidly in spite of the infrastructure and housing), or ensuring 100 percent access extent of the damages. High financial inclusion in the country to infrastructure services. Without deep cuts in global made the population better able to cope with the shock. emissions of greenhouse gases, the threat that climate change creates for Fiji’s development and well-being is expected to increase over time. 9. Fiji Department of Agriculture 2009. 10. Taylor, McGregor, and Dawson 2016. 11. Government of Fiji 2014. Executive Summary 23 And the strength of the existing social protection system Despite recent progress, significant residual vulnerability allowed the government to provide support to the affected exists in every sector of the Fiji economy, and accordingly, population swiftly and efficiently, using a scale-up of the this analysis has identified priorities for action to build Poverty Benefit Scheme (PBS), the Care and Protection further the resilience of the country. The 125 proposed Allowance (CPA), and the Social Pension Scheme (SPS), interventions are detailed in appendix 1 to this report. complemented with support provided through the Fiji They have been selected because they are considered National Provident Fund (FNPF) and the Help for Homes necessary to achieve Fiji’s development objectives, as initiative. stated in its Development Plan, and are not based on a least-cost approach. Such a least-cost approach is not Before and after TC Winston, multiple initiatives were possible or desirable, for multiple reasons. Not all impacts launched with support from development partners that of climate change and natural disasters can be quantified aimed at reducing the country’s vulnerability. Over the and monetized, making it impossible to propose an last decades, improvements in infrastructure management exhaustive comparison of the costs and benefits of various have contributed to reducing vulnerability to natural interventions. In addition, all interventions included in this disasters. Energy assets are well-maintained by the report have benefits linked to climate and disaster risks, but Fiji Electricity Authority (FEA), which makes them less also broader benefits in terms of development outcomes, vulnerable in spite of their exposure to multiple hazards. poverty reduction, or access to infrastructure services. While there is still a maintenance and repair backlog for Therefore, a narrow comparison of intervention costs with water infrastructure, progress is being made in the sector, the benefits related to climate and disaster risk would with increased financing from budgetary sources and cost only underestimate the desirability of these interventions. recovery. Since TC Winston, the government has started Furthermore, the choice of whether to implement each various projects to further reduce Fiji’s vulnerability. For intervention cannot be based on economic considerations instance, it established the Construction Implementation alone; political choices and value judgements will be Unit to ensure reconstruction in the education and health required, particularly in regard to what is considered an sector is done with higher resilience standards. To tackle acceptable level of risk and the valuation of nonmarket the existing maintenance backlog, it commissioned impacts, such as health implications or cultural heritage a countrywide bridge vulnerability assessment that losses. prioritizes maintenance and reinforcement investments in the road sector. It strengthened support for targeted Further prioritization may be needed to consider risk management initiatives such as the Project for the other policy priorities, the need for an integrated and Planning of the Nadi River Flood Control Structures. The cross-sector approach to resilience, and the needs of government is also investigating how to further strengthen vulnerable populations. The balance between the need the population’s resilience, for instance by exploring for resilience-enhancing investments and other important options to expand housing insurance and improve the policy priorities—such as education or fiscal sustainability— coverage of social safety nets. will be critical in operationalizing this report’s suggested actions. Broad participatory exercises involving the public and the private sector (e.g., business associations, unions, MESSAGE 3: nongovernmental organizations) are an option, as similar exercises have proved useful in other countries for creating a robust national consensus on priorities.12 One challenge in Interventions in five main areas the prioritization process is to maintain the consistency of can reduce further the country’s the intervention package and the cross-sector integration that is the key to a resilient economy and population. vulnerability, but they have An important recommendation is therefore to prioritize significant financial implications, actions within sectors without losing sight of the need for with investment needs estimated a balanced portfolio of interventions covering most if not all sectors. Also, in each of these areas for intervention, it at F$9.3 billion over 10 years, plus will be critical to consider the specific needs of vulnerable additional maintenance and operation groups, including women, children, the elderly, people with disability, and minorities. costs and social expenditures. 24 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The approach to natural disaster management and These numbers are highly uncertain and would require resilience is based on two pillars: (1) reducing risk with further analysis; they also depend on the level of appropriate protection, land-use planning, and building and residual risk that the population and government are infrastructure regulations; and (2) managing the residual ready to accept. Such investments could provide risk—what would be too costly to eliminate—by making the adequate flood protection for high-density large population better able to cope with and recover from shocks. settlements, but low-density and small settlements The identified priorities for the next 10 years include: would be much more expensive to protect, and a hybrid approach combining infrastructure, nature-based solutions, and land-use plans (possibly including retreat FIRST AREA OF INTERVENTION from high-risk areas) should also be considered. Capturing the window of opportunity to design economically vibrant, inclusive, and resilient towns and cities, with a focus • Investment in, and improved maintenance of, transport on bringing safe greenfield sites onto the market. infrastructure. Transport already represents a large part—about 30 percent—of annual government Guiding new urbanization toward safer areas and public spending in current budgets. To increase strengthening housing are priorities to reduce Fiji’s the resilience of the sector, investment and capital vulnerability. A comprehensive forward planning program is expenditure needs have been estimated at F$4.3 billion, required to bring safe and suitably located greenfield sites F$3.1 billion of which is already planned. A criticality onto the market and provide appropriate land for more analysis produced for this report identifies a subset of housing. There is a priority need to address the national transport infrastructure that plays a key role in the road housing backlog of 19,600 units—a number that increases network and can be prioritized for strengthening and by 600 units per year. In addition, informal settlements maintenance (figure ES.3). are vulnerability hot spots and require targeted action. A case study prepared for this report on Nadi shows how • A long-term strategy for building cost-effective risk analysis can be used to inform land-use planning and resilience in the power system. Strengthening the identify areas that can be prioritized for development. To resilience of the energy sector will require a suite rapidly scale up the approaches that have been piloted to of critical investments, with an estimated cost of around date and build on the progress already made in upgrading F$446 million, including F$175 million in new activities. low-income urban and peri-urban informal settlements, • A suite of interventions in the water sector. These additional financial and human resources are needed. could help mitigate risks of damage to infrastructure, Investments required to improve land-use planning, support service disruption, and environmental or health hazards resilient housing, and strengthen informal settlements have during extreme climate events. Investment costs to been evaluated at around F$202 million, including F$130 strengthen the resilience of the water sector are million in new investment, to be added to existing plans. estimated to be around F$1.1 billion. • Various opportunities for reducing the vulnerabilities SECOND AREA OF INTERVENTION of health and school infrastructure assets to natural Improving infrastructure services to achieve universal hazards and climate change. These are estimated to access while boosting resilience. cost around F$572 million. Fiji generally performs well in terms of infrastructure access and quality. However, there is still some way to go to achieve the objectives of the 20-year Development Plan, especially in rural areas and for water and sanitation. To ensure sustainable development in Fiji, existing infrastructure gaps need to be bridged in ways that ensure resilience to climate change and natural hazards. Proposed investments in resilient infrastructure include the following: • Investments in flood and coastal protection to provide a level of protection consistent with international 12. World Bank 2012. standards. (Options regarding drought management could not be assessed but need to be investigated.) 13. Coastal protection costs are from DIVA, a research model for coastal systems that assesses biophysical and socioeconomic The estimated total cost would be around F$500 million consequences of sea-level rise, socioeconomic development, and for pluvial and fluvial floods and F$1.6 billion adaptation (e.g., raising dikes and nourishing shores and beaches). for coastal floods.13 See http://www.diva-model.net/. Executive Summary 25 FIGURE ES.3: Critical road segments in Viti Levu. Criticality is measured by the increased road user cost when the road segment is removed from the network. Source: World Bank team. THIRD AREA OF INTERVENTION the diversification of livelihoods. These activities are estimated to need investments and policy support of Supporting agriculture and fisheries development that is about F$77 million over the short term (1 to 5 years) smart for the climate, the environment, and the economy. and medium term (5 to 10 years). By enabling farmers and fishermen to adapt to weather threats and climate extremes in the short and medium term, future generations will be better placed to adapt to climate FIFTH AREA OF INTERVENTION change, whatever specific form it takes. A key intervention Building socioeconomic resilience, by taking care of the to reduce the impact of these disasters on direct losses poor and keeping economic growth inclusive, and through and increased food prices involves strengthening the actions on early warning and preparedness, social Ministry of Agriculture’s ability to prepare and respond protection, and health care. to natural hazards. In addition, sustained, effective For vulnerable and low-resilience populations, it is critical investment in improved coastal fisheries management will to provide the tools and support they need to manage and not only improve fisheries’ productivity, but also increase recover from the natural shocks that cannot be avoided. communities’ resilience to climatic and other shocks, Similarly, people stuck in low-income activity will need should these eventuate. Studies to explore the potential support to benefit from economic growth. Key domains of agricultural insurance are also ongoing. where progress is possible are disaster preparedness, the social protection system and its ability to respond to climate FOURTH AREA OF INTERVENTION or other natural shocks, access to affordable health care, Conserving ecosystems and the local environment and gender equality. A particularly attractive intervention to protect valuable development assets. is to improve the ability of the social protection system to provide support to people affected by natural hazards Fiji’s ecosystems are the resource base for livelihoods, by expanding and modernizing the PBS database so that fisheries, forestry, agriculture, and tourism, but they are at it also provides near-poor households with support after risk of continued degradation, mostly due to development natural disasters. The current system—which scales up pressures. The major ecosystems are native forests, coral aid to current PBS beneficiaries after a shock—has an reefs, and mangroves. Strengthening and enforcement of estimated benefit-cost ratio larger than 5, with an average planning permits and environmental legislation, continued annual cost of F$2.3 million. Improving the social registry investments in ecosystem conservation, and community-led to make it possible to cover more households following a natural resources management would all minimize further disaster would generate even larger benefits. degradation of these ecosystems and contribute to 26 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT For instance, by providing additional transfers to PBS The highest investments required per year would be for beneficiaries and up to 29,000 additional households for transport (F$469 million/year, which represents 92 percent storms and floods with return periods larger than 10 years, of the 2017 transport sector budget), water (F$113 million, an improved system could generate benefits equivalent to about 49 percent of the water sector budget), health/ a F$15 million increase in consumption, for an average education (F$57 million, about 62 percent of the health annual cost of F$3.8 million. and education sector budgets), housing (F$22 million, about 86 percent of the housing sector budget), and It is estimated that almost F$9.3 billion (almost environment (F$8 million, about 77 percent of the 100 percent of GDP) in investments is required over the environment sector budget). next 10 years to strengthen Fiji’s resilience to climate change and natural hazards for decades to come. Over Pressure on social expenditures will also increase if F$5 billion of these investments is in addition to funds disasters become more frequent and the social protection already earmarked in existing plans (table ES.2). These system has to respond to prevent people from falling back investment needs are challenging, considering Fiji’s current in poverty. The latest budget already includes F$47 million fiscal space. The proposed investments total approximately for the Ministry of Women, Children and Poverty Alleviation F$900 million per year for the short term and F$954 million budget, an increase of 42 percent over the previous social per year for the medium term. Some of these investments protection budget (F$33 million). An additional F$4 million per year are comparable to the yearly budget allocation would be needed on average per annum to strengthen for specific sectors, and they should be integrated in the further the ability to scale up protection. regular budget planning process. TABLE ES.2 Summary of identified sectoral needs over the next 10 years to strengthen resilience of Fiji INVESTMENT NEEDS RECURRENT COSTS (F$ million) (F$ million) Sector Planned New Total Planned New Total Housing/land use 63 152 215 Hazard Management n.a. 2,106 2,106 Transport 3,098 1,591 4,689 Energy 271 175 446 Water 685 447 1,132 175-440 Health/education 5 568 573 Environment 55 22 77 Agriculture 11 3 14 Fisheries 6 14 20 Social Protection 47 4 51 GRAND TOTAL 4,194 5,078 9,272 226-491 Source: World Bank team’ under Figure ES.3 Executive Summary 27 These investments and expenditures would have Asset management systems could be an effective tool resilience-related benefits that extend over decades—far for increasing the resilience of Fiji infrastructure assets, beyond their implementation period—as well as significant as they would help the relevant ministries and agencies non-resilience benefits, improving the population’s well- understand their assets’ condition and criticality, and being and development prospects. It is impossible to reduce maintenance costs. Asset management systems separate investments or policies that increase resilience are a strategic and systematic process of operating, from those that produce broader development gains, or to maintaining, upgrading, and expanding physical assets estimate the additional costs due to climate change only. effectively throughout their life cycle to deliver an This is especially the case for the measures and projects acceptable level of service. Traditional asset management proposed in this report, which by design contribute systems are insufficient and would need to be improved to achieving Fiji’s development objectives through to meet the needs of the government and effectively enhanced resilience. incorporate climate change and natural hazard risks into decision-making processes. This step would involve identifying the highly vulnerable assets, understanding the MESSAGE 4: magnitude of the consequences of asset failure, planning to preemptively prevent the next disruptions (rather than reacting after the disasters), and building back better Implementing these interventions after disasters. will be extremely challenging and Achieving Fiji’s development goals in a resilient and would be facilitated by improved sustainable manner will require sustained investments decision making (especially regarding over the next decades. The existing 20-year and 5-year Development Plan envisages large investments and public asset maintenance), well- expenditures that reach F$50 billion over the next two managed public finances, and support decades (including capital expenditures and provision of social services). The options to adapt to climate change from the international community. proposed in this report total F$9.3 billion, including over F$5 billion in additional investment, and at least several tens of millions per year in maintenance and operation costs. The assessment performed for this report was based on Dedicated tax and bond resources are useful and existing data sets and models, and on the use of global will contribute to achieving resilient and sustainable models applied to Fiji. However, designing a resilience development in Fiji, but they remain lower than identified strategy for the country would require more data, and the needs. The environmental levy created in 2015, which was use of these data for evidence-based decision making, transformed into the Environmental and Climate Adaptation in particular regarding new investments and asset Levy in 2017, is expected to collect around F$94 million maintenance prioritization. in 2017–18 and can therefore contribute a significant Floodplain risk management plans should be developed fraction of the need, though not fully meet it. The planned based on comprehensive flood risk studies. Improved F$100 million Green Bond to be issued in late 2017 will hydrological and post-event data collection will greatly provide additional finance and meet some of the estimated assist in managing flood risk. Detailed topographic and cost of F$900 million per year over the short term. bathymetric data will be required for any watershed-level The modernization of the legal and regulatory framework or coastal risk assessment, and this will require a survey will encourage investment by the private sector. There of LiDAR data. It has been noted as part of this study that have already been some achievements in involving the LiDAR data and the development of a digital elevation private sector in public service delivery, but further gains are model for Fiji will provide benefits that cut across a possible. The existing public-private partnership framework number of sectors. could be improved to increase foreign investment, for instance with clearer guidelines for developing transparent public-private partnership projects. This report discusses various opportunities for private sector engagement in infrastructure sectors, including energy, transport, and water management. 28 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Natural hazards in Fiji create significant additional Fiji calls on the world to take drastic action that limits contingent liability for the government. Additional greenhouse gas emission while supporting action to contingent liabilities due to tropical cyclones alone are enhance resilience. As a small island nation, Fiji has limited estimated at F$1.4 billion, on top of the F$822 million in capacity to manage increasing risks to its people and non-disaster contingent liabilities. economy. Financial instruments to support investment in resilience and adaptation would help meet the increase Fortunately, various instruments have been developed in investment needs created by climate change and help and implemented in other countries to cover the liabilities manage increased volatility in public spending and revenues. created by natural hazards and other environmental risks. Most importantly, immediate reductions in global emissions The optimal choice of instruments is country-specific and of greenhouse gases would limit and slow down climate depends on both costs and timeliness, but it can include change, making it easier for the country to adapt to local reserve funds, insurance or catastrophe bonds, regional changes and achieve its development goals in spite of risk-sharing facilities (such as the Pacific Catastrophe Risk climate change. Assessment and Financing Initiative, PCRAFI), contingent credit (such as Catastrophe Deferred Drawdown Options, Cat DDOs), and international aid in case of exceptional disasters. An indicative strategy proposed in this report— combining larger reserve funds with contingent credit and As the President of the COP23 and on catastrophe insurance—could save approximately F$2.2 behalf of the small island nations, and million per year, when compared with ex post financing building on the findings of this report, tools such as budget reallocation or ex post borrowing. For Winston, the proposed strategy would have reduced the Fiji is asking the world for drastic amount of budget reallocation required by approximately action on climate change - building F$40 million. resilience through adaptation and Fiji will work with development partners to access climate funds that it can combine with development funds and reducing greenhouse gas emissions so its own resources. Between 2011 and 2014, Fiji accessed that climate change does not impose US$41 million in concessional finance from multilateral a limit to our development and the and bilateral sources for climate resilience and disaster risk management. This on average is US$10 million (F$20 aspiration of our people to live on million) per year. With support from the Asian Development their own lands. Bank, Fiji was among the first Pacific Island Countries to successfully access a grant (of US$31 million) from the Green Climate Fund, which it combined with a US$190 million loan and its own budget. For the road sector, Fiji has accessed US$150 million from the Asian Development Bank and the World Bank and combined this funding with around US$17 million from its own resources. Clearly, given the increasing climate-related risks and limited internal budget, accessing and leveraging climate finance is critical to help meet Fiji’s development goals and address climate-related risks without increasing risk to debt sustainability. Executive Summary 29 VULNERABILITY IN REALITY: OUR HOME, OUR PEOPLE. Photo: Fijian Government 30 Climate Vulnerability Assessment Included as part of this report are stories of Fijian communities that aim to provide context and personal insights into many of the topics covered and issues raised as part of this report. Each of these stories help to paint a picture of what Fiji’s To delve further into these stories and watch a 360-degree climate vulnerability means, in reality, for many families and Virtual Reality experience produced as part of this communities in Fiji. These stories were gathered as part of storytelling work, visit www.ourhomeourpeople.com the Our Home, Our People storytelling project, which was Our Home, Our People was produced by the Government produced in partnership with this report. of Fiji, in partnership with the World Bank, Global Facility for While each of these stories provide some contextual realities Disaster Reduction and Recovery and the ACP-EU Natural of what Fiji’s vulnerability mean at a community level for Disaster Risk Reduction Program. current and future generations across the country, they do not necessarily represent overall trends or directions in terms of Fiji’s vulnerability. The views expressed in these stories do not necessarily reflect the vulnerability experiences of all Fijian communities, nor do they represent the views of all Fijians. However, they provide valuable personal context and should be considered through this lens. Our Home, Our People 31 32 Climate Vulnerability Assessment A MAN ON A MISSION: LUKE TUIBUA The day before Cyclone Winston, Waivunia villager, Luke Tuibua and students from Deakin University were planting mangroves, along the coastline of Vanua Levu, the second largest island in Fiji. After Category 5 winds and storm surges, all their efforts were destroyed. Yet that hasn’t “We want to instill in the deterred Luke from his mission. next generation information “The project we’re working on is focused on conservation of resources, renewables and trying to put in place a about resources. We all care resource that will sustain the lives of these little ones walking about this village.” about our young ones and It is a cause he’s been pursuing for 15 years. “After seeing marine species decreasing I became concerned. if we don’t show them the When I retired, I started pushing really hard to increase sustainability in the village.” right direction it is going Changes to the coastline from rising sea levels, erosion or to be haywire.” storm surges cause Luke concern. “Three to four years ago, the land we bought was taken by the rising sea level with 30 metres lost so far. We have been told after Winston that storms are going to be more frequent and fierce. How that affects people like us just scares us.” Seeking support and help to grow this project is important to Luke. Photos: Tom Perry/World Bank. Our Home, Our People 33 ASHMITA’S STORY Ashmita Kamal, a 24-year-old from Dugavatu, Rakiraki was destined to be a teacher. “I wanted to become a Educating others about the power teacher to fulfill my parents dreams, and secondly to be of climate change awareness. in a noble profession.” Ashmita loves her community. Located in Viti Levu on the western side of Fiji, Rakiraki is a place of enormous community spirit. Her school is rebuilding slowly after “This part of Fiji is very TC Winston. Climate change is now a big part of the curriculum. “It’s about exploring the contributing factors peaceful and people are of climate change ... changing weather patterns and how humans are contributing to it and how we can stop it.” loving and caring. Yet nothing could prepare them for the impact of TC Winston. At the height of the storm, Ashmita’s home was My family has been living destroyed. “I was sad and scared. That house, when we were young, my grandfather built it and everything was here for three generations, just gone.“ Returning to her damaged classroom broke her heart, this is where my grandfather but Ashmita hopes her village will remain safe. “No one can predict the weather… my wish is that no more was born.” cyclones come.” Photos: Alana Holmberg/World Bank. 34 Climate Vulnerability Assessment Our Home, Our People 35 36 Climate Vulnerability Assessment FALLEN KINGDOM: VUNISAVISAVI Perched on the south-east coast of Vanua Levu, Vunisavisavi is famous for its royal heritage. “Vunisavisavi is the original home of the ‘Tui Cakau’ (the son of a demigod), and we are proud of that,” says Meredani Koco, a retired teacher who has called Vunisavisavi home for 23 years. “This is a special place, and Yet time has not been kind to Vunisavisavi. The evidence of rising sea levels and natural disasters we will do everything we is obvious. Meredani worries people will relocate to nearby towns on their own, rather than to higher ground can to make sure our future within Vunisavisavi. “People will lose their dialect, their language, and all the manners (of Vunisavisavi).” generation have the same Meredani adds that despite climate change’s growing presence, there is still time, and hope, for the people benefits that we enjoyed, of Vunisavisavi. She beams with pride as she says her community does not plan to go down easy. “In some growing up near the ocean, ways we feel safe, because we haven’t been struck by the big waves, but in the next generation we don’t know on royal ground.” what will happen if nothing is done now.” Photos: Alana Holmberg/World Bank. Our Home, Our Peoplectie 37 TC WINSTON: RAIVOLITA’S STORY After travelling the world, Raivolita Tabusoro, 43, says there’s no place like home. His home, Nabukadra on the northern coast of Viti Levu, is vulnerable to a range of hazards, including increasing sea levels and storm surges. Raivolita has worked hard to improve conditions for people “I enjoy living in my village. in his village, and district. His most recent term as Village Headman began in 2016, right before TC Winston, hit Fiji. It’s a beautiful place, fresh “We got a shock when our ceiling collapsed. My wife and daughter ran, and my mother and I were left in the house. air and happy people.” I told myself, I cannot watch my mother die.“ At the same time, a storm surge entered the village. “We looked on helplessly as our belongings washed away. It was as if a bomb was dropped in the village because there was nothing left.” Long after TC Winston, the impact of such a destructive disaster is still being felt across Nabukadra. “Before TC Winston, there was an abundant supply of coconut, I had lots of pigs, and honey boxes. Now after Winston, I am really struggling to provide for my family.” Photos: Alana Holmberg/World Bank. 38 Climate Vulnerability Assessment 39 1. THE CONTEXT Fiji and Climate Change Photo: Alana Holmberg/World Bank. 40 Climate Vulnerability Assessment Fiji is a small island nation in the South Pacific Ocean with a population of about 900,000. The country has an area of 18,000 km2 spread over The urban growth is driven both by the natural population 332 islands, of which about 110 are inhabited. Most of growth of the already urbanized and youthful population the population lives on two large islands, Viti Levu and base and by urban in-migration from rural and outer islands, Vanua Levu. primarily due to urban-rural household income differentials.14 According to the very limited data available, the average Despite its remoteness from major global economic hubs, urban household income is double the average rural Fiji has a relatively complex economy. Since independence household income.15 from the United Kingdom in 1970, real gross domestic product (GDP) growth has averaged 2.8 percent a year, Economic growth in Fiji has been inclusive, and extreme or 1.6 percent per capita. Its economy is the second- poverty is rare in the country. According to national largest in the Pacific after Papua New Guinea. Services estimates of poverty, 2.5 percent of the population lives and manufacturing sectors play significant roles in the below the food poverty line (an equivalent of extreme economy. In particular, Fiji is a hub for re-exports to the poverty in Fiji), though around one-third—34 percent—live rest of the Pacific, and it has a large tourism industry, below the national basic needs poverty line. Between 2002 which contributes about 38 percent of GDP and attracts and 2013, the real per capita consumption of the bottom over 750,000 visitors per year. The country also pays for 40 percent grew faster than that of the average household, about 80 percent of its spending out of tax revenue. and this was true in both rural and urban areas. However, poverty remains significant in rural areas. Over half of Fiji’s population (54 percent in 2017) is urbanized and is concentrated in three rapidly growing urban areas. These include Suva-Lami-Nasinu-Nausori in southeast Viti Levu; Nadi-Lautoka-Ba in northwest Viti Levu; and Weilevu-Labasa-Nasea in northwest Vanua Levu. Urbanization is not a new phenomenon in the country. Rapid rates of urban in-migration were well under way in the 1960s and 1970s and, for the past three decades, urban population growth has outstripped rural growth. 14. Butcher-Gollach 2018. 15. According to the 2008–09 Household Income and Expenditure Survey (HIES) conducted by the Fiji Bureau of Statistics, the average urban household income (F$23,036) was double that of the average rural household income (F$11,608). Furthermore, only 19.8 percent of urban households were below the basic needs poverty line (F$209.24/week in 2013–14), compared to 36.7 percent of rural households (HIES 2013–14). However, it should be noted that the observed trend from HIES data is that urban poverty is increasing, whereas rural poverty is declining. Context 41 Fiji faces significant development challenges, and the An innovative approach has been used to undertake the government has set ambitious development objectives analysis presented in this report, combining a cross- to address them. Economic growth in Fiji is relatively sectoral climate vulnerability assessment and preparation slow, which can be explained by low investment, weak of integrated adaptation and disaster risk management exports, and low-productivity jobs.16 Recently, the 20-year plans. The analysis combines sectoral analyzes considering and 5-year National Development Plan was prepared to multiple dimensions of climate vulnerability—including respond to this situation; its ambitious objectives are to infrastructure, governance and financing, socioeconomic more than double17 the real GDP per capita by 2036 and to aspects and population characteristics, and the provide universal access to all services, including housing, environment. Several methodological innovations have electricity, clean and safe water and sanitation, high-quality been applied to these sectoral analyzes, for instance a education, and health care. criticality analysis of the road network and “safe land identification” for future urban development in Nadi. When Natural hazards and climate change represent a major possible, sector-level studies have been integrated into a obstacle to the achievement of these objectives. Tropical national-level assessment, with risks measured in monetary cyclones have already shown they can affect GDP growth in terms and through their impact on poverty. Analysis at the a significant manner. TC Winston in 2016 caused damages sector level has contributed to the identification of priorities amounting to F$2 billion, or 20 percent of GDP. In the for action within each sector, enabling the creation of a future, the cost of natural hazard–induced disasters is resilience and adaptation plan that has been assessed in likely to increase, driven by socioeconomic trends—such terms of investment needs and recurrent expenditures. as increasing urbanization and littoralization (increasing concentrations of development along coastlines)—and Analysis of the threats from climate change and climate change. In addition, other parallel impacts of climate natural hazards requires the consideration of various change, such as sea-level rise, ocean acidification, or the factors. This report considers the following climate and spread of infectious diseases into new areas, may also geophysical factors, physical impacts, and socioeconomic affect development outcomes and options. characteristics in its assessment of Fiji’s situation: This report seeks to inform development planning and • Hazard—the probability of an event occurring investment decisions in the Republic of Fiji. It pilots a and its physical characteristics (for instance, methodology—one that is replicable in other countries— an increase in temperature or a change in the to assess climate and disaster vulnerability and design likelihood of tropical cyclones) climate change adaptation and risk management plans • Exposure—the population and assets located and strategies. in an area affected by a hazard The report aims to produce a better understanding of the • Vulnerability—the asset value lost when affected threat that natural hazards and climate change create for by a hazard, and the direct impact on human lives the country’s Development Plan and objectives. In analyzing • Socioeconomic resilience—the ability of the affected the climate vulnerability of Fiji, this study considers two population to cope with and recover from the asset dimensions: (1) the physical threats to the country created and human losses by natural variability and climate change, including shocks such as tropical cyclones and floods as well as longer-term Consideration of hazard, exposure, and vulnerability relates stressors like sea-level rise and temperatures’ impacts on to the risk to lives and assets. Asset losses are the average health; and (2) development needs and opportunities of the monetary value of the damages that disasters inflict on country, as described in Fiji’s 20-year and 5-year Development assets (often measured as replacement or repair value). Plan. The analysis identifies threats that could jeopardize Fiji’s Consideration of socioeconomic resilience relates to the development needs and opportunities, and the interventions risk that natural hazards and climate change pose to the that could minimize or manage these threats. well-being of people in Fiji. This latter consideration goes beyond the risk to lives and assets, and sheds light on the impact on livelihoods, poverty, and long-term prospects. 16. World Bank 2017. 17. The plan aims at quadrupling GDP per capita in nominal terms, assuming inflation of 2 to 3 percent. 42 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT ASSET LOSSES Hazard Exposure Vulnerability Socioeconomic resilience WELL-BEING LOSSES FIGURE 1.1: Climate change affects natural hazards in Fiji as well as exposure, vulnerability, and socioeconomic resilience. The analysis is limited by the availability of data and The approach used in this report is replicable and models, the large uncertainty in future climate change, can support the design and update of the adaptation and the existence of multiple approaches to cope with components of the Nationally Determined Contributions each issue. As a result, some interventions cannot be (NDCs) of the Paris Agreement. Despite unavoidable described or evaluated precisely, and the report sometimes limitations, this report provides a useful template for how recommends more work or in-depth analysis of some of to perform a vulnerability assessment starting from one those interventions. This additional work could be technical country’s national development plans and objectives, and for (e.g., model development or data collection) or institutional how to prepare adaptation plans. This approach is expected (e.g., consultation with stakeholders, policy dialogue, or to be replicated in other countries, including but not limited risk-informed decision making). In some other cases, to island states, building on the experience of this report available information is sufficient to identify important on Fiji. The Paris Agreement is largely based on NDCs, opportunities. Considering the scope and schedule of the through which countries determine and communicate their present study, however, the interventions recommended in contributions to climate change mitigation and adaptation, this report would all require specific additional work before in the context of their national priorities, circumstances, and implementation. capabilities. These NDCs are expected to be revised every five years and regularly reviewed. The approach to climate vulnerability presented in this report can contribute to the revision and enhancement of the adaptation components of the NDCs, and can therefore support the achievement of the Paris Agreement regarding adaptation. Context 43 2. THE OBJECTIVES Fiji’s Development Plan and Objectives Photo: Fijian Government 44 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Fiji’s National Development Plan has 5- and 20-year goals 3. Leveraging demography through skill development. that highlight a set of extremely ambitious medium- and This effort takes advantage of the young age of the long-term objectives for the country. These include: population and captures opportunities in new growth sectors (such as information technology and sport). 1. Quadrupling (nominal) per capita income, or doubling real per capita income; 4. Embracing appropriate and new technology. This effort aims to facilitate access to foreign technologies 2. Reducing government debt to 35 percent of GDP; in sectors like information technology, agriculture, 3. Reducing the unemployment rate to below 4 percent; transportation, and government. 4. Eradicating poverty; 5. Building vibrant towns and cities and a stronger 5. Providing affordable housing; rural economy. Fiji’s rapid urbanization requires more planning and investment, including consideration of 6. Ensuring 100 percent access to infrastructure services natural hazard and climate risks. In parallel, rural areas (water and sanitation, electricity, health, and education); need to be better connected and benefit from more 7. Promoting food security; opportunities and services. 8. Supporting the empowerment of women The Green Growth Framework18 further supports Fiji to and creating a gender-fair society better integrate sustainable development and climate 9. Protecting culture, heritage, and the adaptation strategies into future development planning. natural environment; and The framework includes a pillar on building resilience to climate change and disaster risk and identifies 10. Strengthening national security. priorities such as cyclone-resistant construction in These objectives are achievable, but challenging. For urban and rural areas, strengthening of local governments’ instance, achieving the goal of doubling per capita income role in building resilience, vulnerability assessments for all by 2035 will require annual GDP growth of about 5 percent. communities, and an increase in resources for adaptation This is substantially higher than Fiji has managed in the last and mitigation priorities. four and a half decades. It is also higher than the estimated The recently published Systematic Country Diagnostic long-term potential growth rate of 3.8 percent. Taking of Fiji identifies similar priorities for growth.19 The three advantage of existing opportunities, managing natural risks pillars identified are stronger growth, better access to and climate change, and achieving more rapid growth will services for all, and building resilience. require concerted efforts in a number of interrelated areas. These objectives, pathways, and transformational actions The National Development Plan identifies the following are vulnerable to natural hazard risks and climate change. priorities for action: Achieving the 20-year targets of the National Development 1. Nurturing new and emerging growth sectors. The Plan is far more likely if natural disasters and environmental focus is on small and medium enterprises (SMEs) degradation do not impair progress. and on high-value exports (including, among others, organic agricultural products and agro-processing, and high-end tourism and retirement villages). 2. Improving transport and digital connectivity. Planned investments are in road infrastructure and bridges, international and domestic airports (to support the role of regional air transport hub), and port services and inter-island network (to reduce trade costs and reinforce Fiji’s role as a regional re-export hub). 18. Government of Fiji 2014. 19. World Bank 2017. Objectives 45 3. THE THREATS Natural Hazards and Long-Term Climate Change Photo: Alana Holmberg/World Bank. 46 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Fiji is one of the countries most prone to disasters and vulnerable to climate change. The country has high exposure to multiple natural hazards, 3.1.1. PAST EVENTS DEMONSTRATE THE including cyclone, storm surge, severe storm, flooding, HIGH RISK LEVEL IN THE COUNTRY landslide, drought and extreme temperature, earthquake, Repeated disasters have impacted Fiji’s and tsunami. It is also geographically remote and vulnerable infrastructure and the population to the potential climate change impacts of increasing sea levels, more severe cyclones, and more frequent and Fiji is frequently affected by disaster events. Table 3.1 intense rainfall.20 This chapter explores these features of summarizes the events that occurred in the last decades. Fiji, starting with its existing disaster risk and then moving The list includes large events that triggered a declaration of to additional longer-term climate stresses. a state of disaster by the government, and smaller events that had impacts without triggering such a declaration. Temperatures will increase in Fiji under the influence Between 1970 and 2016, almost 3.3 million people were of climate change. Under all scenarios for future global directly affected by disaster events in Fiji, including an emissions of greenhouse gases, warming is projected estimated 480 who were killed (table 3.1). Cyclones, floods, across all of Fiji. By 2090, increases in ocean and land and severe storms impacted 75 percent of those affected temperatures are anticipated (with a medium level of by disasters, and caused almost all fatalities. Over the same confidence) to be in the range of 1.9°C to 4.0°C under period, the impact of drought has also been significant. a very high emissions scenario, and 0.3°C to 1.1°C under While only six major droughts were recorded in this period, a very low emissions scenario. 21 The impacts of climate these six events impacted 25 percent of all those who were change on precipitation in Fiji are less clear. Climate models affected by any disaster from 1970 to 2016. Earthquakes do not show agreement; some models project an increase and tsunamis have had relatively little impact in this short in precipitation while others project a decrease. This time frame, but these hazards are significant when they disagreement on future precipitation presents a significant occur. For example, following the magnitude 6.8 Suva obstacle in terms of planning for climate change adaptation. Earthquake, which occurred just off the southeast shore of Viti Levu in September 1953, a tsunami was generated that killed eight people and damaged infrastructure (i.e., a wharf, 3.1. FIJI FACES A HIGH AND INCREASING bridges, and buildings). Landslide occurrences and impacts LEVEL OF DISASTER RISK are difficult to quantify but are known to be frequent and Fiji is already subjected to high risk levels, as illustrated recurrent throughout Fiji. Landslides pose a substantial by the impacts of TC Winston, which struck the country in threat to lives, livelihoods, and transportation networks February 2016, with massive consequences for economic and are often triggered by rainfall events. activity, livelihoods, and well-being. Risks are linked to hazards that are largely (but not exclusively) climate-related and that are often (but not always) expected to increase in frequency or intensity in the coming decades. Regardless of the future climate conditions, there are important opportunities to make Fiji’s economy and society better able to manage these hazards. 20. World Bank 2016. 21. Australian Bureau of Meteorology and CSIRO 2014. Very low and very high emission scenarios correlate to Representative Concentration Pathway (RCP) 2.6 and 8.5 respectively. The scenarios have generally been considered for the assessment of projected changes in climate for Fiji. Threats 47 TABLE 3.1: Direct impact of major disasters, 1970–2016 DISASTER NUMBER OF EVENTSa NUMBER OF PEOPLE NUMBER OF PEOPLE KILLED AFFECTEDb Drought 6 840,860 0 Tropical cyclone 66 1,888,490 355 Flood 44 563,310 103 Severe local storm 2 8,370 17 Earthquake 10 0 5 Tsunami 2 0 0 TOTAL 130 3,299,030 480 Sources: Lal, Singh, and Holland (2009), using figures compiled from EM-DAT, Glide, the Fiji Meteorological Service, and the National Disaster Management Office, and updated to include January 2009, January 2012, and March 2012 flood events. Tropical cyclone data are as reported by the Government of Fiji and include TC Tomas (2010), TC Evan (2012), and TC Winston (2016). a. Number includes major events only. b. Numbers are rounded to nearest 10. The most recent (2013–14) Fiji Household Income and TC Winston, the recent tropical cyclone, was Expenditure Survey (HIES) highlights the significant impacts particularly damaging of such disasters on the population.22 Cyclones and floods TC Winston impacted approximately 540,000 people, are the two most common shocks experienced by Fijians: equivalent to 62 percent of the country’s total population. 66 percent of the population has experienced a cyclone and The cyclone swept across Fiji’s islands, reaching its peak 23 percent has experienced a flood (figure 3.1). Shocks from strength shortly before making landfall on the country’s weather events are more common in the country than most largest island, Viti Levu. Maximum average wind speeds other shocks, such as loss of employment, illness, or theft. reached 233 km/hour, and wind gusts peaked at around Poor and nonpoor people are equally exposed to all types 306 km/hour. In addition, many islands were flooded by of shocks. Affected people lose wealth due natural shocks. storm surges, including Koro Island and the southern For example, after a flood or a cyclone, around 80 percent coast of Fiji’s second-largest island, Vanua Levu, which of the affected population experiences asset losses or a was inundated almost 200 meters inland in some areas. reduction in livestock. The storm brought down the power and communications systems linking the islands, causing approximately 80 percent of the nation’s population to lose power, including the entire island of Vanua Levu.23 TC Winston caused the loss of 44 lives and destroyed entire communities. Approximately 40,000 people required immediate assistance following the cyclone, and about 30,300 houses, 495 schools, and 88 health clinics and medical facilities were damaged or destroyed. In addition, the cyclone destroyed crops on a large scale and compromised the livelihoods of almost 60 percent of Fiji’s population. The estimated effect of TC Winston was equivalent to F$2.0 billion. 24 48 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Cyclones Floods Death or illness of household member/income earner Agricultural shock Employment Shock Other Theft of assets Conflict/violence Landslide/erosion Fire 0% 10% 20% 30% 40% 50% 60% 70% FIGURE 3.1: Percentage of Fiji population who experienced shocks during the 12 months before the HIES survey 2013-14. Source: World Bank team estimates from Fiji Bureau of Statistics, HIES 2013–14. Cyclones Floods Death or illness of household member/income earner The social and psychological impacts on the affected Agricultural shock 3.1.2. MANY NATURAL HAZARDS ARE population were—and continue to be—substantial. One EXPECTED TO BECOME MORE Employment Shock in five households across the entire country (everywhere INTENSE OR MORE FREQUENT except Rotuma and Kadavu) Other lost a significant share of Climate change has the potential to exacerbate the their personal belongings and had their homes damaged Theft of assets hazards that affect Fiji, although projecting future hazards or destroyed. As most cannot afford to carry personal or Conflict/violence is challenging. Difficulties in predicting how hazards will house insurance, many households still face the burden change in the future arise from two key factors. First, homes with the limited personal savings of rebuilding their Landslide/erosion there are deep uncertainties concerning the speed and they have. Ensuring the safety of women and children Fire sometimes direction of climate changes, especially at throughout the reconstruction process continues to local scales. Different climate models project very different be a concern in some villages, with many 0% (women and 10% 20% 30% and storm 40% 50% 60% 70% changes in rainfall surge, leading to uncertainty children) staying in churches or with relatives while housing in overall projections. Second, the models used to project reconstruction is completed. climate data use spatial resolutions that are too coarse to fully represent the future climate of small islands. Many of Fiji’s islands are smaller than the grid squares of the global circulation models (GCMs) that underpin the climate projections (grid squares are 200–600 km2, depending on the model).25 22. These data do not take into account the effects of TC Winston, and so far, no new survey of this magnitude has been completed to give more relevant results. 23. Government of Fiji 2016b 24. Ibid. 25. World Bank 2016. Threats 49 The proportion of high-intensity (Category 4 and 5) TABLE 3.2: cyclones may rise, while overall cyclone frequency Estimated losses from tropical cyclones is not expected to increase. Cyclones are characterized by damaging winds, rain, and Average annual asset losses storm surge, and they have been the most serious climate F$152 million (1.6% of GDP) hazard for Fiji in terms of total damage and loss.26 The effects of cyclone are most significant at the coast, but in island states such as Fiji, the whole country can be severely Asset losses from the 100-year event affected. Fiji experiences on average one cyclone per year. F$1,070 million (11.1% of GDP) In the past 25 years, numerous significant cyclones have affected Fiji. The most severe event was TC Winston Sources: Estimates are based on hazards and vulnerability from the PCRAFI model, revised using (1) new estimates for the asset inventory, (Category 5). Additional cyclones of note include TC especially for the building stock, based on the assessment made for Kina (Category 4, 1993), TC Ami (Category 3, 2003), and the Winston PDNA (Government of Fiji [2016b]); and (2) a dedicated TC Evan (Category 4, 2012). Both TC Kina and TC Ami model to assess asset losses in the transport sector, based on a more caused widespread flooding, landslides, and damage to detailed inventory of the road network. infrastructure, livestock, and agriculture. TC Kina resulted in the loss of 23 lives and damages of F$170 million.27 A further 17 lives were lost in TC Ami, with damages of over Coastal floods due to storm surges F$100 million. TC Evan affected northern Vanua Levu and are expected to increase western Viti Levu, causing devastating losses to housing, infrastructure, livelihoods, and crops, with total damage and Analysis of coastal flooding identifies tropical cyclones loss estimated at F$194.9 million.28 as the main driver of extreme sea levels in Fiji. Flooding in low-lying coastal areas results from the combination Based on the most recent estimates, tropical cyclones of four contributors: mean sea level (plus sea-level rise), cause on average F$152 million in asset losses ever astronomical tide, storm surge due to low pressure and year, with much larger losses for rare events (table 3.2). cyclone wind action, and the wave-induced elevation Estimates based on the PCRAFI (Pacific Catastrophe Risk of the sea. The last factor is the effect of wind-driven Assessment and Financing Initiative) model, revised based waves (“wave setup,” which is particularly important for on additional data on asset inventory and a specific model Fiji because of the presence of steep-shelved coastlines for the transport sector, yields results that are consistent and narrow fringing reefs) and low-frequency infra-gravity with previous estimates. Losses from the 100-year cyclones waves. Coastal flooding can result from an exceptional are estimated at around 11 percent of Fiji’s GDP, and the intensity of a single process (e.g., storm surge), but more losses from TC Winston are consistent with those from a often results from the combination of elevated values of the 200-year return period event. four processes, i.e., a compound event. One study estimated Modeling results suggest that the proportion of Category 4 that most previous extreme water levels recorded at Suva and 5 tropical cyclones in the region is likely to increase by and Lautoka had been due to small and moderate storm 2080–2100.29 However, it is also likely that the total number surges (< 30 cm in height) coinciding with high astronomical of storms will decrease over time, 30 making the combined tides.31 The 1-in-100-year return period total water level impact on cyclonic risk ambiguous for Fiji. In existing relative to mean sea level is estimated to be 2.2 m at Suva models, the change in the frequency of intense cyclones and 3.2 m at Lautoka under the present climate, based on varies in sign, but the change remains relatively moderate in the above combination of factors.32 The higher estimates at all models. As a result, wind damages from tropical cyclones Lautoka reflect the vulnerability of northwest Vitu Levu and are not expected to experience very large changes in the Vanua Levu to storm surge due to the shallow seas there. future, while losses from the associated coastal, pluvial, and fluvial floods may increase significantly, as explored on the right. 26. World Bank 2016. 27. FMS 2013. 28. Government of Fiji 2013. 29. FMS 2013. 30. Government of Fiji 2013. 31. Haigh 2017. 32. Mendez et al. 2017. 50 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Mean sea level and extreme water levels around Fiji are Fiji has experienced, on average, more than one flood each projected to increase significantly in the latter part of the year for the past 40 years,37 with particularly devastating 21st century, but the implication for economic losses could floods in 2004, 2009, 2012 (two events), and 2014. Direct not be quantified. Most models and scenarios project an impacts of regular floods include loss of life and damage increase globally of 17-38cm relative to current mean sea to housing and built infrastructure; indirect impacts include level by 2065, and 26-82cm by 2100 (IPCC 2013). Under a interruption of supplies and services across various sectors high-emissions scenario, models suggest an increase of of the economy. The 2009 and 2012 events, among the 45-82cm globally and 41–88 cm in the western tropical worst in the country’s history, resulted in the loss of 15 lives, Pacific by 2100.33 Haigh (2017) suggests that there could directly impacted more than 160,000 people, and caused be mean sea-level increase of 87–135 cm around Fiji by damage and loss of more than F$200 million. 38 2100. 34 Higher sea levels will increase coastal inundation Estimates for asset losses due to fluvial and pluvial floods during high tide or storm surge events, while also are very high, with losses largely driven by frequent floods exacerbating river flooding in tidal zones. The implication for (table 3.3). These estimates are based on a regionalized coastal flooding, including cyclone storm surge, wave setup, variant of the SSBN Global Flood Hazard Model 39, and astronomical tide, is that the current 100-year return combined with LandScan 2012 (to assess asset distribution period event in Lautoka (extreme water level of 3.2 m above over the islands) and depth-damage curves developed for mean sea level) may occur on average once every two Samoa. Overall, average annual flood losses are estimated years in 2100 under the high-emissions scenario. The at more than F$400 million, or 4.2 percent of Fiji’s GDP. A consequence of such changes for economic losses could significant fraction of these floods is from high-frequency, not be estimated in this study, in part due to lack of a low-intensity events that may not be recorded in disaster high-resolution elevation database. databases but are frequent enough to generate large Human activities can exacerbate increases in extreme cumulative losses, especially on roads and other transport water levels. Coral reefs and mangrove forests serve as infrastructure and on residential buildings. Another fraction wave barriers, reducing the force of storm surges and is from rarer events, including tropical cyclones. mitigating coastal flooding. Reefs have been shown to Extreme daily rainfall events in Fiji are expected to increase decrease 97 percent of the storm-wave power and to in both frequency and intensity.40 Nevertheless, there is reduce wave height by 84 percent. 35 Primary causes of little agreement on the magnitude of expected change coral reef bleaching and destruction are increased water to annual average rainfall, with considerable differences temperatures and ocean acidification, which are expected among the outputs of the different climate models. Climate (with a high level of confidence) to continue to increase. models project increases by 2030 in the current 1-in- 36 The degradation of reefs and mangroves due to human 20-year daily rainfall by 5 mm and 7 mm for the very low activities along the coast reduces any mitigating benefit emissions scenario and the very high emissions scenario, of those ecosystems, can lead to increased coastal respectively. Increases in the range of 6 mm to 36 mm erosion, and ultimately increases vulnerability to for the very low and very high emission scenarios, extreme water levels. respectively, are expected by 2090. It is estimated that current 1-in-20-year daily rainfall events will become much Flood frequency is already very high and more frequent under both the very low and very high is expected to increase, leading to large emissions scenarios, and will be experienced on average and growing economic losses as 1-in-9-year events (very low emissions) and 1-in 4-year Fiji is severely affected by floods. In addition to coastal events (very high emissions) by 2090. floods, Fiji experiences fluvial floods, which occur when rivers burst their banks as a result of sustained or intense rainfall, and pluvial floods, which occur when heavy 33. Australian Bureau of Meteorology and CSIRO 2014. precipitation saturates drainage systems, particularly in flat 34. Haigh 2017. and urban areas. Much of the population and infrastructure 35. Ferrario et al. 2014. are located on large river floodplains subject to long- 36. Australian Bureau of Meteorology and CSIRO 2014. duration flooding, and in smaller catchments prone to 37. Government of Fiji 2012. flash flooding. Rainfall-induced flooding can occur during 38. Lal, Singh, and Holland 2009; Mcgree, Yeo, and Devi 2010. cyclones as well as during non-cyclone extreme rainfall 39. Full details are provided by Sampson et al. (2015) events. Further, all major rivers discharge to the ocean and and Smith, Sampson, and Bates (2015). can be affected by elevated sea levels (during periods of 40. Data in the paragraph are from Australian Bureau either high tides or storm surge). of Meteorology and CSIRO (2014). Threats 51 TABLE 3.3: Estimated losses from pluvial and fluvial floods HAZARD AVERAGE ANNUAL ASSET LOSSES ASSET LOSSES FROM THE 100-YEAR EVENT (F$ million, and percent of GDP) (F$ million, and percent of GDP) Fluvial floods 250 (2.6%) 2,248 (23.3%) Pluvial floods 154 (1.6%) 1,455 (15.1%) TOTAL 404 (4.2%) Source: World Bank team based on SSBN simulations. Note: The SSBN Global Flood Hazard Model uses regional flood frequency analyzes derived from historical records of river flows to drive two- dimensional (2D) hydraulic models built at a 90m spatial resolution over the MERIT DEM (digital elevation model). The river networks are derived automatically from the DEM, and channel geometries are estimated using river width databases, local bed slopes from the DEM, and bankfull discharge estimates from the flood frequency analysis. Small rivers are simulated using a subgrid method that allows rivers smaller than the 90m grid scale to be represented by the model, with water from the subgrid river network appearing on the visible model grid only when water levels exceed river bank heights and flooding starts to occur. Note that 100-year losses from fluvial and pluvial floods cannot be directly added, as the 100-year events do not necessarily occur simultaneously. Here, to provide a stress test on how future flood risks could This pessimistic scenario for floods leads to an increase evolve in the future, flood hazards were investigated using in river discharge of 23 percent and 36 percent for 2050 one pessimistic scenario for future rainfall. Simulations and 2100 respectively, with an increase in flood risks, used the Climate Model Inter-comparison Project 5 especially for low-magnitude, high-frequency floods. Table (CMIP5) Representative Concentration Pathway (RCP) 3.5 shows the median percentage change in flooded area at 8.5 high-emission scenarios in 2050 and 2100. The only Tikina level relative to the present-day simulation baseline data available for this analysis for Fiji were projections of at each simulated return period. The table clearly shows monthly mean precipitation. Key change statistics (relative that low-magnitude, high-frequency events experience the to present day) for the November–April cyclone season biggest relative changes, with the change in flooded area are given in table 3.4, which shows that although the mean decreasing as event magnitude increases. This finding changes are small (and negative), there is a large spread makes logical sense given the general dynamics of flood of results across the models. There is little correlation events. For low-magnitude events, a relatively small change between changes in average rainfall and heavy rainfall in river discharges can cause a large increase in flooded episodes: even areas experiencing large reductions in area, because a small increase in water height can allow average rainfall can see an increase in flood risks. To assess water to travel much further across the floodplain. However, the potential risks that climate change poses through for large-scale events, it is likely that the floodplain is increased flood risks, the 0.9 quantile values were chosen already inundated to the valley edge, and much greater to scale both river discharge and precipitation boundary changes in discharge are required to significantly increase conditions for the hydraulic model in order to produce the the flooded area beyond this point. This finding has 2050 and 2100 hazard layers and asset loss estimates per significant implications for future potential economic losses Tikina (administrative unit). because it suggests that losses from the most frequent events are likely to experience the greatest increases. A similar pattern can be seen for pluvial hazard, although the variation in change between event magnitudes is smaller. 52 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT TABLE 3.4: Monthly rainfall changes for the cyclone season in 2050 and 2100 relative to present day MEAN STANDARD 0.9 QUANTILE DEVIATION 2050 -3.3% 21% +23% 2100 -0.3% 34% +36% Source: World Bank team based on SSBN simulations. Note: Above figures based on climate scenario CMIP RCP8.5 TABLE 3.5: Percentage increases in median flooded area at Tikina level relative to present-day baseline RETURN PERIOD (YEARS) Year 5 10 20 50 75 100 200 250 500 1,000 Fluvial 2050 17.89 13.02 10.80 7.66 7.07 7.18 6.36 6.27 5.96 6.01 Pluvial 2050 15.66 15.05 14.11 12.97 12.29 11.99 11.86 11.83 11.29 10.66 Fluvial 2100 25.66 19.30 15.28 11.12 10.96 9.82 9.70 9.62 8.66 8.76 Pluvial 2100 23.88 22.22 21.34 19.47 18.74 18.36 17.80 17.70 17.15 16.31 Source: World Bank team based on SSBN simulations. Note: Simulated present-day flooded area = 100% TABLE 3.6: Percentage increase in asset losses from floods as a result of climate change AVERAGE ANNUAL ASSET LOSSES ASSET LOSSES FROM THE 100-YEAR EVENT (percentage of GDP) (percentage of GDP) 2017 2050 2100 2017 2050 2100 Fluvial floods 2.6% 3.6% (37%) 4.1% (58%) 23.3% 26.7% (15%) 28.4% (22%) Pluvial floods 1.6% 2.3% (45%) 2.8% (72%) 15.1% 20.5% (36%) 23.6% (56%) TOTAL 4.2% 5.9% (40%) 6.9% (64%) Source: World Bank team based on SSBN simulations. Note: Above figures assume unchanged economy. Threats 53 In the absence of adaptation to heavier rainfall, Fiji may face The impact of climate change on future much larger flood losses than today, especially from frequent droughts in Fiji is highly uncertain floods. In the climate scenarios considered here, which Currently, Fiji is mainly hit by relatively short, seasonal include a significant increase in rainfall, asset losses are droughts with an average duration of a few months or less. found to grow very significantly by 2050: fluvial flood losses Long multi-year drought events have tended not to occur. by almost 40 percent and pluvial flood losses by 45 percent However, drought events can affect a large fraction of the (table 3.6). Asset loses from floods alone could therefore country at once; when a drought occurs in any location exceed 5 percent of GDP by 2050. Economic losses are in Fiji, an average of 20–30 percent of Fiji’s land area found to increase more rapidly than rainfall. In contrast with experiences drought conditions. In Fiji, the National Disaster what is often observed, the increase in flood losses arises Management Office (NDMO) is the government agency that from an increase in the frequency of smaller events, not from officially declares a state of drought.44 the rarer large floods. For instance, the average losses from fluvial floods are found to increase by 37 percent by 2050 in In Fiji, almost all droughts are associated with the El Niño the modeled scenario for this report, while the 100-year flood phenomenon, but not all El Niño occurrences lead to losses increase “only” by 15 percent. droughts. Most El Niño phenomena start in the Southern Hemisphere autumn and continue until the autumn of the Landslides represent a significant risk that can following year. However, there are exceptions, and some increase in response to heavier precipitation events begin later or finish earlier than normal. Rainfall-triggered landslides are a significant risk in Fiji due Impacts of droughts include a decrease in agricultural to the country’s steep terrain, weathered rock properties, production, mortality of livestock, and lack of drinking and the frequent cyclone, storm, and heavy rainfall events.41 water. Fire breakouts, which can adversely affect the A recent global landslide susceptibility map shows Fiji as forestry sector, have also been reported. Some drought having moderate to very high susceptibility in the interior periods resulted in a shortage of drinking water, mainly in of each island, based on analysis of slope, forest loss, rural areas, with associated health implications due to the presence of roads, and seismicity.42 The villagers of reduced quality of the drinking water. Low flows in rivers Tukuraki, in Yakete Ba, know all too well the risk posed by during drought periods are associated with saline water landslides. After losing much of the village to landslides intrusions. The economic impact of the damage caused by following heavy rainfall in 2011, landslides devastated the Fiji’s 1998 drought was estimated at between F$275 million village again in January 2012—killing a family of four, burying and F$300 million.45 more than half of the village area, and wiping out freshwater The current level of risk posed by drought is significant resources, homes, and road access.43 and will continue to be so into the future, though models Landslide risks are likely to increase with climate change. disagree on whether more or fewer droughts are to be The increase in heavy precipitation that is observed in expected. Different models project different changes in most climate models would also increase the probability of precipitations due to climate change, and this uncertainty landslides. Similarly, an increase in the more intense tropical translates into an uncertainty about future drought risks. cyclones could lead to increased landslide risk. However, Considering the type of droughts that are experienced landslide susceptibility also depends on other factors—such in Fiji, however, the intensity and frequency of drought is as land use, deforestation, and slope management—that are unlikely to change dramatically. extremely difficult to predict. 54 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The impact of geophysical events, though not Widespread runup exceeding 1 m in height occurred affected by climate change, may be worsened following the Suva Earthquake in 1953, and four other by sea-level rise events with uncertain or insignificant runup were recorded in 1881, 1884, 1979, and 2017. 48 The Global Tsunami The occurrence of geophysical events such as earthquakes Model (GTM) estimates that maximum inundation heights and tsunamis is not caused or influenced by climate change. on southwest-facing coasts of Fiji could exceed 4 m on However, risk management needs to adopt a multi-hazard average once in a 500-year period (i.e., such an event has approach, so it makes sense to include geophysical events a 0.2 percent chance of occurring in any given year). This in a country’s risk assessment. Further, the consequences estimate accounts for regional tsunamis affecting Fiji. of a tsunami are influenced by sea-level rise, which Fiji is expected to incur, on average, F$5 million per year increases the fraction of the population and assets in losses due to earthquakes and tsunamis. 49 that are exposed to this hazard. While Fiji is within an area of relatively low seismicity, it is surrounded by the Pacific Ring of Fire. The region aligns with the boundaries of the tectonic plates and is associated with extreme seismic activity, volcanic activity, and tsunamis46. Fiji has a 40 percent chance of experiencing moderate to strong ground shaking at least once in the next 50 years.47 41. Greenbaum et al. 1995. Climate change will not impact the probability of a tsunami, 42. Stanley and Kirschbaum 2017. but sea-level rise increases the exposure to tsunamis 43. Later in 2012, Tropical Cyclone Evan hit the region and wiped out and can therefore magnify the country’s vulnerability. Fiji all that remained of the village. This event was the catalyst for the is also subject to regular tsunami warnings as a result of village’s eventual permanent relocation. Pacific Community 2016. large-magnitude events in the region—events that could 44. FMS 2003. potentially result in tsunami runup (i.e., the large amount 45. World Bank 2000. of water that a tsunami pushes onto the shore above the 46. Government of Fiji 2016b. regular sea level) and damage. The National Oceanic and 47. Ibid. Atmospheric Administration (NOAA) National Centers for 48. NGDC/WDS Global Historical Tsunami Database, Environmental Information (NCEI) tsunami runup database 2100 BC to present, doi:10.7289/V5PN93H7. records only five tsunamis that have caused runup on Fiji. 49. World Bank 2015. FIGURE 3.2: Human settlement patterns in Fiji. Source: World Bank team. Threats 55 3.1.3. HIGH ASSET RISK IS EXPLAINED Pockets of rural poverty appear to be deepening over BY LARGE EXPOSURE AND HIGH time, and this trend is at least partly linked to the impacts VULNERABILITY IN VARIOUS SECTORS of hazards. Some 57 rural settlements are affected by periodic floods. In 37 rural settlement areas within the A large and increasing population lives in flood- Northern, Western and Southern Divisions, 8,500 residents prone areas, driving the increase in disaster experience stress from El Niño–related drought. In recent vulnerability and risk past years, drought impact has escalated to affect up to Fiji’s population has undergone rapid changes in the last 67,000 people in any one year.52 decade. From 2007 to 2015, Fiji’s total population grew by an estimated 29,720 people.50 According to ongoing Many poor people live in buildings monitoring by the Department of Housing in conjunction vulnerable to natural hazards with Fiji Bureau of Statistics, the number of people living in squatter and informal settlements grew rapidly over the Fiji is a comparatively well-housed nation in terms of same period—from 77,794 in 128 settlements in 2007 number, size, and quality of its houses as compared to to 96,510 in 212 settlements by 2015. In other words, countries with comparable income per capita. However, 63 percent of total population growth in Fiji over the house conditions are not uniform across all areas. The last eight years has occurred in unplanned, extralegal housing backlog in Fiji is large, with official waiting lists (in some cases, illegal), and informal settlements. for low- to low-middle-income public housing in the order of at least 19,600 units; the national housing backlog An estimated 12 percent of the urban population and is increasing by around 600 units per year, with very 6 percent of the rural population of Fiji (amounting to few serviced subdivisions for any income groups. The 143,000 people) live in low-elevation coastal zones that burgeoning and rapidly growing urban population are 10 m or lower and adjacent to the coastline.51 Annual therefore has few options: they can crowd into the business surveys point to an ongoing trend of gross existing housing stock (resulting in overcrowding); self- fixed capital formation by major public and private sector build illegally on vacant state land; or enter into extralegal, employers occurring within settlements that are close to informal occupancy arrangements without proper the coastline. lease agreements, either as paying tenants to freehold About 10 percent of the national population (20 percent of landowners or through traditional rights secured through the urban population) lives in more than 200 unplanned (and kinship and sealed with key-money (known as tenancy rapidly growing) urban and peri-urban informal settlements at will arrangements, or vakavanua). and is particularly vulnerable to natural hazards. Within Six different house construction typologies are typical these settlements, land tenure is unregistered, ambiguous, in Fiji.53 Around 40 percent of houses are of concrete/ and in many cases contested. According to censuses masonry construction, 58 percent are reasonably well carried out in 42 informal settlements by the Department of constructed timber frame houses with either wood or tin/ Housing in 2015–16, on average, 38 percent of households iron cladding. The Fiji vernacular bure house type now had incomes below the urban basic needs poverty line, constitutes only a very small proportion of houses, although and median income was F$7,800 (the country average is this type accounts for a higher share of houses in the F$9,589). A relatively high 17 percent of households are Northern Division (10 percent) and in the Eastern Division single-female headed, 13 percent of all households had (7 percent). shared or no access to potable water, and 28 percent of all households had no access to electricity. Although the Housing stock in informal settlements is of lower quality average duration of residency in the settlement is 11 years, than the wider housing stock. This situation not only reflects by definition the majority of residents do not have any form the higher incidence of poverty but also directly correlates of registered security of tenure and can be evicted at the with the underlying insecure land tenure of the residents. discretion of the landowner. The housing stock in the informal settlements is far from homogenous, but based on data from ongoing surveys by the Department of Housing in 42 settlements, only 10 percent of houses are of concrete construction, compared to 40 percent of the broader stock. The remaining 90 percent are timber frame and tin/iron, and in many cases they are built using recycled materials and are of varying construction quality. 56 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The transport sector is highly vulnerable The lack of redundancy in the road network configuration, due to a lack of redundancy in the road combined with the existing poor condition of many assets, network and limited maintenance leaves land transport highly vulnerable to current and future climate hazards. Fiji’s topography has restricted the road Transport infrastructure and services underpin Fiji’s network to spine or circumferential main roads along the economic growth and social development. The transport coast with feeder roads, but there is limited redundancy sector contributes approximately 12 percent to Fiji’s GDP54 and therefore high vulnerability (see box 3.1). Three major and receives an allocation of approximately 30 percent climatic events in Fiji (Nadi and Lautoka floods in 2012, of the government’s capital budget annually. Urban, rural, TC Evan in 2012, and TC Winston in 2016) in the past five and island communities in Fiji depend on safe and efficient years have all had major impacts on the transport sector. roads, bridges, and jetties, and on reliable maritime and The damage to the transport sector from TC Winston was aviation routes to access economic opportunities and estimated at F$127 million, with more than 80 percent social services. Tourism and agriculture, two of Fiji’s largest attributed to land transport alone.57 Over the long term, sectors, rely on safe and efficient mobility, internal freight however, it is estimated that greater damage is inflicted distribution and (increasingly) port facilities, safe and well- on the network by the sustained and recurrent inclement charted shipping lanes, and access to island destinations. weather common to Fiji than by major disaster events Transport infrastructure fixed assets are managed by such as these. 58 The sector is particularly vulnerable to two state-owned enterprises. Airports throughout Fiji are increased rainfall intensities, sea-level rise, storm surges, managed and maintained by Airports Fiji Limited (AFL), and riverine flooding. These hazards have the potential to which operates two international airports at Nadi and make the following more likely: washouts of low-lying and Nausori, as well as 13 domestic airports. The Fiji Roads coastal roads and bridges; landslides on roads located Authority (FRA) under the Ministry of Infrastructure and on unstable soils; temporary network disruptions; and the Transport (MoIT) is responsible for managing all roads, further degradation of already aging marine assets. bridges, and jetties in Fiji.55 Key assets under FRA control include 7,500 km of roads (1,700 km sealed, 5,800 km unsealed), 1,342 bridges/crossings, and 47 jetties.56 The land and marine networks have suffered from a lack of systematic maintenance and strategic planning prior to FRA’s establishment in 2012, which has left a large portion of the network in urban, rural, and coastal areas in poor condition. A continuing maintenance backlog combined with already aging assets makes the network highly vulnerable to disruption from damage to or failure of sections of roads and other assets. 50. Fiji Bureau of Statistics 51. McGranahan, Balk, and Anderson 2007. 52. The 67,000 figure is from November 2015. Photo: Vlad Sokhin/World Bank. 53. Fiji Bureau of Statistics, 2007 census. The 2007 census is the latest census in Fiji; the next census is scheduled for September 17, 2017. 54. Government of Fiji 2014. 55. Government of Fiji, Land and Maritime Policy, 2012. 56. The figure for bridges/crossing is as of August 12, 2017. Additional bridges not yet accounted for are regularly identified throughout Fiji. The exact number of jetties is not known. 57. Government of Fiji 2016b. 58. According to discussions with FRA, costs are not clearly or consistently disaggregated. Threats 57 BOX 3.1: Transport infrastructure criticality analysis Using the FRA asset database coupled with modeling of its high traffic volume and because its disruption tools developed by the World Bank, a criticality analysis results in a relatively high increase in road user cost of the Fiji road network was performed to identify the per trip (F$100). Nabouwalu road has less traffic, but transport assets most likely to result in high economic its disruption increases the average road user cost per losses if damaged. For each component of the road trip by F$250. The most critical road segments in Viti network, the analysis estimates the total number of Levu are Kings road and Queens road. Both are critical trips that would become impossible in case of failure or because the average increase in road user cost per trip damage, and assesses additional travel distances and is high when they are disrupted (F$500 for Kings road extra costs to the road user for the trips that remain and F$200 for Queens road) and because of the high possible. The components that would cause the largest traffic volume on these roads. impacts on the whole network in case of damages are The susceptibility of the road network to river and considered “critical.” surface water flooding was also analyzed by flood The most critical road segments in Vanua Levu are return period. Economic and service losses (i.e., the Natewa west coast road, followed by Nabouwalu, loss in the value of transport services) resulting from Bucalevu, Batiri Village, and Navolu roads, among each flood event was determined and is presented others. Natewa west coast road is critical because in table 3.7. FIGURE B3.1.1: Critical road segments in Viti Levu (right) and Vanua Levu (left). Criticality is measured by the increased road user cost when the road segment is removed from the network. Source: World Bank team. 58 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT TABLE 3.7: Transport-related economic losses from flood events FLOOD EVENT VITI LEVU VANUA LEVU RETURN PERIOD Asset damage Transport service Asset damage Transport service (YEARS) (repair cost as % of loss during the year (repair cost as % of loss during the year total assets value) of the event total assets value) of the event 5 0% 0% 0% 0% 20 0% 1% 0% 2% 100 9% 67% 5% 45% 1,000 52% 68% 27% 51% Note: the range provided in the table corresponds to various events with the same return period (i.e. the same probability of occurrence every year). Source: World Bank team. Source: World Bank team. Threats 59 The water sector is potentially highly A significant proportion of water and wastewater vulnerable to floods and drought infrastructure is exposed to natural hazards and climate change. This issue stems from a lack of consideration of Despite recent improvements, the water sector still faces climate-related risks in the design of system architecture, important gaps in the delivery of water supply and sewerage and in the location and design of individual facilities. Poor services. Access to piped water services is widespread in quality of infrastructure implementation and insufficient urban areas, but remains limited to less than half of rural maintenance in turn compound the system’s vulnerability. population. Sewerage service coverage remains very limited The most significant water sector vulnerabilities appear in both urban and rural areas, with most of the population to be these: relying on on-site sanitation facilities. Continuity of water supply is in most cases satisfactory. However, compliance • Inadequate protection against runoff intrusion into with quality standards often remains an issue both for pumping stations and water treatment plants. About one distributed water and treated wastewater discharged to the in five facilities are located in areas subject to significant environment. Insufficient infrastructure and maintenance submersion during flooding events of a five-year return for on-site wastewater systems poses both health and period or higher (table 3.8). These facilities are not environmental risks. designed to cope with such flooding depths. The main risks are wastewater overflow to the environment and A lack of funding limits the sector’s ability to address a failure of electrical equipment leading to disruptions these challenges and modernize its infrastructure, but the of services. situation has markedly improved since 2010. The Water Authority of Fiji (WAF), the national water and wastewater • Insufficient protection of key assets against soil services provider, currently operates a large asset base of erosion and landslides. This concerns trunk water and more than 4,000 km of water pipelines, 44 water treatment wastewater mains servicing some of the country’s plants, 11 wastewater treatment plants, and 220 pumping largest urban centers. Soil erosion triggered by intense stations. Both water supply and wastewater assets have runoff and compounded by inadequate watershed suffered from poor maintenance in the past, largely due to management has increasingly led to deterioration insufficient cost recovery to finance operation, maintenance, in the quality of water sources and compromised or capital investments. WAF recovers only 60–90 percent their treatability. of its costs, due to a combination of low tariffs and non- • The lack of diverse water supply sources for the urban revenue water still amounting to 39 percent of total population. More than 70 percent of Fiji’s population production. The situation has improved since WAF took over relies exclusively on surface water sources, which in 2010, with increasing budgetary resources, better cost supply all major urban centers. Groundwater use in recovery, and increased investment in maintenance. large islands is primarily for rural water supply and increasingly for small town water supplies. TABLE 3.8: Percentage of assets flooded by a one-in-five-year flood event FLOODING DEPTH ABOVE GROUND LEVEL > 0 cm > 20 cm > 50cm Assets with noncontained Pumping stations 19% 13% 8% wastewater Intake stations 24% 19% 7% Boreholes 50% 41% 18% Nonwaterproof assets (water supply system) Pumping stations 20% 20% 10% Water treatment plants 23% 23% 7% Source: World Bank team. 60 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT FIGURE 3.3: Types of water sources used for urban water systems. Source: WAF, 2017 In areas currently serviced by WAF, 440,000 persons FEA’s power generation mix for 2016 was 53 percent hydro, depend exclusively on a single water source, which makes 45.5 percent industrial diesel oil and heavy fuel oil, and their supply vulnerable to changes in their hydrological 0.4 percent wind, with the remaining 1.1 percent provided regime and to failures of their water production and by independent power producers (IPPs). The remaining transmission systems. This vulnerability is compounded by outer islands and remote villages are supplied with off-grid the fact that about half the water sources used to supply electricity largely from the Rural Electrification Program urban water systems abstract freshwater in coastal and of the Department of Energy (DoE), which uses diesel/ low-lying areas and could therefore be subject to saline hybrid generators for mini-grids and solar home systems intrusion as sea level rises. The situation requires particular (SHS), and from private generation using diesel plants. attention in the more inherently fragile small-scale water Key physical assets in the energy sector include 20 power schemes. generation stations, 40 substations, 174 km of high-voltage transmission lines, 534 km of subtransmission lines, 9,246 The vulnerability of energy sector km of distribution lines, 400 diesel/hybrid mini-grids, and assets is difficult to quantify 7,500 solar home systems. Fiji has high levels of energy access, with around 98 percent of the urban population and 80 percent of the rural population able to access electricity.59 The Fiji Electricity Authority (FEA), a government-owned statutory agency, is responsible for the generation, transmission, distribution and retail of electricity in Fiji. FEA currently supplies on-grid electricity to approximately 90 percent of Fiji’s population across the four most populated islands (Viti Levu, Vanua Levu, Ovalau, and Taveuni). 59. Fiji Bureau of Statistics, 2007 census. Threats 61 FIGURE 3.4: FEA’s power infrastructure, as of December 31, 2016. Source: FEA. 62 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT All energy assets are exposed to natural hazards, but The cost of damage to electricity infrastructure and lost assets are typically well-maintained by FEA, which makes revenues to the FEA from TC Winston were estimated at them less vulnerable. The main vulnerabilities are as follows: F$41.1 million.60 Additional costs of unserved energy to the economy are estimated to be almost F$88.5 million.61 • Hydro power stations are negatively affected by drought. This is a particular concern for Fiji, which has A significant portion of the grid and transformer assets is at around 55–65 percent of its energy supply generated risk from frequent flood events (table 3.9). Power plants are through hydroelectric schemes. Wind power stations exposed to rarer events. This analysis includes both pluvial are negatively affected by strong winds/cyclones. (surface water) and fluvial (river) flooding. In case of a Diesel power stations are impacted by flooding 100-year return period flood, for instance, 30 percent of the and storm surges. country’s transformers and 11 percent of the power plants will be exposed to more than 20 cm of flooding. Whether • Zone substations are negatively impacted this exposure translates into losses depends on the flood by flooding and storm surges. protections and exact location and elevation of the energy • Transmission and distribution lines located above assets, characteristics for which data were not available. ground are negatively affected by strong winds and cyclones, in particular falling trees, and by high The risks of extreme weather events, along with shifting temperatures (which reduce transfer capability). rainfall patterns and temperatures due to climate change, Transmission and distribution lines located below are likely to increase risks for the energy sector. Key issues ground are negatively affected by flooding and include reductions in generation efficiency, generation, and coastal erosion. transfer capability due to increased temperatures; damage to network infrastructure from more intense storms and • Solar home systems and mini-grids are negatively tropical cyclones; and damage to coastal assets such as affected by strong winds unless they can be dismounted transformers and substations due to increases in sea level prior to the event. Diesel generators for mini-grids are and storm surge. These risks have economic and service impacted by flooding and storm surges. delivery implications. This vulnerability has been demonstrated by recent extreme weather events, which highlight the enormous costs that result from damage to electricity infrastructure. 60. Government of Fiji 2016b. 61. The calculation is based on the following assumptions: GDP is $6.7 billion in 2015; total electricity generated in 2015 is 826 GWh; proportion of electricity to productive sectors is 72 percent. Therefore GDP/kWh = F$11.27/kWh; unserved energy is the difference between total production in the week before compared to week after TC Winston = 10,900,491 kWh; unserved energy due to productive sectors is 10,900,491 kWh * 0.72 = 7,848,354 kWh. Total indirect cost is: 7,848,354 * $11.27 = F$88,450,950. TABLE 3.9: Percentage of asset value located in the flood zones for the 5-year and 100-year return period flood and various flood depths MINIMUM FLOODING DEPTH ABOVE GROUND LEVEL (CM) 5-YEAR RETURN PERIOD 100-YEAR RETURN PERIOD 0 20 50 0 20 50 Grid 16% 11% 7% 31% 27% 22% Infrastructure Transformers 18% 13% 7% 35% 30% 25% type Power plants 0% 0% 0% 12% 11% 11% Source: World Bank team. Threats 63 Limited maintenance and quality control during These facilities play a crucial role before, during, and construction make education assets and to a lesser after natural disasters, and their effective performance is extent health facilities vulnerable critical to ensure the continual provision of services to the community. Strategic plans for the health sector are set out The health and education sectors perform critical roles in the MoHMS Annual Corporate Plan.62 In 2012 MoHMS in Fiji society, and disruption to their operation can have established the Climate Change, Health Emergency and both short- and long-term impacts on community well- Disaster Risk Management Unit, which has developed being. Health and education services in Fiji are delivered the Climate Change and Health Strategic Action Plan, to communities across 110 inhabited islands spread over 2016-202063 and the Fiji National Health Emergencies 18,300 km2, with many facilities located in rural and remote and Disaster Management Plan (HEADMAP).64 maritime areas. Much of the infrastructure across the two sectors is similar in scale and construction typology, but Education infrastructure is a community-owned asset. historically these buildings have been delivered through two The education system in Fiji is administered by the Ministry distinctly different mechanisms—through the government of Education, Heritage and Arts (MoEHA), which oversees for health and through the community for schools, as over 1,800 schools (including 942 early childhood education explained below. centers, 731 primary schools, and 170 secondary schools65). While government grants provide the majority of school Continuity of service at health facilities is crucial for funding, 99 percent of the schools are faith based and/or community well-being. The Ministry of Health and Medical community owned. Tertiary education is provided through Services (MoHMS) is responsible for providing clinical and three universities. preventative health care services to communities through 214 facilities (including 2 specialist hospitals, 3 divisional hospitals, 17 subdivisional hospitals, 88 health centers, and 104 nursing stations), which are public buildings maintained by MoIT. To deliver health care services, MoHMS uses over 62. Fiji MoHMS 2016a. 1,000 building assets (clinics, staff quarters, and associated 63. Fiji MoHMS 2016b. infrastructure), many of which are aging and in need of repair. 64. Fiji MoHMS 2013. 65. The total also includes technical and vocational education training and special education schools. 66. Fiji MoEHA 2016. FIGURE 3.5: Health and education facilities in Fiji. These play a key role during and after disaster, either as shelter or to deliver health care. Source: Government of Fiji 64 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT It is estimated that education services are delivered using Damage observed following TC Winston (mainly to schools) over 10,000 buildings (including classrooms, staff quarters, highlighted the systematic failure of buildings at the and storage and sanitation facilities), many of which are connections between structural elements. A chain is only aging and in need of repair. In 2012 the MoEHA Asset and as strong as its weakest link, and it is important to teach Monitoring Unit established the Fiji Education Management builders, whether commercial operators or community- Information System (FEMIS) to collate information on based tradespeople, about robust connections and the schools’ infrastructure, help schools log enrollments and planned maintenance of critical structural components. class attendance, and manage budgets. While schools affected by TC Winston have since been The combined risk for assets in Fiji is very high surveyed, a condition audit of other school buildings across Combining losses from various hazards is difficult due to Fiji has not been formally undertaken. Strategic plans for the overlap across hazards and models. A fraction of tropical school sector are set out in the MoEHA Annual Corporate cyclone damages is caused by floods; and a fraction of Plan for 2016–1766 and the Ministry of Economy (MoE) flood losses is due to heavy precipitation during tropical 20-year and 5-year National Development Plan. cyclones. The extent of this overlap is uncertain. To deal Health and education assets are exposed to natural hazards with this uncertainty, we have run all scenarios combining (figure 3.5). Many of the vulnerabilities to natural hazards hazards under two extreme assumptions: either no pluvial exhibited by schools and (to a lesser extent) health facilities and fluvial flood from tropical cyclones (i.e., no overlap result from insufficient input from design professionals, across the models) or an extreme assumption with low-quality construction and materials, and the substandard 40 percent of tropical cyclone losses caused by associated maintenance of facilities. These challenges are further pluvial and fluvial losses. This latter assumption is very compounded in rural or remote maritime locations where likely an overestimate. For instance, almost all losses from access to technical support, skilled labor, and appropriate, Winston were from wind damages, not river floods, while the affordable materials can be difficult. Although the Fiji large floods observed in the last decade were not related to National Building Code (FNBC) was developed in 1990 and cyclones making landfall on Fiji. Therefore, this assumption legislated in 2003, it has not been widely adopted, and is used as a sensitivity analysis to check the robustness of authorities have been challenged to enforce compliance. the results. Critics note that the codes’ “one size fits all” approach leads to conservative and uneconomic designs for small structures. Contractors in Fiji are not required to be licensed, and a shortage of technical and vocational education training (TVET) in construction makes sourcing of qualified trades difficult. Transport Residential 46% 30% FIGURE 3.6: The distribution of asset losses due to tropical cyclones Other and floods for Fiji. The high vulnerability of transport Building infrastructure and residential and nonresidential buildings 14% is evident. Energy Water 3% 6% Source: World Bank 2015. Note: Does not include agricultural asset losses. Threats 65 Estimates of expected average annual losses caused by Most of the population can cope with shocks tropical cyclones and floods are significant, with annual without relying on extreme coping strategies losses between F$500 million and F$560 million, which is The country household survey (HIES) 2013–14, which more than 5 percent of Fiji’s GDP. In a scenario where pluvial includes information on how people managed in the and fluvial flood losses from tropical cyclones are negligible, aftermath of TC Evan in 2012, shows the relatively high total annual losses are estimated at F$557 million, or resilience of the Fiji population. The fraction of people who 5.8 percent of GDP. A best-case scenario where 40 percent report having used “detrimental coping strategies”—such as of tropical cyclones losses are from floods leads to total reduction in food intake, forced sale of assets, reduced annual losses around F$500 million, or 5.2 percent of GDP. expenditures on health or education, or even taking children Annual losses from natural disasters are highly volatile and out of school—remains relatively limited, below 10 percent. rare events can be extremely destructive, with losses larger The comparative rarity of these coping strategies, than F$1 billion. But high-frequency low-intensity events— compared with patterns in other developing countries, is such as the regular floods that occur almost every year— likely due in part to people’s use of savings, and to the are also responsible for significant losses, even though support they received from the government, friends, or they are not recorded in disaster databases. family members. The largest share of nonagriculture asset losses is for Individuals and businesses have access to useful and buildings and transport infrastructure. The large impacts affordable financial products and services including on these sectors are explained by the total value of their insurance; this financial inclusion makes them more resilient. assets, and by their large exposure to natural hazards. A large fraction of households has access to formal They are also suggestive of large macroeconomic impacts, banking, and people affected by TC Evan could use their since the functioning of the transport system and integrity savings to cope and recover (figure 3.8). On the other hand, of buildings are preconditions for most economic activities. few households have access to disaster risk insurance, and Figure 3.6 shows the share of estimated annual losses less than 10 percent of households have home insurance. It across various sectors in Fiji. is mostly formal and relatively big firms that have insurance. Uncertainty remains regarding losses generated from the After TC Winston, insurance companies reported total full range of hazards to which Fiji is vulnerable. For example, claims of F$255 million, offset by F$49.9 million in landslide risks could not be included in this analysis. The recoveries (excess) resulting in a net F$155 million impact simulations of the hazards that could be represented also on the industry.67 The total value of claims that have been faced limitations—some due to the uncertainty present paid is lower, but exact numbers are not available. It is in any high-resolution modeling, and some to the lack of estimated that total claims were about 85 percent of necessary data (high-resolution—e.g., topographic—data received claims, i.e., F$132 million. Based on asset loss or hydrological and meteorological data). However, the estimates from the PDNA, these insurance claims represent methodologies mobilized for this study provide reasonable 7 percent of total losses caused by TC Winston and estimates that can be used to assess risk management 10 percent of total asset losses. policies and support the inclusion of risk in development planning processes. 3.1.4. DESPITE THE POPULATION’S RESILIENCE, THE RISK TO LIVELIHOODS AND WELL- BEING IS HIGH AND NATURAL HAZARDS KEEP PEOPLE IN POVERTY Vulnerability to natural shocks depends on socioeconomic characteristics. The actual impact of natural hazards and disasters on the population does not depend only on the direct impacts of those disasters, and on the damages to assets such as houses and infrastructure. It also depends on whether reconstruction can be done swiftly and efficiently, whether the population has access to savings or not, and whether aid is received from the community or the government. 67. Government of Fiji 2016. 66 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Unconditional help from relatives/friends Relied on savings Relied on less preferred food options Unconditional help provided by government Reduced the proportion or number of meals per day Changed cropping practices (crop choices or technology) Other Reduce expenditures on health and education Obtained credit Household member(s) took on more non-farm (wage or self employment) Household member(s) took on more farm wage employment Sold livestock Sold durable household assets (agriculture or non-agricultural) Skipped days without eating Take children out of a school Distress sales of animal stock Transfer children to a di erent school Sent children to live elsewhere Household member(s) migrated Rented out land/building Sold land/building 0% 10% 20% 30% 40% 50% 60% Percentage of households who have used coping mechanism following TC Evan FIGURE 3.7: Multiple coping mechanisms used by households in Fiji. Few households have to engage in mechanisms with long-term detrimental impacts, such as taking children out of school. Source: Fiji Bureau of Statistics, HIES 2013–14. Threats 67 Lower middle income Bottom 40% Entire population Top 60% Upper Middle Income 0% 10% 20% 30% 40% 50% 60% 70% 80% FIGURE 3.8: Percentage of the population who use the formal banking system in Fiji. Source: Reserve Bank of Fiji 2015. Fiji’s strong social protection system can be Since 2009, the government has significantly increased scaled up after disasters, partly protecting investment in its social protection portfolio. Funding the most vulnerable increased from F$20.4 million in 2009 to F$33 million in 2015 (figure 3.10), in recognition of the importance of social Fiji has a long history of providing social assistance to assistance programs. vulnerable populations who are struggling to meet their basic needs, and its social protection system has evolved The strength of the existing social protection system over the years. The core social protection programs are allowed the government to act swiftly and efficiently the Poverty Benefit Scheme (PBS), Care and Protection to provide support to the affected population after TC Allowance (CPA), and Social Pension Scheme (SPS), Winston. The government scaled up its three main social all inbuilt with a Food Voucher Program, in addition to a assistance programs to provide existing beneficiaries with Free Bus Fare Program and a Food Voucher Program for top-up payments equivalent to three months’ worth of pregnant women in rural areas (figure 3.9). The Department their regular benefit amounts, and a total of F$19.9 million of Social Welfare, under the Ministry of Women, Children was dispersed within one month of the disaster. Under and Poverty Alleviation (MWCPA), is the lead agency for the PBS, 22,802 households were paid a lump sum of 0% 10% 20% 30% or the F$600, equivalent50% 40% of F$200 60% 70% Some for three months. 80% social assistance in Fiji and administers Fiji’s core programs. The last major social protection program reforms were 17,782 pensioners of the SPS over the age of 68 received undertaken by the government in 2010–11 and resulted in an additional F$300 (F$100 over three months). Finally, the expansion of the existing social assistance programs. 3,313 families under the CPA received a total of F$300. The new system, rolled out in 2013, replaced the Family The cash top-up payments were intended to help people Assistance Program with the improved PBS, which targeted meet immediate expenses following TC Winston and were the poorest 10 percent of households in Fiji (compared to provided to all existing beneficiaries, irrespective of whether the earlier 3 percent). In addition, the SPS was introduced they resided in the affected areas. to provide social pensions to elderly people (age 70+)68 who fell outside the coverage of the Fiji National Provident Fund (FNPF) or other social assistance programs. The FNPF was also scrutinized and reformed to tighten the 68. Since the introduction of SPS, the eligibility age has been reduced rules and regulations governing the various schemes and several times—from 70 to 68 (at the time of TC Winston), to 66 in their long-run sustainability. the 2016–17 budget, to 65 in the 2017–18 budget. 68 Climate Vulnerability Assessment 20,000 0 2011 2012 2013 2014 2015 2016 2017 MAKING FIJI CLIMATE RESILIENT 200,000 180,000 Free Bus Fa 160,000 Food Vouch Number of beneficiaries 140,000 120,000 Social Pens 100,000 Free Bus Fare Program Care and Pr 80,000 Food Voucher Program 60,000 Family Assis Social Pension Scheme 40,000 Care and Protection Allowance 20,000 Family Assistance/ Poverty Benefit Scheme 0 2011 2012 2013 2014 2015 2016 2017 FIGURE 3.9: Increase in beneficiary numbers under the core social protection programs Source: Government of Fiji 2016b Note: The coverage of the Poverty Benefit Scheme has been estimated assuming an average household size of five individuals, based on the 2007 census.  35 Total budget 30 Food Voucher Progr 25 Budget in F$ million Social Pension Sche 20 Total Budget Care and Protection 15 Food Voucher Program Family Assistance P Social Pension Scheme 10 Care and Protection Allowance Family Assistance Program 5 (2009-2012)/Poverty Benefit Scheme (2013-2015) 0 2009 2010 2011 2012 2013 2014 2015 FIGURE 3.10. Government budget for social protection programs 35 Source: Fiji Budget Estimates (2012–15) as reported in Government of Fiji 2016b. Food Voucher P 30 Social Pension 25 Threats and Care 69 Prote 20 Poverty Benefit 15 A follow-up food voucher payment of F$4.6 million for two Of all households that received additional cash assistance, months (May/June 2016) to the social assistance recipients 37 percent lost their entire dwelling, 74 percent sustained was also developed by the government and is a good damage to their roofing, and 49 percent lost their crops example of how the social protection framework was used or harvest. Within four weeks, the majority of households to delivery humanitarian assistance during TC Winston. had spent their entire additional social assistance, with 99 percent of expenditure on “essential items.” Food and Other support to the affected population was provided materials to repair damaged dwellings formed the two through the FNPF and the Help for Homes initiative. The most important categories of expenditure, followed by FNPF, the largest social insurance program in the country, clothing and school supplies. Less than 1 percent of the allowed affected members to withdraw cash nine days assistance was spent on kava, alcohol, or cigarettes; this after TC Winston and within two months had disbursed finding addresses a common concern that additional social approximately F$250 million to its members, resulting in a assistance would be used for “nonessential items” significant injection of cash into the economy. However, this (figure 3.11). withdrawal could have long-term implications for members, as they will receive reduced pensions in the future. The The evaluation shows that three months after the cyclone Help for Homes initiative is a homeowner-led reconstruction took place, beneficiaries under the PBS (who belong approach that is at the core of the housing reconstruction to the poorest 10 percent of the population) were more strategy. A Phase 1 amount of F$70 million from the likely to have recovered from the shocks they faced than Government of Fiji’s 2016 budget was announced at the comparable households that did not receive the additional launch of the strategy, comprising 30 percent the total assistance. This includes having recovered from sickness or housing sector reconstruction needs following TC Winston. injury, repaired their dwelling, replenished their food stocks, The funding is available to homeowners (table 3.10) and is remedied the damage to their agricultural land, repaired being used to support households in constructing at least village or neighborhood infrastructure, and resolved one cyclone-resilient room (starter home) or in undertaking problems of conflict, violence, or insecurity. preliminary roofing repairs. Households are receiving Since TC Winston, the MWCPA has introduced a set of coordinated and proactive building and social advisory changes to further strengthen the social protection system. support and training to ensure that houses are repaired These changes are effective beginning FY 2017–18 (starting and reconstructed to an appropriate, durable standard. in August 2017). The overall budget of the social protection A comprehensive impact evaluation of the government’s programs has increased, partially to cater for the increasing response to TC Winston shows adaptive safety nets were demand on the programs since TC Winston and to address effective in helping households cope. the aging population of Fiji. Some of the key changes for the major programs are summarized in table 3.11. TABLE 3.10: Support provided under Phase 1 of the Fiji government’s Help for Homes initiative for affected households, based on the losses they experienced LEVEL OF DAMAGE MATERIALS GRANT AMOUNT PURPOSE Minor damage to the roof F$1,500 Sufficient to jump-start partial repairs Major damage to the roof F$3,000 Sufficient to jump-start partial repairs House destroyed F$7,000 Sufficient to construct 1 room (15 m2 floor area) able to withstand Category 3 wind speeds Source: Government of Fiji 70 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Food Repair Clothing/school supplies Medical Household goods/furniture/products Repay debts/saving/contribution Kava/alcohol/cigarets 0% 5% 10% 15% 20% 25% 30% 35% FIGURE 3.11: Percentage of top-up assistance spent on various items. Sources: Fiji Bureau of Statistics; World Bank, TC Winston Impact Evaluation, June 2016; Ivaschenko et al. 2017. TABLE 3.11: Changes to the Social protection system after TC Winston PROGRAM CHANGES BUDGET IMPLICATIONS Poverty Benefit Scheme Increase in household monthly Budget increased by F$8.2 million to benefit amount from F$160 to F$177 cater for an additional 2,294 beneficiaries Social Pension Scheme Eligibility age decreased Budget increased by F$23.2 million to from 66 to 65 years cater for an additional 8,000 beneficiaries Child Protection Allowance Increase in benefit amount from Budget increased by F$1.6 million a maximum of F$110 to F$119 per child per month Disability Allowance New initiative for people living with Budget allocated F$7.97 million permanent disabilities; monthly allowance of F$90 per person. Source: World Bank team based on Government of Fiji budget 2017–18. Threats 71 There are still some challenges to the use of the existing Fiji has established early warnings systems social protection system and its scale-up after a disaster Disaster preparedness and response in Fiji is governed (table 3.11). In particular, there is no ready registry of near by the Natural Disaster Management Act (1998) and poor and vulnerable people that could be used to provide the National Disaster Management Plan (1995), which assistance to nonbeneficiaries after a disaster. The PBS describe the governance, institutional arrangements, and beneficiary registry does not yet permit increases to operational procedures for disaster risk management in the number of beneficiaries after a shock, as it does not Fiji. Both the act and the plan are currently being updated include the near poor who are not eligible in normal times to (among other things) better reflect clear roles and but may be eligible for support after a disaster. During responsibilities for the relevant stakeholders involved in the reform process of 2010–11, the PBS introduced an disaster early warning, preparedness, and response. Fiji objectively verifiable targeting methodology using proxy also has a Cyclone Support Plan (1997), which details means testing (PMT) to establish the poverty threshold for procedures for preparedness, warnings, response, and the program and its beneficiaries. Through a self-reporting other practical aspects of cyclone management, as well as process, households apply for the PBS and are evaluated clear roles and lines of responsibility. Cyclones are the only for eligibility by the Department of Social Welfare. However, hazard in Fiji for which there is such an operational plan. the benefit is awarded only to those households whose welfare status falls below a poverty threshold currently Disaster management policies for Fiji are formulated by set at approximately the bottom 10 percent of the income the National Disaster Management Council (NDMC). The distribution. The near-poor households (those whose responsibility for national disaster management rests with welfare score is low, but still above the program’s threshold) the National Disaster Controller, who assumes powers are not given a benefit. The regional offices have access upon the formal declaration of a natural disaster under to the paper records of the near poor, but these records the National Disaster Management Act (1998). have not been converted to an electronic format and are Key agencies responsible for early warning and not part of the existing database. Furthermore, although preparedness in Fiji include the Fiji Meteorological regional databases exist for all active PBS beneficiaries, Service (FMS), the Hydrology Division (which works and there is not yet a consolidated, centralized database for the is housed within FMS), the Seismology Section (within program. Hence, assistance can be scaled up only to active the Mineral Resource Department), and the NDMO. FMS beneficiaries at the time of disasters, while the near-poor is responsible for monitoring rainfall, cyclone, and other population does not receive benefits. weather-related activity. TABLE 3.12: Scalability challenges for social protection programs CHALLENGE RESOLUTION Geographical targeting of beneficiaries Upgrading and centralizing of social according to hazard-affected areas protection program databases Extension of benefits to near-poor families Upgrading of database and electronic just above the poverty threshold of the program entry of non-eligible beneficiary records Budget for scaling up social protection programs Exploration of social protection financing in the event of a natural hazard options and contingency loan options Source: World Bank team. 72 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The Hydrology Division is responsible for monitoring stream National disaster clusters were introduced by the flows within Fiji’s rivers and undertaking flood forecasting. government during the response to TC Evan and helped The Seismology Section is responsible for monitoring to improve emergency response coordination. The seismic activity. Fiji has six seismic monitoring stations, disaster clusters complement the legislated disaster which are linked to the regional Oceania Regional Seismic risk management arrangements and facilitate improved Network (ORSNET). FMS, the Hydrology Division, and the coordination with national and international partners. The Seismology Section all operate their monitoring activities following nine national clusters have been adopted to date: on a 24-hour basis, every day of the year. All three of these Communications; Education; Food Security and Livelihoods; organizations are required to notify NDMO in the event of Health and Nutrition; Logistics; Public Works and Utilities; activity that warrants early warning interventions. Shelter; Safety and Protection; and WASH. These clusters meet in ordinary times as well as in times of disaster. NDMO is responsible for issuing early warning messages to the public. It receives information from the three In the case of TC Winston, a number of initiatives were technical agencies, and issues the warning accordingly. used to ensure early warning messages were transmitted In non-disaster times, the NDMO operates during normal to the public. Messages from the pre-existing “Get Ready business hours, and this constrains the issuing of timely Disasters Happen” campaign were disseminated via radio, early warning messages. Messages are distributed using print media, and the Get Ready website (getready.gov.fj) a variety of mediums, including print media, radio, websites, in advance. Public advisory messages were also issued, text messages, and social media. An integrated system instructing communities to make preparations and be on of early warning standard operating procedures (SOPs) the alert. Social media campaigns such as #FijiWillRise and (including message templates as well as information and #StrongerThanWinston were quickly established and rapidly communication modalities) is not currently in place to gained momentum.69 These initiatives supplied the public facilitate information flows prior to and after events. with information regarding how to prepare for TC Winston and what to do in the aftermath. However, the systems The NDMO establishes the National Emergency Operations would benefit from improved clarity around integrated Centre (NEOC) during emergencies. The NDMO/NEOC procedures to inform the public of disaster preparedness is assisted by disaster service liaison officers from and response and to guide information flows before and government agencies as the main points of contact after disaster events. for liaison and coordination. At the division and district levels, the commissioner and district officer, respectively, Despite this concerted effort to warn the public about the are responsible for the emergency operation, in close dangers of TC Winston, Fiji’s limited experience of Category coordination with the National Disaster Controller and 5 tropical cyclones meant that the public did not fully NDMO/NEOC. Divisional commissioners have overall understand what to expect or what risks they faced. For authority to manage and direct disaster emergency example, while a number of coastal communities expected operations within their respective divisions and are strong winds, they were unprepared for the intensity of the subordinate to the National Disaster Controller and NDMC- storm surge and consequently made some poor decisions Emergency Committee. However, the commissioner has about evacuation.70 In addition, language and terminology the autonomy to activate divisional emergency operations were noted as major barriers in the communication of if warning of an approaching disaster is issued and has weather information and warnings to the community, power to control all agency resources within the division. including people with disabilities. About 800 emergency evacuation centers are designated by the government for communities across the country. These centers are typically a combination of school buildings, churches, and community halls. There has been no systematic structural assessment of the centers’ ability to withstand cyclonic winds, nor have the centers been provided with WASH (water, sanitation, and hygiene) facilities, backup generators, or similar facilities. Finally, there has been no evaluation of the centers’ suitability for vulnerable members of the community such as the 69. Government of Fiji 2016b. disabled or elderly. 70. Fiji MRMDNDM et al. 2017. Threats 73 Vulnerability and resilience exhibit a gender gap, Some responses to disaster situations can be particularly and some populations, such as the elderly and damaging for children, who are disproportionately people with disability, are particularly at risk vulnerable.77 Recurrent flood events, such as urban floods in informal settlements, have impacts on people’s health, with Gender is a critical determinant of vulnerability to climate large cumulative impacts on children, even if each event change and natural hazards. Several studies have is relatively small. Such events can lead to missed days demonstrated that natural disasters and climate change at school for children and missed days at work for adults have disproportional impact based on existing vulnerabilities because adults (mostly women) stay home to take care of and inequalities in a society. There is evidence that sick children.78 women are more likely to die during disasters, although exact figures are not available because data are not Research on sexual and gender minorities and disasters disaggregated by gender.71 has documented that sexual and gender minorities are often more severely affected by natural disasters than others. Women also have greater material and tangible losses in This vulnerability is reinforced by the absence of attention disasters in countries where their socioeconomic status is to sexual and gender minorities’ needs and concerns in already low. In addition, differences in men’s and women’s disaster risk management. Despite being marginalized, vulnerability are affected by marginalization due to ethnicity, these minorities have proven to have capacities that disability, class, age, sexual orientation, and other factors contribute to reducing the impacts of disasters. For that put people in disadvantageous positions.72 example, owing to the nature of their identity, sexual and Gender inequality remains a significant challenge in Fiji. gender minorities have been able to take on and move The behavior and roles of Fiji women are largely determined between tasks traditionally designated by gender. These by island societal systems and customary values.73 capacities have yet to be acknowledged in the policies Socioeconomic status, ethnicity, and the rural/urban and practices of climate and disaster risk management.79 context are also factors that influence gender relations in Compared with their status in other Pacific island the country, with more traditional gender norms generally Countries, diversity in sexual orientation and gender found in rural communities.74 Despite cultural variations identity issues have a somewhat high profile in Fiji. The between the ethnic groups, gender-differentiated access issues are well represented by various organizations to endowments, economic and political resources, and from the LGBTI (lesbian, gay, bisexual, transgender, patriarchal cultures are shared commonalities between and intersex) community advocating for their rights and Fiji women. nondiscrimination. Nonetheless, there is still substantial In general, the elderly and people with disabilities are prejudice and intolerance against sexual minorities in the more vulnerable to natural hazards (more likely to die public and among government officials such as health or be injured) than people without disabilities. This is workers, teachers, police, etc.80 Although there is no because they have lower mobility, higher vulnerability to evidence that sexual and gender minorities in Fiji experience environmental conditions (e.g., extreme heat), and less disproportionate impacts of climate change and disasters, access to aid, shelter, evacuation, and relief.75 There is also their vulnerabilities and capacities should be considered to evidence that people with disabilities tend to have less minimize their risks in the event of a disaster. representation in planning and decision making for disaster preparedness. There are slightly more men with a disability (54 percent) than women (46 percent).76 In Fiji, women with disabilities face challenges in accessing good-quality sexual and reproductive health services. 71. Neumayer and Plumper 2007; IUCN 2009. 72. Bradshaw and Fordham 2013. 73. Charan, Kaur, and Singh 2016. 74. ADB 2015. 75. UNISDR 2014; Hemingway and Priestley 2014. 76. Fiji National Council for Disabled Persons 2010. 77. Kousky 2016. 78. Hallegatte et al. 2016, chapter 4. 79. Gaillard, Gorman-Murray, and Fordham 2017. 80. ADB 2015. 74 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The capacity to adapt and respond to climate change and disasters is shaped by gendered power relations that determine women’s and men’s agency and access BOX 3.2: to endowments, economic opportunities, and resources. Gender-differentiated vulnerabilities should therefore be assessed based on these areas: (1) endowments, with Natural hazards and an emphasis on health, education, and social protection; gender-based violence (2) economic opportunities, focusing on participation in economic activities and access to and control over key productive assets; and (3) agency, which includes freedom Women and girls are highly vulnerable to the from violence and the ability to have voice and influence in impacts of climate change and natural disasters. governance and political processes. These three areas are The increase of gender-based violence (GBV) strongly interconnected and determine women’s and men’s and violence against children in emergency socioeconomic resilience to climate change and disasters. settings has been widely documented. Fiji has a high rate of GBV: 72 percent of women who have been in intimate relationships have experienced physical, sexual, or emotional violence from an intimate partner.a Anecdotal evidence indicated that violence against children increased after TC Winston as a result of heightened stress and vulnerability from caregivers. People with disabilities and especially women are at particular risk, because they experience twice as much domestic violence as nondisabled women. Photo: Alana Holmberg/World Bank. Sources: World Bank, Global Women’s Institute, and IADB 2014; Government of Fiji 2016b; Gender and Disaster Network 2009. a. Fiji Women´s Crisis Centre 2013. Threats 75 Overall, the resilience of the population remains limited It is possible to estimate the impact of natural hazards on BOX 3.3: assets and the population’s well-being through modeling. The ability of the affected people to cope with and recover The socioeconomic from asset losses depends on the people’s characteristics (e.g., their income, the diversification of income, savings, resilience model and ability to borrow) and on the government’s response (e.g., ability to provide post-disaster support to the population). This ability has been modeled based on The socioeconomic resilience model combines (1) data from the HIES 2013–14 (for the population’s household income data from the HIES 2013–14 data set characteristics); and (2) the response to TC Winston with projected asset losses at the Tikina level due to (for the ability of the government to respond). The wind (tropical cyclone) and precipitation-induced flood results are as follows. events (pluvial and fluvial flood). Asset losses from Asset losses from tropical cyclones and floods do not tropical cyclones are based on data from the PCRAFI affect everybody in the same way. Instead, poor people analysis, which have been adjusted with revised are more affected than the average. This is illustrated by estimates for the capital stock in Fiji. Asset losses from figure 3.12, which shows the impact of one hypothetical floods are from the SSBN global model, combined with disaster—a 100-year tropical cyclone event affecting exposure maps and simple vulnerability curves. Ba Province—per income quantile, and before and after Within the data set, loss exceedance curves are the support provided by the government to households. constructed for each Tikina and hazard, and cover The figure shows the loss of assets (i.e., the repair return periods of 1 through 2,500 years. Aggregate or replacement value of what has been damaged or Tikina-level losses are distributed among households in destroyed), the loss of consumption, and the loss of well- the HIES survey, based on their income (this accounts being. Consumption is the amount of goods and services for the damages to assets that people do not own, that people buy, self-produce, or extract from their but use to generate an income—for example, roads environment. After a disaster, production and income levels and the electricity grid) and the vulnerability of their are decreased, and therefore people have to consume dwelling, judged by the strength and quality of housing less, a change that is referred to as a consumption loss. materials reported in the HIES data set and simple The same consumption loss—say F$1,000—has very building vulnerability curves taken from the literature. different implications for people at different income and (To distribute the losses at the household level, the wealth levels, however. While the well-off can reduce vulnerability of other assets the households use to nonessential consumption and use their savings to make generate an income, from equipment to infrastructure, up for the losses, poorer people may be forced to cut back is assumed equal to the vulnerability of their dwelling.) on basic consumption—of food, housing, education, or health care. To assess the “well-being losses” caused by Through this approach, we can estimate the asset a disaster, the analysis accounts for differences in coping losses each household is likely to suffer whenever capacity (e.g., access to savings or social protection) and a disaster of a given type and magnitude strikes gives a higher value to drops in consumption when they a given province. Then, we translate asset losses affect poor people than when they affect richer individuals. into consumption losses using the World Bank’s (See details in box 3.3.) countrywide value for average productivity of capital, along with socioeconomic data regarding household income diversification, savings at a financial institution, and coverage by social safety nets. In particular, we take into account the diversification of losses at the national level provided by social protection and 76 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT pension schemes and by savings at a financial institution, These calculations make it possible to assess and the ability of the government to provide post-disaster “socioeconomic resilience” as a measure of the ability support to those affected to share the losses within the of the population to experience asset losses without population and smooth consumption losses. (In the case of suffering from well-being losses. Socioeconomic Fiji, the response to Winston is used as a benchmark for the resilience is calculated as the ratio of asset to government support households would receive after future well-being losses. If socioeconomic resilience is disasters.) By converting asset losses into consumption 100 percent, then F$1 in asset losses is equivalent losses at the household level, it is possible to assess in terms of well-being to a F$1 loss in consumption. the impact of various disasters on the country’s income But if socioeconomic resilience is only 56 percent, distribution, and on the poverty head count. as estimated in Fiji, then well-being losses are 1.8 times larger than asset losses: it means that a F$1 In a next step, we consider the fact that $F1 in consumption in asset losses is equivalent in terms of well-being to a losses does not mean the same thing to someone living F$1.8 loss in consumption. This increase translates the in extreme poverty as it does to better-off individuals. fact that F$1 in asset losses causes indirect economic The same level of consumption loss affects poor and impacts and reduces income by more than F$1, that marginalized people far more than wealthier people losses from disasters in Fiji affect poorer people more because their consumption is closer to subsistence levels than the average, and that some people do not have and thus cannot reduce nonessential consumption. They the resources and instruments to cope with and cannot rely on savings or borrowing to smooth the impacts recover from disaster losses. By building of losses, so their food security, health, and education are socioeconomic resilience, for instance with social at greater risk and they potentially require more time to safety nets and poverty reduction, it is possible to recover and reconstruct. To account for these factors, we reduce the well-being losses from disasters, even if value F$1 in consumption losses differently, depending on asset losses remain unchanged. the income of the affected household before the shock. In practice, we use a traditional welfare function with an While this approach is very simple compared with the elasticity of the marginal utility of consumption equal to complexity of the mechanisms at stake, it allows us 1.5—a typical value in the literature. This function makes it to capture important dimensions of disaster impacts, possible to translate household-level consumption losses including the fact that well-being impacts are lower into an estimate of well-being losses. These well-being if losses (1) are shared across a larger population, losses are expressed as equivalent to consumption losses (2) spare the poorest people who have no resources at the national level: if a disaster causes well-being losses to cope with and recover from them, and (3) are equal to F$1 million, it means that the well-being impact of smoothed over a longer period instead of occurring the disaster is equivalent to a F$1 million drop in national- as a brutal shock. level consumption that would be uniformly distributed in a population without inequality. Source: Hallegatte et al. 2017. Threats 77 5,000 Poorest quintile Disaster losses (F$ per capita) 4,000 Q2 Q3 Q4 3,000 Wealthiest quintile 2,000 1,000 0 Asset loss Consumption Well-being Net cost Well-being loss loss loss of Winston-like post support support 120 Poverty line ∆NP=+48,095 (5.7% of population) 100 FIGURE 3.12: FIGURE 3.13: 80 Impact of 100-year tropical cyclone event on Effect of a 100-year tropical cyclone on the income 60 Province. While the wealthiest quintile loses Ba distribution of the country. Such an event would more in assets and consumption in absolute terms, push almost 50,000 people into poverty. 40 poorest quintiles lose more well-being, even the Source: World Bank team, based on the socioeconomic considering the support provided by the government. resilience models and table 3.8. 20 Source: World Bank team, based on the socioeconomic resilience models and table 3.8. 0 0 5000 10000 15000 20000 120 Poverty line 100 Population (thousands) 80 60 40 20 0 0 5,000 10,000 15,000 20,000 Income (F$ per year) Pre-disaster (100-year tropical cyclone) Post-disaster (100-year tropical cyclone) 78 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Using the 100-year cyclone in the Ba Province as an The larger impact on poor people means that natural example, figure 3.12 shows that compared to the poor, hazards can cause significant increases in poverty. richer households lose more assets (because they own Modeling the impacts of natural disasters on the losses of much more than the poor) and more consumption (because individuals can be used to clarify the impact of disasters their consumption is much higher before the disaster), on income distribution and poverty in Fiji. This is illustrated but much less well-being (because they are much better in figure 3.13, showing the income distribution in Fiji before able to cope with the losses). Indeed, when the ability to and after a modeled tropical cyclone with a 100-year manage consumption losses is taken into account, poor return period, and using the basic need poverty line as the people are found to be more vulnerable to hazards. In the definition for poverty. In this scenario, almost 50,000 people case of the 100-year tropical cyclone affecting the Ba would be pushed into poverty by the storm—that is, 50,000 Province, for instance, the poorest quantile loses on average people would move from an income above the poverty line “only” F$500 in assets per person because of the storm, to an income below the poverty line. This shift would occur compared to more than F$3,500 per person for the richest even with government support programs in place. quintile. But losses for the poorest expressed in terms of Socioeconomic resilience—an indicator of the ability of well-being are equivalent to nearly F$3,000 per person, the population to cope with and recover from disaster compared to F$1,200 for the richest quintile. This result losses—is estimated at 56 percent in Fiji. This means that shows that asset losses of F$500 have a bigger impact on when the Fiji economy experiences a F$1 loss in asset due poor people’s well-being than much larger losses have on to a disaster, the impact on the population’s well-being is the richest in the country, because they are much poorer equivalent to a drop in national consumption by F$1.8. This to start with and do not have access to the same support is because disaster losses are not evenly distributed in when they are affected (for instance, they have the population and affect poor people disproportionately. little savings). Thus F$500 million in average annual losses is equivalent Assuming a similar response to that following TC Winston, in terms of well-being to a F$900 million drop in annual figure 3.12 also illustrates that the various government consumption, and considering only asset losses would lead support programs serve to partly compensate poor people to underestimating the impact of natural disasters on the for their losses. By providing targeted support to the population’s well-being. poorest—especially through the PBS—the government The economic losses due to tropical cyclones and floods reduces the well-being losses for the most vulnerable. For force an average of roughly 25,000 people per year into the bottom 20 percent, this support reduces the well-being poverty.81 But the impact on poverty varies greatly from losses due to the disaster by 17 percent. Such support one year to the next, and big events have the potential to also slightly increases the losses for the unaffected richer push 100,000 people into poverty at once (table 3.13). This households, who have to pay the taxes to finance any scale- possibility illustrates the social vulnerability of the country up of government support programs. However, the increase to natural hazards and the importance of managing natural to taxes is too small to have a distinguishable impact on the hazards to eradicate poverty. well-being of the richer people. 81. This estimate assumes that pluvial and fluvial flood losses from tropical cyclones remain limited. An extreme-case sensitivity analysis assuming that 40 percent of tropical cyclones losses are due to pluvial and fluvial losses (and removing these losses from the flood estimates from SSBN) reduces the number of people falling in poverty every year by less than 10 percent. Threats 79 TABLE 3.13: Impact of tropical cyclones and fluvial and pluvial losses on poverty HAZARD AVERAGE NUMBER OF PEOPLE PEOPLE FALLING INTO POVERTY FALLING INTO POVERTY EVERY YEAR FOR THE 100-YEAR EVENT (percentage of total population) (percentage of total population) Tropical cyclones 7,300 (0.9%) 48,000 (5.7%) Fluvial floods 11,400 (1.4%) 105,000 (12.5%) Pluvial floods 7,000 (0.8%) 66,000 (7.8%) TOTAL 25,700 (3.1%) Source: World Bank team, based on the socioeconomic resilience models and table 3.8. 3.1.5. MANAGING HAZARDS REQUIRES In the climate scenario investigated here, climate change ACTIONS IN MULTIPLE SECTORS increases average annual asset losses from floods by TO AVOID UNACCEPTABLE RISK 40 percent, which would make disaster-related losses TO DEVELOPMENT OBJECTIVES grow from around 5 percent of GDP to around 6.5 percent Climate change will have an impact on most of the natural of GDP, even assuming no change in wind damages and hazards that affect Fiji. Tropical cyclones, river and pluvial storm surges. For tropical cyclones, it is expected that floods, coastal floods, and droughts will be influenced the total number of storms will decrease or remain the by changes in climate and environmental conditions, same, while the intensity of the most intense storms is over the short and the long term. Uncertainty about expected to increase. In spite of large differences across future climate conditions, and about the response of climate models, the change in intensity remains relatively extreme events to changes in average conditions, makes moderate in all models. In this analysis, therefore, stability estimating future losses from natural hazards a difficult in losses from wind damages from tropical cyclones has exercise, and results should be used with caution. This been assumed. For floods, including those from tropical report focuses on analysis of tropical cyclone damages cyclones, the analysis uses the pessimistic scenarios and floods, in the absence of sufficient data and models presented above, with high-emission climate change to look into other hazards such as landslides and drought. scenarios and a selection of the climate models having a The results presented here should therefore be taken as large increase in average rainfall. These scenarios lead to a partial assessment. large increases in asset losses from floods, and especially from pluvial floods (which is consistent with the increase Future losses will depend on socioeconomic trends, in heavy precipitation projected in the climate model). For development, and economic growth. Depending on coastal floods and storm surge from tropical cyclones, no whether new development and urbanization take place estimate could be produced for the increase that would in flood-prone areas, for instance, future flood losses be caused by the projected increase in average sea level, will be very different. To estimate the risk that climate even though this effect could have a major impact on total change creates for Fiji’s economy and society—that disaster losses in Fiji. is, the change in natural hazard losses due to climate change—the report uses data based on an unchanged Fiji economy. The analysis is therefore not a projection of future losses, but a stress test to assess the threat that climate change creates for the country. 80 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT TABLE 3.14: Magnified negative impact of natural disasters on poverty as a result of climate change HAZARD AVERAGE NUMBER OF PEOPLE MOVING PEOPLE MOVING INTO POVERTY INTO POVERTY EVERY YEAR FOR A 100-YEAR EVENT (percentage of total population) (percentage of total population) 2017 2050 2100 2017 2050 2100 Tropical cyclones 7,300 (0.9%) 7,300 (0.9%) 7,300 (0.9%) 48,000 (5.7%) 48,000 (5.7%) 48,000 (5.7%) Fluvial floods 11,400 (1.4%) 16,000 (1.9%) 17,900 (2.1%) 105,000 (12.5%) 125,000 (14.8%) 132,300 (15.7%) Pluvial floods 7,000 (0.8%) 9,100 (1.1%) 11,000 (1.3%) 66,000 (7.8%) 89,500 (10.6%) 107,500 (12.8%) TOTAL 25,700 (3.1%) 32,400 (3.8%) 36,200 (4.3%) Source: World Bank estimates, based on the socioeconomic resilience models and table 3.8. Note: Above figures assume an unchanged economy. Translating these asset losses into in well-being and poverty Even if economic development leads to the eradication of impacts shows the importance of managing disasters and chronic poverty in Fiji, extreme weather events will have the climate change to eradicate poverty over the long term. By potential to move people into transient poverty, increasing 2050, according to these scenarios, tropical cyclones and the need for an efficient social safety net system. The floods could leave 32,400 Fijian in poverty every year—that analysis in this report highlights the potential impact of is 3.8 percent of the population, and an increase of more natural disasters on the poverty head count, but it does than 25 percent over current levels (table 3.14). Looking at not draw conclusions about the full impact of disasters on the current population, a 100-year flood in 2050 could push poverty. Indeed, this impact will depend on the time it takes almost 15 percent of the population into poverty. It should be for households to recover from the shock and return to noted that the poverty head count is limited as an indicator their pre-disaster levels. This duration is highly dependent to measure the extent of poverty in a country. It is a binary on the efficiency of social safety nets, and on the economic indicator that measures the number of people above or opportunities and financial instruments available to below the poverty line, but it does not give an indication of households. In worst-case scenarios—for instance if the severity of poverty, and thus underestimates the full children are taken out of school or cannot access health impact of changes in poverty on well-being. care—some individuals might never recover from such a shock.83 In countries where significant natural risks cause many people to fall into poverty every year, it becomes critical to have a strong social protection system that prevents people from being stuck in poverty traps. 82. Figures assume that pluvial and fluvial flood losses from tropical cyclones are small compared with wind and storm surge losses. A sensitivity analysis with pluvial and fluvial flood losses representing up to 40 percent of total cyclone losses yields similar results. 83. Hallegatte et al. 2017. Threats 81 3.2. CLIMATE CHANGE CREATES Increases in regional sea level of 87–135 cm by 2100 are LONGER-TERM THREATS TO expected to result in much more frequent extreme water FIJI’S DEVELOPMENT PLANS levels and coastal flooding during tropical cyclones, combined with high tides and wind waves.84 A high- Climate change impacts will not only translate into emissions scenario projects water levels of 3.2 m above increased intensity or frequency of extreme events; it will sea level at Lautoka every other year by 2100, compared to also create changes in average conditions, with implications current estimates of once every 100 years. Such frequent for everyday life and economic activity. For instance, flooding effectively renders some land in one of the major average temperature and rainfall will affect the yields coastal urban areas of the country unsuitable for regular of various agricultural products as well as exposure to and intensive use. Protection of such areas with large various pests and disease. Moreover, events that are today engineered defensive structures would be required to considered and managed as extremes—for instance, a provide a barrier to coastal flood water. heat wave that occurs once per decade—may become so common that that they must be treated as the norm rather Large investment in coastal protection will be required and than as a crisis. very valuable for protecting high-density and high-value areas; more challenging is the protection of low-density One important difference between the impacts of existing small settlements, including in outer islands. There is a large natural hazards and those of future climate-related events literature base showing that building coastal protection is the role of uncertainty and its impact on the identification for cities and valuable infrastructure is an excellent and assessment of interventions to manage risk. Building investment.85 Unit protection costs—the costs to protect Fiji’s resilience to tropical cyclones will bring benefits, one person or one dollar in assets—are small in high-density regardless of the impact of climate change, because areas but become more problematic for low-density small tropical cyclones will continue to affect Fiji regardless of settlements, where the unit costs can be extremely high and how climate change materializes. In contrast, adapting to exceed financing capacity. The choice of what and where a change in average rainfall is difficult because the change to protect—and with which level of protection—is a political is uncertain; it could be either positive or negative. Long- choice that depends on the population’s and government’s term threats are also dependent on the intensity of future risk aversion, and on consideration of regional equity. climate change, and therefore on global efforts to reduce According to an analysis realized with the DIVA model (a the emission of greenhouse gases. Adaptation interventions global coastal protection model) and based on very simple designed to respond to some long-term trends may turn out assumptions about coastline characteristics, population to be ill-advised if climate change materializes differently densities, and protection costs, at least 8 percent of the Fiji from what is expected. Therefore, the design of future coastline would require investment in protection by 2030 interventions must consider their ability to deliver benefits to maintain the current level of risk. Populations in areas in a large range of possible future climate situations. These that will not be protected by new investments will have to are known as “low regret” interventions, because they live with increased risk levels, or to retreat from some of the are likely to yield benefits even in the absence of climate most exposed areas. The problem may be particularly acute change; hence, the likelihood of future regrets at their in outer islands with small populations and limited resources implementation is low. to manage coastal risks. To make operational decisions, a more comprehensive 3.2.1. SEA-LEVEL RISE WILL MULTIPLY coastal study would be required, considering structural COASTAL RISKS AND THREATEN and nonstructural solutions, as well as nature-based and SOME SETTLEMENTS IN THE hybrid solutions. Such a study would have to consider the ABSENCE OF MAJOR INVESTMENT physical dynamics of the coastline (e.g., geology, protective Without scaled up investments in coastal protection, change mechanisms, sand drift, coral health); the potential impact in mean sea level will inundate some areas permanently, of sea-level rise, increased storm surge, tsunami, and and flood some other zones so often that they cannot coastal flood; and the existing and potential exposure and be lived in or used for economic activities. The impact of coastal use. This study would allow informed decisions to sea-level rise on coastal hazards and permanent flooding be made as to locations where nature-based solutions, hard may be massive. Increases in regional sea level during the infrastructure options, or a combination of the two could 21st century will be the primary driving factor in increasing be adopted. extreme water levels to 2100. 82 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT LEGEND Symbology 1994 1988 1978 Aerial showing changes in coastline Settlement Cemetry over time, Toguru, Central Province. Source: Government of Fiji. 3.2.2. IMPACTS ON AGRICULTURE AND FOOD The Fiji agricultural sector is diverse and in a period of SECURITY THREATEN A VULNERABLE transition. The agriculture sector is generally broken down PORTION OF THE POPULATION into five subsectors: crops (around 44 percent of 2015 agricultural GDP88 ), sugar cane (9.4 percent), livestock Agriculture continues to make a major contribution to (9.7 percent), fisheries (11.7 percent), and forests (8 the Fiji economy through livelihood generation, export percent). The main subsistence crops include taro, cassava, earnings, and food security. Around 64,500 Fiji households and sweet potato; the major export crops are ginger, taro, (37 percent) derive some form of income from agriculture,86 kava, cassava, and “wild” harvest turmeric. The sugar which makes up approximately 8 percent of GDP (2015 industry has been in decline for the past decade due to low GDP) and generates nearly F$200 million annually in export productivity, labor shortages, and high production costs, earnings and F$540 million in total output.87 and this decline is likely to accelerate after Fiji’s preferential Agriculture income is particularly important for people living access to the European Union’s sugar markets expires in below or close to the poverty line. Almost half of those living October 2017. below the poverty line rely on agriculture for at least part of their income, compared to a quarter of people above the poverty line. There is a sizable concentration of households around the poverty line in Fiji, and even a minor shock to the agricultural sector could have a substantial effect on the incidence of hardship. Recent modeling has estimated that a 1 percent reduction in agricultural income would push an additional 1,000 people into poverty, and increase hardship for those already living below the poverty line. 84. Haigh 2017. 85. Hallegatte et al. 2013. 86. Fiji Department of Agriculture 2009. 87. Fiji Bureau of Statistics and the Macroeconomic Committee, May 2017. 88. Ibid. Threats 83 Fiji is self-sufficient in pigs, poultry meat, and eggs, Damage and loss estimates often fail to fully capture although heavily dependent on imported feed. There the extent of damages and losses, as highlighted by the are some large commercial pig and poultry operators; case study below. The Government of Fiji has provided semicommercial beef, dairy, goat, and sheep production; F$11 million97 for the rehabilitation of agriculture over this and widespread subsistence livestock production.89 16-year period. It is clear, however, that this support covers only a small fraction (2 percent) of the damages and losses Approximately 1 million hectares of Fiji’s land is forested, suffered by farmers. of which the majority (87 percent) is native forest on customary lands; there are also some exotic softwood The Fiji agriculture sector is at significant risk from climate and hardwood plantations.90 change. Under current conditions, cyclones can damage or destroy crops and trees, agricultural assets (e.g., farming The fisheries sector is important for local food security but equipment), and infrastructure (e.g., access roads) as well faces some unique challenges. The offshore tuna fishery is as cause the death of livestock. Cyclones and storm surges the largest contributor to the sector, accounting for around can impact the fisheries sector through damage or loss of 43 percent of the gross value of production, followed by boats, fishing equipment, and aquaculture infrastructure and commercial coastal fisheries (30 percent) and subsistence stock, as well as through damage or destruction of coral commercial fisheries (23 percent).91 Fiji’s offshore fisheries reefs and associated coastal fisheries habitats. Flooding are generally considered to be well-managed, with no can inundate crops, leading to failed harvests and the death indication of overfishing, but coastal fisheries are poorly of livestock, and it can also damage or destroy agricultural regulated and overexploited, suffering from illegal or assets and infrastructure. Flooding may also inundate unregulated harvesting as well as habitat destruction aquaculture ponds, leading to damaged bunds, siltation, and increased pollution.92 Given projected population and loss of stock, and can result in the loss of freshwater growth and the decline of the coastal fisheries, it is likely mussels and fish. The potential impacts of climate change that Fiji will not produce enough fish to meet its needs are summarized in table 3.15 for crops, livestock, and in the future.93 forestry, and in table 3.16 for fisheries. Further detail on specific agricultural commodities is provided in table 3.17. Different agriculture subsectors exhibit different vulnerabilities to climate change Fiji’s traditional crops and production systems are, in general, relatively resilient to variations in climatic conditions.94 However, many traditional farming practices have declined in recent decades, often in response to commercial production needs. As a result, Fiji’s food and commodity production systems have likely become more vulnerable to climate variability,95 which may threaten food security. Over the last 16 years, cyclones and floods have caused at least F$791 million in damages and losses to the 89. Fiji MoA 2016. agriculture sector—equivalent to around F$50 million a 90. FAO 2010. year on average. During this period, 14 major events have 91. Gillett 2016. occurred (six tropical cyclones and eight major floods). 92. Gillett, Lewis, and Cartwright 2014. Damage caused by cyclones has typically included the 93. World Bank 2017. destruction of crops, trees, farming and fishing equipment, 94. McGregor et al. 2008. and related infrastructure; the death of livestock; and 95. Taylor, McGregor, and Dawson 2016. destruction of the reef ecosystems that support fisheries. 96. Government of Fiji 2016b; FAO 2014. All these types of damage can result in substantial 97. This figure is based on information provided in FAO (2014), productivity losses. Floods have also led to the inundation updated with information on TC Winston provided by the and death of crops, most notably sugar cane during the Economic Planning and Statistics Division of the Ministry 2009 sugar belt floods. of Agriculture in August 2017. 84 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Wind damaged papaya crops. Photo: Kyle Stice/World Bank. BOX 3.4: Case study: Multiplier impacts of TC Winston (2016) on fisheries activities The major government investment in the fisheries Tuna boats are no longer able to berth, and tuna sector is in the Pacific Fishing Company (PAFCO), a must now be offloaded at Suva and trucked to loining and canning facility at Levuka. The plant is fully Levuka at considerable extra cost. The facility owned by the Fiji government, and produces cooked is also no longer able to receive fuel directly at frozen albacore loins that are shipped to a canning the wharf; instead fuel must also be trucked in facility in California; some canning is also done for from Suva. Water infrastructure in the nearby the local market. The volume and value of canned communities was damaged, and these communities fish exported by Fiji increased substantially in the now rely largely on PAFCO’s own reservoir, placing years prior to TC Winston, from around F$2.4 million/ additional strain on the vital supply of freshwater to year (2011–12) to F$22.4 million/year (2013–14). The the facility. Although no estimate of the additional communities in the surrounding area (Ovalau) are costs imposed by the TC Winston damage is heavily reliant on PAFCO employment, with around available, PAFCO has had to seek additional 900 jobs at the facility in an area where there are few external financing to cover these costs. As of other income-generating opportunities. Around 60 August 2017, no rehabilitation of the wharf has percent of employees are women. During TC Winston, been undertaken. the wharf at Levuka was substantially damaged. Source: Gillett 2016; stakeholder consultations. Threats 85 TABLE 3.15: Expected impact of climate change on Fiji crops, livestock, and forestry HAZARD/ CHANGE EXPECTED IMPACT Changes in rainfall patterns Changes may disrupt planting, flowering patterns, vegetative growth, and harvesting patterns, which may affect productivity. Heavy, concentrated rainfall can lead to waterlogging and a higher risk of certain plant diseases, leading to higher rates of mortality; can also lead to erosion. Changes in temperature Existing cultivars of crops such as mango, papaya, and tomato can be adversely affected by high temperatures at specific stages of their development.a The incidence of pests and diseases may increase across a range of crops and livestock; increasing minimum nighttime temperatures have already been demonstrated to increase the spread of taro leaf blight, which poses a major risk for the important local taro industry.b Higher temperatures may increase stress for livestock. The availability of maize- and soy-based animal feed could be affected by climate change, resulting in increased costs for Fiji’s poultry and pig industries, which are heavily dependent on imported feed.c Sea-level rise and sea flooding The land area available for agriculture may be reduced; the sugar industry has an estimated 5,000 ha of land that is under threat from saltwater intrusion.d Sources and notes: a. Taylor, McGregor, and Dawson 2016. b. Ministry of Agriculture, Taro Industry Plan, 2016. c. Taylor, McGregor, and Dawson 2016. d. Personal communication from staff at Sugar Research Institute of Fiji, 2017. 86 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT TABLE 3.16: Expected impact of climate change on Fiji fisheries HAZARD/ CHANGE EXPECTED IMPACT Increase in sea surface temperatures Coral bleaching may lead to loss of fish habitat Migration and spawning times may change for tuna and similar pelagic fish Demersal fish expected to be less productive due to changes in recruitment Fewer areas suitable for seaweed aquaculture Survival/growth of ornamental products, oyster spat, and sea cucumbers may be reduced Growth rates for shrimp aquaculture may increase Sea-level rise Area and productivity of estuarine fisheries may increase Fisheries infrastructure and communities may be forced to relocate Ocean acidification Reduction in aragonite concentration expected to reduce productivity of invertebrates Areas suitable for seaweed aquaculture will be reduced Survival/growth of ornamental products, oyster spat, and sea cucumbers may be reduced Increased/more concentrated rainfall Greater runoff may smother reefs if high levels of sediment persist Area of freshwater fish habitats may increase, along with water availability for aquaculture Change to sea currents Catch of skipjack and yellowfin tuna may increase; albacore tuna may decrease Decreased nutrient availability Nutrient availability (e.g., zooplankton biomass) may decrease due to increased stratification and shallower mixed layer Sources: Bell et al. 2011; Rosegrant et al. 2015 Threats 87 TABLE 3.17: Expected impacts of climate change on specific agricultural products CATEGORY PRODUCT SHORT-TERM IMPACT MEDIUM-TERM IMPACT (TO 2030)a (TO 2050)b Staple foods Sweet potato Moderate Moderate to high Cassava Insignificant to low Low to moderate Taro Low to moderate Moderate to high Yams (domesticated) Moderate to high High Breadfruit Insignificant to low Low to moderate Rice Moderate to high High Banana Low Low to moderate Exports Coconuts Low Low to moderate Cocoa Low Moderate Sugar Low Moderate Papaya Low to moderate Moderate to high Livestock Cattle Low Moderate Pigs Low Moderate Poultry Moderate High Source: Taylor, McGregor, and Dawson 2016. a. Temperature rise of +0.5°C to 1.0°C regardless of emissions scenario. b. Varying temperature rise, from +0.5°C to 1.0°C (RCP 2.6) to +1.0°C to 2.0°C(RCP 8.5). 88 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT There is considerable uncertainty in the quantification of 3.2.3. HEALTH ISSUES WILL CHANGE future costs, damages, or losses to the agriculture sector AS A RESULT OF DEVELOPMENT that will be caused by climate change. This uncertainty AND CLIMATE CHANGE is due to the uncertainty around the estimates of future One of the most important impacts of climate change on changes in natural variables; the uncertainty around the populations—especially the poor—is the impact on health, impact of changes in these variables on the complex, including effects on communicable and noncommunicable interconnected ecosystems that support agriculture and diseases.100 While research is in its infancy on this new fisheries production; and the poor quality of baseline data question, climate change has already had a visible impact on agriculture production and value, in particular on multiple diseases, and these impacts are expected to for fisheries. increase over time. Global impacts of climate change on Climate change can favor communicable agriculture and food prices could have diseases already present in Fiji consequences for food security in Fiji Dengue fever, leptospirosis, and typhoid fever are Food security may be threatened more by the impact of considered the country’s “three plagues” and along with climate change on global food commodity markets than by diarrhea, are major communicable public health concerns. its impact on domestic production. Overall, the impact of Each is also climate-sensitive and has been highlighted in climate change is expected to be far greater on global grain the government’s Climate and Health Action Plan. crops such as rice and wheat than it is on Pacific island root crops such as taro.98 As a result, the price of imported Positive correlations have been illustrated between grain is expected to increase in real terms. This expected dengue and La Niña conditions in the Pacific.101 Of the shift has serious food security implications for Fiji but may eight dengue outbreaks that occurred in Fiji over the last provide market substitution opportunities for traditional 50 years, seven occurred during periods of La Niña (wet crops such as taro, cassava, and breadfruit. The impact of conditions). The 1998 outbreak occurred during an El Niño climate change on global food prices is highly uncertain, (dry conditions) period,102 although it was likely the result of as it depends on the balance between food supply and Aedes mosquitos breeding in uncovered water containers demand—which in turn depends on changes to agricultural stored close to peoples’ homes.103 Following the floods in productivity (and the extent to which farmers adapt to a January and March 2012, the incidence of dengue fever changing climate) as well as broader trends in population was very high in the Western Division. Vector indices and growth, economic growth, and dietary change. Recent dengue case numbers both peaked a month following the simulations on the impact of climate change on regional respective floods. food prices have found increases in food prices in the East Asia and Pacific region of between 1 and 5 percent by 2030, and between no change and 15 percent in 2080.99 Poorer people are more vulnerable to changes that affect food prices and food security, as food expenditures represent a larger share of poor people’s budget. In Fiji, according to the HIES 2013–14, poor people spend on average 29 percent of their income on food, with some 98. Taylor, McGregor, and Dawson 2016. households spending much more; people above the poverty 99. Hallegatte et al. 2016, based on Havlík et al. 2015. Most of the line on the other hand spend only around 18 percent. An uncertainty on these projections comes from the effect of “CO2 increase in food prices of 1 percent—due to local production fertilization,” the direct effect of higher CO2 concentration on losses or global price increase—would be enough to push crop yields. 1,000 people below the poverty line. It could also have 100. Hallegatte et al. 2016. serious implications for access to a sufficient and nutritious 101. Hales et al. 1999. diet, and thus have long-lasting impacts on physical and 102. PCCAPHH 2012. cognitive development, particularly for children. 103. FMS 2003. Threats 89 Over the past 15 years, between 20 and 100 cases of A study undertaken in 2005 projected increases in the leptospirosis have been reported in Fiji annually. While future incidence of dengue fever, diarrhea, and nutrition- leptospirosis is endemic in Fiji, large outbreaks also related illnesses in Fiji. 111 Using 1990 as the baseline, the occur. Leptospirosis is known to be sensitive to higher study found that 43 percent of Viti Levu was at low risk temperatures and higher rainfall patterns in tropical areas. of a dengue outbreak. By 2100, even under a sustainable In Fiji, young male farmers are at higher risk than others, development scenario with low emissions at a global scale, as their occupation exposes them to infected animals only 21 percent of Viti Levu (interior of the island) was or to soil and water contaminated by feces of infected projected to be at low risk of a dengue outbreak, with the animals. It is thought that especially following floods and remainder of the population estimated to be at moderate cyclones, people and leptospirosis vectors (domestic to high risk of an outbreak. When the worst-case scenario animals, rats) come into closer proximity, increasing the with high emissions was considered, 45 percent of Viti risk of transmission.104 Leptospirosis outbreaks were noted Levu’s population was projected to be at high to extreme following floods in January and March 2012 in the Western risk of an outbreak by 2100. The study also concluded Division. In some cases, outbreaks occurred in evacuation that as a result of warming, epidemics could become more centers where people were in close proximity. Furthermore, frequent and could cease to be seasonal (that is, occur at rodents in Ba town are thought to have caused outbreaks in any time of the year); and the disease could even become town areas following the January and March 2012 floods.105 endemic. Warming could also result in significant increases in morbidity and mortality from epidemics. The same study Typhoid fever is endemic in Fiji. Outbreaks have been noted concluded that as Fiji trends towards a warmer climate, following floods and two months after cyclones106 and water and sanitation could be compromised, leading to mass food distribution events. Outbreaks in Koroboya and increased diarrheal outbreaks. Nutrition-related illnesses Naitasiri (Tavua medical subdivision) and Nanoko (Nadroga- were also projected to increase as extreme events occur Navosa subdivision) in 2012 demonstrated that poverty, more frequently and increase in intensity. Finally, the poor sanitation and hygiene, and the movement of healthy study projected serious health impacts if climate change carriers are also significant risk factors. Particularly following disrupted Fiji’s social, economic, and ecological systems.112 floods and cyclones, typhoid transmission is also aided by the close proximity of people in evacuation centers and the Fiji was one of seven countries involved in a four-year global compromised sanitary and hygiene facilities they use there. project to enhance the capacity of the health sector to respond effectively to climate-sensitive diseases. The project, In 2010, nearly 20,000 cases of diarrhea were recorded Piloting Climate Change Adaptations to Protect Human nationally.107 Between 1995 and 2010, the incidence of Health (PCCAPHH), commenced in 2010 and is a partnership diarrhea was nearly always more than 500 cases per between the Fiji Ministry of Health, the World Health month.108 While diarrhea is known to be sensitive to climate Organization, the Fiji Red Cross Society, and United Nations conditions, poor water and sanitation also play a major role Development Programme, with funding from the Global in its transmission. Nearly all of the population is said to Environment Fund (GEF). It led to the creation of a prototype have access to improved water sources, but 70 percent of climate-based early warning system to provide timely and the rural population does not have improved sanitation.109 reliable information on likely outbreaks of climate-sensitive A 2001 study of diarrhea in infants in Fiji showed positive diseases at pilot sites, and to pilot health adaptation activities associations with very low and very high rainfall and in selected vulnerable sites in Ba and Suva. increasing temperature (lagged by one month). This study noted a 3 percent increase in diarrhea cases for every 1⁰C increase in temperature, controlling for seasons.110 Higher temperatures create conditions that allow pathogens to proliferate, while water supply and safety, as well as sanitation and hygiene, are all compromised during periods of droughts and floods. 104. PCCAPHH 2012. 105. Ministry of Health 2012. 106. Jenkins 2010; Ram et al. 1983. 107. Ministry of Health 2011. 108. PCCAPHH 2012. 109. World Bank 2012. 110. Singh et al. 2001. 111. Government of the Fiji Islands 2005. 112. Ibid. 90 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Noncommunicable diseases, which can be amplified Climate change is also causing sea surface temperatures by climate change, are a growing concern in Fiji and sea levels to rise and altering the mixing of ocean layers, which reduces nutrient availability and fish supply. There is well-established correlation among weather/climate Rising sea surface temperatures, and increasing variability and morbidity and mortality from cardiovascular disease, in the form of the El Niño Southern Oscillation, will respiratory disease, and other noncommunicable diseases negatively impact coral reefs, leading to further reduction in (NCDs) globally. The most salient examples are of course fisheries.117 Seafood is an important source of protein in Fiji, the millions of annual deaths associated with air pollution— and the lack of fresh fish will further push consumers to buy or perhaps the tens of thousands of deaths each year canned fish, which is normally high in salt. from extreme heat. At present, no quantitative studies have explored associations between NCDs and climate in Fiji. But In the long term, damages suffered by the agriculture a there has been some work on the various dimensions of this nd fisheries sectors may create significant food security relationship. Consideration of these threats is important, issues, including very large increases in NCDs and very given that around 80 percent of all deaths in Fiji are due high dependence on imported foods. to NCDs that have some susceptibility to climate impact, Death and injury from extreme events. Drowning—from whether direct (caused by heat, for example) or indirect swimming in flooded rivers or trying to navigate flooded (caused by malnutrition or displacement). crossings—is a major cause of death during floods and High temperatures. Hotter days are expected to create cyclones. Deaths cause grief and sorrow in affected conditions where people engage in less physical activity families; and the death of a bread-winner can create (working on farms or exercising outside). This change hardships. The impact of a death on the mental health could lead to a rise in obesity, which is a risk factor of family and friends is varied but includes the possibility for many NCDs like diabetes, cardiovascular illnesses, of increased depression and stress. musculoskeletal disorders (like gout and osteoarthritis), and Psychological impacts. A largely neglected health impact of some cancers (like endometrial, breast, rectal, and colon climate change and extreme climate events, psychological cancer).113 Increased heat levels could also cause increased impacts were recognized by the UNOCHA Pacific– restlessness in high blood pressure patients, creating coordinated humanitarian response team as an important conditions for increase in related illnesses. area following the March 2012 floods.118 Psychological Malnutrition-related illnesses. Perhaps the most important stress and depression can arise from loss of livelihoods potential pathway linking climate change and NCDs is via (e.g., drought damage to crops), death of or immobilizing food and nutrition. Currently, endocrine, nutritional, and injury to family members, loss of homes to floods and/or metabolic diseases are the second most common cause cyclones, the inability to recover from disasters, conflict of mortality in Fiji.114 Extreme temperatures, as well as over limited resources like water or productive land, and natural disasters like droughts, cyclones, and floods, cause the relocation or displacement of populations. It can affect significant damage to agricultural output. After the March adults, children, and youth and can take the form of “social 2012 floods, more than 12,000 farmers lost their crops, and isolation, mental disorders, reduced socio-economic status the agriculture sector overall incurred a loss of more than and associated health problems.” F$16 million.115 This resulted in fresh fruit and vegetable shortages throughout the Western Division. The Ministry of Health distributed nutritional supplements that included vitamin A and micronutrients to prevent malnutrition in flood-affected families.116 Where farms are unable to recover from natural disasters, long-term shortages of fresh local fruits and vegetables are experienced. As a result, people consume canned and preserved foods, 113. National Food and Nutrition Centre and Ministry of Health 2009. which are often high in salt and sugar and hence increase 114. Ministry of Health 2011. the risk of illnesses like high blood pressure, strokes and 115. UNOCHA Pacific 2012. cardiovascular diseases, diabetes, and obesity. Anecdotal 116. Ibid. evidence suggests an increase in diabetic foot sepsis 117. FAO 2008. occurred among people in the Eastern Division two years 118. UNOCHA Pacific 2012. after TC Tomas destroyed farms in the area. 119. WHO 2009, 12. Threats 91 Gross domestic product Employment 50 50 50 45 45 45 40 40 40 35 35 35 Percentage Percentage 30 30 30 25 25 25 20 20 20 15 15 15 10 10 10 5 5 5 0 0 0 2017 2027 2016 2017 2027 2016 2017 2027 2016 2017 Direct Indirect Induced FIGURE 3.14: Percentage share of tourism in Fiji’s economy, in terms of GDP (left) and employment (right). Source: World Travel and Tourism Council 2017. Note: Direct jobs include only the jobs in the tourism industry (for instance, workers in hotels); indirect jobs include jobs that provide goods and services to the tourism industry (such as a farmer producing food sold to a hotel). Induced jobs include jobs that exist thanks to the demand generated by income from direct and indirect jobs (for instance, the car dealer who is selling cars to hotel employees). In the absence of tourism industry, the three categories of jobs (direct, indirect, and induced) would not exist. 50 50 45 45 40 40 35 35 30 30 25 25 20 20 15 15 10 10 5 5 0 0 15% 0% 20% 5% 25% 30% 10% 35% 15% 20% 40% 45% 25% 30% 50% 35% 40% 45% 50% 92 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 3.2.4. TOURISM PLAYS A CRITICAL ROLE IN For instance, older people—typically the retirees from FIJI’S ECONOMY AND IS SUBJECTED Australia and New Zealand the country tries to attract—are TO MULTIPLE STRESSORS more sensitive to high temperatures than younger people, and they may see an increase in the frequency of high Fiji is somewhat unusual in the Pacific in that it has temperatures as a significant disadvantage. developed a major tourism industry, which now attracts over 750,000 tourists a year and contributes about The potential impact of changes in temperature on 38 percent of GDP and 48 percent of exports. Fiji’s destination attractiveness and tourism revenues is good connectivity via air travel positions it as the ideal significant. Figure 3.15 presents the findings of an tourism hub of the region, and accordingly the country assessment of the expected impact of temperature receives almost 40 percent of all regional visitors. change on tourism revenues by 2030 for several countries Tourism provides 21,000 jobs and is an essential (compared with a no-climate-change scenario). The number income source to 90,000 people.120 Some 6 percent of of tourists, along with their origin, income, and duration of people in poverty and 12 percent of people above the their stay was considered. Some countries, like Canada or poverty line generate some income from tourism.121 Norway, are expected to benefit, since higher temperature is likely to make them more attractive. Other countries, Tourism is a major development opportunity for Fiji. including small islands, are expected to lose; Fiji is projected Assessment indicates that by 2040, there is the to experience a decrease in tourism revenues of 18 percent potential for Fiji to attract 1,200,000 international by 2030. This result should be used with care. The model visitors each year, create an additional 57,000 jobs, and remains very simple and the driver of tourists’ destination generate an additional US$190 million in government choices are extremely complex. Nonetheless, the model revenue from tourism.122 strongly suggests that increased temperature will be an Climate conditions are an important consideration obstacle for existing plans to develop the tourism industry when tourists choose their destination. Climate change in Fiji and to attract high-end customers. could therefore affect the attractiveness of the country, especially for international tourists. Importantly, attractiveness changes do not depend only on how conditions change in Fiji, but also on how they change in competitor tourism destinations. The type of tourist 120. Fiji Bureau of Statistics, HIES 2013–14. is also relevant for understanding the potential impact 121. Ibid. of climate change. 122. World Bank 2017. Threats 93 10% 0% -10% -20% -30% 30% Tourism revenue change (%) 20% 10% 0% -10% -20% -30% Canada Norway Zimbabwe New Zealand Denmark Bhutan Peru Iran, Islamic Rep South Africa Pakistan Madagascar Ireland Congo Iraq Saudi Arabia Sri Lanka Tanzania Luxembourg Uganda Philippines Ghana Brunei Darussalam Benin Swaziland Togo Timor-Leste Marshall Islands Niger Tunisia Fiji French Polynesia Costa Rica Haiti Netherlands Antilles St. Kitts and Nevis FIGURE 3.15: Projected change in tourism revenue due to climate change by 2030. Source: Bigano, Hamilton, and Tol 2007. Tourism is sensitive to other consequences of climate • Public health risks. Health considerations are extremely change. In particular tourism is vulnerable to important in tourists’ destination decisions, and epidemics have had strong impacts on tourism revenues • Increased natural hazard events, including sea-level rise. in the past. Reducing and managing these risks is Of particular concern are tropical cyclones and coastal particularly important to capture a higher-end clientele, floods, which have the potential not only to damage the including older retirees from Australia and New Zealand. assets of the tourism industry (such as hotels), but also to complicate tourists’ transport. Tourism numbers were • Weakened infrastructure. Tourism numbers could be observed to temporarily decrease following previous affected by climate-induced impacts on air and road disasters in Fiji. For instance, tourist arrivals decreased transport. Increases in energy prices in response to by 2.5 percent after TC Evan hit in 2012. It is still unclear climate action may also impact travel costs and tourists’ whether long-term trends due to climate change destination choices. could have a more permanent impact on touristic attractiveness. • Environmental quality and ecosystems. The environment in Fiji is likely to be negatively affected by temperature changes, sea-level rise, and ocean acidification. Many tourists in Fiji are looking for a pristine environment and exceptional ecosystems (e.g., for diving activities). Environmental quality could be negatively affected by a combination of poor management and changes in climate conditions. 94 Climate Vulnerability Assessment Photo: Fijian Government 4. THE OPTIONS Five Major Intervention Areas to Adapt to Climate Change Photo: Fijian Government 96 Climate Vulnerability Assessment The Government is committed to better understanding and mitigating the impacts of climate change and natural hazards. In 2007, the Cabinet endorsed the National Climate In recent years, the government has invested in reducing Change Policy Framework which, following a review in natural risks and preparing for natural disasters, and 2011, resulted in Fiji’s first National Climate Change Policy the population and economy demonstrated remarkable (2012). This policy defines the objectives and strategies resilience after TC Evan and Winston hit the country in for mainstreaming climate change issues into different 2012 and 2016. Figure 4.1 illustrates the increase in sectors. The Green Growth Framework123 further supports investment over the years, showing the share of the Fiji to better integrate sustainable development and climate government budget dedicated to projects or expenditures adaptation strategies into future development planning. Fiji’s with climate and resilience co-benefits. Even though the commitment to disaster risk reduction is evidenced through trends also translate the large reconstruction and repair its National Disaster Management Plan (1995), the national expenditures following TC Winston in 2016, the figure Disaster Management Act (1998), and its endorsement of illustrates the importance of resilience and climate change the Hyogo Framework for Action (2005–2015) and Sendai in Fiji, with around 10 percent of government expenditures Framework for Disaster Risk Reduction (2015–2030). related to this issue in 2016 and 2017. FIGURE 4.1: 123. Government of Fiji 2014. Increase in fiscal spending related to climate change and resilience. Source: Government of Fiji. Note: The figure shows the total amount (right axis) and fraction of total fiscal spending (left axis) related to climate change and resilience, including in-kind aid. 12% 450 400 10% 350 8% 300 250 6% 200 4% 150 Total Spent on climate change 100 2% and resilience 50 (F$ million) 0% 0 % of Total Budget 2013 2014 2015 2016-17 2017-18 Options 97 Before and after TC Winston, multiple initiatives were The proposed interventions are considered necessary launched with support of development partners that to achieve Fiji’s development objectives (as stated in its aimed at reducing the country’s vulnerability. Over the last Development Plan) and will have benefits that persist far decades, improvements in infrastructure management have beyond the decade of initial investment; they are not based contributed to reducing vulnerability to natural disasters. on a least-cost approach. Such a least-cost approach is not Energy assets are well-maintained by FEA, which makes possible or desirable, for multiple reasons. them less vulnerable in spite of their exposure to multiple • First, not all impacts of climate change and natural hazards. While there is still a maintenance and repair disasters could be quantified and monetized, making it backlog for water infrastructure, progress has been made impossible to propose an exhaustive comparison of the in the sector since 2010, with increased financing from costs and benefits of various interventions. For instance, budgetary sources and cost recovery. Since TC Winston, the health implications of climate change are important, the government has started various projects to further but could not be quantified at this stage. Since the risk reduce the vulnerability of the country. For instance, it assessment is partial, a direct comparison of the costs established the Construction Implementation Unit to ensure of interventions with risk estimates would underestimate reconstruction in the education and health sector is done to the return on investment of the considered interventions. higher resilience standards; it commissioned a countrywide bridge vulnerability assessment to prioritize maintenance • Second, all interventions included in this report have and reinforcement investments in the road sector and to benefits linked to climate and disaster risks, but also tackle the existing maintenance backlog; it strengthened broader benefits in terms of development outcomes, support for targeted risk management initiatives such as poverty reduction, or access to infrastructure services. the Project for Planning of the Nadi River Flood Control For instance, improved land-use planning would not Structures; and it has begun exploring options to expand only reduce flood risks, but also make towns and cities housing insurance and improve the coverage of social more livable and productive. A narrow comparison safety nets. of intervention costs with the benefits related only to climate and disaster risk would underestimate the This report’s analysis of current and future hazards and desirability of these interventions. long-term stresses affecting Fiji identified five areas where interventions could minimize further the impacts on well- • Third, the choice of whether to implement each being, assets, and development prospects: risk-informed intervention cannot be based on economic land-use planning and housing policies; more resilient considerations alone; political choices and value infrastructure; adaptation in the agriculture and fishery judgements will be required, especially regarding what is sectors; conservation and environmental protection; and considered an acceptable level of risk and the valuation interventions to protect the poorest and most vulnerable, of nonmarket impacts. For instance, the protection of including early warning systems, social protection, access human settlements is always driven by more than a to health care, and targeted gender interventions. comparison of the value of the assets that are protected and the cost of protection: considerations related The 125 proposed interventions—detailed in appendix to cultural heritage or regional solidarity may justify 1—build on the government’s efforts to reduce climate investing in protections that a plain cost-benefit analysis and disaster risks, better prepare for natural disasters, would reject. The large uncertainty that surrounds future and respond swiftly to major shocks. Key investments impacts of climate change makes it even more difficult in the past decade include upgrade of urban and peri- to provide purely objective risk assessments. In such urban informal settlements, investments in drainage and a context, vulnerability assessments should not aim to coastal protection, relocation of communities exposed to provide a single “best” solution. Instead, they should coastal hazards, investments in resilient infrastructure (e.g., be designed to inform decision makers and help them rehabilitation of bridges and roads, underground cables for debate and reach consensus solutions. electricity distribution, retrofitting of water supply systems), soil erosion control and agricultural land rehabilitation, shock-responsive social protection systems, and resilient reconstruction of schools and hospital damaged by TC Winston. Particular attention has also been given to the integration of climate and disaster resilience in the National Development Plan, in key sector development strategies and guidelines (e.g., Fiji Crops Sector Strategy, WAF internal manuals and procedures), and in urban development plans. 98 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT While a first prioritization has been performed in every Each of the 125 interventions proposed requires resources, sector, a further prioritization may be necessary, with the total sum amounting to close to F$9.3 billion over considering other policy priorities and the need for 10 years, including F$4.2 billion of already planned (but an integrated and cross-sector approach to resilience. not always financed) investments and F$5.1 billion in new The balance between the need for resilience-enhancing projects (table 4.1). Investments amount to F$4.5 billion investments and other important policy priorities—such for the short term (1–5 years) and F$4.8 million for the as education or fiscal sustainability—will be critical in medium term (5–10 years). Appendix 1 provides a list of operationalizing this report’s suggested actions. Broad all considered projects for each sector, and distinguishes participatory exercises involving the public and the private between investment needs, technical analyzes or data sector (e.g., business associations, unions, NGOs) have collection needs, and operation costs or other expenditures. been useful in other countries, making it possible to create Some of these expenditures are already in existing plans, a robust national consensus on priorities.124 but financing is not available for each of them yet. Some expenditures are in addition to existing plans, justified by the One challenge in the prioritization process is to maintain need for resilience building and climate change adaptation. the consistency of the intervention package and the cross- sector integration that is the key to a resilient economy and Ongoing annual spending must also be considered. Some population. The vulnerability of a country or an economy of the interventions presented here do not require a one- is largely driven by the “weakest link,” and reinforcing off expenditure but rather regular annual expenditure, one sector without action in the others is unlikely to be and each investment also includes ongoing operation efficient. To achieve resilience at the macroeconomic level, and maintenance costs. Typical estimates for annual all infrastructure services need to be maintained over time maintenance are in the range of 2–5 percent annually. If and after a disaster: Even the most resilient transport sector the government were to undertake the total investment of cannot ensure continued economic activity if electricity is F$9.3 billion, the required increase in annual maintenance not available for an extended period or if workers are unable expenditure for this infrastructure would be between F$175 to go to work because their home has collapsed. Even and F$440 million per year. Also, the annual social spending the best disaster risk management system will not be able would increase to around F$47 million, an increase that is to maintain growth in the tourism sector if environmental already budgeted for in 2017–18. Introducing strengthened quality deteriorates so much that coral reefs and beaches ability to scale up social protection after a disaster would are no longer attractive. One important recommendation is imply an additional F$4 million increase on average, with a therefore to prioritize actions within sectors without losing large volatility. sight of the need for a balanced portfolio of interventions covering most if not all sectors. In each of these areas for intervention, it will be critical to consider the specific needs of vulnerable groups, including women, children, the elderly, people with disability, and minorities. Age is an important vulnerability factor, as demonstrated by the fact that 37 percent of the mortalities from TC Winston were among the elderly (above 65 years), who comprise only 4 percent of the population. Elderly people and children are especially vulnerable to high temperature, and people with a disability may not be able to follow all evacuation guidelines given to the population. The gendered power relationships that determine access to endowments, economic opportunities, resources, and agency (as discussed in chapter 3) must also be considered. Without gender sensitivity in climate and disaster risk management, there is a significant risk that interventions will be less efficient, and that climate change and natural disasters will exacerbate existing political, economic, and social inequalities between women and men in Fiji society. 124. World Bank 2012. Options 99 TABLE 4.1: Summary of identified sectoral needs to strengthen resilience of Fiji over the next 10 years INVESTMENT NEEDS RECURRENT COSTS (million F$) (million F$) Sector Planned New Total Planned New Total Housing/land use 63 152 215 Hazard Management n.a. 2,106 2,106 Transport 3,098 1,591 4,689 Energy 271 175 446 Water 685 447 1,132 175-440 Health/education 5 568 573 Environment 55 22 77 Agriculture 11 3 14 Fisheries 6 14 20 Social Protection 47 4 51 GRAND TOTAL 4,194 5,078 9,272 226-491 Source: Analysis performed for this report. Note: n.a. = not available. 4.1. THERE IS A WINDOW OF OPPORTUNITY However, constraints on public sector resources mean that TO ENSURE SERVICED LAND AND the planning and management efforts of local agencies HOUSING IN SAFE AREAS have not adequately provided serviced land in safe areas for construction of houses. Current trends lead to The increase in population in at-risk areas and the unplanned development, including in areas with significant projection of urbanization growth in the next decades and increased levels of natural risks. As urbanization is an suggest that guiding land use and strengthening housing economically positive and irreversible development, there are priorities to reduce Fiji’s vulnerability to natural disasters is now a precious window of opportunity. Households, and climate change. The government already has made particularly low-income earners, should be enabled to significant annual budgetary commitments over the past build to improved standards of construction in safe areas, decade to regularize and upgrade the urban and peri-urban whether urban, peri-urban, or rural. Responsible agencies, informal settlements using well-tested and phased area- landowners, and developers should have access to better- upgrading approaches. informed hazard risk assessments and should employ a range of planning and regulatory instruments. 100 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT In Fiji’s rapidly growing urban areas, access to land and In 2006, a Greater Suva Urban Growth Management Plan— housing is primarily a function of income level. The formal more strategic in nature than the Town Planning Scheme— market caters to the high-income groups who can afford was prepared to guide strategic infrastructure investments the prices of privately serviced land in formally planned and settlement expansion onto safer lands. The Department subdivisions. For middle- and low-income earners, however, of Town and Country Planning is currently preparing a the formal urban land and housing markets have been similar plan for the Western Division (Sigatoka and Rakiraki) heavily constrained by several supply-side factors for and undertaking preliminary feasibility studies to identify many decades. The Department of Town and Country sites for potential new towns inland from the coastal zone. Planning (DTCP) estimates that a private developer (with However, the underlying planning norm is to control and resources for its own engineers, land surveyors, and other prevent development in unsafe areas, rather than actively professionals) would take at a minimum 2.5 to 3 years to promoting development and enabling access to safer construct a major subdivision.125 This constraint on supply serviced land through economic and spatial instruments. has pushed up the price of both serviced land and houses A comprehensive forward planning program is required to levels well beyond what the majority of the population to bring suitably located, resilient greenfield sites onto can afford.126 the market to provide appropriate land for more housing. These greenfield sites should be near employment for low- 4.1.1. APPROPRIATE LAND-USE income earners. A program for all urban areas and key rural PLANNING IS CRITICAL FOR SAFER settlements should be undertaken to carry out all needed URBAN DEVELOPMENT, AND SAFE steps with respect to plot-allocation eligibility—identifying, AREAS CAN BE IDENTIFIED FOR planning, surveying, preparing engineering service designs, FUTURE DEVELOPMENT implementing site protection measures (using eco-based Land-use forward planning is a priority to reduce risks. adaptation and structural measures against major risks, in The first Town Planning Schemes were prepared in 1979 particular flooding and landslide), financing, and preparing for Suva; subsequently, in the 1980s, they were prepared and adopting policies. In addition, repayment levels should for other towns. The schemes comprise a land-use zoning be set to match affordability levels. Making safe land plan and standards for development control purposes, with accessible for future expansion as well as for voluntary, an accompanying written statement. With the exception of incremental retreat by at-risk settlements will also require Rakiraki, Nausori, and Nasinu, where plans were updated detailed investigations into citywide infrastructure network in 2010, none of the 14 Town Planning Schemes have been linkages, for example, transport routes, water, sewerage, updated since they were first prepared. Consequently, and electricity. land use control within the 14 towns and cities is through the now outdated spatial plans, and enforcement has been limited. The DTCP has been significantly strengthened and resourced over the past 10 years; it has gone from only one town planner in 2007 to 11 planners in 2017.127 In 2016, the Minister of Local Government directed all municipal councils to review and update their schemes before 2020. Every council has now established a Town Planning Unit (although many are not able to employ a qualified planner due to lack of resources and lack of skilled people). Council staff have been trained by DTCP in basic GIS skills, and are currently digitizing the available data for all buildings and preparing flood-risk maps (based on observations, rather than modeling) to identify vulnerable areas. As illustrated in box 4.1 on Nadi, risk data can help identify low-risk areas that can be prioritized for development. 125. DTCP 2016. 126. Habitat for Humanity Fiji, “Housing Needs in Fiji,” www.facebook.com/HFHFiji. 127. There are a further eight town planners in the private sector. Options 101 BOX 4.1: Identifying safe areas and informing risk-sensitive land-use planning through risk analyzes Nadi Town is the third-largest urban center in Fiji, with The light pink areas are those areas that are potentially a population of around 52,800 (2016). The town is suitable for future development, although further studies growing at the relatively rapid rate of 2.5 percent per should be conducted to confirm this simple assessment, year, driven by tourism (Nadi International Airport, and more investment in drainage could make some of the Denarau Port, and a high concentration of hotels and flood-prone low-lying areas suitable for development. tourism infrastructure are nearby), transportation, The area available within the town boundary (see upper- and high-value real estate developments. The town right vignette) is approximately 4.3 km2, but this area is acts as an economic magnet, and in the absence potentially vulnerable to pluvial floods due to insufficient of forward planning for low-income-earning groups, drainage. Provided that additional investments are made to informal settlements have mushroomed over the past improve drainage in the area,a this land could be a priority years: 17 settlements (home to 18 percent of the town’s for future development. With future densities between population) are present in unplanned areas, particularly 10 dwellings per hectare (today’s values) and 15 dwellings on the urban boundary and peri-urban areas. The city is per hectare, available area within the town boundary would expected to maintain this growth into the next decade, host between 4,300 and 6,500 households. With a current and regularizing existing unplanned settlements and backlog of about 2,000 units in Nadi and around 300 new planning for the absorption of future growth represents households per year (2.5 percent growth rate), this land an urban management and land-use challenge. could accommodate Nadi’s urban growth for 8 to 15 years. Digital elevation models and flood maps are useful as Over the longer term, areas beyond the town boundary a first screen to identify areas that might be suitable need to be considered—possibly combined with an for development. In this illustrative example of Nadi expansion of the boundary. More than 45 km2 are available provided in figure B4.1.1, the low-lying areas highly close to Nadi, but outside the town boundary, which exposed to coastal and river floods have been marked is enough for settlement for 45,000 to almost 70,000 in red (below 2 m elevation), blue (below 3 m), and households, i.e., enough to manage rural-urban migration orange (below 4 m). The areas considered at high for several decades. Use of this land, however, would or extreme risk of flood in the SPC NIWA 100-year require managing issues of land tenure and ownership and return flood risk map are marked in purple. Already expanding networks, especially for water and sanitation. developed areas are marked in gray, and areas with steep slopes in white. Nadi was selected for this case study because it is currently the only town in Fiji for which high-resolution elevation data and high-resolution flood maps are available, but the study suggests that safe areas for development are available in the country. Fiji’s challenge is not a physical scarcity of land, but the issues involved in driving new development and urbanization toward these areas and managing the growth of the service networks to cover the newly developed areas. 102 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT FIGURE B4.1.1: Digital elevation model data for Nadi. Risk-informed urbanization planning can help accommodate growing urban population while limiting the increase in natural risks. a. Investment needs to protect the population against the 20-year return period floods are discussed in section 4.2.1. Source: World Bank team based on LiDAR data and flood hazard information from a World Bank funded flood risk assessment of Nadi by NIWA in 2014 Options 103 4.1.2. THE RESIDENTIAL LAND SHORTAGE 4.1.3. INFORMAL SETTLEMENTS SHOULD BE SHOULD BE ADDRESSED IN A RESILIENT UPGRADED, TAKING INTO ACCOUNT AND SUSTAINABLE MANNER CURRENT AND FUTURE RISKS, WHERE SECURITY OF TENURE CAN There is a priority need to address the national housing BE SUCCESSFULLY NEGOTIATED backlog of 19,600 units—a number that is increasing at WITH THE LANDOWNER 600 units per year. In order to respond to the backlog, an annual construction program of 2,560 new units (i.e., Informal settlements are vulnerability hot spots, and serviced plots of land plus one or more habitable rooms) targeted actions have been taken by the government. In would be required for the next 10 years, which is an the past decade, the government has made significant increase of around 70 percent over the current target annual budgetary commitments through the Department of 1,500 serviced plots a year.128 In order to ensure new of Housing in the Ministry of Local Government, affordable housing is more resilient than in the past, a Housing and Environment to regularize and upgrade number of initiatives should be rolled out, building on informal settlements. These have included the recent existing plans and policies: implementation of a Participatory Slum Upgrading Program in four settlements out of 30 planned (in partnership with • Develop and make widely available self-construction UN Habitat and the People’s Community Network), and guides on how to strengthen timber frame houses at the recent approval of Adaptation Fund and UN Habitat low cost. A number of nongovernmental organizations support for Phase 1 of the “Increasing the resilience of (notably Habitat for Humanity Fiji) have prepared informal urban settlements in Fiji that are highly vulnerable excellent illustrated guides that could be more widely to climate change and disaster risks” Project (known disseminated for this purpose. as FRIS). The informal settlement upgrading includes • Rationalize construction codes and standards and in providing security of tenure in selected settlements particular identify those structural elements of timber through land leases (either of state land or through frame houses that need to be strengthened in order the iTaukei Land Trust Board) and provision of basic to withstand either strong wind events or floods. infrastructure services. Financial support promotes home ownership among low- to middle-income earners with • Make use of graded construction codes in different concessionary 5 percent loans to households earning parts of the city (depending on local risk) and for less than F$50,000 annually. different types of buildings (i.e., public large, public minor, commercial industrial), and take into account Notwithstanding the progress already made in upgrading affordability considerations. the low-income urban and peri-urban informal settlements, • Work with the private sector to strengthen the quality additional financial and human resources are needed to and availability of local construction and building rapidly scale up the approaches that have been piloted to materials industry. date. The scale-up of informal settlement upgrading will be time-consuming, and could be guided by the following • Investigate new financial tools and instruments to in order to facilitate prioritization: support incremental new house construction and retrofitting of existing houses, such as commercial 1. Focus on settlements where security of land tenure housing micro-finance (also known as Home Asset Loan can be relatively quickly negotiated (state lands); Finance, HALF) and savings clubs/collectives facilitated ensure that registration of land holdings provide by NGOs (particularly appropriate for rural housing security of tenure to both men and women. Through improvements). Monitor closely the effects on house land readjustment arrangements with land-owning units prices of subsidy schemes such as the First Time Home (mataqali), incentivize public investments in climate- Buyers scheme, which risk (inadvertently) inflating proofed strategic infrastructure (roads and drainage, house prices. water supplies, and electricity). Alternatively, incentivize private (freehold) landowners through transferred • Assess the efficiency of the rental market and work to development rights. ensure that it meets the needs of the extremely poor, for example, by permitting multiple occupancy and higher densities in safer lands. 104 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 2. Adopt a passive planning approach for in situ upgrading 4.2. STRENGTHENED INFRASTRUCTURE of the 13–25 percent of settlements known to be at high WILL HELP TO MEET THE NEEDS OF risk of flooding.129 For the majority of the population THE FIJI ECONOMY AND POPULATION who are low income, have limited location options, and Fiji generally performs well in terms of infrastructure have only precarious or informal tenure arrangements, access and quality. However, there is still some way to go to choosing to retreat can result in loss of livelihoods and achieve the objectives of the 20-year National Development severe personal hardship. However, there is a risk that Plan, especially in rural areas and in relation to water limited financial investments may be made to protect and sanitation. To ensure sustainable development in Fiji, and strengthen a small number of high-risk informal existing infrastructure gaps need to be bridged in ways that settlements, which would encourage their expansion— ensure resilience to climate change and natural hazards. at the expense of much-needed investments in similarly poor settlements on safer lands. Therefore, in situ Development plans have highlighted the need for more upgrading in high-risk settlements might consider private sector investment in infrastructure. There is a limiting the length of security of tenure to be offered, need to update and strengthen the framework for public- with investments only in minimal basic lifeline services to private partnership, formulate new regulatory standards, protect public health (for example, water and sanitation review regulated prices and competition policy, and build but not roads and power). Such a strategy should be regulatory capacity in relevant government agencies. This is accompanied by a concerted communications campaign an opportunity to improve the resilience of infrastructure by with residents, land owners, and the general public to defining clear standards that public and private investments explain the level of risk and the reasons for limiting need to meet. the public investments in the settlement. Provided that alternative locations are available, this would act 4.2.1. LARGE INVESTMENTS IN FLOOD as a disincentive to further settlement in the high-risk RISK MANAGEMENT AND COASTAL area and might encourage residents to voluntarily and PROTECTION MEASURES WILL incrementally relocate to a more resilient location. BE REQUIRED Investments required to improve land-use planning, A combination of structural and nonstructural measures support resilient housing, and strengthen informal is needed to treat flood risk in Fiji. The total cost of flood settlements have been evaluated at around F$202 million, protection works and nonstructural measures required including F$140 million in new investment, to be added to across the country is not known at this time, but previous existing plans. These investment needs are shared between large-scale assessments can be used to estimate the (1) spending on upgrading the informal settlements that general magnitude of interventions. can be protected at an accepted cost; (2) investments in The measures would build on existing efforts such as the greenfield infrastructure to create new attractive and safe continued implementation of the Priority Plan developed land for development by low- to middle-income earners; as part of the Project for Planning of the Nadi River Flood (3) urgent flood management in Nadi (Phase 2 investments) Control Structures (2016), which will greatly mitigate flood and in a set of secondary towns (Ba, Labasa, Lami, Lavua, risk across a range of sectors in the Nadi basin. Four of Pacific Harbor, Rakiraki, and Seaqaqa); and (4) risk the 12 retarding basins planned for the area have been assessments needed for risk-informed land-use and constructed, and planned measures include river widening, urbanization planning, preparation of flood management a ring dike, flood hazard mapping, and improved forecasting. action plans in target towns and cities, and investigation The priority plan measures are to be implemented by of a possible innovative financing option for housing various agencies, including the NDMO, FMS, Nadi Town retrofitting and development. Council, DTCP, and the designated section under the Ministry of Waterways. Some of the proposed measures, such as the proposed dam in the upper watershed, will require further feasibility assessment. It is estimated that 128. Personal communication, director of housing, August 10, 2017. protecting the population of Fiji against river floods would 129. The monitoring and regular recording of developments within cost in the vicinity F$480 million, with additional ongoing the informal settlements requires significant resources. The maintenance costs. Department of Housing and the Peoples’ Community Network have variously recorded the number of settlements in urban and peri-urban areas as between 178 (verified) and 232, and the number of “squatter” settlements across the country as 383. Options 105 This estimate is based on a desired protection level Coastal protection costs could represent challenging corresponding to the 20-year return period flood, which investment needs in the next decades, and even more is consistent with protection levels in countries with over the longer term. According to a simple analysis similar income. It is, however, highly uncertain, because it with DIVA, the fraction of coastline that would require is based on a single technical study for one basin in Fiji. investments in increased protection would range between Ongoing maintenance of flood protection infrastructure 8 and 25 percent, depending on the level of residual risk is imperative to safety, and investment in flood protection that is accepted by the population. This assessment is to should be made only if continued maintenance budget is be used with care, considering the simplicity of the model guaranteed. Poorly managed flood protection may fail at and the lack of high-resolution data. However, it suggests any time, and dam failures can cause human and asset that even with minimum protection (for 8 percent of the losses that are much larger than a flood in the absence of coastline), investment needs in coastal protection would protection. For typical flood protection systems, the cost range between F$1.6 and F$2 billion in the 2017–30 period of annual maintenance is between 1 percent and 5 percent (about F$100 million per year). Over the longer term, of the initial investment. While there are several coarse with the possibility of much larger sea-level rise, those assumptions in this estimate, it gives an indication of the costs could increase dramatically, reaching more than expected cost if large-scale structural options are favored. F$200 million per year in 2100. And with only 8 percent of the coastline covered, such large investments would not be For riverine and overland flooding, the feasibility of sufficient to fully prevent the increase in coastal flood risk, structural flood risk management measures should be especially for low-density and small settlements. investigated, but areas where they have limited benefits should prioritize nonstructural investments. Potential Considering these very high protection costs, it is structural options include levees/dikes, dredging, channel important to consider alternatives to hard protection, diversions, and retarding basins. While structural measures in particular nature-based solutions and nonstructural can significantly reduce the severity of an area’s flooding, options. Investigation of land-use planning, minimum floor they often have limited benefit in floods larger than that levels, and relocation of property from hazardous areas they were designed for, and may increase risk in very will help reframe the problem from how floodwaters can large floods, due to infrastructure failure. Furthermore, be contained or diverted, to how development can be in flood-prone areas in which development already exists, integrated with the natural functions of the floodplain. the required size and cost of structural measures may Similarly, investigation of improved response (early be unfeasible. warning systems, awareness and education, resources for emergency services, post-event financial support) For coastal flooding, investment should be made in will reduce flood risk while acknowledging that floods infrastructure to reduce hazard where this is the most will continue to occur. And conservation of ecosystems practicable option and adds value over the life of the that provide protection against floods can also deliver investment. It may be appropriate to defend against coastal large benefits at low costs. This wider set of options will hazards where the coastline is already highly developed, require involvement from multiple ministries and levels of or high-value infrastructure is in place that is impractical government, and will need to be overseen by the Ministry to move. Alternatively, defense options may be necessary of Waterways. where alternatives are not feasible because of geographical or land ownership constraints. However, any options should be compared with practical alternatives, including accepting the risk (doing nothing). Some progress has been made toward improved coastal resilience. The construction of seawalls and rehabilitation of mangroves have been part of ongoing adaptation initiatives. The village of Vunidogoloa in Vanua Levu was the first village in Fiji to be relocated in 2013 due to increased coastal hazards and sea-level rise. An additional 42 communities have been identified for potential relocation, based on integrated vulnerability assessments. 106 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 4.2.2. THE TRANSPORT SECTOR HAS THE Maritime transport assets urgently need repair, LARGEST INVESTMENT NEEDS FOR replacement, and expansion. Existing jetties and river BUILDING THE COUNTRY’S RESILIENCE landings, like the road network, have suffered from a lack of maintenance over the years. Many of these assets have A clearly defined long-term strategic planning mechanism a remaining expected design life of less than nine years.131 is required to ensure that the current challenges faced by They will likely face increased risk of damage or failure the transport sector are not further exacerbated by the from the projected increases in frequency and intensity impacts of climate change. Roads that are in the resealing of coastal hazards and riverine flooding. Furthermore, the and maintenance backlog, overland flow paths, and coastal lack of designated landings or jetties on many of the outer or low-lying areas will be particularly vulnerable to projected islands forces the population to make mid-ocean transfers changes in climate. Road cuttings and embankments in to smaller boats, placing them at risk of injury or death, areas prone to erosion and landslips are known to be particularly in rough seas. common across Fiji, and will likely be impacted further by climate change, with the potential for additional disruption Fiji’s air transport is highly vulnerable to climate hazards. to network operation. The viability of Fiji’s air transport system depends on Nadi International Airport. This international hub, which managed Recognizing these vulnerabilities, FRA has taken steps to open less than 24 hours after both the Nadi floods and to build resilience in the transport network. A major Tropical Cyclone Winston, is responsible for 95 percent of countrywide bridge vulnerability assessment has been AFL’s revenue and 100 percent of profits.132 Given the high completed for the Fiji Roads Authority, which included level of dependence on this one asset base, it is especially assessment of more than 1,200 bridges, crossings, critical to ensure its continued resilience to current and and culverts across the nation. The report prioritized future climate and natural hazard impacts. replacement needs (immediate, high, moderate, and low) and is now used by FRA to inform its Bridges Renewal Ensuring the resilience of the transport sector will require and Replacement Programme. FRA is also procuring significant spending as well as changes in policy. Transport consultancy services through the Asian Development Bank/ already represents a large part—about 30 percent—of World Bank–funded TIISP/TIIP in order to update its existing annual government public spending in current budgets. To design standards and construction specifications for roads increase the resilience of the sector, investment and capital and bridges, to incorporate climate change adaptation expenditure needs have been estimated at F$4.7 billion, considerations in the road sector, and to ensure more F$3.1 billion of which is already planned. Most of these climate resilient road sector assets in line with Fiji’s Green investments are to renew and strengthen existing roads and Growth Framework.130 bridges (including culverts, crossings, and footbridges) so they can better cope with floods. These investments could Many bridges and crossings throughout Fiji are in a state reduce infrastructure damage (and thus emergency repair of disrepair and need to be replaced. Some bridges are costs) by 52% and transport service loss by 35%. This is a currently under load limit restrictions to ensure their safe resilience co-benefit of about F$160 million per year for use. These bridges are and will increasingly be vulnerable these rehabilitation investments. It represents a net present to the effects of floods and associated debris impacts value larger than F$2.6 billion, for the resilience benefits common to such events. Coastal bridges in particular are alone. In addition, these investments would generate large likely to be more vulnerable to higher-level coastal hazards, benefits from reduced transport time and costs in normal while more generally, the impact of riverine flooding on times. The analysis done for this report has also identified bridge abutment and foundation scouring is likely to needs for data collection and analytical work, in large part increase. Box 4.2 discusses available evidence to prioritize to inform the quality of infrastructure investments and interventions by identifying critical road segments and maintenance; these are estimated to cost F$390 million. bridges that should be reinforced before others. It will also be necessary to develop and strengthen FRA’s existing asset management system to increase the efficiency and reduce the cost of the maintenance schedule. 130. Government of Fiji 2014. 131. ADB and Beca 2016. 132. Airports Fiji Limited, Annual Report, 2015, http://www.airportsfiji.com/gallery/pic/annual_report_web.pdf. Options 107 The priority interventions identified align with the objectives of the Land Transport Policy, the Maritime Transport Policy, and Fiji’s National Development Plan for Transport, and BOX 4.2: they will assist in strengthening the transport network’s resilience to current and future climate and natural hazards. Given the importance of reliable, safe, and efficient Criticality analysis to identify transport services to the economy and livelihoods of all interventions in the road network Fijians, replacement and upgrade of critical infrastructure links within the network is vital. Substantial investment that could reduce service losses is required to achieve these ambitious goals, which will also require strengthening of FRA capability, long-term strategic planning with defined roles and responsibilities, As part of this report, an optimization model was run and significant contributions from local and international with the objective of minimizing the total disruption consultants, contractors, and multilateral donors. Further cost and identifying which bridges and culverts in the analysis of these interventions in regard to reducing service network should be prioritized in the upgrading process. losses is in box 4.2. This new analysis yields results that are consistent with the FRA countrywide bridge vulnerability assessment. It must also be noted that focusing efforts and resources to improve the timely delivery of maintenance now and in the According to the two independent studies, the structures future is essential to prolonging the life of transport sector that would minimize future service losses if they were assets. To avoid reducing asset life and network efficiency upgraded are represented with orange dots in figure B4.2.1. further, there is an urgent need to clear the existing backlog • In Viti Levu, many of these structures are on Kings of maintenance and to ensure that moving forward, FRA’s Road (including the Vunato and Laqere bridges). maintenance programming, budget, and management keep Other important bridges include the Thomson pace with the likely increases in hazards. Nabukalou bridge on Cumming Street, the Sawani bridge on Sawani Serea Road, the Draiba bridge on Ratu Sukuna Road, and the Laqere crossing on Kalabu Road. • In Vanua Levu, many important crossings were identified on Savudrodro Road, Nayarabale Road, and Bucalevu Road. Buca Bay Road is also very important from a resilience perspective, and even if the bridges are a low priority according to the FRA assessment, the Navuci Pipe is identified as critical. Since the budget is limited, the model focuses on the most critical structures that are on roads with high levels of traffic, low redundancy, and exposure to floods. This approach minimizes the transport service losses, but asset losses remain relatively high. Since a large share of the Fiji transport network is exposed to natural hazards, asset losses can be significantly reduced only if most of the culverts and bridges are progressively upgraded to higher standards and correctly maintained over time, and if assets are protected by additional coastal flood mitigation measures. FIGURE B4.2.1: Structures given priority in upgrading to increase the resilience of the road network in Vanua Levu (top) and Viti Levu (bottom). Source: World Bank team. 108 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Options 109 4.2.3. STRENGTHENING THE RESILIENCE OF THE ENERGY SECTOR WILL REQUIRE A RANGE OF CRITICAL INVESTMENTS BOX 4.3: Access to electricity is a development priority in Fiji. The government’s top priorities in the energy sector are Opportunities for private outlined in the 20-year and 5-year National Development sector engagement in the Plan and include: transport sector • Ensuring 100 percent of the population has access to electricity by 2021 • Increasing the share of electricity generation The Land Transport Policy and the Maritime from renewable energy sources to 100 percent Transport Policy make references to private by 2030 (the current share is 55–65 percent) sector engagement, as follows: • Ensuring future electricity infrastructure • The transport agencies owning, managing, projects are climate-resilient and regulating the national transport • Promoting private sector participation infrastructure are encouraged to competitively in the energy sector outsource service delivery under contracts with the private sector where it is cost- A range of measures and actions is needed to ensure Fiji’s efficient to do so and without compromise energy sector is prepared for expected increases in the to performance standards. This includes severity and frequency of extreme weather events. These civil engineering design, construction, and actions can be divided into two sets of proposals: maintenance works; asset management (1) critical policy work required to better define energy and monitoring activities; industry training; sector resiliency needs and their associated costs, and and marine survey, testing, and licensing (2) critical investments that will help build the energy service delivery. sector’s resilience and also deliver additional benefits in terms of meeting demand growth, lowering emissions, and • The Fiji government wishes to encourage the increasing reliability under normal conditions. development of nationally owned companies by providing opportunities to participate These actions will build on work already being done by the fully in the transport sector. Where existing Government of Fiji and its energy sector institutions (FEA private sector capacity is yet to be developed, and DoE) (as outlined in part in box 4.4), and are also in line partnership with overseas companies is seen with the National Development Plan, which outlines climate as necessary to meet Fiji’s development goals. resilience of future electricity infrastructure as a one of the The government transport agencies top priorities. will support development of the domestic To underpin the critical policy work and ensure that the private sector in engineering design, right measures are implemented in a systematic and construction, and allied services through cost-effective way, a long-term strategy for building cost- suitably packaged contracts that facilitate effective resilience in the power system must be developed. a predictable and even flow of construction It is therefore proposed that DoE and FEA work together to and maintenance work, and through term devise this strategy. In this way, the costs versus benefits contracts for asset maintenance. of resiliency measures can be properly evaluated so that measures delivering the greatest net benefits can be prioritized. 110 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT A long-term strategy for the energy sector should be In addition, about F$2 million is required for a underpinned by a climate risk model. Among others things, comprehensive risk assessment for the sector, the such a model would need to assess the following: development of a resilient strategy, and policy support. • Which power system assets are most at risk There are also important needs for targeted technical of failure due to extreme weather events, and analyzes and data collection exercises, estimated to cost the location of these assets around F$2 million. Such technical work would notably (1) develop a resilience strategy for the energy sector in • How different parts of the network interact Fiji; and (2) include a review of the design, installation, and to maintain a reliable and secure electricity supply, technical standards for network and generation assets. and which assets play a key role in supporting electricity This latter step would ensure a clearer understanding of supply to different parts of the power system (e.g., the how resilient various infrastructure components are and number of customers served by a particular substation) would facilitate incorporating a standard approach to • Under what conditions key components of electric infrastructure design going forward. infrastructure (such as substations) will remain functional (e.g., how high must flood waters rise before they impact specific substations) Strengthening the resilience of the energy sector will require a suite of critical investments, with an estimated cost of around F$446 million, including F$175 million in new activities.133 Priority investments for consideration include the following: 1. Construction of additional transmission lines, particularly in northwest Viti Levu (e.g., Ba transmission link) to increase diversity of supply and add redundancy in the network 2. Installation of additional generation close to loads in northwest Viti Levu and distributed generation in Vanua Levu 3. Expanded undergrounding of distribution lines in targeted locations (e.g., Suva, Nadi, Lautoka, Ba, Labasa, and Savusavu) 133. The exact cost of some specific major proposed infrastructure 4. Investments in rural mini-grids, SHS, and unmanned is still to be estimated (e.g., the Ba transmission link and the installation of additional generation close to loads in northwest Viti aerial vehicle (drone) technology to assist with post- Levu and distributed generation in Vanua Levu). FEA signed the disaster assessments extension of the Technical Assistance Agreement with European Investment Bank in November 2016 to fund the Transmission 5. Diversification of existing renewable energy generation, Network Development Plan (TNDP) necessary to meet the future particularly increased investment in solar power demand for electricity and improve the reliability and security of generation and biomass power plants. power supply. FEA, Annual Report 2016. Options 111 BOX 4.4 BOX 4.5 Aligning adaptation needs Opportunities for private sector with mitigation commitments engagement in the energy sector and the Nationally Determined Contribution Fiji’s electricity system needs significant investment over the next 10 years, estimated at about F$1.5 billion,a which is unlikely to be The Fiji government is seeking to address the financed by the public sector alone. The National impacts of climate change by setting ambitious Development Plan (2017) and FEA’s strategic renewable energy targets; these will assist in plans make attracting private sector investment to achieving the Nationally Determined Contribution accelerate energy sector development a priority. goal of reducing greenhouse gas emissions by The National Energy Policy (2013) identified 30 percent from a business-as-usual scenario the lack of a clear regulatory framework for by 2030. Twenty percent of the reductions are private generation, general weaknesses in Fiji’s expected to come from implementing renewable business climate, and (for renewable energy) a energy and 10 percent are expected from energy lack of publicly available data on resources as efficiency. Both the electricity generation and impediments to such investment that must be transport sectors are being targeted. overcome. To reach these goals, the government aims to Private and other nongovernment actors have increase the share of electricity generation from shown significant interest in the energy sector renewable energy sources to 100 percent by over the past six years that has led to greater 2030. This increase will require adding significant participation in energy-related interventions on renewable energy generation to the grid, whose the ground. Encouraging significant private sector current share of renewable energy sources is participation in the energy sector continues to on the order of 55–65 percent (mostly hydro- demand stronger sector governance, clearer generated). Fiji has relied on renewable energy regulatory frameworks for encouraging third-party generation since the 1970s. electricity generation, and greater access to and The NDC Roadmap lays out what is needed to sharing of information. achieve the goal of 100 percent renewable energy Maintenance and upgrading of strategic energy by 2036: it is estimated that between 2018 and assets will also be required, as much of this 2020, Fiji will need to add 25 MW of solar power infrastructure has been in service for more and 10 MW of biomass power (at an estimated than 30 years. FEA expects IPPs to invest cost of F$76 million), and that between 2021 and substantially in the power generation sector. 2030, it will need to add 124 MW of hydro power There are opportunities for IPPs in distributed and (at an estimated cost of F$1.5 billion). These costs renewable energy generation, and in the supply are coupled with a substantial increase in the and operation of mini-grids, provided there is a government’s national budget allocation for grid- sound regulatory framework. connected rural electrification and its investment in solar home systems in rural and remote communities, especially in the smaller islands. a. Government of Fiji 2014. 112 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 4.2.4. WATER SECTOR INVESTMENTS Investment costs to strengthen the resilience of the water ARE NEEDED TO PROTECT ASSETS sector are estimated to be around F$1.1 billion.134 This AGAINST NATURAL HAZARDS includes about F$447 million of new projects that are not programmed yet, and about F$34 million in technical A suite of interventions in the water sector could help work, data collection, and policy work (with a focus on mitigate risks of damage to infrastructure, service the monitoring of water resources, the formulation of new disruption, and environmental or health hazards during design standards and regulations, and improved planning extreme climate events. For example, the full protection for water use and integrated water resource management). of water intakes, treatment plants, and pumping stations It should be noted that some of the proposed investments should be achievable for flooding events with a return for strengthening the resilience of the sector are also period of 10 years. Protecting water infrastructure against required to achieve general sector objectives, and there a flood with a 50-year return period would be feasible, are opportunities for private sector engagement, as but would likely require the relocation of more than 25 of outlined in box 4.6. those facilities. To better understand and manage system vulnerability, it is critical to further upgrade asset management systems. In urban areas, WAF has effectively digitized its asset database. To turn this system into a fully operational tool to assess risks and plan interventions accordingly, it will be critical to access not only an assets’ location and basic description, but also their capacity, condition, history of failures, etc. In rural and peri-urban areas, the lack of detailed inventory of existing systems undermines the planning of adequate resilience interventions. These vulnerabilities and the need to urgently address them are increasingly recognized in the water sector. For instance, an Urban Water Supply and Wastewater Management Investment Program—cofinanced by the Asian Development Bank, European Investment Bank, and Green Climate Fund for a total amount of US$255 million—was approved end-2016 and features a strong focus on climate change adaptation to floods, droughts, and salinity intrusion due to sea-level rise. WAF has initiated, with the technical support of Sydney Water and the U.S. Environmental Protection Agency, a holistic risk assessment of the utility’s activities. It is updating internal manuals and procedures to better incorporate climate change resilience considerations. National sector policies are increasingly taking account of water stress and climate change impacts as strategic sector challenges 134. Precise cost estimates are not available, and those presented and are promoting climate-resilient approaches to water within this report are only indicative of a possible order of magnitude. For certain items (e.g., retrofitting of existing sector management. The application of these policies infrastructure to withstand flooding or saline intrusion, increase and principles to systems design and operations is, of storage capacity), the proposed estimates are based on a desk however, in its early stages. review and are subject to a significant margin of error. Options 113 BOX 4.6: BOX 4.7: Opportunities for private sector Opportunities for private engagement in the water sector sector engagement in education and health There are opportunities for significant private sector engagement to strengthen the resilience Since TC Winston, approximately 13 percent of of the water sector that go beyond technical schools have undergone major retrofitting and assistance or common contracting schemes. reconstruction, with a further 15 percent having In particular, opportunities exist for diversifying minor works completed. Over 1,500 schools water resources through desalination or water and 180 health facilities have not had detailed re-use, with the potential for private sector condition assessments completed and potentially contracts for the financing, implementation, and remain vulnerable to damage from natural operation of plants. Private sector expertise can hazards. A proactive approach to upgrading these also be drawn on for reduction of physical water assets, focusing on the key structural elements or losses through contractual arrangements such “weakest links” will help to preserve their existing as performance-based management contracts. value before they can be damaged. An estimated Commercial financing of infrastructure could investment of approximately F$560 million is in principle also be possible as a complement required to retrofit or reconstruct these facilities to constrained public financing sources. This to make them resilient to natural hazards. Just as approach would require a stronger and more there was following TC Winston, there is now an predictable stream of revenue for WAF; hence opportunity for private sector engagement in the higher tariffs might be needed to better reflect surveying, scoping, retrofitting, and replacement the costs of services. of school and health infrastructure assets. Private sector consultants and contractors could potentially link with training organizations to compound program benefits, by simultaneously upgrading facilities and delivering construction skills training to local laborers. 114 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 4.2.5. INVESTMENTS IN HEALTH AND Quality control of construction practices is vital to EDUCATION INFRASTRUCTURE ARE strengthening the resilience of education infrastructure. NEEDED TO STRENGTHEN EXISTING Historically, school buildings have been designed, built, ASSETS AND CONSTRUCT NEW, and maintained by school councils through a decentralized ROBUST FACILITIES model of community-based construction and ownership. Various opportunities for reducing the vulnerabilities of This process provides limited control over the quality of health and school infrastructure to natural hazards and design and construction. Most schools do not have formal climate change are estimated to cost around F$572 million. documented records of their facilities and are likely to have Both technical assistance and capital works investments been built with limited or no engineering input. Establishing have been considered, with resilient investment needs a mechanism such as the CIU centralized procurement to retrofit schools estimated at around F$560 million, process would help to ensure construction quality and on top of spending already planned to expand access to compliance with the Fiji National Building Code. The Fiji health and education services. An additional F$12 million construction industry has many strengths from which of spending on technical analysis and policy changes to draw, including strong local design and construction would also be beneficial. supervision capabilities. Combined with the development of skilled trades, these offer the potential for a step Asset management systems are needed to prioritize change in the quality of construction of schools and and plan health infrastructure spending. Due to limited health infrastructure. resources within MoIT and MoHMS, there is currently no centralized database detailing the number, location, In the absence of suitable alternatives, many communities and condition of health infrastructure assets. As a result, use schools as evacuation centers. This practice makes planning for the maintenance and replacement of assets it even more important that schools be able to withstand is challenging, and the works undertaken are largely natural hazards. A nationwide program is needed to identify reactive rather than proactive. Following TC Winston, the facilities, verify their structural integrity and functional MoE established the Construction Implementation Unit suitability, and clearly label evacuation centers. Protection (CIU), which is responsible for undertaking reconstruction of school facilities for reopening after natural disasters works above F$50,000 using private sector designers and plays an important role in community recovery and helps contractors from a screened list of applicants. Works below to minimize the disruption to students’ education.136 F$50,000 have been managed by MoHMS/MoIT directly. A plan for the upgrade and strengthening of facilities not affected by TC Winston should be developed to proactively safeguard the existing value of these assets. Significant progress has been made in the resilient reconstruction of school infrastructure damaged by TC Winston. TC Winston caused widespread damage to the school sector, with 495 schools affected and combined damage and losses estimated at F$76.6 million. The cost of recovery and reconstruction of school facilities has been estimated at F$385.9 million.135 Since TC Winston, the CIU has managed the reconstruction of 183 schools through a centralized procurement process. This approach has been adopted to facilitate the rapid reconstruction of buildings while maintaining construction quality and compliance with the Fiji National Building Code. Through this process local workers continue to be employed in construction, under the supervision of qualified contractors. Early signs indicate an 135. Government of Fiji 2016b. improvement in the quality of school construction. 136. GADRRRES 2015. Options 115 4.3. SUPPORT FOR AGRICULTURE AND Agriculture insurance programs can be used to manage FISHERIES DEVELOPMENT SHOULD the financial cost of disasters to farmers and governments. BE SMART FOR CLIMATE, THE They offer one approach to building rural resilience and ENVIRONMENT, AND THE ECONOMY, smoothing climate-related shocks suffered by the rural poor. NOW AND FOR THE FUTURE Agriculture insurance can be used to transfer the financial risk of agricultural shocks to private sector insurers, thereby If farmers and fishermen are enabled to adapt to weather reducing the contingent liability (explicit or implicit) on threats and climate extremes in the short and medium governments to respond. International best practice for term, future generations will be better placed to adapt to successful large-scale agriculture insurance programs climate change, whatever specific form it takes. Measures offers two key lessons: (1) both the public and private that improve productivity while also building resilience sectors must be actively engaged; and (2) to increase its to future climate change are generally referred to as “no sustainability, agricultural insurance must form part of a regret” measures—that is, actions that make sense even in broader agriculture risk management framework. the absence of climate change. In the case of agriculture, interventions that provide farmers with more climate- A feasibility study to explore options for agriculture resilient crop varieties and animal breeds are seen as a insurance programs could be conducted, building on key adaptation strategy that needs more public support existing studies. The results of a pre-feasibility study for in terms of both research and investment. Training and agriculture insurance carried out by the Pacific Financial capacity building to promote sustainable soil management, Inclusion Program138 highlighted several issues which need irrigation technologies, integrated pest management, and to be addressed before piloting agriculture insurance in Fiji, agro-forestry will strengthen the ability of farmers in Fiji to including (1) the lack of agricultural and weather data, and address the challenges of climate change. (2) the lack of an aggregator that would facilitate insurance sales to farmers. Building on this work, a feasibility study Both in the agriculture and fisheries sector, initiatives could identify the policy objectives the government would are under way to strengthen resilience. The planting of seek to achieve through agriculture insurance. This study traditional tree and root crops is being undertaken to could explore the feasibility of public-private partnerships minimize soil erosion and land degradation. The Fiji Crops for agriculture insurance in Fiji. Sector Strategy, which is in draft form, incorporates the need to provide resilient and sustainable livelihood Strengthening the Ministry of Agriculture so it can prepare opportunities for farmers, particularly youth and women. for and respond to natural disasters is seen as a key A Fiji National Fisheries Policy, which has been under intervention to reduce disaster impact on direct losses development for several years with the support of the and food prices. The ministry will need a dedicated pool Food and Agriculture Organization (FAO) and the Pacific of resources in its annual budget to enable quick damage Community (SPC), takes adaptation to climate change assessments and interventions, which include providing and resilience toward natural disasters into consideration. planting material from unaffected areas to farmers in Around 16 nongovernmental organizations are involved in affected areas. coastal fisheries management. Government and other stakeholders have suggested that sustained, effective investment in improved coastal fisheries management will not only improve fisheries productivity, but also increase communities’ resilience to climatic and other shocks should these eventuate. This is in line with the fisheries priorities identified in the new Fiji National Development Plan, as well as with recommendations by the FAO.137 116 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 4.4. CONSERVATION POLICIES CAN 1. Protection of mangrove areas and coastal systems to PROTECT ASSETS AND REDUCE help protect fish, crabs, lobsters, and crayfish stocks ADAPTATION COSTS (which contribute a relatively small amount to local incomes, but play an important role in livelihoods and Fiji’s ecosystems are the resource base for fisheries, food security); reduce erosion of coastlines; reduce forestry, agriculture, and tourism, as well as for related coastal protection costs; and contribute to tourism. livelihoods, but they are at risk of degradation. The major ecosystems are native forests, coral reefs, and mangroves. 2. Watershed and forest protection for sustained surface About 40 percent of native forests are degraded due to water flow, and improved groundwater reserves illegal logging, clearance for agriculture or timber extraction, (especially on small islands). This will lead to reduce collection of firewood, and growth of invasive vine and requirements for investment in desalinization. tree species. Mangroves also face similar pressures, and 3. Action to preserve soil and soil fertility, including they have declined in area by 25 percent between 2003 through training and capacity building of communities, and 2013.139 Increasing risk of droughts (and fires) and in order to maintain agriculture production and landslides—due to changing rainfall patterns and intensity— subsistence farming. along with cyclones are increasing the vulnerability of 4. Continued investments in community-led activities native forests and mangroves. Approximately 5 percent of in forest, coastal, and coral reef areas to contribute native forests are currently protected, and there are plans to diversification of livelihoods and incomes, and to protect an additional 6 percent. Very few mangrove to protect against increasing poverty. areas are protected. About 17 percent of coral reefs are in conservation areas and the Fiji Locally Managed Marine 5. Increased budget for management of protected Area (FLMMA) established by local communities. areas, given the increasing pressures and effects of changing climate. Strengthening and enforcement of planning permits and environmental legislation, which are essential to minimize 6. Increased efforts in waste management and further degradation of the ecosystems and ensure their processing to reduce pressure on the environment continued protection, have been estimated to cost around and ecosystems. F$77 million. This includes F$62 million in investments in These actions are important not only for flood protection local community to enhance their resilience and protect and agriculture, but also for conservation and sustainable their environmental assets, F$5 million for investments in use of the ecosystems that attract tourists to Fiji. The waste minimization and recycling, and further spending vulnerability of the tourism sector to climate change is well of about F$10 million in policy action, mostly to better recognized, and private actors in the tourism sector and monitor environmental assets and inform decision making local communities are already contributing to the protection on conservation. Such investments are important to make of ecosystems. For instance, one study found that touristic the goals of the Fiji 20-year and 5-year Development Plan resorts commonly adapt to erosion and the risk of storm achievable and include the following: surge by constructing seawalls, but also by planting trees, mainly coconut palms or mangroves.140 137. Westlund et al. 2007. 138. Pacific Financial Inclusion Program 2012. 139. Gonzalez et al. 2015. 140. Becken 2005. Options 117 4.5. THE GOVERNMENT NEEDS TO BUILD 4.5.1. IMPROVING EARLY WARNING SOCIOECONOMIC RESILIENCE, TAKE EFFECTIVENESS AND PREPAREDNESS CARE OF THE POOR, AND KEEP WILL SAVE LIVES AND PROTECT ASSETS ECONOMIC GROWTH INCLUSIVE Legislation for disaster preparedness and response in Fiji For vulnerable and low-resilience populations, it is critical is currently being reviewed and updated; this process will to provide the tools and support they need to manage and help to strengthen and clarify roles and responsibilities. recover from the natural shocks that cannot be avoided. While the roles of the various stakeholders are set out Indeed, appropriate land-use planning and building norms, within the Natural Disaster Management Act (1998) and as well as better infrastructure, can help minimize the risk National Disaster Management Plan (1995), lessons that natural hazards like cyclones and heavy precipitation learned following TC Winston indicate that in practice, will translate into natural disasters, but they cannot prevent the roles and responsibilities of the first response teams, all shocks. Some shocks are unavoidable, especially in NDMO, and those supporting the response efforts highly exposed countries such as Fiji. And the country will need clarification, as do the linkages within the Disaster continue to have a share of its population at high risk and Management Committee’s framework of Emergency with limited capacity to cope with and recover from shocks. Operation Centres. The experience with the cluster system This population will remain dependent on government and following TC Winston was generally positive. A number community support after disasters. of cluster groups were active before TC Winston, and the success of those clusters in responding swiftly was a Similarly, people stuck in low-income activity will need result of the strong existing network. Accordingly, these support to benefit from economic growth. Growing sectors cluster mechanisms should be incorporated into can provide new and higher-productivity jobs, but vulnerable the revised disaster legislation, policy, and plans. populations may struggle to capture those opportunities and risk being locked into low-productivity or decreasing- The resources and capacity of agencies responsible productivity jobs and activities. For those, dedicated for early warning monitoring and response should be policies are needed to improve their well-being, help them strengthened. For example, unlike FMS, the Seismology capture opportunities and accumulate assets, and ensure Section, and the Hydrology Division, the NDMO does not that their children do not inherit poverty and vulnerability operate on a 24-hour basis. This constrains its ability to from their parents. deliver timely early warning messages. The monitoring and maintenance capacity of the technical agencies should Particularly important domains where progress is possible also be strengthened; key areas for improvement include are disaster preparedness, the social protection system the maintenance capability for the monitoring equipment (with its ability to respond to climate or other natural used by FMS, the Seismology Section, and the Hydrology shocks) and insurance, access to affordable health care, Division. In addition, the software system used by the and gender inclusion. These domains are also development Seismology Section requires upgrading. priorities highlighted in Fiji’s development plans. A sector that remains essential—even though it has been decreasing One lesson learned by the Government of Fiji following TC in the last decade—is the agriculture sector, which still Winston was that in order to make warnings more efficient, provides a livelihood to the poorest segment of the Fiji they need to be simplified and standardized. Color coding population and which will be exposed to climate shocks could be used to define the intensity of a disaster (different and stressors. colors for “Alert,” “Take Action,” and “Stand Down”).141 SOPs and templates should be developed for use in early warning messages sent via SMS, and a framework for cooperation in emergencies for telecommunication should be developed. In addition, the NDMO should convene regular drills with a range of stakeholders representing different social groups. These simulations should take place at the district, divisional, and national levels. Combining drills with simplified early warning messaging and raised community awareness will help inform people about how to protect themselves and vulnerable groups 141. Fiji MRMDNDM et al. 2017. within the community. 118 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT More clarity is required in the designation and The Poverty Benefit Scheme database could be expanded management of evacuation shelters. Given that a to cater for both poor and near-poor households. Since systematic assessment of the structural and logistical TC Winston struck in February 2016, the government has suitability of designated emergency evacuation centers already begun a process of upgrading and centralizing the has not been undertaken, there is a clear need for further databases of the core social protection programs (PBS/ work to ensure that evacuation centers are accessible CPA/SPS) to make them more responsive and better and safe for all members of the public. A clear policy on targeted in times of natural disasters. This critical priority the designation, use, and operation of evacuation shelters intervention is being funded through the government’s should be developed and should address the needs of own resources and is headed by the ITC (Information all community members, including women, children, men, Technology and Computing) wing. So far, work has been and the elderly. Consideration should be given to issues completed on the smaller databases, but the main PBS such as gender, disability, the needs of children, etc. In database has not been touched. System upgrade and evacuation shelters that have already been designated data migration of the PBS database is expected to be across Fiji, structural suitability and the availability of completed in the next 6–12 months. The second critical WASH facilities should be assessed. Investments in backup priority intervention under this component is the addition electricity generators in the 800 evacuation centers, at an of approximately 25,000 pending caseloads of active approximate total cost of F$20 million, is likely necessary. and declined beneficiaries to the core social protection program databases (PBS, CPA & SPS). This activity already has a commitment of F$50,000 (World Bank 4.5.2. SOCIAL PROTECTION CAN BE FURTHER and World Food Programme) and is expected to be STRENGTHENED TO MAKE THE completed in the next 12 months. POPULATION BETTER ABLE TO COPE WITH SHOCKS, AND INSURANCE-BASED The social protection procedures for responding to future SOLUTIONS CAN BE EXPLORED disasters should be prepared for scalability. Based on the The scaling up of the PBS, such as occurred after TC government’s experience of using cash transfers at the Winston, is an efficient tool to provide support to the poor time of TC Winston, there is a need to develop policies after a disaster, one with a small average annual cost and and procedures to enable the government to smoothly a benefit-cost ratio estimated at more than 5. Indeed, roll out social protection emergency operations in the considering tropical cyclones and river and pluvial floods future. The first priority is developing SOPs and guidelines only, and assuming a scale-up for all disasters with a for responding to disasters using the social protection return period higher than five years, the average annual system, and scaling up assistance either vertically (to the cost of the PBS scale-up is estimated at F$2.3 million. existing beneficiaries, as in the case of TC Winston) or This is a relatively small amount compared with the benefit horizontally (temporarily adding new beneficiaries). The to beneficiaries affected by disasters, which is equivalent government is currently working toward this goal, and to a F$13 million gain in annual consumption. Such a scale- these SOPs should be completed in the next six months. up mechanism is thus on average an excellent investment. Considering the magnitude of the shocks affecting Fiji— It creates significant volatility in social spending, however TC Winston’s losses reached 20 percent of GDP, and (the cost after TC Winston was F$20 million), making all households experienced direct or indirect effects of it necessary to implement appropriate financial risk the shock—a precise targeting mechanism to support management and budget reallocation tools. Several only certain households does not appear to be a priority. actions can improve the ability of the social protection However, in the presence of tight budget constraints, system to help people affected by shock cope and recover. or if the scale-up is also applied to small-scale disasters, then a geographic targeting could be explored to ensure The use to the FNPF to provide rapid support to the that only households that are significantly affected population through exceptional withdrawals, as done after benefit from additional transfers. This is a potential TC Winston, was also a timely and effective intervention. longer-term investment option for the government; There are however long-term implications for FNPF see box 4.8. To make such a scheme sustainable and members, as they will receive reduced pensions in operational, however, contingency financing options the future. These consequences need to be carefully need to be explored. considered, with the use of the FNPF as a post-disaster support instrument applicable for use in exceptional cases. Options 119 BOX 4.8: Investigating a wider and stronger scalable component with the PBS To investigate the benefits from a wider and It would act like a quasi-insurance for people who stronger scaling component in the PBS, we analyzed are unlikely to be able to afford and have access an expanded social protection system covering the to market insurance, at a public cost that would poorest 54,000 households. The poorest 25,000 be largely manageable, representing on average households form the “core beneficiaries” group, and less than 10 percent of current social expenditure receive a top-up on their monthly PBS allowance spending. For a hypothetical 100-year tropical for all disasters occurring less frequently than once cyclone in Ba Province, such a scheme would in 10 years. For the remaining 29,000 households, significantly mitigate the losses experienced by the which form the “additional beneficiaries” group, first quintile, which is the most vulnerable and the the number of people supported depends on the most likely to suffer from permanent consequences magnitude of the disaster. After incidents with return of the shock, and also mitigate some of the most periods of between 10 and 20 years, 50 percent vulnerable individuals in the second quintile (see receive a top-up; 75 percent receive a top-up for figure B4.8.1). events with return periods between 20 and 40 Such a scheme would, however, be 60 percent years; and all 29,000 receive a top-up for events more expensive (on average) than the post-Winston with return period larger than 40 years. Households response. It would also imply more volatile social in both the core and additional beneficiaries groups expenses, which would create specific challenges; receive the same disbursement, equal to up to four see chapter 5 for a discussion of the financial needs times the standard monthly PBS allowance (F$177), and possible instruments to manage public finance depending on the severity of the disaster. Events volatility. Figure B4.8.2 provides an estimate of the with a return period of up to 40 years receive a financing needs at different return periods to allow single month’s top-up. Events with return periods such response to natural disasters, comparing of between 40 and 50 years receive two months’ the system used after Winston with the system top-up. Events with return periods of between 50 proposed here. (These financial needs start with and 100 years receive three months’ top-up, and all a return period lower than four years, as it is the larger events receive the maximum disbursement of return period for the occurrence of either a tropical four months’ PBS allowance (F$708). cyclone, a fluvial flood, or a pluvial flood with a return Such a system would deliver large benefits. On period of 10 years or larger, assuming these three average, its impact on well-being (relative to no post- hazards are independent. Assuming correlation disaster support) would be equivalent to a F$15.5 across the event would reduce the needs, so that million increase in consumption, for an average figure B4.8.2 shows a pessimistic estimate.) To annual cost of F$3.8 million (a benefit-cost ratio of these needs for social expenditures, one can add 4.1). It would provide broader protection to people other emergency costs that also cannot be delayed in poverty, covering a larger share of the population and need immediate financing. than the PBS scheme. 120 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 3,000 FIGURE B4.8.1: Effect of different levels of Well-being losses (F$ per capita) 2,500 disaster response on well- being losses in Ba Province 2,000 after a 100-year tropical cyclone event. Losses can be reduced by a strengthened 1,500 social protection system able to react quickly to shocks. 1,000 Source: World Bank calculations. Note: Individuals in the province are 500 sorted into income quintiles, and their well-being losses are shown for three post-disaster support 0 scenarios: no support, the Winston- Q1 Q2 Q3 Q4 Q5 like response, and the wider and Poorest Richest stronger response discussed Income quintiles above. Generally, Fijians in the poorest quintile suffer the largest well-being losses after a disaster, No post-disaster support even though they lose fewer assets Winston-like response than all other quintiles. Wider & stronger response 3000 45 2500 FIGURE B4.8.2: Additional social expenditures (F$ million) 40 Financing needs 2000 from additional social 35 expenditures at various return periods, to ensure 30 1500 either a response similar 25 to the one following 1000 Winston or a wider and 20 stronger response. 500 15 Source: World Bank calculations. Note: The wider and stronger 10 0 response assumes an expansion of the social protection system 5 with an automatic increase in the number of beneficiaries (to up to 0 54.000 households compared with 0 10 20 50 100 1000 25,000 today) for all disasters with a return period larger than 10 years, Return period (years) and transfers that range between one and four months of normal PBS Wider and stronger response allowance (F$708), depending on the severity of the disaster. Winston-like response Options 121 This public response can be complemented with indemnity Health risks from climate change vary in nature and in the insurance, which is an important instrument for individuals type of climate risk that precipitates them. So far, there who are not covered by the social protection system. With has been considerable discussion of the types of potential indemnity insurance, individuals are compensated after a health impacts, including infectious disease, undernutrition, natural disaster, based on an estimate for the losses to their and heat stress. Just as important, however, are the assets. The Reserve Bank of Fiji has requested that the magnitude and patterns of risks from climate change, World Bank assist it in analyzing ways to resolve the market stemming from the characteristics of the hazards created failure of the domestic insurance industry, whereby the by changing weather patterns, the extent of exposure of domestic insurance industry is able to attain reinsurance human and natural systems to the hazard, the susceptibility only for policies with an engineer’s certificate. A study of those systems to harm, and their ability to cope with is currently under way to identify the options available and recover from exposure. To establish truly resilient to the domestic insurance industry that would help systems, each of these components should be considered the government manage its implicit liabilities for singly. Such an approach would establish starting points for housing reconstruction. efficient and effective resilience strategies and adaptation, like community vulnerability, a health system’s capacity Post-disaster support is efficient for hazards with low before, during, and after exposure to a hazard, or the probabilities, but cannot replace disaster risk reduction, hazards created by a changing climate. Each of these especially for the high-frequency, low-intensity events categories highlights important areas for planning around that are responsible for a large fraction of average annual adaptation and resilience. Climate change represents too losses. As flagged in the literature,142 an optimal approach broad a perspective, and a focus solely on climate change to natural disaster management and resilience is based on makes assumptions about the roles of vulnerability and two pillars: (1) reducing risk with appropriate protection, exposure that could prevent effective action. land-use planning, and building and infrastructure regulations; and (2) managing the residual risk that would Achieving rapid but long-term solutions to climate change be too costly to reduce by making the population and the requires building the resilience of climate-sensitive health economy better able to cope with and recover from the systems. Investment should focus on two areas: disasters that cannot be avoided. • Health system strengthening to improve resilience and build capacity to prepare for the varied 4.5.3. IMPROVING THE HEALTH CARE environmental impacts and health impacts SYSTEM IS A DEVELOPMENT PRIORITY caused by climate change; and Improving health care is a development priority in Fiji, as • Programmatic (e.g., disease-specific) responses stressed in existing development plans. Future development to address the changing burden of disease related should in particular consider the need to provide better to climate change. service to the bottom 40 percent in terms of poverty, The PCCAPHH project was an important first step in the rural areas, and isolated islands, as well as the need to health sector’s response to climate-related health risks improve participation of the private sector. Achieving and served to strengthen adaptation capacity of central these objectives will be even more important in light of the and local governance in Fiji. The PCCAPHH suggested impacts of climate change, as access to health care is a a set of priorities for future action, including primary function of successful adaptation.143 (1) generating an evidence base for policy makers through Building resilience to the health impacts of climate change a comprehensive surveillance system, health information is largely about risk reduction and monitoring-and-response system, and health impacts assessment that would include capacities. It is widely understood and accepted that noncommunicable diseases and mental illnesses; climate change will have broad impacts on human health (2) building a “climate-resilient health system” based on a and that it will be the poorest and most vulnerable who systems approach that includes electronic medical records, feel the full force of these. Though it may not be possible telemedicine, and climate-proofing of hospitals; (3) adopting to diminish the risk of health impact to zero, the world can a multi-sectoral approach to implementing a post-2015 take steps to predict and prevent impacts, and build resilient sustainable development agenda, which includes water, health systems that will be sturdy in the face of future food, energy, disaster, and meteorological services; and threats—whether pandemic outbreak, economic crisis, (4) prioritizing vulnerable groups and remote communities or global environmental change. for health equity. 122 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Human health is a key component of adaptation activities Women’s equal participation in governance and political across all sectors, including water, energy, agriculture, processes will help to reduce women’s vulnerability to rural development, housing, environment, and community climate change. Unequal participation limits women’s empowerment. A healthy population is a resilient population, ability to influence important processes and decision and for these reasons, all development sectors in Fiji can making in areas of relevance for climate and disaster improve human health outcomes through their adaptation risk management. It also does not make full use of the activities. significant contributions women have made in managing climate and disaster risk at the community level due to their social role. Interventions that strengthen the participation 4.5.4. TARGETED GENDER INTERVENTIONS of women and other vulnerable groups in decision-making AND SPECIFIC MEASURES TO mechanisms at the national, local, and community level are PROTECT VULNERABLE POPULATIONS CAN COMPLEMENT ACTIONS IN crucial for effective climate and disaster risk management. DIFFERENT SECTORS Balanced representation based on ethnicity, socioeconomic status, disability, age, and sexual orientation should also Gender inequality is a key driver of vulnerability to climate be encouraged. change and disasters in Fiji. Without targeted gender interventions that complement efforts to strengthen the As gender-based violence cuts across all the domains of resilience of other sectors, there is a significant risk that the gender (in)equality, it must be treated as a cross-cutting existing social, economic, and political inequalities will be concern and not just a stand-alone issue, and should be exacerbated by climate change and natural hazards in the considered in all interventions. GBV puts women and girls at future. Investments in human endowments such as health, significant risk and must be addressed in order to increase economic opportunities, and agency are therefore needed their resilience. Implementation of the National Policy for to reduce Fiji’s vulnerability to current and future climate Gender will ensure that GBV is addressed, and it should and disaster risks. Specific priority interventions have been therefore continue to be supported with financial resources. identified based on a robust gender assessment of Fiji. An increase in the financial resources of the Ministry of Access to psychosocial support, reproductive health Women, Children and Poverty Alleviation should also be care, pre- and post-natal care, and infant and elderly considered; this would allow the ministry to provide better care must be secured, particularly in rural and semiurban advice on how to integrate gender equality measures in areas. The current vulnerabilities of the health sector all development sectors of the government. Within the especially affect women, who—given their reproductive ministries, gender focal points have been appointed to role and role as primary caregivers for children, the sick, ensure the proper integration of gender equality measures and the elderly—are more exposed to health risks. In rural in all sectors. However, there is a need for the roles to and semirural areas, women (and men) face additional be officially articulated and provided to all permanent challenges in accessing health facilities due to the high secretaries to enable effective implementation. cost of transportation, restricted services, and staffing Finally, a better understanding of the gender-differentiated shortages. People with disabilities face specific challenges impacts of climate change and natural disasters is needed. in accessing health services due to the lack of accessible The collection of gender-disaggregated data should transport and lack of training for health personnel in their therefore be strengthened to provide solid evidence of specific needs.144 the gender-differentiated impacts of climate change and Increasing women’s economic opportunities and access disasters. This information will allow for more efficient and to resources is key to increasing women’s socioeconomic gender-responsive interventions to strengthen the resilience resilience. Removal of barriers that hinder women’s of women and girls, and in turn the broader Fiji society, to economic participation through improvements in the legal, climate change and hazard events. policy, and regulatory environment needs to be prioritized. In Fiji, a significant number of women work within informal sectors that are vulnerable to climate change, such as subsistence farming and fishing. Investments in protecting and diversifying women’s income—by increasing women’s access to financial resources through micro-credit, 142. Hallegatte et al. 2017. micro-finance, and saving schemes along with training 143. Hallegatte et al. 2016. opportunities—are needed to increase their resilience. 144. Care International 2016. Options 123 5. THE FOUNDATIONS Evidence-Based Decision Making and Well-Managed Public Finances Photo: Alana Holmberg/World Bank. 124 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT The interventions discussed in Chapter 4 will be challenging to implement. Two important requirements will need to be met to ensure that the interventions are successfully implemented: evidence-based decision making and well-managed public finances. 5.1. EVIDENCE-BASED DECISION-MAKING The Ministry of Waterways should take overall FOR FUTURE RESILIENCE REQUIRES responsibility for the studies and their implementation ADDITIONAL DATA COLLECTION AND and should coordinate with other ministries, especially ANALYTICAL WORK in the implementation of nonstructural works, including land-use planning, development controls, and emergency The assessment performed for this report has been based response procedures. on existing data sets and models, and on the use of global models applied to Fiji. However, designing a resilience Risk analysis should also be carried out for areas vulnerable strategy for the country would require more data, and the to coastal hazards. Current hazard modeling145 should be use of these data for evidence-based decision-making, expanded to develop a consistent national model that can in particular regarding new investments and maintenance be integrated with other risk information that has more prioritization. detail at divisional, provincial, city, and town levels. As part of this study, a coastal inundation and impact analysis has been done for 300 points around the coastlines of Fiji.146 5.1.1. DATA COLLECTION AND ANALYTICAL This information has been prepared using global data sets WORK ARE THE FOUNDATION FOR on topography, wind fields, and cyclone tracks. Various EFFICIENT ACTION assumptions have been made to produce the results, which Floodplain risk management plans should be developed show general exposure and extent of vulnerability to coastal based on flood risk studies. The studies should be carried hazards. But the analysis is not accurate enough to be out by the newly established Ministry of Waterways used for final decision making in design, land management, and should replicate the work undertaken in the Nadi and regulation. Investment in more detailed and accurate River basin, which was the pilot area of the Watershed analysis is necessary to develop risk management options Management Project and provides a good model for future and, where appropriate, invest in defense infrastructure. studies. The project was started in 2008 under the Ministry of Agriculture and also includes the Ba, Sigatoka, Labasa, Nakauvadra, and Rewa watersheds. Future studies will need to include ongoing consultation with the community and 145. Work to date has included wave runup and inundation at other stakeholders, and evaluate a range of structural and Maui Bay (Bosserelle et al. 2015), Fiji-wide storm tide assessment nonstructural measures. (McInnes et al. 2014), and assessment of tropical cyclone–driven flooding (Mendez et al. 2017). 146. See Haigh (2017); Mendez et al. (2017); and Nicholls (2017). Foundations 125 Recent work using a regional modeling approach can help Collecting and maintaining inventory information on to explain flood behavior at a national scale and guide buildings, infrastructure, and other assets as well as different flood risk management planning and processes on the location of people will assist in quantifying the at a more local level. As part of this climate vulnerability impacts of natural hazards. It is useful to have such assessment, design flood data have been produced for inventory information in databases compatible with GIS the major islands of Fiji from a global data set. The data systems so it can be used in natural hazard risk analysis. are useful in illustrating the range of flood extents for Collecting and using such inventory information is also a different events in a particular area, and for providing very foundation of good asset management, asset investment, approximate design flood heights that can be used as a and maintenance management practices.147 The PCRAFI starting point for further assessment. It should be noted database,148 which holds information about some assets that the work is not of sufficient accuracy to be used in and infrastructure in Fiji, should be updated, expanded, and place of watershed-level assessments. validated so it can be used to quantify all natural hazard risks. The location, purpose, value, and condition of existing Improved hydrological and post-event data collection will coastal protection assets should also be cataloged. Such greatly assist in managing flood risk. Collection of rainfall, information is important for asset maintenance and upgrade water level, and flow discharge data is required to determine programs, and for decisions on future expenditure. A an area’s flood behavior, which in turn is required for the program to maintain and update data in the database design of most, if not all, types of mitigation options. For should be financed, given that assets and populations coastal assessments, data are needed on sea levels, tides, change over time. tropical cyclone properties, and wave processes. Data are needed over a long time period (years or decades) to The effect of climate change on flood risk should be understand the range of floods that can occur, as well as incorporated into future planning. The assessment of peak flood levels and other observations from particular a particular watershed’s design flood events includes flood events, which are often required for model calibration. determination of the area’s extreme rainfall patterns and Fiji has expanded its gauge network in recent years, for tidal conditions. These data can then be modified to assess example in the Nadi basin, where several gauges were future climate scenarios, including quantifying the effect installed as part of the basin’s Integrated Water Resources on peak flood levels and assessing potential mitigation Management pilot. measures for one or more climate change scenarios. For coastal flood risk, assessments should include projected For any watershed-level or coastal risk assessment, changes to tropical cyclones’ annual frequency, wind detailed topographic data will be required, and these speeds, and rainfall, as well as sea-level rise. This process will require a survey of LiDAR data. It has been noted as may be set by local or national legislation, or it may follow part of this study that LiDAR data and the development other examples in the Pacific region. of a digital elevation model for Fiji will provide benefits that cut across a number of sectors, and it has been For coastal and riverine flood risk, adopting minimum recommended that a countrywide survey be carried out standards for risk appetite and levels of service will ensure to improve cost-effectiveness and avoid duplication. This parties managing and affected by natural hazard risks approach will be significantly cheaper than acquiring LiDAR have a common understanding of consequences and for each watershed, and will allow future flood studies to responsibilities. Minimum standards might apply to climate be completed faster than previous studies. Coastal risk change and sea-level rise scenarios, planning periods, assessments will also require detailed bathymetric data. levels of service, and economic benefits and other criteria LiDAR and other data should be stored, maintained, and for investment in defense infrastructure. They may be set secured centrally as an important GIS resource for Fiji. through legislation (land management controls), regulations (building standards and codes), and policy statements of the central or local government. 147. IPWEA 2015. 148. See the PCRAFI website at http://pcrafi.spc.int. 126 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 5.1.2. ASSET MANAGEMENT SYSTEMS The options for strengthening resilience proposed in this COULD IMPROVE THE EFFICIENCY OF report total F$9.3 billion, with almost F$5 billion in additional INFRASTRUCTURE MAINTENANCE, CUT investment and several million per year in maintenance COSTS, AND INCREASE RESILIENCE and operation costs.149 The proposed investments total Asset management systems provide a strategic and approximately F$900 million to F$950 million per year systematic process for operating, maintaining, upgrading, for the short term and medium term. Some of these and expanding physical assets effectively throughout their investments per year are comparable to the yearly life cycle to ensure an acceptable level of service. They budget allocation for specific sectors, and they should require (1) defining the levels of service and performance be integrated in the regular budget planning process. that the assets should deliver; (2) understanding the The highest investments required per year would be for asset base, through asset inventory and mapping; transport (F$469 million/year, which represents 92 percent (3) understanding the condition of the assets through of the 2017 sector budget), water (F$113 million, about regular condition assessments; (4) understanding future 49 percent of the sector budget), health/education demand; (5) identifying the risks to the assets and (F$57 million, about 62 percent of the sector budget), the service delivery; and (6) monitoring the system’s housing (F$22 million, about 86 percent of the sector performance. This information can then be used in life- budget), and environment (F$8 million, about 77 percent cycle decision-making processes for operational strategies, of the sector budget). maintenance strategies, and future investment plans. Pressure on social expenditures will also increase. The Asset management systems can be effective tools for latest budget already includes F$47 million for the Ministry increasing the resilience of Fiji’s infrastructure assets of Women, Children and Poverty Alleviation budget, an because they can help the relevant ministries and agencies increase of 42 percent over the previous social protection understand the condition and criticality of their assets. budget (F$33 million). Traditional asset management systems are insufficient to Meeting the investment needs described in this report meet the needs of the government, and asset management would require the mainstreaming of disaster risk systems would need to be improved to effectively management and resilience to climate change into the incorporate climate change and natural disaster risks government budgetary process. Environmental taxes into decision-making processes. This step would involve such as the recently reformed ECAL and Green Bonds identifying the highly vulnerable assets, understanding the will support many of the actions described in this report. magnitude of the consequences of asset failure, planning However, the required level of spending for disaster risk to preemptively prevent the next disruptions rather than management and climate resilience cannot be met through reacting after the disasters, and building back better earmarked resources only; these processes need to be after disasters. integrated within the regular budgetary process. Development investments and expenditures will have 5.2. DEVELOPMENT UNDER CLIMATE to take place in a context of volatility, due to changing CHANGE REQUIRES WELL-MANAGED economic conditions and possible natural disasters. PUBLIC FINANCE AND SIGNIFICANT Achieving development objectives will therefore require INVESTMENT CAPACITY well-managed public finances. Achieving Fiji’s development goals in a resilient and sustainable manner will require sustained investments over the next decades. The existing 20-year and 5-year Development Plan envisages large investments and expenditures that reach F$50 billion over the next two decades (including capital expenditures and provision of social services). 149. The sum of F$4 billion represents measures that are already planned, though not always already financed. Foundations 127 5.2.1. VARIOUS TOOLS CAN BE MOBILIZED Various instruments have been developed around the world TO MANAGE ECONOMIC SHOCKS AND to cover contingent liabilities created by natural hazards CONTINGENT LIABILITIES and other environmental risks.151 The optimal choice of instruments is country-specific and depends on both Contingent liabilities are categorized into explicit liabilities costs and timeliness.152 (those underpinned with some form of legal obligation) or implicit liabilities (where there is social expectation Many countries have reserve funds that can be used to for the government to act as insurer of last resort). For respond to unexpected events, including natural disasters. example, contingent liabilities from natural disasters The Fiji government allocates an annual contingency fund include expenditures incurred by the destruction of budget of FJ$1 million. This reserve fund is appropriated public assets and infrastructure and expenditures due to to the Ministry of Rural and Maritime Development and pre-arranged commitments. The exact value of explicit National Disaster Management, and the authority to contingent liabilities depends on the value of legal and disburse funds is at the discretion of the prime minister. contractual obligations that could be triggered by a disaster. Irrespective of whether there is a disaster in any given Implicit liabilities on the other hand are expenditures the year, this reserve fund is allowed to accumulate using government is expected to make in response to a disaster the annual appropriation. due to a perceived moral obligation, political pressure, or However, reserve funds have limited capacities and attempts to stimulate growth by speeding up recovery, cannot be designed to cope with the rarer and more even though there is no formal commitment to pay for extreme events; such an approach would keep large them. Arguably, implicit liabilities represent the social resources idle, at the expense of other spending needs obligation to provide assistance to those most in need such as infrastructure development, education, or health. following a disaster. Thus additional instruments have been developed to Fiji’s contingent liabilities are estimated at F$830.7 million; protect public finances, and these are set out in more this figure is based on state-guaranteed debts and detail below:153 excludes contingent liabilities from natural disasters and • Insurance and catastrophe bonds. Lessons can be superannuation contributions to the Fiji National Provident learned from the experiences of other countries, where Fund.150 The current estimation of contingent liabilities governments are covered by insurance products that focuses on state guaranteed debts of the state-owned help them manage unexpected spending needs. For entities (SOEs), and implicit liabilities in the form instance, in 2006 FONDEN (Mexico’s natural disaster of nonguaranteed liabilities of SOEs. This equates to fund) issued a $160 million catastrophe bond to 8.4 percent of GDP. The total explicit liabilities account transfer Mexico’s earthquake risk to the international for F$787.5 million, while implicit liabilities underpinned capital markets. Even though they are costly, these by various nonguaranteed SOE liabilities account for financial schemes are able to disburse funds rapidly— F$43.4 million. indeed, more rapidly than would be possible with Natural disasters in Fiji create significant additional public budgets. And by predefining payout rules for contingent liability for the government. Using the example allocating post-disaster support, formal insurance and of TC Winston, the direct contingent liabilities from natural financial products can reduce political economy biases, disasters is estimated to be F$280 million. This comprises preventing conflicts between interest groups and directly estimated explicit liabilities of F$198 million and capturing a large share of the post-disaster support.154 implicit liabilities of F$82 million. Approximately 69 percent of the budget reallocation was targeted at reconstruction of damaged public assets, followed by social protection at 28 percent. Based on the case of Winston, table 5.1 provides an estimate of the additional contingent liabilities due to 150. Fiji Government 2016a. tropical cyclones in Fiji, reaching F$1.4 billion and leading 151. Cardenas et al. 2007; Ghesquiere and Mahul 2010; to a 170 percent increase in total liabilities. Hochrainer-Stigler et al. 2014; Mahul and Ghesquiere 2007. 152. Clarke et al. 2016. 153. This report focuses on government tools and insurance options, rather than products for private assets and insurance market development. Preliminary studies into alternative private sector and home owner insurance products are underway in parallel with preparation of this report. 154. Ibid. 128 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT TABLE 5.1: Estimation of contingent liabilities of the Government of Fiji, including tropical cyclones EXPLICIT IMPLICIT TOTAL (F$ million) (F$ million) (F$ million) Current estimates of contingent liabilities, excluding natural disasters 780 43 821 Scenario analysis of contingent liabilities from TC Winston 140 1,216 1,356 SUM OF CURRENT AND PROBABILISTIC ESTIMATION 920 1,259 2,177 Source: World Bank team, based on tropical cyclone asset loss estimates from PCRAFI. Note: These estimates do not include flood losses that are not caused by tropical cyclones. • Regional risk-sharing facilities. The Pacific Catastrophe • Contingent credit: Catastrophe Deferred Drawdown Risk Assessment and Financing Initiative is a donor- Options (Cat DDO). A Cat DDO is a financing instrument supported regional mechanism that offers quick- that allows countries to access budget support in disbursing, index-based coverage against tropical the immediate aftermath of a disaster, provided that cyclones, earthquakes, and drought. For example, under a risk management strategy has been designed and the PCRAFI model, the Government of Fiji can purchase is implemented. A contingency loan can be rapidly protection against tropical cyclone events that have a disbursed if a state of emergency is declared, and model loss greater than approximately US$41 million. thus it can help governments finance the scaling up of The modeled loss from TC Winston was approximately social protection. The World Bank, the Inter-American US$156 million, which for a premium of US$1 million Development Bank, and the Japan International would have led to a payout of US$11–16 million to the Cooperation Agency have all offered such instruments. government. In response to TC Pam in March 2015, • International aid. International aid and humanitarian PCRAFI rapidly provided Vanuatu with US$1.9 million emergency measures can be critical when a country to support immediate post-disaster needs. Similarly, exceeds its capacity to cope with a disaster. Foreign following TC Ian in January 2014, Tonga received a aid includes essential in-kind support (including payout of almost $1.3 million. These payouts were emergency equipment such as water treatment limited compared with the total losses and stations, reconstruction material, equipment and reconstruction needs—estimated at US$184 million in machinery, and relief goods such as food, blankets, Vanuatu. However, in the case of Vanuatu it was still and clothes), as well as financial aid for social eight times the size of the annual emergency relief fund protection and reconstruction costs. held by the government and seven times higher than the annual insurance premium paid by the government. Foundations 129 BOX 5.1: An illustrative mix of instruments to manage contingent risk in Fiji Depending on the frequency and severity of risks to • Contingent line of credit. It is assumed that a contingent be managed, governments can combine (or layer) line of credit for F$60 million is used to finance financing instruments that address different needs and disaster costs once the reserve fund is exhausted. have different cost implications. Such an approach The contingent line of credit therefore finances prioritizes cheaper sources of funding, ensuring that losses from F$4 million to F$64 million. the most expensive instruments are used only in • Catastrophe insurance. It is assumed that the exceptional circumstances. For example, sovereign government purchases an insurance policy with an insurance may provide cost-effective cover against annual premium of F$2 million. This policy makes extreme events, but it may be inefficient and costly payouts to Fiji in the event of a modeled loss from a to protect against low-intensity and recurrent events. tropical cyclone that is greater than a 1-in-10-year event. For such events, a dedicated contingency fund that “retains” this lowest layer of risk may be a more The underlying losses used for this analysis reflect appropriate solution. PCRAFI modeled losses for the public sector and include Combining instruments also enables governments to only the losses due to tropical cyclones (flood losses that take into account the evolving needs for funds, from are not caused by tropical cyclones are not covered). The emergency response to long-term reconstruction. For losses exclude implicit contingent liabilities, for example example, a government could decide to purchase (ex the cost of rebuilding private dwellings after a disaster and ante) quick-disbursing risk transfer instruments such losses to the agricultural sector. The indicative reduction as parametric insurance to ensure immediate liquidity in the contingent liability from each instrument is given in in the aftermath of extreme events, but it will raise the figure B5.1.1. much larger sums required to finance reconstruction Such a strategy would save approximately F$2.2 million efforts through (ex post) budget reallocations, by per year, when compared with ex post financing tools such issuing bonds, and through recoveries from traditional as budget reallocation or ex post credit. The savings are indemnity insurance. explained by the higher cost of budget reallocation and ex The indicative analysis proposed here assumes post borrowing, compared to reserve funds and contingent the use of three financial instruments to manage credit. For TC Winston, the proposed strategy would have contingent liabilities related to disasters: (1) a reduced the amount of budget reallocation required by reserve fund, (2) a contingent line of credit, and approximately US$20 million. (3) catastrophe insurance. • Reserve fund. It is assumed that a reserve fund of F$4 million is established to meet post-disaster costs; this would mean increasing the existing contingency fund by F$3 million. In the event of a disaster greater than F$4 million, the reserve fund will be fully utilized and will therefore provide F$4 million toward the management of the contingent liability by enabling immediate access to the funds. 130 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 350 Unfu 300 Cat in Public Contingent Liability (F$ million) 250 Cont 200 Rese 150 100 50 0 Average 1 in 50 year 1 in 100 year TC Winston Probabilistic Analysis FIGURE B5.1.1: Reserve Fund Funding of government explicit contingent Contingent Credit liability (loss to public assets and infrastructure). Contingent liabilities can be managed with Catastrophe Insurance multiple financing instruments Unfunded Public Contingent Liability Source: World Bank team, based on tropical cyclone asset loss estimates from PCRAFI. Foundations 131 5.2.2. MEETING INFRASTRUCTURE INVESTMENT Dedicated tax resources are useful and will contribute NEEDS WILL REQUIRE PRIVATE SECTOR to achieving resilient and sustainable development in PARTICIPATION AND INCREASED Fiji, but they remain lower than identified needs. The INTERNATIONAL FINANCING 155 environmental levy created in 2015 was transformed into the To finance infrastructure needs and protect the population Environmental and Climate Adaptation Levy (ECAL) in 2017. against natural shocks, the government must increase It includes dedicated taxes on some goods such as luxury fiscal resources that can be dedicated to new expenditure. vehicles and plastic bags, and a 10 percent tax on incomes Resources available to the government are relatively high, above F$270,000 per year. These collections are being with tax revenue at about 23 percent of GDP, but the fiscal directed to a trust account and will later be channeled to deficit has increased to reach 4.5 percent of GDP in recent environment or adaptation programs in the budget. The total years. Public expenditure doubled between 2011 and 2015 collections from this levy in 2017–18 are projected at around to reach F$3.3 billion per year, or 35 percent of GDP. F$94 million, which could therefore contribute a significant Consistent with the National Development Plan, capital amount toward the cost of the resilience measures spending on infrastructure has increased sixfold. Spending highlighted in this report, but not meet the full needs. on education and health increased by 164 percent and The modernization of the legal and regulatory framework 148 percent, respectively. and financing instruments can encourage investment There is no immediate risk to debt sustainability, but public by the private sector. There have already been some debt increased to reach 46 percent of GDP in 2016, and achievements in involving the private sector in public fiscal adjustment will be necessary. The debt is mostly service delivery, but there is potential for further gains. The issued in domestic bonds, which reduces currency risk but existing public-private partnership framework could be makes borrowing relatively expensive. The FNPF remains improved to increase foreign investment, for instance with the main buyer, holding over 60 percent of the national debt. clearer guidelines for developing transparent public-private According to a fiscal sustainability analysis focusing on partnership projects. Promisingly, large private actors in the next five years, a continuation of current spending and the tourism sector have invested in coastal protection, growth trends would widen the deficit to 6.2 percent of GDP environmental conservation, and tourist education, with and increase government debt to 63.5 percent of GDP by the objective of reducing disaster losses and making the 2021. The government plans to keep debt below 50 percent tourism industry more sustainable.156 But it remains a of GDP and to expand domestic sources of funding, with a challenge to generalize such behaviors in other sectors and target domestic-to-external debt ratio of 70:30, which would in smaller businesses that have less access to information require a significant fiscal adjustment in the next decade. and financing. In this context, high spending needs in infrastructure and social services—as highlighted in the 20-year National Development Plan and in this report—will require increased participation by the private sector and could benefit from increased access to international finance and support from climate finance. Options include increased resource mobilization and higher taxes, reallocation of resources, and mobilization of private resources. 132 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT 5.2.3 CLIMATE FINANCE COULD As Fiji continues to revise its Nationally Determined SUPPORT FIJI’S ADAPTATION Contributions of the Paris Agreement, it will focus more AND RESILIENCE EFFORTS on the climate-resilient agenda based on the priority recommendations and interventions of this report. Fiji works with development partners to access climate Building on the approach already taken toward renewable funds, which are combined with development funds and energy and energy efficiency with the development of the its own resources. Between 2011 and 2014, Fiji accessed country’s energy road map, similar approaches could be US$41 million in concessional finance for climate resilience taken for other sectors (i.e., transport and water). Resilient and disaster risk management, including from the investments in programs and road maps could be integrated Adaptation Fund, the Global Facility for Disaster Reduction in Fiji’s NDCs. Given Fiji’s strong social protection system and Recovery (GFDRR), and bilateral sources (AusAid/ and community approach, the NDCs will also focus on DFAT and Japan). This on average is US$10 million community-level interventions that incorporate coastal and (F$20 million).157 With support from the Asian Development watershed management. Such road maps will help Fiji seek Bank, Fiji was among the first Pacific Island Countries funding and successfully combine international climate to successfully access a grant (of US$31 million) from finance with bilateral and multilateral partners, and bring the Green Climate Fund, which it combined with a in innovative financing through instruments such as Green US$190 million loan and its own budget. For the road Bonds. The ECAL will also form a source of cofinancing. sector, Fiji has accessed US$150 million from the Asian Development Bank and the World Bank and combined this funding with around US$17 million from its own resources. Clearly, given the increasing climate-related risks and limited internal budget, accessing and leveraging climate finance is critical to help meet Fiji’s development goals and address climate-related risks without increasing risk to debt sustainability. 155. This section is based on the World Bank (2017) Systematic Country Diagnostic for Fiji. 156. Becken 2005. 157. OECD and World Bank 2016. Foundations 133 6. CONCLUSIONS The Need for Global Action Photo: Alana Holmberg/World Bank. 134 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Fiji is addressing the ongoing risks that climate change poses to its development, but it also faces challenges to its economy, people, and budget. Fiji’s development goals are clearly at risk from the Current climate change is extremely rapid, which places impacts of climate change. The country is actively additional stress both on the capacity of ecosystems such addressing some of these risks—for example, through as coral reefs to adapt and on the lifespan of infrastructure. changing building standards for schools, bridges, and Immediate reductions in emissions would slow down roads. It has helped communities in highly exposed areas climate change and make it easier to adapt infrastructure voluntarily relocate to safer areas while respecting the and equipment as they are replaced. It would also make cultural and communal land tenure. By conducting the it possible for ecosystems to adapt naturally to different assessment included within this report, responding to its environmental conditions, reducing the need for large- findings, and responding to TC Winston, Fiji has shown scale investments to replace the ecosystem services that its commitment to risk-based spatial planning that moves the environment provides free of charge. All of this would key assets and people out of highly exposed area. These significantly reduce the cost of adaptation and the threat to efforts are already an added burden to Fiji’s economy the legitimate development objectives of the country. and its people. Fiji calls on the world to take drastic action to limit The increasing changes in climate will pose challenges for greenhouse gas emission while supporting action to Fiji’s development aspirations. With continued increases in enhance resilience. As a small island nation, Fiji has greenhouse gas emissions, the atmosphere and oceans difficulty managing the risks from the extreme weather warm, rainfall patterns change, the frequency of the most events that already impact the country all too regularly. intense tropical cyclones increases, and cyclone tracks With increasing risks to the people and economy of Fiji move to areas not affected by cyclones in the past—and due to climate change, finding the capacity to respond all these changes serve to increase the challenges to will only become more challenging. Fiji’s development. Fiji’s tourism industry, which is heavily reliant on coral reefs and coastal areas, is likely to be at risk of degradation and potentially loss from a combination of cyclones, ocean acidification, and a As the President of the COP23 and on warming ocean. The loss of these environmental assets will affect many people and the economy. The existence behalf of the small island nations, and of the atoll islands will be at risk from sea-level rise, storm building on the findings of this report, surges, and cyclones, with devastating effects on people, Fiji is asking the world for drastic their culture, and their livelihoods. action on climate change - building Immediate reduced global emission of greenhouse gases would facilitate the adaptation of Fiji’s economy. resilience through adaptation and The adaptation challenge increases with the speed and reducing greenhouse gas emissions so amplitude of climate change. The international community has committed to maintain the rise of global temperature that climate change does not impose well below 2 °C and to pursue efforts to limit this increase a limit to our development and the to 1.5 °C. These objectives need to be met in order to aspiration of our people to live on facilitate the adaptation of Fiji’s ecosystems, population, and economies—particularly for the poorest and most their own lands. vulnerable. Conclusions 135 APPENDIX 1 List of Priority Interventions to Strengthen Resilience Photo: Alana Holmberg/World Bank. 136 Climate Vulnerability Assessment Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention HOUSING / LAND USE Flood control planning for Nadi River. Short term 0.75 Ministry of Waterways Technical Planned Includes structural and nonstructural assistance flood control measures and Government of Fiji staff training on hydrology and streamflow measurements. Development of easy-to-use risk Short term 1.00 Ministry of Local Government, Technical New Seeks to inform policy makers, land use assessment tools focusing on local Housing and Environment assistance planners, businesses and landowners to level flood and landslide risks. influence location decisions. Flood Management Action Plans for Short term 2.00 Department of Local Technical New Includes structural and nonstructural Nadi and high-risk secondary towns Government; Ministry of assistance measures. of Ba, Labasa, Lami, Lavua, Pacific Infrastructure and Transport Harbor, Rakiraki, and Seaqaqa. Housing micro-finance (5-year Short term 2.00 Ministry of Economy; Ministry Technical New Carries out technical feasibility loans) to retrofit existing houses and of Local Government, Housing assistance assessments and design of a half construct new houses to approved and Environment mortgage system targeting middle-low designs and standards. income households. Preparation of Guided Strategic Short term 2.00 Department of Housing; Technical New Focuses on three metro areas and two Land Development Plans. Department of Town and assistance to three fast-growing secondary towns. Country Planning Preparation or update of Guided Short term 2.50 Department of Town and Technical New Includes urban growth analyzes; annual Urban Growth Management Plans Country Planning assistance business surveys; assessment of vacant for three main conurbations. lands and administrative barriers to ease access to land. Rehabilitation of roads and bridges Short term 15.00 Ministry of Infrastructure Investment Planned Carries out post–TC Winston in Nadi town. and Transport rehabilitation; Phase 1 of a long-term flood management program. Appendix 1 137 138 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention HOUSING / LAND USE Providing affordable serviced land Short term 30.00 Department of Housing; Investment New Seeks to streamline administrative close to employment nodes to middle- Department of Local procedures for planning and land Climate Vulnerability Assessment and low-income earners to meet Government subdivision approvals; strategic existing housing backlog and future investments in transport, water, sewage urban growth. collection and treatment; and power routes. Informal settlement upgrades. Short term 47.40 Department of Housing Investment Planned Includes participatory slum upgrading, citywide and townwide informal settlement upgrades, and resilient informal settlement upgrading programs. Priority Flood Risk Management Action Medium 20.00 City and Town Councils; Investment New Focuses on secondary towns of Ba, Plan for high-risk towns. term Ministry of Infrastructure and Labasa, Lami, Lavua, Pacific Harbor, Transport Rakiraki, and Seaqaqa. Scale-up of informal settlement Medium 30.00 Department of Housing Investment New Implements eco-based and semi- upgrades. term structural protection measures where feasible. Priority Flood Risk Management Action Medium 40.00 Ministry of Infrastructure and Investment New Plan for Nadi town (Phase 2). term Transport Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention HAZARD MANAGEMENT Investment in drone technology to Short term 0.10 National Disaster Management Investment New assist with post-disaster assessments. Office; Fiji Electricity Authority; Fiji Roads Authority Hazard mapping: climate change Short term 6.50 Department of Housing; Technical New Seeks to inform rural poverty reduction vulnerability assessments focusing on Department of Environment; assistance strategies and livelihood strategies. site-specific flood risks and drought, Department of Lands; Fiji Includes assessments to inform flood modeling, coastal hazard risk Roads Authority participatory slum upgrading, citywide assessments, and landslide risk and townwide informal settlement assessments. upgrading, and resilient informal settlement upgrading programs. National high-resolution survey. Short term 2.00 Department of Lands Technical New Includes LiDAR (topography and assistance bathymetry) surveys. Resilient backup generation for critical Short term 20.00 Fiji Electricity Authority; Investment New facilities/evacuation centers. Department of Energy; users River Protection Phase I-a. Short term 100.00 Ministry of Waterways Investment New River Protection Phase I-b. Short term 140.00 Ministry of Waterways Investment New Coastal Protection Phase I-a. Short term 200.00 Ministry of Waterways Investment New Coastal Protection Phase I-b. Short term 400.00 Ministry of Waterways Investment New River Protection Phase II Medium 240.00 Ministry of Waterways Investment New term Coastal Protection Phase II Medium 1,000.00 Ministry of Waterways Investment New term Appendix 1 139 140 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention TRANSPORT Training and capacity building for Fiji Short term 0.06 Fiji Meteorological Services; Fiji Technical New Develops current and predicted Meteorological Services. Roads Authority assistance intensity-duration-frequency (IDF) Climate Vulnerability Assessment curves for different rainfall areas. Assessment of the impact of Short term 0.24 Fiji Roads Authority Technical New Looks at impact associated with heavy overloaded trucks on sealed road assistance haulage movements for sugar cane, ore, pavements. logging, aggregate. Development of Fiji Roads Authority Short term 0.48 Fiji Roads Authority Policy New Integrated Asset Management System and Strategy. Institutional strengthening and Short term 0.96 Fiji Roads Authority Technical New Incorporates risk, climate change capacity building for an integrated assistance adaptation, and vulnerability transport strategic planning considerations. framework. Assessments of prioritization for Short term 1.44 Fiji Roads Authority Technical New development of jetties or landings and assistance supporting road infrastructure on outer islands. Condition inspection of Fiji Roads Short term 1.53 Fiji Roads Authority Technical Planned Includes roads, bridges, crossings, and Authority assets. assistance jetties/landings. Replaces assets and updates the Asset Management System. Traffic counting program on sealed Short term 2.50 Fiji Roads Authority Policy Planned Prioritizes maintenance and capital and unsealed roads. works. Highest priority jetty replacement and Short term 15.30 Fiji Roads Authority Technical Planned upgrade - Phase I. assistance Highest priority water crossing Short term 71.20 Fiji Roads Authority Technical New Includes bridges/crossings/culverts/ renewal and replacement - Phase I. assistance footbridges. Highest priority road renewal and Short term 104.80 Fiji Roads Authority Technical New replacement - Phase I. assistance Jetty replacement and upgrade Short term 127.50 Fiji Roads Authority Investment Planned works package - Phase I. Road renewal and replacement Short term 1,048.00 Fiji Roads Authority Investment Planned Includes upgrades to 450 km of sealed works package - Phase I. and 1425 km of unsealed roads. Highest priority road renewal and Medium 104.80 Fiji Roads Authority Technical New replacement works - Phase II. term assistance Road renewal and replacement Short term 262.00 Fiji Roads Authority Investment New Includes upgrades to 450 km sealed works package - Phase I and 1,425 km unsealed roads. (climate upgrade portion). Highest priority water crossing Short term 356.00 Fiji Roads Authority Investment Planned Includes bridges/crossings/culverts/ works package - Phase I. footbridges. Highest priority water crossings Short term 356.00 Fiji Roads Authority Investment New Includes bridges/crossings/culverts/ works package - Phase I footbridges. (climate upgrade portion). Highest priority Jetty replacement and Medium 15.30 Fiji Roads Authority Technical Planned upgrade - Phase II. term assistance Highest priority water crossing renewal Medium 71.20 Fiji Roads Authority Technical New Includes bridges/crossings/culverts/ and replacement works - Phase II. term assistance footbridges. Appendix 1 141 142 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention TRANSPORT Jetty replacement and upgrade works Medium 127.50 Fiji Roads Authority Investment Planned package - Phase II. term Climate Vulnerability Assessment Road renewal and replacement works Medium 262.00 Fiji Roads Authority Investment New Includes upgrades to 450 km of sealed package- Phase II (climate upgrade term and 1,425 km of unsealed roads. portion). Highest priority water crossings works Medium 356.00 Fiji Roads Authority Investment Planned Includes bridges/crossings/culverts/ package - Phase II. term footbridges. Highest priority water crossings works Medium 356.00 Fiji Roads Authority Investment New Includes bridges/crossings/culverts/ package - Phase II (climate upgrade term footbridges. portion). Road renewal and replacement works Medium 1,048.00 Fiji Roads Authority Investment Planned Includes upgrades to 450 km of sealed package(s) Phase II. term and 1,425 km of unsealed roads. Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention WATER Endorsement of the draft National Short term 1.0 Ministry of Infrastructure and Policy Planned Water Supply and Wastewater Policy. Transport Revised design and appraisal Short term 1.0 Ministry of Infrastructure and Policy Planned guidelines. Transport Revision of ongoing master plans. Short term 1.0 Water Authority of Fiji Technical Planned assistance Introduction of water tariffs for water Short term 1.0 Ministry of Economy Policy New conservation. Awareness campaigns and incentives Short term 1.0 Water Authority of Fiji; Ministry Technical New for water conservation. of Infrastructure and Transport assistance Formulation and adoption of national Short term 1.0 Ministry of Infrastructure and Policy New WASH resilience standards indicators. Transport Inclusion of climate change Short term 1.0 Ministry of Infrastructure and Policy New adaptation–related indicators to the Transport WSWP indicators and national WASH indicators. Improved water asset management. Short term 2.0 Water Authority of Fiji Policy Planned Investment in backup pumps and Short term 2.00 Water Authority of Fiji Investment New critical spares. Elaboration of Drought Management Short term 2.0 Water Authority of Fiji; Ministry Technical New Plans. of Infrastructure and Transport assistance Finalization of power generator backup Short term 5.00 Water Authority of Fiji Investment Planned Appendix 1 capacity upgrade. 143 144 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention WATER Drinking Water Safety and Security Short term 5.0 Ministry of Infrastructure Technical New Planning for rural communities. and Transport; Ministry of assistance Climate Vulnerability Assessment Agriculture; NGOs Awareness campaigns encouraging Short term 5.0 Ministry of Infrastructure and Technical New investment in rainwater harvesting, Transport assistance review of building codes and financial incentives. Improved monitoring of water Short term 10 Water Authority of Fiji; Ministry Technical Planned resources. of Works, Transport & Public assistance Utilities; Ministry of Lands and Mineral Resources; Fiji Meteorological Services Revision of wind-proofing design Short term 10.00 Water Authority of Fiji Investment New standards and retrofitting of existing infrastructure. Investments in mobile water Short term 25.00 Water Authority of Fiji Investment New desalination plants. Landslide protection measures. Short term 40.00 Water Authority of Fiji; Investment New Not yet formally planned. Ministry of Lands and Mineral Resources Infrastructure retrofitting. Short term 300.00 Water Authority of Fiji Investment New Not yet formally planned. Supporting integrated catchment Medium 2.0 Ministry of Infrastructure Policy New management. term and Transport; Ministry of Agriculture; Fiji Electricity Authority; Ministry of Fisheries and Forest; Water Authority of Fiji Development of freshwater allocation Medium 2.0 Ministry of Infrastructure and Policy New mechanisms between sectors. term Transport; Ministry of Works, Transport & Public Utilities; Ministry of Agriculture; Fiji Electricity Authority; Water Authority of Fiji Relining of sewers and treatment Medium 5.00 Water Authority of Fiji Investment Planned ponds in coastal areas. term Strengthening rural and peri-urban Medium 10 Ministry of Infrastructure and Technical Planned water scheme monitoring mechanisms, term Transport; NGOs assistance awareness campaigns, and technical assistance Reduction of physical water losses. Medium 50.00 Water Authority of Fiji Investment Planned term Water re-use (agriculture, industry, Medium 50.00 Water Authority of Fiji Investment New landscaping) term Extension of sewerage systems in Medium 200.00 Water Authority of Fiji Investment Planned flood-prone areas. term Diversification of water sources. Medium 400.00 Water Authority of Fiji; Investment Planned Seeks to diversify sources for vulnerable term Ministry of Lands and Mineral systems. Studies are ongoing, but no Resources; Ministry of Works, formal planning of investments yet. Transport & Public Utilities Appendix 1 145 146 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention ENERGY Review of design and technical Short term 0.2 Department of Energy Policy New Includes distributed generation such as standards, and installation of solar home systems. Climate Vulnerability Assessment generation assets. Enhancement of insurance protection Short term 0.2 Ministry of Education, Heritage Policy New Included as part of the broader Disaster of key energy assets. and Arts; Fiji Electricity Risk Financing Strategy of government. Authority; Department of Energy Assessment of battery storage options Short term 0.2 Fiji Electricity Authority; Policy New for grid stability. Department of Energy Options for increasing energy Short term 0.2 Fiji Electricity Authority Policy New Investigates the benefits of demand- resilience. side management options and strategies for building a resilient power system. Energy Sector Resilience Strategy. Short term 1.0 Fiji Electricity Authority; Policy New Assesses the costs and benefits of key Department of Energy measures for improving the resilience of the power system and sourcing of concessional funds to meet the financial viability gap. Improving resilience of rural mini-grids Short term 4.00 Department of Energy Investment New and solar home systems. Expansion of solar generation. Short term 79.20 Fiji Electricity Authority Investment New Includes additional generation in Northwest Viti Levu and distributed generation in Vanua Levu, including 5x 5 MW solar plants with storage in Viti Levu (Sigatoka, Lautoka, Tavua, Ba, Nadi) and 5 MW solar in Vanua Levu. Expansion of undergrounding of Short term 90.00 Fiji Electricity Authority Investment New Targets Suva, Nadi, Lautoka, Ba, Labasa, distribution lines. and Savusavu; assumes 200 km of existing overhead infrastructure in these locations. Expansion of the 132 kV transmission Short term 241.00 Fiji Electricity Authority Investment Planned Includes Wailoa-Nadarivatu double network. circuiting, Nadarivatu to Sigatoka, Virara to Koronubu, Ba and Wailoa to Central Region Circuit 2. Increasing the resiliency of the power Medium 0.2 Fiji Electricity Authority Policy New Investigates more diversified and system. term distributed generation options, including mini-grids. Diversification of renewable energy Medium 30.00 Fiji Electricity Authority Investment Planned Includes investment in solar generation generation. term and feasibility studies for new biomass power plants. Appendix 1 147 148 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention HEALTH / EDUCATION Repair and reconstruction of school Short term 0.0 Construction Implementation Investment Planned Currently in progress, completion and health infrastructure affected by Unit targeted for end of 2018. Climate Vulnerability Assessment TC Winston. Development of prioritization Short term 0.3 Ministry of Education, Heritage Policy New guidelines for planning asset and Arts; Ministry of Health maintenance and facility upgrades. and Medical Services; Ministry of Infrastructure and Transport Provide funding and support to the Fiji Short / 0.3 Ministry of Economy; Fiji Technical New Supports the ongoing contribution Institution of Engineers and Master medium Institution of Engineers; Master assistance of technical peak bodies to the Builders Association. term Builders Association construction sector. Review and update standard school Short term 0.5 Construction Implementation Technical New Develops consistent, best value, and and health building designs. Unit; Ministry of Infrastructure assistance compliant designs. and Transport; Ministry of Education, Heritage and Arts; Ministry of Health and Medical Services; private sector Build capacity and capability of Short term 0.5 Ministry of Health and Technical New the Ministry of Health and Medical Medical Services; Ministry of assistance Services to manage health Infrastructure and Transport infrastructure assets. Planning and management strategies Short term 0.8 National Disaster Management Policy Planned Introduces a clear system for the for school buildings used as Office; Ministry of Education, assessment, labeling, and signage evacuation centers. Heritage and Arts of evacuation centers; produces community disaster risk management plans. Support of the climate change and Short / 0.8 Ministry of Health and Medical Technical Planned disaster management units within medium / Services; Ministry of Education, assistance Ministry of Health and Medical long term Heritage and Arts Services and Ministry of Education, Heritage and Arts. Detailed condition survey of all health Short term 2.0 Construction Implementation Technical New Inputs data into the national buildings and education infrastructure assets. Unit; Ministry of Infrastructure assistance infrastructure asset management and Transport; Ministry of database. Education, Heritage and Arts; Ministry of Health and Medical Services Development of a national Short term 2.0 Construction Implementation Technical Planned Collates information relating to all infrastructure asset management Unit; Ministry of Infrastructure assistance education and health infrastructure database. and Transport; Ministry of assets. Education, Heritage and Arts; Ministry of Health and Medical Services Update of the Fiji National Building Short / 1.5 Ministry of Infrastructure and Policy Planned Seeks to align code with international Code. medium Transport; Ministry of Industry standards and current understanding of term Trade and Tourism hazards. Development of hazard maps and Short term 2.0 Ministry of Land and Mineral Policy New Focuses on the impacts of storm planning guidelines to inform location Resources; Ministry of surges, flooding, and landslides. planning for new infrastructure. Infrastructure and Transport Support for ongoing development, Short term 2.5 Ministry of Education, Heritage Technical New provision and promotion of TVET and Arts; Ministry of Industry assistance training for construction trades. Trade and Tourism Appendix 1 149 150 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention HEALTH / EDUCATION Progressive structural upgrading of all Short term 300.00 Construction and Investment New Carries out scope works based on remaining schools and health facilities Implementation Unit; Ministry findings from the detailed condition Climate Vulnerability Assessment not affected by TC Winston - Phase I. of Infrastructure and Transport; survey. Ministry of Education, Heritage and Arts; Ministry of Industry Trade and Tourism Development of a retrofitting guideline Medium 0.5 Construction Implementation Technical New Strengthens the capacity of school for existing structures. term Unit; Ministry of Infrastructure assistance communities to upgrade and maintain and Transport; Ministry of existing facilities. Industry Trade and Tourism Progressive structural upgrading of all Medium 260.00 Construction and Investment New Carries out scope works based on remaining schools and health facilities term Implementation Unit; Ministry findings from the detailed condition not affected by TC Winston - Phase II. of Infrastructure and Transport; survey. Ministry of Education, Heritage and Arts; Ministry of Industry Trade and Tourism Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention ENVIRONMENT Community level investments for Short term 30.00 Ministry of Agriculture, Rural Investment Planned Uses ecosystem approaches and small improved ecosystem resilience.– and Maritime Development and coastal protection infrastructures for Phase I. National Disaster Management improved resilience of land and coastal environments (including fisheries and coral reefs). Waste minimization. Medium 4.50 Department of Environment Investment Planned Includes recycling of reusable material, term green waste, and concrete. Strengthening and enforcement of Medium 5.0 Department of Environment Policy New planning and environmental legislative term and institutional frameworks. Strengthened monitoring of Medium 5.0 Department of Environment Technical New Establishes a government-wide ecosystems. term assistance database to inform improved management of forests, coral reefs, and mangroves. Strengthened management of Medium 12.00 Department of Environment Investment New Invests in protected coral reefs, ecosystems. term mangroves, and native forest reserves/ national parks. Community level investments for Medium 20.00 Ministry of Agriculture, Rural Investment Planned Uses ecosystem approaches and small improved ecosystem resilience term and Maritime Development and coastal protection infrastructures for - Phase II. National Disaster Management improved resilience of land and coastal environments (including fisheries and coral reefs). Appendix 1 151 152 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention AGRICULTURE Climate change assessments in the Short term 0.5 Ministry of Agriculture; Technical Planned agriculture sector. research partners assistance Climate Vulnerability Assessment Strengthening of disaster preparedness Short term 0.5 Ministry of Agriculture; National Technical New and rehabilitation efforts. Disaster Management Office assistance Feasibility study for a flood mitigation Short term 1.0 Ministry of Agriculture; Ministry Technical New Includes water retention infrastructure pilot scheme for the Sigatoka Valley. of Waterways assistance for irrigation to boost productivity. Taro leaf blight–resistant breeding Medium 1.0 Ministry of Agriculture; Technical New program. term research partners assistance Climate-smart agricultural practices. Medium 2.0 Ministry of Agriculture; farmer Technical Planned Trains farmers on improved soil health, term organizations assistance integrated pest management, irrigation systems, protective cropping, and agro- forestry. Crop insurance scheme. Medium 2.0 Ministry of Agriculture; private Investment Planned Builds on the existing pilot by the term sector government and Food and Agriculture Organization (FAO). Sustainable agricultural practices. Medium 2.0 Ministry of Agriculture; Investment Planned Researches local feed options and term research partners supports farmers in growing and processing their own feed. Livestock research. Medium 2.0 Ministry of Agriculture; Investment Planned Researches livestock breeds that are term research partners more resilient to high temperatures and water stress and seeks to expand the genetic diversity of the local herds accordingly. Research and investment in crop Medium 2.0 Ministry of Agriculture; Investment Planned Focuses on climate-resilient root crops, diversification. term research partners including strengthening of seed supply systems. Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention FISHERIES Training on sustainable fishing Short term 0.7 Ministry of Fisheries; Technical Planned practices. development partners; NGOs assistance Strengthening of community-based Short term 0.7 Ministry of Fisheries; Policy Planned fisheries management. development partners; NGOs Training of fishing communities on Short term 1.3 Ministry of Fisheries; Technical New Addresses when to remove gear disaster response. development partners; NGOs assistance from the sea, how to store boats and equipment securely, etc. Extension of early warning systems for Short term 5.00 National Disaster Management Investment Planned fishing households, including remote Office communities. Small-scale fisheries and aquaculture Medium 3.00 Ministry of Fisheries; private Investment New activities insurance scheme. term sector Promotion of alternative income- Medium 10.00 Ministry of Fisheries; Ministry Investment New sources not dependent on fisheries. term of Agriculture, Rural and Maritime Development and National Disaster Management; development partners; NGOs Appendix 1 153 154 Intervention Time Cost Responsible agency Type of Status Comments description frame (million inter- F$) vention SOCIAL PROTECTION Updating core social protection Short Term 0.05 World Bank; World Food Technical Planned Including the Poverty Benefit Scheme databases with pending beneficiary Programme Assistance (PBS), Social Pension Scheme (SPS), Climate Vulnerability Assessment caseloads. and Care and Protection Scheme (CPS). Expansion in coverage of Short Term 46.90 Ministry of Women, Children Investment Planned To cater towards the increase of social protection programs. and Poverty Alleviation beneficiary’s post TC Winston. Upgrade and centralize the Short Term N/A Department of Information Technical Planned Poverty Benefit Scheme Database. Technology and Computing Assistance Services Develop Standard Operating Short Term TBC Ministry of Women, Children Policy Planned Procedures and guidelines for and Poverty Alleviation responding to disasters using social protection programs. Exploring contingency financing Medium TBC Ministry of Economy Investment New options for scaling-up social Term protection programs in response to natural hazards. Promotion of alternative Medium 10.00 Ministry of Fisheries; Ministry Investment New income-sources not dependent term of Agriculture, Rural and on fisheries. Maritime Development and National Disaster Management; development partners; NGOs Photo: Alana Holmberg/World Bank. Appendix 1 155 APPENDIX 2 List of Contributors Photo: Fijian Government 156 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT GOVERNMENT OF FIJI ELECTRICITY REPRESENTATIVES BY SECTOR Hasmukh Patel (FEA), Karunesh Rao (FEA), Jitendra Kumar (FEA), Epeli Malo (FEA), Krishneel Prasad (FEA), Eparama AGRICULTURE Tawake (FEA), Paula Katirewa (DoE), Deepak Chand (DoE) Jitendra Singh, Vatimi Rayulu (Ministry of Agriculture [MoA]), Pauliasi Tuilau (MoA), Jone Sovalawa (MoA), Paula ENVIRONMENT Tuione (MoA), Tomasi Tunabuna (MoA), Akuila Nacoke Sandeep Singh (Ministry of Local Government, Housing, (MoA), Sanjay Kumar (Ministry of Sugar), Prem Naidu (Sugar and Environment [MoLGHE]), Sarah Tawaka (MoLGHE) Research Institute of Fiji) GENDER FISHERIES Josefa Koroivueta (MWCPA) Samuela Lagataki (Ministry of Fisheries and Forest [MoFF]), Shalendra Singh (MoFF), Leilani Kotobalavu (MoFF), Meli HUMAN SETTLEMENT/LAND USE PLANNING Raicebe (MoFF) Joshua Wycliffe (MoLGHE), Azam Khan (MoLGHE), Kolinio Bola (MoLGHE), Losana Rokotuibau (MoLGHE), Vula Shaw DISASTER RISK MANAGEMENT (MoLGHE), Mere Rayawa (MoLGHE), Anuragh Narayan Sunia Ratulevu (NDMO), Meleti Bainimarama (Ministry of (MoLGHE), Kaliova Tunabuna (MoLGHE), Litia Kurisaqila- Rural and Maritime Development and National Disaster Mate (MoLGHE), Kelera Nokelevu (FBoS) Management), Ravindra Kumar (FMS), Misa Funaki (FMS), Viliame Vereivalu (FMS), Malakai Finau (Ministry of Lands POVERTY AND SOCIAL PROTECTION and Mineral Resources [MLMR]), Akata Takala (MLMR), Lorosio Raikivi (MLMR), Lia Tuivuya (MLMR), Timaleti Josefa Koroivueta (MWCPA), Rupeni Fatiaki (MWCPA), Naikaso (MLMR), Nicholas Narayan (MLMR), Raijeli Taga Saleshni Naidu (MWCPA) (MLMR), Sefanaia Seru (MLMR), Sakaraia Vunisa (MLMR) TRANSPORT ECONOMIC ASSESSMENT, STATISTICS, Conway Pene (FRA), Brian Keller (FRA), Faranisese AND COORDINATION Kinivuwai (MoIT), Susana Pulini (MoIT), Lesi Vuatalevu Nilesh Prakash (MoE), Vineil Narayan (MoE), Alisi Vosalevu (MoIT), Lui Naisara (MoIT), Vinit Lal (MoIT), Eliki (MoE), Mesake Semainaliwa (MoE), Waisea Vosa (MoE), Waqavakatoga (Land Transport Authority [LTA]), Mosese Teresia Powell (MoE), Danny Southcombe (MoE), Alipate Lasaro (LTA), Isei Tudreu (Airports Fiji Limited) Kanasalusalu (Fiji Bureau of Statistics [FBoS]), Litia Mate (FBoS), Epeli Waqavonovono (FBoS) WATER AND SANITATION Opetaia Ravai (WAF), Taitusi Vakadravuyaca (WAF), Seru EDUCATION AND HEALTH Soderberg (WAF), Joshua Wainiqolo (WAF), Sharviut Chanol Iowane Tiko (MoEHA), Eric Rafai (MoHMS), Shah (WAF), Sonam Lata (WAF) Mohammed (MoE), Atalifo Anise (MoE), Ami Prasad (MoHMS), Vimal Deo (MoHMS), Roneel Sukhu (MoHMS), Serupepeli Udre (MoEHA), Manoa Senikarawa (MoEHA), Rapuama Corerega (MoEHA), Sanivalati Nabogikoto (MoEHA), Inoke Raikoso (MoEHA), Joel Israel (MoIT) Appendix 2 157 WORLD BANK TEAM DEVELOPMENT PARTNERS, NGOS, Xavier Alegre (WB), Jodse Antolinex (Consultant, AND OTHER STAKEHOLDERS Universidad de Cantabria), Katherine Baker (Consultant, Craig Arthur (Geoscience Australia), Zoya Begum WB), Hamish Banks (ARUP), Timothy Bouley (WB), Laura (Vodafone), Ian Bertram (SPC), Sharon Bhagwan Rolls Cagigal (Consultant, Universidad de Cantabria), Samantha (femLINKpacific), Ray Bojczuk (DFAT), Simon Cole (FCLC), Cook (WB), Richard Croad (Consultant, WB), Stephane Taniela Faletau (ADB), Bob Gillett (Gillett, Preston and Dahan (WB), Deltares (Consultancy), Yan Deng (Consultant, Associates), Tsuguyoshi Hada (Japan), Takuji Hantani WB), Jesse Doyle (WB), Simone Esler (WB), Saia Faletau (Japan), Rina Kurumisawa (JICA), Masi Latianara (Habitat (WB), Stuart Fraser (Consultant, WB), Habiba Gitay (WB), for Humanity), Osnat Lubrani (UNDP), Marita Manley Colleen Gollach (Consultant, WB), Ivan Haigh (Consultant, (SPC), Andrew McGregor (Koko Siga Pacific), Filipe University of Southampton), Nathan Hale (WB), Stephane Nainoca (Fiji Red Cross), Avishek Narayan (EU), Marc Hallegatte (WB), Hamza Haloui (Consultant, WB), Keelye Overmars (UNICEF), Michael Parker (Coordination Unit for Rinchen Hanmer (Consultant, WB), Virginia Horscroft (WB), the EU-funded AMSP), Vijay Raghwan (Master Builders Andrew Hurley (WB), Oleksiy Ivaschenko (WB), Denis Association), Mark Ramsden (MFAT), Peni Saurara (Japan), Jordy (WB), Kamleshwar Khelawan (WB), John Lowsby Ikeda Shunichiro (JICA), Dean Solofa (SPC), Tu Tangi (Consultant, WB), Barry Maher (WB), Olivier Mahul (WB), (NZMFAT), Mary Taylor (SPC), Cheryl Thomas (SPC), Aisha Mansur (Consultant, WB), Jessie McComb (IFC), Margaret Twomey (DFAT), Hanna Uusimaa (ADB), Christoph Lasse Melgaard (WB), Fernando Mendez (Consultant, Wagner (EU), Richard Warren (DFAT), Stephanie Werner Universidad de Cantabria), Brenna Moore (WB), Kara (DFAT), Genta Yamada (Japan), Warren Yee (Fiji Institute Mouyis (WB), Robert Nicholls (Consultant, University of Engineers). of Southampton), Philip O’Keefe (WB), Tom Perry (WB), Kashif Rashid (Consultant, WB), Cindy Robles (WB), Julie Rozenberg (WB), Ana Rueda 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Executive Summary 165 GLOSSARY Photo: Fijian Government 166 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT ASTRONOMICAL TIDE FINANCIAL INCLUSION The tidal levels and behavior that would result from A situation in which individuals and businesses have access gravitational effects, e.g., of the earth, sun, and moon, to useful and affordable financial products and services without any atmospheric influences. that meet their needs (i.e., payments, savings, credit, and insurance) delivered in a responsible and sustainable way. CATASTROPHE INSURANCE Insurance that protects governments, businesses, FISCAL SPACE and residences against natural hazards. The flexibility of a government in its spending choices—i.e., the budgetary room that allows a government to provide resources for public purposes without undermining fiscal COASTAL FLOODS sustainability. Flooding that occurs when normally dry land is inundated with seawater. FLUVIAL FLOODS Floods that occur when rivers burst their banks CONSUMPTION as a result of sustained or intense rainfall. The amount of goods and services that people buy, self-produce, or extract from their environment. GROSS DOMESTIC PRODUCT The total value of goods produced and services CRITICALITY ANALYSIS provided in a country during one year. Identification of the most important components of a network (e.g., road, energy, communication). These components are those that create the most disruption if LIDAR damaged or interrupted, and therefore should be protected A remote sensing method that uses light in the form and strengthened in priority. of a pulsed laser to measure ranges (variable distances) to the earth. DISASTER A significant disruption to the functioning of a community LITTORALIZATION that typically occurs over a relatively short period of time. The tendency for concentrations of development Disasters can result in human, material, economic, or and urbanization along coastlines to increase. environmental loss and impacts, which may exceed the ability of the affected community or society to cope using NATURAL HAZARD its own resources. Naturally occurring physical phenomena that can be geophysical (earthquakes, volcanic activity, landslides, EX ANTE and tsunamis), climatological (extreme temperatures, Refers to future events; based on forecasts, rather drought, and wildfires), hydrological (floods), than results. meteorological (cyclones, storms, and storm surges), or biological (disease epidemics). EX POST After the fact; based on actual results, rather than forecasts. Glossary 167 NATURE-BASED SOLUTIONS Measures that protect, sustainably manage, and restore natural or modified ecosystems to provide human well-being and biodiversity benefits while responding to societal or infrastructure challenges. NEAR-POOR Those who live marginally above the poverty line. PLUVIAL FLOODS Floods that occur when heavy precipitation saturates drainage systems. POVERTY LINE The minimum level of income deemed adequate in a particular country. OCEAN ACIDIFICATION The ongoing decrease in the pH of the earth’s oceans, caused by the uptake of carbon dioxide from the atmosphere. TSUNAMI RUNUP The large amount of water that a tsunami pushes onto the shore above the regular sea level. VECTOR-BORNE DISEASE Infection transmitted by the bite of infected arthropod species, such as mosquitoes, ticks, triatomine bugs, or sandflies. WAVE SETUP The increase in mean water level due to the presence of breaking waves. 168 Climate Vulnerability Assessment MAKING FIJI CLIMATE RESILIENT Photo: Fijian Government Attribution - Please cite the work as follows: Government of Fiji, World Bank, and Global Facility for Disaster Reduction and Recovery. 2017. “Fiji 2017: Climate Vulnerability Assessment - Making Fiji Climate Resilient.” World Bank, Washington, DC, http://www.ourhomeourpeople.com. Executive Summary 169 COP23 VERSION (OCTOBER 2017) “Climate Vulnerability Assessment - Making Fiji Climate Resilient” can be viewed at: www.ourhomeourpeople.com