68358 v2 SUMMARY Climate Change, Disaster Risk, and the Urban Poor Cities Building Resilience for a Changing World SUMMARY Climate Change, Disaster Risk, and the Urban Poor SUMMARY Climate Change, Disaster Risk, and the Urban Poor Cities Building Resilience for a Changing World June 2011 © 2011 The International Bank for Reconstruction and Development/The World Bank 1818 H Street, NW Washington, DC 20433 Telephone: 202-473-1000 Internet: www.worldbank.org All rights reserved First printing June 2011 This volume is a product of the staff of the International Bank for Reconstruction and Development/The World Bank. The findings, interpretations, and conclusions expressed in this paper do not necessarily reflect the views of the Executive Directors of The World Bank or the governments they represent. The World Bank does not guarantee the accuracy of the data included in this work. The boundaries, colors, denominations, and other information shown on any map in this work do not imply any judgement on the part of The World Bank concerning the legal status of any territory or the endorsement or acceptance of such boundaries. Contents Acknowledgments. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Vulnerable Cities: Assessing Climate Change and Disaster Risk in Urban Centers of the Developing World. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 The Vulnerability of the Urban Poor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Building Resilience for the Urban Poor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Assessing risk at the city and community level to inform decision making. . . . . . . . . . 11 Integrating climate change and disaster risk reduction policies for the poor into urban planning and management. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Strengthening institutional capacity to deliver basic services and reduce vulnerability to climate and disaster risk . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Bridging communities and local governments to work together on local solutions . . . 20 Opening new finance opportunities for cities to finance basic services and other needs to address climate change adaptation and disaster risk reduction. . . . . . . . . . 21 Endnotes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Tables 1 Incremental Impacts of Climate Change and Natural Hazards on Urban Systems and Residents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2a Summary of Main Findings of City Level Risk Assessments: Dar es Salaam and Jakarta. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 2b Summary of Main Findings of City Level Risk Assessments: Mexico City and São Paulo. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 v vi Climate Change, Disaster Risk, and the Urban Poor 3 Consequences of Risk Reduction Policies in Urban Areas . . . . . . . . . . . . . . . . . . . . . 14 4 Capacity Programs Aimed at Knowledge Sharing, Education, and Training for Urban Resilience. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Acknowledgments This study was prepared by a team led by Judy L. Baker, Lead Economist, World Bank. Key contributions to the overall study and case studies were provided by Christa Anderson and Catalina Ochoa. Background papers were prepared by Anthony Bigio and Stephane Hallegatte (Planning, Policy, Synergies and Tradeoffs for Urban Risk Management, Climate Change Adaptation and Poverty Reduction); JoAnne Carmin, Sabrina McCormick, Sai Balakrishnan, and Eric Chu (Institutions and Governance in a Changing Climate: Implications for Service Provision for the Urban Poor); Soumya Dharmavaram (Courting Hazards: Where the Urban Poor Live); Ari Huhtala, Daniel Hoornweg and Marcus Lee (Climate Finance for Cities ), Kristina Katich (Beyond Assessment: A Review of Global Best Practices Addressing Climate Change and Disaster Risk Management for the Urban Poor, and The Impacts of Climate Change and Disaster on Urban Services), David Satterthwaite (How Local Governments Can Work with Communities in the Delivery of Basic Services). Background research was carried out by Aafrin Kidwai and Austin Kilroy. The study was part of the work program of the Mayor’s Task Force on Climate Change, Disaster Risk and Urban Poverty comprised of the Mayors of Dar es Salaam, Jakarta, Mexico City and São Paulo and Mayor David Miller, former Mayor of Toronto and former Head of C-40. The preparation of city level case studies for Dar es Salaam, Jakarta, Mexico City and São Paulo were carried out as part of the work program with teams led by each city government. From the World Bank, these studies were led by Eric Dickson (Mexico City) with Gisela Campillo, Marcus Lee and Peter Ellis (Jakarta), Federica Ranghieri and Andre Herzog (São Paulo and Dar es Salaam). Each of the case studies has resulted in an indi- vidual report which acknowledges the extensive teams involved in their preparation. We are grateful for the considerable financial support and insight provided by WBICC to the Mayors’ Task Force work. Peer Reviewers include Margaret Arnold, Uwe Deichmann, and Abhas Jha. Helpful comments were also received by David Miller, Glen Pearce-Oroz, Apurva Sanghi, and team members listed above. vii viii Climate Change, Disaster Risk, and the Urban Poor The work is a joint effort by the Finance, Economics and Urban Department and the World Bank Institute with support from Cities Alliance and the Global Facility for Disaster Risk Reduction. The Study was carried out under the overall guidance of Zoubida Allaoua, Marianne Fay, Abha Joshi-Ghani, Christine Kessides, and Konrad von Ritter. Overview For those that live in slums in cities throughout the developing world, the daily challenges of accessing safe and reliable drinking water, proper sanitation facilities, transport services to commute to and from work, regular solid waste collection, and health and education services can be enormous. These challenges are increasingly exacerbated by the impacts of climate change and natural hazards. Residents, especially the poor, are increasingly exposed to the impacts of landslides, sea level rise, flooding and other hazards, increasing risks in already vulnerable communities and impacting health and the spread of disease, livelihoods, and the very limited assets of the poor. This is the reality in city after city around the developing world. But that reality does not have to be destiny. A set of broad actions as outlined here can help build resilience for those at greatest risk in cities. Implementing these will involve a strong commitment by local governments working with communities, as well as national and international institutions. This summary provides an overview of the report on Climate Change, Disaster Risk, and the Urban Poor: Cities Building Resilience for a Changing World. It is part of a broader ef- fort under the Mayors’ Task Force on Climate Change, Disaster Risk and the Urban Poor that was launched at the Mayors’ Summit in Copenhagen in 2009. The Task Force is comprised of the Mayors of Dar es Salaam, Jakarta, Mexico City and São Paulo who have recognized the importance of these issues in their cities and demonstrated strong support. The three key objectives of the Task Force include: i) better understanding the links among climate change, disaster risk and the urban poor; ii) identifying good practice examples where resilience of the urban poor has been improved; and iii) proposing policy and investment programs for scaling up efforts to reduce risk for the urban poor. This World Bank global report, as well as case studies in the four member cities, has been carried out to better understand climate change and disaster risks for the urban poor, and form the basis for developing strategies to address those risks. The report highlights the following main messages: 1 2 Climate Change, Disaster Risk, and the Urban Poor • The urban poor are on the front line. The poor are particularly vulnerable to climate change and natural hazards due to where they live within cities, and the lack of reliable basic services. • City governments are the drivers for addressing risks through ensuring basic services. Local governments play a vital role in financing and managing basic infrastructure and service delivery for all urban residents. Basic services are the first line of defense against the impacts of climate change and natural hazards. • City officials build resilience by mainstreaming risk reduction into urban manage- ment. Climate change adaptation and disaster risk reduction can be best addressed and sustained over time through integration with existing urban planning and management practices. Good practice examples exist and can be replicated in cities around the world. • Significant financial support is needed. Local governments need to leverage existing and new resources to meet the shortfalls in service delivery and basic infrastructure adaptation. 1 Vulnerable Cities: Assessing Climate Change and Disaster Risk in Urban Centers of the Developing World Urbanization has brought tremendous opportunity to many, and will continue to do so at an unprecedented pace throughout the developing world. Cities are centers of economic activity, innovation, and wealth. They attract migrants in search of better jobs, services and prospects for improved living conditions. While many who come are poor, they represent an enormous contribution to a city’s economy through employment in manufacturing, services, and other sectors As some 70 million people in the developing world move to urban areas each year, cities are increasingly stretched to provide urban infrastructure, services, and safe land. Some one billion people already live in slums, and this is projected to double by 2030.1 Further exacerbating this challenge, are the risks associated with climate-related and natural hazards. Cities are particularly vulnerable due to the high concentration of people and economic assets, and in many cases, their hazard-prone location in coastal areas, along rivers, and in seismic zones. Risks are especially high in low- and middle-income countries where a third to one-half of the population in cities lives in slums. Rising sea levels, storm surges, earthquakes, floods and droughts have enormous impacts in urban areas and are likely to intensify over time. A number of studies have been carried out to estimate the magnitude of urban expo- sure to natural hazards and climate impacts. While each uses a different approach, covering different sets of cities, different types of hazards, different time frames, and different asset measurements, all confirm that such risk is increasing and that with the increasing changes in climate, risk will significantly rise in the coming decades. The impacts on urban residents as well as urban systems, including the built environment and ecosystems, are significant. In addition to the well-known disaster impacts of natural hazards such as destruction of infrastructure and loss of lives, natural hazards and climate change incur a wide range of less obvious incremental impacts on urban systems and resi- dents (see table 1). Based on historical data (2002–2010), the number of recorded events was highest for flooding (1501), followed by storm and cyclones (899), earthquake (228), ex- 3 4 Climate Change, Disaster Risk, and the Urban Poor Table 1 Incremental Impacts of Climate Change and Natural Hazards on Urban Systems and Residents Incremental impacts on urban systems Impacts on urban residents Built environment • Illness: heat stress, stroke, malnutrition, water borne disease, asthma, physical and mental disability • Stress on building foundations • Exposure to elements from substandard construction • Road washouts • Disruption of basic service provision and access to supplies • Changing disease vectors • Housing instability • Stress on stormwater and sewage systems • Property loss and relocation • Stress on water treatment systems • Loss of livelihoods • Disruption to shipping and ports • Community fragmentation • Increased energy demand • Exposure to flood-related toxins and wastes • Increased road surface damage • Disruption in availability of potable water, food, and other • Increased demand for water supplies • Water shortages Natural environment • Food shortages; Higher food prices • Coastal erosion, altered ecosystems and wetlands • Disruptions of electricity • Salinization of water sources • Slope instability • Groundwater depletion • Reduction in greenspace and growing conditions including urban agriculture • Changes in fish populations • Increased runoff contamination • Increase heat island effect • Increased air pollution Source: Adapted from Carmin and Zhang, 2009; Dickson, et al., 2010; Dodman and Satterthwaite, 2008; Wilbanks, et al., 2007 treme temperature (173), mass movement (landslides, subsidence, avalanche (167)), drought (133), wildfire (101), volcano (53), storm surge (25) and Tsunami (19).2 The case studies in Dar es Salaam, Jakarta, Mexico City and São Paulo carried out as part of this report are illustrative of the vulnerability and adaptive capacity that cities are facing. Tables 2a and 2b summarize the key issues for each city. It is evident that the four cities are very diverse, confronting different types of challenges. That being said, in all four cities, it is those living in informal settlements that are found to be most vulnerable to climate-related and disaster risk. Vulnerable Cities 5 Table 2a Summary of Main Findings of City Level Risk Assessments: Dar es Salaam and Jakarta Dar es Salaam Jakarta • 2.5 million in 1590 km 2 • 9.6 million in the metro area in 650 km2 Overview Population • Between 4–8% annual population growth • 250,000 immigrate to Jakarta yearly The vulnerability of the urban • Main hazards: heavy rainfall, flooding, droughts • Main hazards are water management and flood control. About 40% of the city is below sea level. • 70% percent of Dar es Salaam’s population lives in Hazards, vulnerability, poor, unplanned settlements; human development Regular flooding affects city throughout the year and basic services • indicators very low with impacts on traffic, damage to homes and economic losses poor • Basic infrastructure is very low; access to clean water and sanitation is a major problem; less than 60% of • There is currently no city-wide solid waste- the road network is paved management plan for Jakarta • Drainage channels are regularly blocked, causing • Poorest live close to river banks, canals, drainage houses to be flooded by sewage-based wastewater areas. causing water borne diseases • The government is identifying all properties in • Large-scale adaptation infrastructure projects being informal settlements in Dar es Salaam and issuing developed including: Jakarta Coastal Defense to Achievements land/property licenses or right of occupancy to protect from tidal surges, and Jakarta Urgent Flood improve security of tenure, which could be used as Mitigation Plan Building resilience for collateral for economic empowerment the urban poor • Innovative early warning systems via SMS at the • Significant slum upgrading program is also urban ward level inform people of upcoming floods underway • Disaster risk management has largely been ignored • Adaptation plans to cope with extreme weather and needs to be integrated in all aspects of urban events and sea level rise are not coordinated across Challenges planning in Dar es Salaam multiple agencies • Limited capacity in city planning departments to • Lack of comprehensive disaster risk management assess the long-term sectoral impacts of climate program or disaster response plan for the City of change for the city Jakarta Source: City Level Risk Assessments, Mayor’s Task Force. 6 Climate Change, Disaster Risk, and the Urban Poor Table 2b Summary of Main Findings of City Level Risk Assessments: Mexico City and São Paulo Mexico City São Paulo • 21.2 million in the metro area in 4250 km 2 • 19.7 million metro area in 2140 km2 Overview Population • 3% annual population growth rate • Increasing population in the periphery with household incomes three times lower than city average • High seismic risk, no natural drainage for runoff • Main hazards include heavy rains, flooding, from the surrounding mountains, and vulnerable to landslides and washouts The vulnerability of the urban poor flooding. Regularly affected by severe storms, heat • 13% of the population are considered as having waves and droughts high or very high social vulnerability Hazards, vulnerability, • Projections estimate rise in mean temperature by Over 85% of high risk households (890,000) are and basic services • 2–3 °C by end of this century; extreme precipitation located in slums across the city episodes expected to increase • More than 5% of slum areas are highly prone to be • By 2015 water consumption rates will increase by affected by destructive events 20% compared to 2000 levels • 52% of households in slums are without access to • Infrastructure and public services are stretched thin sanitation facilities and 33% of households in slums • City’s generation of garbage is increasing at a rate without access to paved roads close to their homes of 5%/ year • 20% of sewage lacks proper treatment • 15% of the population is ranked with high level of housing and population vulnerability • First city in Latin America to introduce a local • The São Paulo Agenda 2012 and the Municipal climate action strategy to reduce emissions by seven Climate Law sets out targets by sector to be taken million MT between 2008 and 2012 by the municipality, private actors and other public bodies • Strategy is part of a 15-year plan where city is investing US$1 billion a year (9% of the yearly • Risky areas for landslides are already identified and budget) on: land conservation, public spaces, air geo-referenced by the municipality, allowing the pollution, waste management and recycling, water prioritization of adaptation actions supply and sanitation, transportation and mobility Achievements • Major slum upgrading efforts based on social vulnerability index and incidence of areas subject to landslidesThe São Paulo Agenda 2012 and the for the urban poor Building resilience Municipal Climate Law sets out targets by sector to be taken by the municipality, private actors and other public bodies • Risky areas for landslides are already identified and geo-referenced by the municipality, allowing the prioritization of adaptation actions • Major slum upgrading efforts based on social vulnerability index and incidence of areas subject to landslides • Disaster risk in Mexico City is primarily handled in a • Additional efforts are needed to increase coverage reactive manner and limited preventative measures of sewage system and avoid illegal disposal of Challenges have been implemented sewage into water courses • Evident need to improve the sharing of information • Mitigate risks in flood and landslide prone areas and among the relevant government agencies consider relocating families where mitigation proves not to work Source: City Level Risk Assessments, Mayor’s Task Force. 2 The Vulnerability of the Urban Poor The urban poor living in slums—now estimated at approximately one billion people—are at particularly high risk from the impacts of climate and natural hazards in large part due to where they live. As cities grow, land becomes scarcer and thus more expensive. The choice of where to live is driven by a series of tradeoffs between what is affordable, prox- imity to income earning opportunities, and where individuals may have social networks and kinship ties. The areas that are affordable to the poor are typically on hazard-prone lands, in areas that are deemed undesirable to others. They are also often informal settle- ments with insecure tenure. People in low-income neighborhoods are made even more vulnerable by overcrowded living conditions, the lack of adequate infrastructure and services, unsafe housing, inad- equate nutrition and poor health. These conditions can easily turn a natural hazard into a disaster, with impacts including the loss of basic services, damage or destruction of homes, reduction or loss of livelihoods, the rapid spread of water- and vector-borne diseases, dis- ability, and loss of life. The impacts of natural hazards and climate change can vary substantially with impor- tant distinction in spatial and location characteristics. For example, inner city slums which are typically located in the historic core of a city and are highly dense, such as in Delhi, Dhaka, Cairo and Istanbul, face risks due to the dilapidated condition of structures, over- crowded conditions, and difficulty in evacuating and getting services, including emergency vehicles through narrow roads.3 Peri-urban slums such as in many cities in Latin America and elsewhere may face other challenges such as poor services, haphazard layout, drainage problems, limited accessibility and proximity to environmental hazards. For the poor, it is often the more frequently occurring low or moderate intensity events such as localized flooding and fires that have the most significant impact. In Katmandu, Nepal, rapidly growing squatter settlements are located along the banks of the city’s three rivers on steep slopes. Because there is no solid waste collection services, waste is regularly thrown in the rivers. The existing stormwater and sewage networks operate at only 40 per- cent of their capacity because they are blocked by sludge and debris. During the monsoon 7 8 Climate Change, Disaster Risk, and the Urban Poor season, approximately 25 percent of the households there flood regularly due to inadequate drainage. These residents are also susceptible to water-borne diseases that then go untreated because of the lack of affordable medical treatment.4 In Dhaka, Bangladesh, the situation is similar. Only 10 percent of slum dwellers have suf- ficient drainage to avoid waterlogging during heavy rains.5 In most low income settlements, the existence of open drains results in accumulated garbage, preventing drainage systems from working during heavy rains. Where there is insufficient drainage, stagnant floodwater provides an ideal breeding ground for parasites and mosquitoes, which may lead to an in- crease in malaria and other vector-transmitted diseases. Other issues such as tenure security, employment and financial insecurity and social networks also affect the sensitivity of the urban poor to climate change and disaster risk. The lack of tenure hampers investments in services and housing improvements. The urban poor rely on the informal sector for their income and thus they have limited access to formal safety nets. Strong social networks are important for some communities where residents work to- gether to build resilience at the local level. Traditionally vulnerable individuals and communities have managed risk through ad hoc coping mechanisms that draw on their local knowledge of hazards and community resources. In slums where social networks and kinship ties are stronger, communities tend to be more resilient. Older communities tend to have stronger social networks than newer settlements where residents may be more transient. Active internal leadership in close-knit communities can organize relief and rehabilitation more effectively and efficiently. This is especially the case for fast-onset events that require temporary relocation; at these times residents rely on their existing social capital and existing networks. In Mombasa, Kenya and Esteli, Nicaragua one study shows that the asset that the poor value and tend to protect the most during extreme events is their house.6 Other important assets were businesses and electrical appliances. The study also found that the majority of the households were resourceful at developing resilience measures (e.g. 91% of the households implement some kind of adaptation action before a severe weather event, 100% during the event, and 91% after the event). Furthermore, the study revealed that the most critical dimension of vulnerability of the poor was weak or unclear tenure rights, and that owner occupiers tend to invest more re- sources in adaptation measures than tenants, especially in reinforcing the house structure before heavy rains. Access to safe shelter, water, sanitation, proper drainage, and reliable solid waste re- moval, transport, roads and public health services remains an elusive goal for many of the urban poor. Cities typically do not have the resources or capacity to keep up with the growing needs of service provision. Issues of informality further exacerbate the challenges given that many governments, non-governmental organizations (NGOs) and the private sector are re- luctant to invest in areas without secure tenure as they perceive this as risky. There is also a perception that the urban poor are unable to pay for basic services, yet in many cities, the urban poor pay more than the non-poor as they have to rely on expensive delivery systems. With poor basic services, the effects of climate related and natural hazard risk can turn a heavy rain into a disastrous flood with the spread of disease. Destruction or damage to infrastructure can lead to water scarcity or contamination. Lack of access to safe housing The Vulnerability of the Urban Poor 9 with good provision for water, sanitation, health care and education affects the capacity of slum residents to recover. Many of the impacts of climate change and natural hazards on the urban poor are most notable in the area of risks to public health. Exposure to changing weather patterns in tem- perature, precipitation, sea-level rise and more frequent extreme events (such as earthquakes and landslides) have direct consequences for people’s health: morbidity and mortality. Many communicable diseases are highly sensitive to changing temperatures and precipitation. These include vector-borne diseases such as malaria and dengue and water-borne diseases such as diarrhea and cholera. The pathogens that cause these diseases thrive in poor living conditions typically found in slums. Worse, their impact is also likely to be more severe in populations with pre-existing burden of disease.7 There are also indirect consequences from climate change and natural hazards on health via exposure to declining water, air and food quality, alterations in ecosystems, agriculture, industry and settlements and the economy (such as migration and poverty), and effects on food security. To complicate things further, this direct and indirect exposure also has short and long term implications for human health. For instance, a landslide not only kills people, but also leaves some people physically and mentally disabled for the rest of their lives. 3 Building Resilience for the Urban Poor The challenges of service delivery in slums outlined above are not new, however, the risks from changes in climate and increasing exposure to natural hazards accentuate the growing urgency in proactively addressing them. There is much accumulated experience in efforts to improve living conditions for the urban poor, yet many cities have not been able to achieve these goals largely due to the pace of urbanization, ineffective policies, resource constraints, lack of political will and weak capacity. This report underscores several recommended actions based on experience to help cities build resilience for those at greatest risk. These recommendations are rooted in the need for strong institutions for better urban planning and management, and sustainable urban policies that consider the positive and negative outcomes of the difficult decisions which city officials must make. In implementing these actions, it is city governments that are the drivers for addressing risks, through the provision of public infrastructure, delivery of basic services and main- streaming climate change adaptation and disaster risk reduction into urban planning and management practices. Such investments will have the biggest impact when implemented in partnership with communities that have much to contribute to the process. Assessing risk at the city and community level to inform decision making The case studies carried out as part of this report have demonstrated the importance of understanding hazards, socioeconomic and institutional risks for any city as an important first step to developing adaptation and disaster risk reduction plans. A risk assessment can define the nature of risks, answer questions about characteristics of potential hazards, and identify vulnerabilities of communities and potential exposure to given hazard events. Risk evaluation helps in the prioritization of risk measures, giving due consideration to the probability and impact of potential events, the cost effectiveness of the measures and resource availability. 11 12 Climate Change, Disaster Risk, and the Urban Poor Relevant and up to date information can allow all stakeholders to assess risk and make informed policy and investment decisions. Such information will affect zoning, property markets, location choices and adaptation investments. Investing in regular data collection is necessary for monitoring changes over time and continually updating risk reduction plans. Mapping informal settlements can be a first step to assessing risk for the urban poor. In a growing number of communities, the poor themselves are carrying out this work. In Cuttack, India, community-driven data gathering includes the preparation of digital maps at the city scale for city authorities with input from an NGO.8 The work begins with residents mapping their communities with a GPS device, commenting on boundaries and characteristics (risk pro- file, services, etc.) that help the visiting NGO team understand the settlement. Points marked with the GPS are uploaded to Google Earth and when aggregated into a city-wide map, provide the location and boundaries of all informal settlements, as well as their risk profile. The process of carrying out a risk assessment can be equally as important as the results. The experiences from the Dar es Salaam, Jakarta, Mexico City, and São Paulo cases point to a few lessons: i) High level support from the mayors and heads of key agencies was essential to giv- ing priority and support to the work. Working level focal points were key to ensur- ing accountability and getting the work done. ii) In all of the cities, an inter-agency working group was set up to carry out the risk assessments. This included agencies working on urban development, service provi- sion, poverty reduction, disaster management and climate change. In some cases, this was the first time these agencies worked together which created synergies for a more integrated and comprehensive risk assessment and began the process for adapta- tion planning. However, it is unclear that these inter-agency working groups will be sustained without a more formal working arrangement. iii) In some of the cities, there was a big disconnect between knowledge at the institu- tional and community level. This was addressed by involving city officials in site visits to poor neighborhoods, and in two cases, involving stakeholders in the work- shops. Communicating in a language that all stakeholders could understand was fundamental. In that regard, producing materials in a simple format and local lan- guage was important for communicating results. In Jakarta and Mexico City, short films have been produced for broad dissemination of key messages. iv) Across the four cities, accessing data, maps, and climate projections was problematic. Information is scattered across many different agencies, departments, organizations, and research institutions, with some reluctant to share data. Enormous effort went into collecting the information that was made available. To benefit from and sustain this effort, setting up a permanent institutional “home” to maintain and update this inter-agency information in each city would be beneficial for any future work. v) The risk assessments were perceived as a useful framework for understanding cli- mate change, disaster risk and impacts on residents. The multidimensional approach to assessing hazards, socioeconomic and institutional risks brought together key issues in a comprehensive way. This was, however, found to be only the first step. Stakeholder workshops held in all of the cities were useful in discussing key issues, Building Resilience for the Urban Poor 13 but follow up will be needed to integrate these findings into adaptation and risk reduction planning across city agencies. Integrating climate change and disaster risk reduction policies for the poor into urban planning and management Better urban planning and management is imperative to reducing disaster risk and climate change impacts on the urban poor. Policies to mitigate such risks have links to multiple sectors and thus can come with important synergies. For example, urban policies can be de- signed to be pro-poor with positive impacts on poverty reduction policies. Similarly policies can be designed to have co-benefits with climate change mitigation policy goals. Such policy choices also, however, come with tradeoffs and often difficult decisions. The outcomes of policy choices will have both positive and negative consequences that decision makers must carefully weigh. Urban systems have long time scales and physical form cannot be changed easily, thus decisions made now will have impacts for decades to come. This is due to i) the long life span of urban infrastructure and buildings, which can be as much as one hundred years or more for high value buildings, bridges, or water systems; and ii) the location decisions of infrastructure and buildings typically goes well beyond their life span. For example, when railways reach their replacement time, they are almost always replaced at the same location. In the same way, new urban development is a somewhat irreversible choice as it is economi- cally and politically difficult to relocate people. The policy area that is most instrumental is land use planning and management. As cities in developing countries grow, they often expand into marginal areas such as flood plains, water catchments, and steep hillsides. Poor urban planning and management policies exacerbate this. At the city scale, there is a need for land use planning to consider flood, seismic, and other hazard zones when determining where new development should be permitted. Efficient transport systems can increase land supply in new areas by enabling access and mobility, thus reducing incentives to develop in vulnerable locations. Preventing building and settlements in high risk areas can save lives and prevent destruction. A framework for the regularization of land tenure, including partial or incremental solutions, can spawn investments and encourage improvements in infrastructure. Proactive policies aimed at the prevention of new slums which may involve changes in the legal and regulatory framework and draw on lessons of the past experiences with sites and services projects can help to curtail the rapid growth of new slums on vulnerable lands. In some cases, governments and municipalities would acquire land for block-level infrastructure rights of way around the peripheries of rapidly growing cities. Table 3 outlines some of the policy choices and actions cities can consider when ad- dressing climate change, disaster risk and the urban poor, along with the positive co-benefits and possible negative consequences of each. From an operational perspective, governments must make these policy choices in the context of broader priorities which include quality of life for city residents, economic competitiveness and attractiveness for investors, other environmental goals such as greenhouse gas emissions and protection of natural areas, public health and social concerns such as equity and social capital. 14 Climate Change, Disaster Risk, and the Urban Poor Table 3 Consequences of Risk Reduction Policies in Urban Areas Potential negative Risk reduction policy Actions Positive co-benefits consequences 1. Protection for many areas • Investments in basic services • Large quality of life benefits • Increase in vulnerability to against extensive risk (versus such as water, sanitation, from improved basic the most extreme events few areas against intensive waste, drainage, transport services • Increase in population and risk) in poor areas • Most cost-effective given asset risk • Investments in early majority of risks for urban warning systems, insurance poor are extensive schemes • Improvements in city • Regulations to mitigate economy from increases increases in exposure in productivity and through land-use planning, competitiveness zoning and building norms • Reduction in overall risk • Delay large, costly, from frequent events investments against • Reductions in local air and extreme events such as water pollution drainage, urban transport and buildings • Large health co-benefits • Improvements in social equity from pro-poor investments 2. In-situ upgrading in at-risk • Investments in basic • Similar benefits as listed in • Investments may further informal settlements (versus services in at-risk informal 1. attract people to high risk relocation to safer areas) settlements areas and increase the • Residents may benefit from population and assets at risk • Avoid more costly location choice close to jobs investments in dykes and and services • Increase in vulnerability to drainage systems extreme events • Avoid new urbanization, • Avoid relocation to new and reduce urban sprawl • Poor population investments areas (could be cost-neutral) and destruction of made at risk of extreme preserved areas. weather events; Risk of poverty trap if disasters too • Avoid negative social frequent impacts of relocation programs (loss of jobs, social networks, culture) 3. Zoning to prevent • Regulations to prevent • Reduction in overall risk and • Decrease in overall available occupation of at-risk areas development, investments potential losses land, increase in land and hosing in at-risk areas. pressure, general increase • Decrease in population and in housing and office-space asset at risk (i.e., smaller prices in the city likelihood of large-scale disasters with significant • Possible acceleration effects) of urban sprawl; soil consumption and water- • Avoid negative health proofing; loss in natural effects from occupying areas and biodiversity; unsafe or polluted land competition with agriculture • Protect mainly poorest • May increase travel distances households which generally in the city and commuting occupy the most at-risk times areas • Environmental concerns from additional mobility needs and energy consumption • Perverse incentive of attracting illegal settlements in no-building zones Building Resilience for the Urban Poor 15 Table 3 (continued) Consequences of Risk Reduction Policies in Urban Areas Potential negative Risk reduction policy Actions Positive co-benefits consequences 4. Develop new, less risky • Invest in urban • Creation of new urban • Increased car use, energy land with efficient transport infrastructure and basic area with provision of consumption, local and noise services in new areas basic services and high pollution and congestion accessibility particularly if based on • Invest in new transportation individual-vehicle transport networks which are • Increase in available land, efficient and affordable reduction in land pressure, • Environmental concerns (train, metro, dedicated bus and general reduction from additional energy line, highways) in housing prices in the consumption city; development and • High cost of new competitiveness benefits. infrastructure (transport and • Reduced pressure to other services) urbanize at-risk areas • Accelerated urban sprawl (flood, landslide, with higher cost to provide subsidence) in city centers; public services; possible reduction in overall risk and higher property taxes average losses • Additional soil water- • Avoid undesired proofing, increased run-off development in natural and possible increase in areas and ecosystem losses flood risks. • Improve access to adequate • Accelerated urban sprawl; housing and basic services; loss in natural areas and poverty reduction benefits biodiversity; competition with agriculture • Risk for the poor to be relocated causing social segregation 5. Promote dense • Containment policies that • Modal shift to public • Reduced access to housing, urbanization determine where growth transport yields reductions dwelling size can and cannot happen in noise and traffic • Reduction in available land • Lower cost of providing for construction, increase in public services (water construction costs, increase and sanitation, electricity, in housing prices in the education, health) city; possible reduction in competitiveness • Gain in competitiveness through reduced energy • Potentially larger urban expenditures and lower heat island and larger taxes vulnerability to heat waves • Higher density facilitates • Possible increase in natural zoning to avoid hazard risk if containment development in at-risk areas land-use plans do not control for additional density in • Reduce mobility needs and flood-prone or landslide energy consumption areas • Reduced urban sprawl and protected natural areas; increased competition with agriculture. • Improved social equity through reducing segregation 16 Climate Change, Disaster Risk, and the Urban Poor To help with prioritization and decision making, robust, multi-criteria decision-making tools can be useful. This approach can be used to ensure that any given policy, has no un- acceptable consequences for stakeholders. The approach helps build policy mixes that are robust in most possible future scenarios. The application of robust decision making strategies can be a lengthy process, requiring the involvement of many stakeholders including city of- ficials, multiple agencies, private developers and community residents. The process of such decision making, however, can help stakeholders assess their own choices towards higher resilience and lower vulnerability. New York City has completed a city-wide adaptation plan, as well as comprehensive sus- tainability plan and update to that plan.9 The plans use spatial planning in conjunction with risk mapping to understand and regulate how the city will be affected by climate change. The process included extensive public engagement. In the case of New York, unlike in many other cities, planning focuses on improvement of current buildings, building codes, and the strategic placement of public facilities, rather than guiding outward urban expansion. The plan calls for a community-based approach to deal with the most vulnerable communities. As a response, the city is now also working on site-specific adaptation plans through a com- munity planning process with stakeholder groups. Jakarta’s plan for 2010–2030 calls for incorporating risk reduction activities into long-term spatial planning for the city.10 Such approaches include restoration of mangrove forests, improvement in public facilities and mass transit, refinement of building and en- vironmental regulations that consider hazard risk, redesign of technology and engineering in disaster areas, and improvements of provision of open space for anticipated increases in intense rainfall. In three cities in Vietnam, Dong Hoi, Can Tho, and Hanoi, local governments have extended the work of risk assessment to a second phase in resilience planning, completing a Local Resilience Action Plan (LRAP).11 This includes not only a vulnerability assessment and spatial planning, but also an inventory of planned capital investments and policy changes to address high-risk areas, gap analysis, and a multi-stakeholder priority-setting based on comparison of alternatives in light of limited budgets and fundraising prospects. The LRAP identifies short, medium, and long-term adaptation priorities for project investment with specific costs, timelines, and responsible actors. In the case of Can Tho, the outcomes of the LRAP process are currently being integrated into local urban planning efforts. Other good examples where adaptation plans are being integrated into urban planning include Boston, Cape Town, Ho Chi Minh City, London, Quito, Rotterdam, and Toronto.12 At a minimum, these cities have identified risk-prone areas and through urban planning discouraged new construction in these areas. Strengthening institutional capacity to deliver basic services and reduce vulnerabil- ity to climate and disaster risk Cities have a range of institutional structures and capacity for dealing with service delivery, disasters, and climate change. The institutions that are typically involved with the response and management of disasters include departments of public health, security, police, fire and those that serve vulnerable populations like the elderly and young. Plans often provide a Building Resilience for the Urban Poor 17 structure through which departments communicate with one another and many cities pre- pare by running simulations. The institutional arrangements to cope with and plan for climate change, particularly adaptation, are somewhat less developed as it is a relatively new field of policy and planning. Furthermore, the institutional structures for delivering services to the urban poor have the longest history, yet in many cities they are weak. A major constraint has been capacity as local governments struggle with inadequate staffing, technical skills or financial resources. This is further complicated in many places by the lack of legal tenure which means that gov- ernments are reluctant or unable to invest in services in informal areas. In the absence of strong formal institutions, informal institutions such as NGOs and community-based organizations (CBOs) play an important role in responding to the needs of the urban poor. In many cities they address gaps in service delivery, and at times are the first responders in disaster events. In Mombasa, local religious organizations are recognized as key players when extreme events occur and facilitate evacuation, emergency relief assistance and provisional shelter. The earthquake in Haiti in 2010 saw the emergence of volunteer technology communities who mobilized through the Global Watch Observation Catastrophe Assessment Network (GEO-CAN) to develop a comprehensive and rigorous damage analysis to assist with relief and recovery efforts.13 There are also numerous examples where progress has been made in addressing risks for the poor through slum upgrading programs, service delivery improvements in slums, emergency warning systems, and other initiatives. Such efforts were implemented with strong political commitment, community participation, and institutional support. In Dar es Salaam, the local government has successfully implemented the Community Infrastructure Upgrading Program which has targeted unplanned areas in three municipali- ties.14 Through a structured process communities have prioritized technical improvements in roads, drains and public toilets. The new community infrastructure allows safe access to homes on a regular and emergency basis, and improved drainage dramatically decreases flooding in the affected areas. A relatively well-known effort in Pakistan through the Orangi Pilot Project Research and Training Institute supports local governments as well as slum dwellers in building capacity for the planning, implementation and financing of basic sanitation provision—at far lower costs than government built infrastructure—which have brought major benefits to large sec- tions of the urban poor in more than 300 communities in Karachi. There are also a number of good examples of disaster planning and climate adaptation planning. For example, plans in Istanbul, Ho Chi Minh and Cape Town have identified risk-prone areas and discourage new construction in these areas.15 They have called for the resettlement of communities in the most risk-prone areas, in addition to improved construc- tion and regulation of low income and informal housing. Safety nets can be critical in building resilience for the urban poor as well as in post- disaster recovery. Safety nets have traditionally focused on the chronic poor through targeted cash transfers, both conditional and unconditional, workfare programs, and in-kind trans- fers. In Bangladesh, under the National Disaster Management Prevention Strategy, an early warning system triggered safety nets in response to Cyclone Sidr in 2007.16 The program began distributing cash, rice and house building grants even before the main impacts of the cyclone were felt. 18 Climate Change, Disaster Risk, and the Urban Poor Table 4 Capacity Programs Aimed at Knowledge Sharing, Education, and Training for Urban Resilience Agency/program Capacity building African Centre for Cities (ACC) Interdisciplinary research and teaching program for sustainable urbanization in Africa C-40 Establishing activity-specific sub committees which include city resilience planning and focus on the unique needs of port cities International City/County Management Provides knowledge-based assistance in disaster mitigation and preparedness for Council (ICMA) vulnerable communities, and recovery and restoration of basic municipal services International Institute for Environment Experts work to strengthen organizations through publications and capacity-building and Development (IIED)—Capacity workshops mostly in Africa, South Asia, and active support for Conference of the Parties Strengthening of Least Developing (COP) negotiations Countries for Adaptation to Climate Change Network. International Strategy for Disaster Focuses on raising political commitment to disaster risk reduction and climate change Reduction (ISDR) – My City is Getting adaptation among local governments including high profile media and public Ready Campaign awareness activities, and develops technical tools for capacity building. International Organization for Development of ISO 31000—a set of principle and guidelines for risk management. Standardization Local governments for Sustainability Works with U.S. cities to conduct climate resiliency studies and develop adaptation (ICLEI) plans Rockefeller Foundation Asian Cities Climate Change Resilience Network (ACCRN) helps cities to develop adaptation plans with civil society (10 cities in Vietnam, Indonesia and Thailand) UCLG/Metropolis United Cities and Local Governments (UCLG) represents and defends the interests of local governments on the world stage. In the area of cities and climate change, Metropolis is working on a range of projects and knowledge products World Bank Group • Urbanization Knowledge Platform New UKP which includes extensive provisions for peer-to-peer exchange and knowledge (UKP) sharing • World Bank Institute Global capacity building programs include: • E-Learning Safe and Resilient Cities Course • Networking • Mentoring • On-Demand Knowledge and Capacity Building Programs can be designed to also assist at-risk households and communities to help people cope with hazard risk. For example, social funds, community-driven development and slum upgrading programs can be designed to support adaptation and risk reduction in low income communities by scaling up their work on actions most relevant for creating re- silience such as improving drainage, water supply and sanitation, and setting up community- maintenance programs. Indonesia’s National Community Empowerment Program (PNPM) which currently operates in all urban areas of the country, finances investments in flood prevention, water retention and storage facility and slope stabilization to prevent landslides as well as building emergency evacuation routes. Such programs have been instrumental in post-disaster recovery as well. In Indonesia, efforts were rapidly mobilized following the disasters in Aceh (2004 Tsunami), Yogyakarta and Central Java (2006 Earthquake) and most recently in Central Java (2010 Mt. Merapi eruption) via community-driven development programs. On the very day the government says it is safe for residents to return to their neighbourhoods, trained facilitators that are already working in the communities are available to work with beneficiaries in identifying needs, preparing community settlement plans and allocating block grants. The key is to Building Resilience for the Urban Poor 19 have programs in place before the onset of natural disasters, with flexible targeting, flexible financing, and flexible implementation arrangements. At the institutional level, success translates to good leadership, good governance and good management. These elements can be built through changes in incentive systems to promote reform and improve performance, for example through better accountability, finan- cial management and coordination across agencies, with a structured reward system. Other methods that have proven successful are professional certification programs for municipal staff that elevate, professionalize and promote their development. There are several programs available which provide advisory assistance to decision makers such as city technicians and city managers, and key actors in civil society. These programs range in levels of engagement and development, but all have the common goal of building capacity among decision makers. There is also much capacity building that can happen as cities learn from each other. Successful experiences include city and local government networks at the country, regional and international level, training programs, and knowledge exchange through twinning and other programs that allow cities to share knowledge and information. 20 Climate Change, Disaster Risk, and the Urban Poor Bridging communities and local governments to work together on local solutions It is clear that the urban poor are on the front line in addressing the impacts of climate change and disaster risk. There is much already happening at the household and community level that local governments can draw upon. For example, in Esteli, Nicaragua and Mom- basa, Kenya, over 90 percent of households took some kind of adaptation action before, during and after a severe weather event.17 Such actions included repairing roofs, building stronger foundations, digging trenches, clearing drainage and ditches, repairing leaks, chan- neling water and planting trees. These efforts are especially important for cities that have limited capacity and resources. At the same time, much of what is needed to reduce risk in low income urban com- munities depends on the availability of infrastructure that residents cannot provide them- selves. Storm and surface drainage, road and path networks, links to water networks, and health care services require specialized skills and substantial resources that communities may not have. Despite the obvious benefits of partnerships between local governments and communi- ties, this does not always happen in part due to negative perceptions particularly around policies related to informal settlements. There are a number of good examples of partner- ships between community organizations and local governments in working in poor urban communities on risk reduction. In the Philippines, a partnership between a grass roots organization, the Philippines Home- less People’s Federation (PHPF), and local governments has worked to secure land tenure, build or improve homes, and increasingly to design and implement risk reduction strategies.18 Fol- lowing the devastation caused by Typhoon Frank in 2008, the local government in the city of Iloilo worked closely with PHPF in technical working groups, mapping of high risk areas, and identification and prioritization of communities to be given post-disaster assistance. In one of the oldest and largest slum areas in Jakarta, Kampung Melayu, residents have responded to an increase in the severity and frequency of flooding by developing an early warning flood system. Neighborhood and village heads receive SMS messages on their mo- bile phones from floodgate areas upriver when the water level is getting high. They can then spread the news in the community by broadcasting from the minaret of the local mosque so that residents can prepare for the coming inundation. One of the more complex but impressive examples is in Quelimane City, Mozambique, where local communities have partnered with the City Council and several international or- ganizations to work on upgrading for communities particularly affected by cyclical floods.19 The city and community worked together on developing an upgrading strategy that had a spe- cial focus on water and sanitation conditions. In implementing the strategy, the City Council provided an in-kind contribution of US$100,000 by providing office space, equipment, a meeting room, technical and administrative staff, and vehicles. The community provided an in-kind contribution of US$150,000 through provision of subsidized labor, conducting awareness campaigns, forming operational management teams, and reducing their plot size or, in extreme cases, moving to another area because of improvement works. UN-HABITAT, the World Bank, DANIDA, UNICEF, and WaterAid in combination contributed US$440,000 in cash and in-kind. Other in-kind contributions totaling US$30,000 were secured from a Building Resilience for the Urban Poor 21 state water supply institution, and from a private-sector firm which made its trucks available during weekends in exchange for paying only for fuel and for the driver. Among the lessons learned from experience of partnerships between communities and local governments are that such cooperation can be facilitated through mutual recognition of the role that each group plays; improving the dialogue and discussion to dispel misunder- standings; understanding and recognizing what is happening at the local level and forming partnerships with local organizations. For the poor, understanding what the city can and ca cannot provide and what its con- straints are is a first step. Strong community groups and detailed community-level informa- tion systems can be extremely effective for initiating engagement in such partnerships. For local governments, this means recognizing the contribution that the urban poor make to a city’s economy and society and involving them in discussions about needs and priorities. Local participation is crucial to ensure that the approach taken suits the needs of residents, and in ensuring quality standards. Many of the examples of local government-community organization partnerships in Africa and Asia have been initiated by federations of slum dwellers who are engaged in initiatives to upgrade slums, secure land tenure, develop new housing that low-income households can afford, and to improve provision of infrastructure and services. Opening new finance opportunities for cities to finance basic services and other needs to address climate change adaptation and disaster risk reduction The analysis of the risks for the urban poor associated with climate change and natural hazards point to significant financing needs for cities. Adaptation and risk reduction costs in- clude both physical investments such as urban infrastructure and basic services in slum areas, but equally important are investments in good information systems and tools for integrating climate change and disaster risk management into urban planning, safety nets, and capacity building to help local governments better deliver services and manage risk for their residents. Cities in developing countries currently rely on national and local tax revenues, the private sector, public-private partnerships, and loans and concessional sources through the World Bank and other multilateral development banks to finance infrastructure and social needs. There are also a number of existing programs that provide smaller-scale grants or technical assistance for projects and programs at the city level. In practice, such resources are vastly insufficient to meet the service needs of the population, particularly in slums. When reviewing potential financing needs for climate adaptation and disaster risk re- duction, it is important to consider that not all investments are necessarily high and some can have more direct impacts on the poor than others. Large scale city-wide infrastructure investments for flood protection or measures to make roads, ports and power generation facilities more resilient to extreme events may be necessary in many cities over time, but they are expensive and will not improve conditions for those living with the debilitating impacts of the more frequent less extreme events. Smaller-scale investments in drainage and improvements in basic infrastructure need not be expensive, and are catalytic in building resilience for the urban poor. Slum upgrading pro- 22 Climate Change, Disaster Risk, and the Urban Poor grams take a neighborhood approach and in addition to local infrastructure improvements, often include social programs aimed at community development. Such programs are most effective when coupled with policies that tackle difficult issues related to land. Innovative ap- proaches to financing such as output-based aid, offering pro-poor incentives to utilities and the private sector, and policies that promote an enabling environment for small private sector service providers while ensuring quality and affordability for residents offer much potential for scaling up. In low income communities in western Jakarta, a scheme developed through the Global Partnership on Output Based Aid (GPOBA), the city government, and the local water utility, PALYJA, is designed to subsidize the cost of water supply connections for almost 12,000 households in a number of poor areas, including 2,200 in informal settlements where PALYJA had previously not been authorized to provide services.20 Concessionaires are given grants for the cost of installing connections to the networks provisional on two measureable outputs—the provision of a working household connection, and the delivery of acceptable service for a period of three months. While the project has faced some difficult challenges in implementation related to water availability, and problems dealing with existing informal water suppliers, these eventually were resolved, with the help of the NGO Mercy Corps, paving the way for further expansion to other communities. Another financing approach used is individuals and communities spreading the cost of risk across a population through the establishment of insurance or catastrophic risk pools. These instruments are generally for upper- and middle-income families, large businesses and wealthy governments, but not for the urban poor. Microfinance schemes, however, can be used to finance risk reduction and recovery efforts by the poor. They have been used to improve re- silience through housing improvements, and livelihoods assets. In low-income communities in El Salvador self insurance schemes include encouraging family members to migrate to provide remittance income, and stockpiling building materials which can either be used or resold.21 One study estimated that residents spend approximately nine percent of their income on risk reduction measures. At the community level, many contribute to community emergency funds or join religious institutions that traditionally offer post disaster help. In Manizales Colombia, the city has arranged for insurance coverage to cover the urban poor through municipal tax collection. Any city resident may purchase insurance coverage for their property, and once 30 percent of the insurable buildings participate, the insurance coverage is extended to tax exempted properties, including properties with a value of 25 monthly salaries or less (estimated at US$3400).22 Despite the municipal administration col- lecting a handling fee of six percent, the insurance company has a direct contractual relation- ship with the individual taxpayer and bears responsibility for all the claims. In the context of the Mayor’s Task Force on Climate Change, Disaster Risk and the Urban Poor, a Program for Climate Finance and Assistance for Cities is proposed. This Program would bring together many of the existing resources that are available and draw on some innovative instruments such as green bonds for cities and results based financing for basic services. With regard to climate support alone, the World Bank offers more than 30 potential programs including capacity building and technical assistance programs, and funding initiatives. An efficient combination of such instruments could leverage public and private sources while encouraging low carbon development. One approach to facilitating ac- Building Resilience for the Urban Poor 23 cess would be creating one access window for the programs. This would enable city-specific partnerships similar to the Bank’s Country Partnership Strategies. To encourage cities to achieve specified targets, such a program could consider a more standardized approach to benchmarking and monitoring through a set of metrics commonly agreed upon by the international community such as a City Level GHG index, urban risk assessments, or Local Resilience Action Plans. By meeting specified targets, cities would then be eligible for accessing such financing through the designated window. In conclusion, the challenges are great for cities around the world confronting the risks associated with climate change and natural hazards, but understanding the challenges is the first step in overcoming them. As is apparent in this summary and in the report, there are examples in cities all over the world, good practices that show how cities can help build resilience for their urban poor in the face of risk. In doing so, cities are benefiting not just the poor, but future generations. 24 Climate Change, Disaster Risk, and the Urban Poor Endnotes 1 UN-HABITAT. 2008. Harmonious Cities: State of the World’s Cities 2008/9. Earthscan Publica- tions Ltd., London and Sterling, VA. 2 EM-DAT, OFDA/CRED International Disaster Database, 2011. An “event” is defined as a disaster in which a) fatality>9; or b) 100 people reported affected; or c) a call for international assistance is issued; or d) a state of emergency is declared. Event occurrence is captured at the country level. 3 UN-HABITAT. 2003. The Challenge of Slums: Global Report on Human Settlements. London/ Sterling, VA: Earthscan Publications Ltd. 4 IIED, Undated. 5 Center for Urban Studies, 2006. 6 World Bank. 2010. Pro-Poor Adaptation to Climate change in Urban Centers: Case Studies of Vulnerability and Resilience in Kenya and Nicaragua. 7 IPCC, 2007 8 This is drawn from Livengood, Avery (2011), “Enabling participatory planning with GIS: a case study of settlement mapping in Cuttack, India”, Environment and Urbanization, Vol. 23, No. 2 and from field visits to Cuttack by David Satterthwaite in June and October 2010 9 City of New York. PlaNYC: Climate Change, New York, New York Mayors Office, 2008, and 2011 http://www.nyc.gov/html/planyc2030/html/home/home.shtml 10 Jakarta Risk Assessment, 2011, Mayor’s Task Force Report. 11 World Bank, 2010. A Workbook on Local Resilience Action Planning in Vietnam. 12 Birkmann, Jörn, et al. Adaptive Urban Governance: New Challenges for the Second Generation of Urban Adaptation Strategies to Climate Change, Sustain Sci, vol. 5, pp. 185-206, June 2010 http:// www.springerlink.com/content/3715767841514733/ 13 GFDRR, 2011. Volunteer Technology Communities: Open Development. A Global Facility for Disaster Reduction and Recovery Publication, Washington DC. 14 Dar es Salaam Risk Assessment, Mayors Task Force, 2011. 15 Birkmann, Jörn, et al. Adaptive Urban Governance: New Challenges for the Second Generation of Urban Adaptation Strategies to Climate Change, Sustain Sci, vol. 5, pp. 185–206, June 2010 16 Pelham, L., Clay, E., and T. Braunholz, 2011, Natural Disasters, What is the Role of Safety Nets? Social Protection Discussion Paper, World Bank, Washington, D.C. 17 World Bank. 2010. Pro-Poor Adaptation to Climate change in Urban Centers: Case Studies of Vulnerability and Resilience in Kenya and Nicaragua. 18 Homeless People’s Federation of the Philippines (2010), Addressing Vulnerabilities through Sup- port Mechanisms: HPFPI’s Ground Experience in Enabling the Poor to Implement Community- rooted Interventions on Disaster Response and Risk Reduction, A background paper prepared for the 2011 Global Assessment Report on Disaster Risk Reduction, 16 pages. 19 City Council of Quelimane (2006), ‘Improving Water and Sanitation in Quelimane City, Mozam- bique’, Program Proposal to the Cities Alliance. Cities Alliance (2008), ‘Comments on Progress Re- port’, Improving Water and Sanitation in Quelimane City, P101077. Grimard, Alain (2006, 2007, 2008), ‘Grant Progress Report’, Improving Water and Sanitation in Quelimane City, P101077. 20 Menzies, I. and I. Setiono, 2010, Output-Based Aid in Indonesia: Improved Access to Water Ser- vices for Poor Households in Western Jakarta, GPOBA Approaches Note, Washington, D.C. 21 Watch Institute. State of the World 2007: Our Urban Future. Norton: New York. 22 Velasquez Barrero Luz Stella (2010) La gestión del riesgo en el contexto ambiental urbano local: Un reto permanente y compartido. Caso Manizales, Colombia. Background paper prepared for the 2011 Global Assessment Report on Disaster Risk Reduction.