76302 D CDISASTER RISK & CLIMATE CHANGE UNIT South Asia Region - World Bank The World Bank Group • Disaster Risk Management and Climate Change Unit • South Asia Region • Sustainable Development Network December 2012 D C DISASTER RISK & CLIMATE CHANGE UNIT South Asia Region - World Bank Disaster Risk Management in South Asia: A Regional Overview The World Bank, 1818 H Street, N.W. Washington, DC 20433, U.S.A. Internet: www.worldbank.org All Rights Reserved Printed in Washington, DC First Printing: December, 2012 The findings, interpretations, and conclusions expressed in this book are entirely those of the authors and should not be attributed in any manner to the World Bank, to its affiliated organizations, or to members of its Board of Executive Directors or to the countries they represent. The World Bank does not guarantee the accuracy of the data included in this publication and accepts no responsibility for any consequence of their use. The boundaries, colors, denominations, and other information shown on any map in this volume do not imply on any judgement on the part of The World Bank Group any judgment on the legal status of any territory or the endorsement or acceptance of such boundaries. Rights and Permissions The material in this publication is copyrighted. The World Bank encourages dissemination of its work and will promptly grant permission to reproduce portions of the work under normal circumstances. For permission to photocopy or reprint any part of this work, as well as all other queries on rights and licenses, including subsidiary rights, please send a request with complete details to the Office of the Publisher, The World Bank, 1818 H Street NW, Washington, DC 20433, USA; fax: 202-522-2422; e-mail: pubrights@worldbank.org. The World Bank Art Direction: Vladimir Herrera Disaster Risk Management in South Asia: A Regional Overview –Washington, DC : The World Bank : GFDRR, 2012. 106p: x. 1. Disaster Risk Management Natural Disasters 2. Sustainable Development, The World Bank iii Table of Contents Acknowledgments ������������������������������������������������������������������������������������������������������������������������������ vii Introduction ����������������������������������������������������������������������������������������������������������������������������������������� 1 Natural Disasters: An Increasing Threat to Development ������������������������������������������������������������� 3 The Forces of Nature: Hazards in the South Asia Region ��������������������������������������������������������������� 9 Major Drivers of Increases in Disasters �������������������������������������������������������������������������������������������� 13 Prevention is Better than Cure: Build Capacity and Reduce Vulnerability ���������������������������������� 23 Annex 1: Regional Hazard Profile������������������������������������������������������������������������������������������������������ 31 Floods��������������������������������������������������������������������������������������������������������������������������������������� 31 Cyclones����������������������������������������������������������������������������������������������������������������������������������� 33 Earthquakes������������������������������������������������������������������������������������������������������������������������������ 33 Droughts ���������������������������������������������������������������������������������������������������������������������������������� 34 Landslides �������������������������������������������������������������������������������������������������������������������������������� 35 Annex 2: Country Profiles ������������������������������������������������������������������������������������������������������������������ 37 Afghanistan ������������������������������������������������������������������������������������������������������������������������������ 39 Bangladesh������������������������������������������������������������������������������������������������������������������������������� 47 Bhutan�������������������������������������������������������������������������������������������������������������������������������������� 57 India������������������������������������������������������������������������������������������������������������������������������������������ 65 Maldives������������������������������������������������������������������������������������������������������������������������������������ 73 Nepal ���������������������������������������������������������������������������������������������������������������������������������������� 79 Pakistan������������������������������������������������������������������������������������������������������������������������������������ 87 Sri Lanka����������������������������������������������������������������������������������������������������������������������������������� 95 Figures Figure 1: Number of Disaster Events in South Asia (1970-2010)��������������������������������������������� 4 Figure 2: Trends in Economic Losses Associated with Natural Disasters in South Asia (1971-2010)������������������������������������������������������������������������������������������� 5 Figure 3: Events and Impacts of Disasters in SAR ������������������������������������������������������������������� 6 Figure 4: Absolute and Relative Multi-Hazard Mortality Risk for Tropical Cyclones, Floods, Earthquakes, and Landslides������������������������������������������������������������������������������������� 6 Figure 5: Monsoon Precipitation Patterns��������������������������������������������������������������������������������� 9 Figure 6: Flood and Cyclone Occurrence in South Asia (1971–2010)�������������������������������������� 10 Figure 7: Population at Risk of Specific Hazards���������������������������������������������������������������������� 11 iv Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 8: Actual and Projected Population Growth in SAR (1950-2050)���������������������������������� 13 Figure 9: Population at Risk in 2000 vs. 2050�������������������������������������������������������������������������� 14 Figure 10: Indexed Gross Fixed Capital Formation – 100 in base year 1965���������������������������� 15 Figure 11: Population trends in SAR (1950-2050) �������������������������������������������������������������������� 16 Figure 12: Growth of Cities in SAR (1950-2050) ���������������������������������������������������������������������� 17 Figure 13: Global Land-Ocean Temperature Index (1880-2010)������������������������������������������������ 20 Figure 14: Benefits of Investing in Risk Mitigation ������������������������������������������������������������������ 25 Figure 15: Combining Financial Instruments to Address Various Layers of Risk���������������������� 28 Figure 16: Total number of natural disasters in SA from 1960-2009 by type of event ������������ 32 Figure 17: Flood Risk in SAR ���������������������������������������������������������������������������������������������������� 32 Figure 18: Cyclone Risk in SAR ������������������������������������������������������������������������������������������������ 33 Figure 19: Earthquake Risk in SAR������������������������������������������������������������������������������������������� 34 Figure 20: Drought Risk in SAR������������������������������������������������������������������������������������������������ 34 Figure 21: Landslide Risk in SAR���������������������������������������������������������������������������������������������� 35 Figure 22: Map of Afghanistan�������������������������������������������������������������������������������������������������� 39 Figure 23: Percentage distribution of reported disaster in Afghanistan (1970-2009)���������������� 39 Figure 24: Average Annual Economic Loss of Afghanistan������������������������������������������������������ 39 Figure 25: Map of Bangladesh ������������������������������������������������������������������������������������������������ 47 Figure 26: Percentage Distribution of Reported Disaster in Bangladesh (1970-2009)�������������� 47 Figure 27: Average Annual Economic Loss of Bangladesh������������������������������������������������������ 47 Figure 28: Map of Bhutan �������������������������������������������������������������������������������������������������������� 57 Figure 29: Percentage of Distribution of Reported Disasters in Bhutan (1970-2009) �������������� 57 Figure 30: Map of India ������������������������������������������������������������������������������������������������������������ 65 Figure 31: Percentage Distribution of Reported Disasters in India (1970-2009) ���������������������� 65 Figure 32: Average Annual Economic Loss of India������������������������������������������������������������������ 65 Figure 33: Map of Maldives ���������������������������������������������������������������������������������������������������� 73 Figure 34: Percentage Distribution of Reported Disasters in Maldives (1970-2009)���������������� 73 Figure 35: Map of Nepal ���������������������������������������������������������������������������������������������������������� 79 Figure 36: Percentage Distribution of Reported Disasters in Nepal (1970-2009)���������������������� 79 Figure 37: Average Annual Economic Loss of Nepal �������������������������������������������������������������� 79 Figure 38: VDC Distribution of Deaths Due to Natural Disasters���������������������������������������������� 81 Figure 39: Map of Pakistan ������������������������������������������������������������������������������������������������������ 87 Figure 40: Percentage Distribution of Reported Disasters in Pakistan (1970-2009) ���������������� 87 Figure 41: Average Annual Economic Loss of Pakistan ���������������������������������������������������������� 87 TA B LE OF C ONTENTS v Figure 42: Map of Sri Lanka ���������������������������������������������������������������������������������������������������� 95 Figure 43: Percentage of Distribution of Reported Disasters in Sri Lanka (1970-2009)������������ 95 Figure 44: Average Annual Economic Loss of Sri Lanka ���������������������������������������������������������� 95 Figure 45: Hazard Profile of Sri Lanka �������������������������������������������������������������������������������������� 96 Figure 46: National Council for Disaster Management ������������������������������������������������������������ 97 Figure 47: Overview of Disaster Management Coordination Mechanism in Sri Lanka ������������ 98 Boxes Box 1: The Next Big Earthquake in Nepal�������������������������������������������������������������������������������� 18 Box 2: Cyclone Disaster Mitigation in Bangladesh ������������������������������������������������������������������ 26 Tables Table 1: The World Bank and Key Multilateral and Bilateral Investments in Afghanistan’s DRM Sector������������������������������������������������������������������������������������������������ 43 Table 2: GFDRR Investments in Afghanistan’s DRM Sector ���������������������������������������������������� 44 Table 3: The World Bank and Key Multilateral and Bilateral Investments in Bangladesh’s DRM Sector ���������������������������������������������������������������������������������������������� 54 Table 4: GFDRR Investments in Bangladesh’s DRM Sector ���������������������������������������������������� 55 Table 5: The World Bank and Key Multilateral and Bilateral Investments in Bhutan’s DRM Sector���������������������������������������������������������������������������������������������������� 62 Table 6: GFDRR Investments in Bhutan’s DRM Sector ���������������������������������������������������������� 63 Table 7: The World Bank and Key Multilateral and Bilateral Investments in India’s DRM Sector ���������������������������������������������������������������������������������������������������������� 70 Table 8: GFDRR Investments in India’s DRM Sector �������������������������������������������������������������� 71 Table 9: The World Bank and Key Multilateral and Bilateral Investments in Maldives’ DRM Sector ���������������������������������������������������������������������������������������������������� 76 Table 10: The World Bank and Key Multilateral and Bilateral Investments in Nepal’s DRM Sector �������������������������������������������������������������������������������������������������������� 84 Table 11: GFDRR Investments in Nepal’s DRM Sector ������������������������������������������������������������ 85 Table 12: The World Bank and Key Multilateral and Bilateral Investments in Pakistan’s DRM Sector ������������������������������������������������������������������������������������������������ 92 Table 13: GFDRR Investments in Pakistan’s DRM Sector ������������������������������������������������������ 93 Table 14: The World Bank and Key Multilateral and Bilateral Investments in Sri Lanka’s DRM Sector ������������������������������������������������������������������������������������������������ 103 Table 15: GFDRR Investments in Sri Lanka’s DRM Sector ���������������������������������������������������� 104 vii ACKNOWLEDGMENTS This publication was composed by the South Asia Region Disaster Risk Management Team of the World Bank. The team would like to recognize the work of the following members: Bernice Van Bronkhorst, Sector Manager, Disaster Risk Management and Climate Change Unit; Saurabh Dani, Disaster Risk Management Specialist, India Country Office; Marc Forni, Senior Disaster Risk Management Specialist; Francis Ghesquiere, Manager, Disaster Risk Management Practice Group and Head of the Global Facility for Disaster Reduction and Recovery; Suranga Kahandawa, Disaster Risk Management Specialist, Sri Lanka Country Office; Swarna Kazi, Disaster Risk Management Specialist, Bangladesh Country Office; Haris Khan, Disaster Risk Management Specialist, Pakistan Country Office; Anil Pokhrel, Disaster Risk Management Specialist, Nepal Country Office; Deepak Singh, Senior Disaster Risk Management Specialist, Country India Office; Dechen Tshering, Disaster Risk Management Specialist, Bhutan Country Office; Erika Vargas, Knowledge Management Officer; and Sonam Velani, Disaster Risk Management Analyst. 1 INTRODUCTION 1. The increased frequency and intensity of that increase resilience to hazards. The costs disaster events is well documented and of investing in hazard resilience are clear; understood by most stakeholders across however, the benefits must be measured the world. Governments, international not by the infrastructure built or the services institutions, nonprofit organizations, and delivered, but rather by the lives saved and the private sector, among others, have damages averted during a disaster. committed significant resources to raising awareness of the exposure and vulnerability 3. Only through a clear understanding of disaster of populations to natural hazards such as risks can policy makers prioritize increasing earthquakes, cyclones, excess rainfall, and their population’s resilience to these events. other events. In the 1970s, awareness Enhancing resilience to hazards in SAR is critical increased for good reason worldwide, given the continued, steady path of economic approximately 69 natural disasters were development. Positive growth trends have annually recorded; by the 2000s, this figure increased the number of people and physical had increased to 350 per year1. Similarly, assets in harm’s way, but have not been annual economic losses that averaged coupled with investments in effective risk approximately US$12 billion per year in the management practices in most SAR countries. 1970s have grown to approximately US$88 Analyzing the root causes of disasters will billion per year since 2000.2 The same increase the understanding of disaster risk and patterns have been developing in the South trigger action to enhance resiliency. Asia Region (SAR), where the number of 4. Disasters result from the combination of disasters per year has quadrupled over the three key elements: i) natural hazards, past four decades. Resulting damages have including earthquakes, cyclones, excess accumulated to over US$25 billion in the rainfall, tsunamis, etc.; ii) exposure (of past five years alone3. people and property to these hazards); and iii) vulnerability (of the human and physical 2. Despite increasing disaster risk in SAR, capital exposed) due to physical, social, awareness and understanding of this economic, governance, and environmental risk among individuals and governments factors that increase the susceptibility of a remains low. As an emerging topic, community to the impact of a natural hazard. exposure and vulnerability to natural hazards and their consequential impacts are not yet 5. The hazard element is the relatively fixed at the forefront of development agendas. variable of the equation. Seismic activity, This is the case in SAR despite the fact that rainfall trends, and cyclone events remain mitigating the unforeseen consequences relatively constant, although there is a threat of disasters is important for achieving that the latter two may increase in the future development goals. The challenge lies in as a result of climate change. According to demonstrating results from investments a report published by the Intergovernmental 1  All data on Emergency Events Database (EM-DAT: The OFDA/ Panel on Climate Change (IPCC) in 2012, CRED International Disaster Database); All figures in this report are in real 2010 USD. increases in global temperatures may have 2  lbid. an impact on storm surge, the variability of 3  lbid. rainfall, and the duration of heat waves. 2 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 6. The exposure element is increasing steadily structural and non-structural measures. in SAR due to economic growth, greater Structural measures include retrofitting capital stocks, rising population, and continued existing buildings to increase resilience and urbanization. Each of these factors results in constructing protective infrastructure. Non- more people and assets exposed to hazard structural measures aim to prevent the lock- events. However, growth in exposure in in of future vulnerability. This is achieved, itself does not necessarily imply that there inter alia, through managing infrastructure will be greater risk. If the exposed assets are development by enforcing building codes to highly resilient to the hazards, losses may not ensure resilient construction and adhering increase. In SAR, because the assets lack to land use policies that prevent assets resilience, higher concentration of assets will from being constructed in highly vulnerable lead to greater loss. environments. The third step is to develop risk financing strategies that ensure the 7. The growth in the vulnerability of exposed availability of fiscal resources required to assets to natural hazards is uncertain. respond to disaster events. Incorporating Currently, the vulnerability of exposed disaster risk management practices into assets in SAR is high. Unplanned human development planning and making specific settlements, unsafe building practices, investments today will increase resilience to and high population densities, particularly hazard events tomorrow. in growing urban areas, have further compounded the complex matrix of hazards, 9. To promote engagement in disaster and exposure, and vulnerability of the region. The climate risk management practices, this consequence is that disasters of every type report informs readers about the elements and magnitude occur at regular intervals, that are driving increases in disaster risk in consuming lives, property, and livelihoods SAR. The report first examines the regional across the region. Comparing vulnerability rise in disaster events and losses, the to hazards independently, vulnerability to nature of the hazards, the drivers of current earthquakes is increasing due to continuous and future disaster loss, and provides an construction of buildings which are not overview of activities that can reduce the resilient to seismic activity, while vulnerability vulnerability of exposed assets. A more to cyclones has decreased somewhat due to detailed profile of each of the major hazards improved early warning systems. in SAR is then provided in Annex 1. Annex 8. The purpose of engaging in disaster and 2 examines the Disaster Risk Management climate risk mitigation activities is to (DRM) profile of each country in the region. decrease the vulnerability of current and These include the hazard profile, the DRM future assets exposed to natural hazards. framework for each country, the progress The first step in the process is to identify made in reducing vulnerability to hazards, disaster risks, which entails understanding and ongoing activities to increase resilience the hazards, the assets exposed to the that are being financed by the international hazards, and the vulnerability of these assets community, including the World Bank and to the hazards. Once the risk is understood, the Global Fund for Disaster Reduction and activities can mitigate the risk through Recovery (GFDRR). 3 NATURAL DISASTERS: AN INCREASING THREAT TO DEVELOPMENT 10. Natural disasters are caused by extreme the hazards have not increased. This implies occurrences in nature for which society that the growth in the number and impact is unprepared. Disasters have not only of disasters is related to increased exposure disrupted the normal course of life of and/or greater vulnerability to hazard events. affected communities and countries in SAR, but have also halted development 12. The increase in reported disasters is driven, efforts. Funds originally earmarked for new in large part, by a greater number of hydro- initiatives must be transferred to relief, meteorological events. As shown in Figure 1, response, and rehabilitation work, often the number of seismic events has remained crowding out new infrastructure and capital relatively steady over the past 40 years, development. In the past ten years alone, it but flood and storm events have become is estimated that the countries in the region increasingly common despite relatively have suffered from over US$50 billion worth consistent rainfall patterns. The growth in of damages.4 These figures do not include the number of hydro-meteorological events losses in informal sectors of the economy is driven by the region’s limited capacity to or long term losses related to environmental manage high rainfall and storm events and and social capital, both of which are difficult an increased concentration of assets in high to measure and often go unreported. risk areas. Combined, this results in a greater number of disasters and higher economic 11. SAR is highly exposed and highly vulnerable losses. In fact, South Asia is the most to the impacts of hazard events. Between exposed region in the world to flooding and 1971 and 2009, South Asia has experienced highly exposed to cyclones. Of the world’s 1,017 natural disasters that meet the total population exposed to floods each year, criteria of EMDAT.5 The absolute number 64 percent of them are in SAR. Furthermore, of disasters has increased steadily starting with 8 reported disasters in 1971, to more within the developing world, South Asia is the than 40 in 2009 – a fivefold increase. These second most exposed region to cyclones. events have cumulatively affected over 2 13. Economic losses due to disaster are also on billion people and have caused over 800,000 the rise both from an increase in the number deaths. Direct economic losses recorded of disaster events and from an increase in the over this time period amount to over US$80 average loss associated with each disaster billion, a figure that does not account for event coupled with a greater concentration substantial indirect losses. In particular, of exposed assets. As the population grows, high-impact single events have caused urbanization increases, cities become more massive damage. However, it is important developed, and the accumulated economic to note that the frequency and intensity of wealth that is exposed to disaster events 4 Emergency Events Database (EM-DAT: The OFDA/CRED grows. Over the past 40 years, the total International Disaster Database) (http://www.em-dat.net). infrastructure spending in SAR has increased 5 For a disaster to be entered into the OFDA/CRED International Disaster Database (EM-DAT), at least one of the following criteria exponentially, with gross fixed capital must be fulfilled: i) 10 or more people reported killed; ii) 100 or more people reported affected; iii) declaration of a state of emergency; iv) formation being approximately 50 times call for international assistance. greater in 2010 than it was in 1970. As a 4 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 1: Number of Disaster Events in South Asia (1970-2010) 30   Earthquake  (5y  average)   25   Flood  (5y  average)   Storm  (5y  average)   20   Number of Events Number  of  Events   15   10   5   242 70.18 0   171.82 1970   1975   1980   1985   1990   1995   2000   2005   2010   Source: Emergency Events Database (EM-DAT: The OFDA/CRED International Disaster Database) (http://www.em-dat.net) result, cities today have highly concentrated to quantify these losses. Indirect losses are and highly valued productive assets exposed, spread over a larger area and can transcend along with significant amounts of public and local and international boundaries. Evidence private infrastructure that are not resilient to to date suggests that the proportion of hazard events despite increased levels of indirect impacts increases in larger disasters, development. Figure 2 shows the increase and thus may constitute a larger fraction of in losses over time, with dramatic spikes total losses and damage in larger disasters representing the losses caused by medium than in smaller ones. and large-scale single events, the five-year rolling average depicting the long-term trend. 15. The impact of hazard events varies by the type of disaster in SAR. Over the past 40 14. Not only have direct losses resulting from years, there have only been 79 earthquake the physical destruction of assets increased, events in the region. However, these events indirect losses due to natural disasters are associated with high mortality rates due have also multiplied. Indirect losses include to their sudden and concentrated impact. the broader consequences of disasters, On the other hand, flood events are the including the interruption of business most common natural hazard in the region operations, a decrease in private and public and affect the greatest number of people revenues, widespread unemployment, and and assets, but the relative gradual onset of market destabilization. By their very nature, this natural event compared to other natural indirect losses are harder to measure than hazards results in a smaller number of human losses stemming directly from physical fatalities. Economic losses due to floods in damage, and only recently have processes South Asia are, however, especially high due and standards been in place in South Asia to the long-term direct and indirect impact on N AT U RA L D ISA STER S: A N IN C R EA SIN G TH R EAT TO D EVELO PMENT 5 Figure 2: Trends in Economic Losses Associated with Natural Disasters in South Asia (1971-2010) 14,000   Damages   12,000   Economic  loss  (USD  in  thousands)   Damages  (5y  average)   Economic loss (USD in thousands) 10,000   8,000   6,000   4,000   2,000   0   1970   1975   1980   1985   1990   1995   2000   2005   2010   Source: Emergency Events Database (EM-DAT: The OFDA/CRED International Disaster Database) (http://www.em-dat.net) assets and production. Relative to the size of average annual expected number of deaths SAR’s GDP, flood losses are approximately as a proportion of national population.) 15 times greater than losses in OECD countries.6 In contrast, cyclones are rapid 17. The damages caused by natural disasters onset and high intensity events that lead to are exerting more and more pressure higher fatalities but fewer damages. Figure on development opportunities. Public 3 summarizes the differentiated impacts of expenditure is placed under stress by the each type of disaster accumulated over the repeated need to reallocate capital budgets past 40 years. away from long term development planning and towards reconstruction activities in 16. Across all types of events, the human post-disaster environments. Several state impact of disasters in SAR is high. In the last governments spend significantly more 40 years, an estimated 825,000 people in on relief and damages than on their rural SAR lost their lives in natural disasters. In the past decade alone, nearly 700 million people, development programs. For example, in the half of the region’s population, was affected state of Maharashtra, India, a single drought by one or more disasters. Most countries in 2003 and a flood in 2005 consumed more in SAR are among those countries most at of the state budget (US$3.5 billion) than risk of mortality due to disasters, both on the entire planned expenditure (US$3.04 an absolute and a relative level as shown in billion) on irrigation, agriculture, and rural Figure 4. (Absolute risk is the average annual development for the 2002–2007 planning expected mortality; relative risk describes the period.7 6 7   Ibid.   The World Bank. (2007). Climate Change Impacts in Drought and Flood- Affected Areas: Case Studies in India. IBRD 43946. Washington, D.C. 6 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 3: Events and Impacts of Disasters in SAR Flood Wind Earthquake 3% 10% 11% 16% 44% 33% 23% 86% 35% 57% 61% 21% No. of No. Killed Total Total Events Affected Damages Source: Emergency Events Database (EM-DAT: The OFDA/CRED International Disaster Database) (http://www.em-dat.net) Figure 4: Absolute and Relative Multi-Hazard Mortality Risk for Tropical Cyclones, Floods, Earthquakes, and Landslides  Modelled fatalities per million per year (relative) 100 Dominica Myanmar Vanuatu Guatemala Comoros El Salvador Colombia Solomon Isl. Uzbekistan Bangladesh Costa Rica Romania Sao Tome and Principe Afghanistan Indonesia China St. Kitts and Nevis Armenia Ecuador Timor-Leste Peru Iran Saint Lucia Fiji Albania Algeria India 10 Liechtenstein Samoa Pakistan Montserrat TWN DRC Philippines Mauritius San Marino Tajikistan Haiti Cap Verde Madagascar Palau Bhutan Viet Nam Marshall Islands Turkey Japan Bermuda Guam Suriname Cayman Isl. Ethiopia Iceland Anguilla US Virgin Isl. Guadeloupe Mexico Risk classes 1 Malta Botswana Egypt Barbados 10 Cyprus Italy British Virgin Isl. Nigeria Luxembourg 9 Lithuania USA Cook Isl. Russian Federation Faroe Islands Ukraine 8 Ghana Norway Jordan Brazil 7 Martinique American Samoa Kuwait Sweden South Africa 6 0.1 French Polynesia Germany Oman Belgium UK 5 Saudi Arabia 4 3 2 1 0.01 0.1 1 10 100 1 000 10 000 100 000 Modelled fatalities per year (absolute) Source: Global Assessment Report on Disaster Risk Reduction, United Nations International Strategy for Disaster Reduction (2009) 7 THE FORCES OF NATURE: HAZARDS IN THE SOUTH ASIA REGION 8 Bangladesh 9 THE FORCES OF NATURE: HAZARDS IN THE SOUTH ASIA REGION 18. South Asia is exposed to a variety of hazards Figure 5: Monsoon Precipitation Patterns due to the geo-climatic characteristics of the region. These hazards range from avalanches and earthquakes to glacial lake outburst floods (GLOF) in the Himalayas in the North, droughts and floods in the Plains, and cyclones that originate in the Bay of Bengal and the Arabian Sea. Importantly, many countries in the region share common geological formations and river basins, and natural hazards frequently transcend national boundaries. 19. Hazard exposure is primarily due to two geographic features of the region, the Himalayan mountain belt and the coastal waters of the Indian Ocean, including the Bay of Bengal and the Arabian Sea. The Himalayan ecosystem sustains almost Source: Diercke International Atlas 1.5 billion people, many of whom live in the floodplains of its main rivers (e.g., the Brahmaputra, Ganges, Indus, and Kosi). south of the Tibetan plateau and is coupled These rivers originate in the mountain region, with converging temperatures between carrying huge volumes of high sediment the highlands and the Indian Ocean. The water into the plains of Pakistan, India, and tropical easterly jet forms over India, clearing Bangladesh. Given their size and sediment the way for approximately 3,000 meters of levels, the rivers are difficult to manage and powerful monsoon rains that move over cause significant flooding on a regular basis. South Asia. The summer monsoon flows The monsoon weather pattern, formed in the to the equatorial trough of the Intertropical northern part of the region, traps humidity Convergence Zone, whose low pressure and causes intense rainfall that often leads trough moves from southwest India to the to flooding. Major fault lines run through northern part of the subcontinent. As a result, the mountainous regions as pressure builds the first monsoon rains begin in southwest from the Indian plate pushing north, resulting India in late May, with the monsoon front in large-scale seismic events. Finally, the reaching its northernmost position, by warm waters of the Indian Ocean generate August. high intensity cyclones that impact nearly all coastal areas in the region. 21. The monsoon carries more than 70 percent of South Asia’s annual precipitation in a 20. The annual monsoon is the most significant brief four-month period. A good monsoon hydro-meteorological threat in the region. In brings strong harvests and financial security, early summer, the westerly wind flow breaks but a poorly timed monsoon, can result in 10 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 6: Flood and Cyclone Occurrence in South Asia (1971 – 2010) Percentage of people impacted by Flood Floods as a percentage of SAR events Source: Emergency Events Database (EM-DAT: The OFDA/CRED International Disaster Database) human suffering and economic loss due to loss caused by disasters in the areas affected either flooding or drought. In addition to the by floods. However, due to the low value of timing of rainfall for agricultural purposes, the capital stock in the region, flood losses in the intensity of rainfall over short periods of SAR only accounted for 15.4 percent of the time can have serious effects. For example, total value of global annual flood loss. excess rainfall may lead to oversaturation of watersheds and can cause flash flooding, 23. Cyclones are the second most commonly which requires resilient flood control occurring hazard in the region. Two infrastructure and early warning systems. cyclone events in particular in Bangladesh Lack of rainfall, or even delayed precipitation, had extremely strong impacts; the 1970 can have a significant impact on agricultural cyclone that killed approximately 300,000 output since approximately 60 percent of the people, and the 1991 cyclone that killed region’s cultivated area is rain-fed. almost 140,000. While in 2010 human 22. Flooding is the most common disaster vulnerability to cyclones of low-income event in the region and impacts the greatest countries was about 20 percent lower than number of people. As shown in Figure 6, 64 in 1980, it was still 225 times higher than in percent of the global population affected by Organisation for Economic Cooperation and floods reside in SAR. Unlike earthquakes Development (OECD) countries.8 Although and cyclones, floods often take time to human vulnerability to cyclones has develop and are often known as slow- decreased somewhat, economic losses onset disasters. These events are not only associated with tropical cyclones have the most common, they also impact the increased. The average annual cost to GDP greatest number of people. Over the past due to exposure to cyclones from observed 40 years in SAR, floods have accounted for events in South Asia is approximately US$ approximately half of all disaster events, 4.3 billion, a 14 fold increase from 1970. impacted approximately 82 percent of all 8 individuals affected by disasters, and were   UNISDR (2011) Global Assessment Report on Disaster Risk Reduction. Geneva, Switzerland: United Nations International responsible for 80 percent of all economic Strategy for Disaster Reduction. T H E F OR C ES OF N ATU R E: H A ZA R D S IN TH E SOU TH A SIA REGI O N 11 24. With over 600 million people living along Asia, in contrast to 160 million people in the fault line across the Himalayan belt, OECD countries. The urban population earthquake exposure is very high. The exposed to cyclones is expected to grow at world‘s youngest mountain belt, the 2.2 percent per year up until 2050. Exposure Himalaya and Hindu Kush, envelopes to earthquake risk will increase significantly South Asia all along its northern as well. The fastest exposure growth rate in fringe, from Afghanistan in the west to the world is in South Asia, at 3.5 percent per Bangladesh in the east. The Himalaya is year. The density of people and economic still evolving due to the northward push activity in major cities across the region of the Indian Plate towards the Eurasian such as Chittagong, Delhi, Dhaka, Karachi, plate, resulting in the largest active Kathmandu, Lahore, and Mumbai will continent-continent collision zone on earth. continue to increase, and the exposure of On average, earthquakes affect 660,000 economic assets to natural hazards will be people per year across the region. Major considerably higher. Figure 7 demonstrates earthquakes over the past 10 years include the size of populations exposed to the 2001 Bhuj earthquake, the 2004 earthquakes, cyclones, and to both these Sumatra earthquake and tsunami, and the hazards. The most striking element of the 2005 Kashmir earthquake. figure is the growth in urban populations 25. In South Asia, major population centers exposed to these hazards between 2000 live on key fault lines and in coastal areas and 2050. Due to population growth and that are exposed to hazards, and exposure continued urbanization in the exposed will increase significantly over the next 40 megacities listed above, SAR may become years. By 2050, there will be 246 million city the most vulnerable area in the world to dwellers in cyclone-prone areas in South disaster events. Figure 7: Population at Risk to Specific Hazards Population both hazards: Population with cyclones: Population with earthquakes: Other population: add 2050 add 2050 add 2050 add 2050 AUGUST 2010 2000 2000 2000 2000 International boundaries IBRD 37875 Source: Natural Hazards, UnNatural Disasters: The Economics of Effective Prevention (2010) India 13 MAJOR DRIVERS OF INCREASES IN DISASTERS 26. The impacts of hazard events are escalating to over 1.4 billion people, relegating more not only due to the increased incidence people in areas exposed to natural hazards. and intensity of events, but also because Today, 65 cities in SAR have a population of of changes in the underlying factors that more than 1 million; 5 of which are cities with influence exposure and vulnerability. populations of over 10 million, and another 4 Exposure is driven by a number of socio- cities have populations nearing these figures. economic dynamics, including: i) population Delhi, Dhaka, Karachi, Kolkata, and Mumbai growth and density in hazard prone areas, ii) are expected to reach the status of cities with economic expansion, and iii) concentration populations of over 20 million in a few years. of economic assets in expanding megacities Currently, no other region of the world has and rapidly growing secondary cities. The a concentration of so many mega cities as vulnerability of exposed assets increases South Asia. due to i) mismanaged development that undermines the capacity of the population 28. The population of SAR is increasingly to withstand the impact of hazard events, concentrated in hazard zones. People live and ii) environmental factors including in densely populated areas around the climate change. fertile river valleys of the Ganges, Indus and Brahmaputra that are prone to frequent and intense flooding. A large number Population Growth have settled along coastal lines, such as nearly half of Bangladesh’s population or 27. SAR has experienced a rapid pace of population all of Maldives’ citizens. This population is growth in recent years. The population in confronted with substantial cyclone and the region has doubled in the last 40 years flood risk. Large numbers of people also Figure 8: Actual and Projected Population Growth in SAR (1950-2050)  2,500,000     Total  Popula6on   Rural  Popula6on   Urban  Popula6on   Population (number in thousands)  2,000,000      1,500,000      1,000,000      500,000      -­�         1955   1965   1975   1985   1995   2005   2015   2025   2035   2045   1950   1960   1970   1980   1990   2000   2010   2020   2030   2040   2050   Source: The UN World Urbanization Prospects, 2009 14 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 9: Population at Risk in 2000 vs. 2050 2000 2050 Population both hazards add 2050 2000 Population with cyclones Population both hazards add 2050 2000 2000 Population with thquakes Population with earthquakes 2000 add 2050 Population with cyclones 2000 2000 Other population Other population add 2050 2000 2000 Source: Natural Hazards, UnNatural Disasters: The Economics of Effective Prevention (2010) live around the Himalayan belt, prone to 30. The proportion of GDP devoted to fixed earthquakes, landslides, and excess rainfall. investment has increased over time, Figure 9 demonstrates the projected growth correlating with progressively rising rates of population centers exposed to cyclones, of economic growth. In SAR as a whole, earthquakes, and both these hazards in SAR. annual growth in gross capital formation has been 7.79 percent. This measure includes Economic Expansion investments in land, plant, machinery and equipment, and construction of social and 29. High levels of economic growth have economic infrastructure. As shown in Figure increased the exposure of physical assets to 10, investments have escalated significantly hazards, but corresponding risk management within the past 10 years. A larger share of this practices to protect these assets have capital stock is located in areas that are highly been limited in SAR. Between 1991 and exposed to natural hazards, but reductions in 2009, annual gross fixed capital formation the vulnerability of these assets has not kept has grown by 320 percent. In other words, pace with such investments. Due to the lack the amount of physical assets exposed to of resilient development efforts, increased hazards has grown exponentially. Without disaster risk is driven in part by such high proper building codes and land use planning, rates of economic growth. greater concentration of vulnerable assets 31. Despite recent advances in economic exposed to natural hazards results in greater growth, SAR lags behind most of the risk. For example, poor construction in high world in GDP per capita, and the total seismic risk areas can dramatically increase value of disaster losses is lower relative to vulnerabilities to earthquake events. In SAR, other regions. As such, the less developed the majority of the capital stock is not resilient economies are more vulnerable to the to potential hazards and therefore vulnerable human impact of disasters, despite their low to loss during hazard events. absolute value of losses. Weak intersectoral M A JOR D R IVER S OF IN C R EA SES IN D ISASTERS 15 Figure 10: Indexed Gross Fixed Capital Formation – 100 in Base year 1965 9,000 Afghanistan Bangladesh India 8,000 Nepal Pakistan Sri Lanka TOTAL 7,000 GDP per capital (current US$) 6,000 5,000 4,000 3,000 2,000 1,000 - 1965 1967 1969 1971 1973 1975 1977 1979 1981 1983 1985 1987 1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 Source: The World Bank linkages, a high degree of self-provisioning, as a result of the 2004 Indian Ocean tsunami and poor transport infrastructure may cause and 20 islands were completely destroyed.9 multiplier effects from disasters to be fairly Over one-third of the country’s population limited. Nevertheless, the physical impact of was severely affected by the event and the a disaster can be severe, causing widespread total cost of the damage was estimated to destruction and sometimes high loss of life. be over US$4.8 billion. In the aftermath of Often, these disasters exacerbate existing the tsunami, government officials estimated problems of indebtedness and poverty that that the Maldives was set back at least two are endemic in the region. decades in terms of its socio-economic development. 32. High vulnerability to hazard events can undermine recent advances in economic development. South Asia has experienced Urbanization significant economic growth over the past 33. South Asia traditionally has been one of two decades, improving health, education, the least urbanized regions in the world; access to basic infrastructure and income- however, today movement from rural to generating opportunities. However, a single, urban environments is steadily increasing. high-impact natural disaster can erase these Urbanization has increased steadily since advances in an instant in certain poor, highly 1950. In 1950, when the steady growth in vulnerable localities. In the aftermath of urbanization began, only about 15 percent these events, governments are forced to of the region’s population lived in urban reallocate scarce resources for recovery environments. This is in contrast to most from hazard events, sometimes delaying or other regions of the world, which started even halting important long-term programs urbanizing earlier and have done so more that have contributed to the growth of the 9 region. For example, of the Maldives’ 199   Republic of the Maldives, Tsunami: Impact and Recovery. Joint Needs Assessment, The World Bank, Asian Development Bank, inhabited islands, 53 suffered severe damage and the United Nations. February 8, 2005. 16 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 11: Population trends in SAR (1950-2050) 90%   80%   Percent of Total Population 70%   60%   Percentage  Urban   Percentage  Rural   50%   40%   30%   20%   10%   0%   1950   1955   1960   1965   1970   1975   1980   1985   1990   1995   2000   2005   2010   2015   2020   2025   2030   2035   2040   2045   2050   Source: The UN World Urbanization Prospects, 2009 rapidly than SAR. As movement from rural to in slums, while the figure could be as high urban environments continues, it is estimated as 60 percent in Mumbai. Not only is the that the total urban population will increase current and projected rate of urbanization from 449 million in 2007, to 913 million in significant, given the sheer size of the South 2025, and subsequently to 1.32 billion in Asian population and the conditions they live 2050. In absolute numbers, such growth will in, managing the migration of people from be most pronounced in large countries like rural to urban areas is a key challenge across India, Pakistan, and Bangladesh. the region. 34. Given the current size of the overall SAR 35. South Asia’s secondary cities are growing population – 1.4 billion – the movement of faster than the megacities. These locations people to cities has been unplanned and are often in hazard prone areas and have disruptive. Most of these urban centers are fewer resources and lower capacity to hazard prone, and as they grow, so does the develop in a manner that takes disaster exposure to the hazards. This steady rise in risk into account. As a result, growth and exposure is leading to greater disaster risk. expansion is typically more chaotic, which increases vulnerabilities to hazards. As these Dhaka, the capital of Bangladesh, is home to cities continue expanding, incorporating 34 percent of the country’s population and disaster risk management into development is among the fastest growing cities in Asia. planning will be critical to their resilience. Around 40 percent of those living in Dhaka are slum dwellers. A quarter of Nepal’s 36. The growth and high population density population live in cities, while 36 percent of in SAR’s megacities will continue to make Pakistan’s population is now concentrated them vulnerable to disasters if development in urban centers. In India, 93 million people is not properly managed. With a projected are estimated to be living in slums – half the population of 100 million inhabitants in population of the capital city of Delhi live 2015, Mumbai, Delhi, Dhaka, Kolkata and M A JOR D R IVER S OF IN C R EA SES IN D ISASTERS 17 Figure 12: Growth of Cities in SAR (1950-2050)  350,000     Total  Popula5on  of    ci5es  over  750,000   Total Population in thousands  300,000     Total  Popula5on  of  other  urban,  Non  Megacity  Areas    250,000     Total  Popula5on  of  Megaci5es    200,000      150,000      100,000      50,000      -­�         1955   1965   1975   1985   1995   2005   2015   2025   1950   1960   1970   1980   1990   2000   2010   2020   Source: The UN World Urbanization Prospects, 2009 Karachi, the five megacities associated with of infrastructure facilities. Cities and towns increasingly high population densities and across the region are facing challenges in concentrated high economic growth, are delivering power, water, sewage, developed some of the fastest growing megacities land, housing, transportation, communication in the world. All rank among the 17 most and other facilities. populated megacities, with growth rates sometimes twice as high as the rest of the 38. The imperfections in land and housing country’s population. The GDP of SAR’s markets have virtually left the urban poor urban agglomerations contributes 25 with no alternative except to seek informal percent to the region’s GDP. The increasing solutions to their housing problems. About formation of slum areas, as well as urban one third of urban dwellers are living below expansion, is pushing for development the poverty line and under sub-human in disaster-prone areas, making SAR’s conditions in slums. The growth of informal megacities disaster hotspots.10 Such high settlements and inner city slums, whether levels of growth in areas exposed to natural fuelled by international migration or internal hazards is detrimental unless resilience is migration from smaller urban settlements built into long-term development efforts. or the countryside, has led to the growth of unstable living environments. These Mismanaged Development settlements are often located in ravines, on 37. The largely unplanned growth of cities in the steep slopes, along flood plains or adjacent to region has had negative effects on the quality noxious or dangerous industrial or transport of urban services and on the environment, facilities. Many people, especially minorities leading to high vulnerability. The scale of or groups of low social status, can become urbanization has far outpaced the provision socially excluded and politically marginalized, 10   “Megacities-Megarisks: Trends and challenges for insurance and leading to a lack of access to resources and risk management�, MunichRe (2004). increased vulnerability. 18 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 39. Poor land use planning and ill-enforced engineered structure is a safe environment. building codes result in structures that are In reality, many of these buildings are at highly vulnerable to hazard events. Without greater risk to seismic events than informal a strong culture of safety and proper slums due to sub-standard construction enforcement mechanisms to ensure practices. Other infrastructure, including resilient construction of buildings, these water, transport, and power are often not structures are often not strong enough built with hazard exposure in mind. Due to withstand hazard events. As levels of to the added marginal cost of building resilient structures, this is often overlooked economic growth in SAR increase, millions by contractors, which creates significant of people move into the middle classes and vulnerability in the capital stock. have adequate income levels to upgrade to masonry homes and apartment buildings. 40. Interconnection among populations in hazard However, many residents live with a false prone areas brings interdependency. South sense of security that their professionally Asia faces enormous challenges in the task Box 1. The Next Big Earthquake in Nepal In the 20th century alone, over 11,000 people have lost their lives due to earthquakes in Nepal. The 1934, 8.4 magnitude, Bihar-Nepal Earthquake produced strong shaking in the Kathmandu Valley, damaging 40 percent of the area’s building stock. In Kathmandu itself, one quarter of all homes were destroyed along with several historic sites. The seismic record of the region, extending back to 1255, suggests that earthquakes of this size occur approximately once every 75 years, indicating that devastating earthquakes are inevitable in the long term.1 With an annual population growth rate of 6.5 percent per year and one of the highest urban densities in the world, the 5.3 million people living in the Kathmandu Valley are clearly facing a serious and growing earthquake risk. Among the 20 cities around the world in high risk seismic zones, Kathmandu is the most at risk, and the risk is increasing every year.2 This is mainly due to the increased vulnerability of exposed populations resulting from uncontrolled urban development and weak construction practices. To accommo- date the doubling of the population over the past decade, buildings have grown quickly in number and height, especially given the high demand by the increasing number of households who have benefited from the country’s 3.5 percent per annum GDP growth rate and are now a part of the middle classes. Though the quantity of capital stock has skyrocketed, the quality is lagging behind. In the Kathmandu Valley, nearly 6,000 concrete houses are built every year, and mostly without proper engineering and seismic force considerations. Kathmandu’s buildings are unsafe, in part, because 90 percent are designed by traditional masons instead of profes- sional engineers. Less than 1 percent of Nepal’s schools and hospitals have received substantial safeguards, and over two-thirds of the capital’s structures are not fit to withstand an 8 magnitude earthquake on the Richter scale. The government has failed to control the Valley’s rapid development, and nearly all construction that has taken place thus far has not accounted for the seismic risk of the area. The Ministry of Physical Planning and Works is in charge of urban development, but the country’s political instability undermines the agency’s ability to reign in municipal authorities, who control the distribution of build- ing permits and rarely enforce codes. Furthermore, the technical information about earthquake risk in the Kathmandu Valley is not applied to the infrastructure of modern-day Kathmandu Valley, and is not presented in a form that is comprehensible to the public and to government officials. The next large earthquake to strike will cause significant loss of life, structural damage, and economic hardships, unless immediate action is taken by public and private stakeholders to reduce the vulnerability of exposed populations in the Kathmandu Valley. 1 Government of Nepal, Department of Mines and Geology. 2 GeoHazards International. M A JOR D R IVER S OF IN C R EA SES IN D ISASTERS 19 of improving resilience to hazard events. human activities.11 South Asian countries Achieving resilience will require a continuous account for only 2 percent of the world’s process that aims to build consensus among forest area. When compared to the world national decision makers and technical average forest cover, 25 percent, the region’s experts to pursue a common goal of reducing forest cover rates are much lower at 18.7 the disaster risk that could threaten the percent. Forests increase resilience to hydro- region’s long-term development. Such efforts meteorological hazards by providing a buffer can only be addressed by instilling a culture against landslides and tsunamis; in rural areas of prevention that permeates public and forests also provide essential resources and private spheres. Success in accomplishing products that enhance the livelihoods of this goal is dependent on the inclusion of local communities and indigenous peoples. multiple stakeholders and shifting mindsets Planned adaptation in South Asia can help to proactively address risk. As attitudes ensure that forests continue to provide these change, the collective understanding of risk services while avoiding negative impacts on may improve, the major disincentives for the ecosystem and the wider landscape. resilient development may be identified, and 43. By altering the hazard profile, climate change support may be provided for prevention. can exacerbate SAR’s risk of suffering from 41. Disaster management agencies have been disaster events. The World Bank’s Climate established across the region since 2004, Change Strategy for South Asia highlights but they lack clout to influence planning the major climate change trends expected and development agendas. In SAR, the to take place in the future. While there is not mandate of most national and local disaster yet consensus in the scientific community management agencies is to empower whether and to what extent climate change various line ministries to incorporate increases the number and severity of effective DRM practices into their day-to- climatic events, there are several prominent day functioning. However, given limited studies suggesting that there exists a fiscal resources and human capacity, these causal relationship. Moderate scenarios mandates have not yet been achieved. project less and less frequent precipitation Policies and legislation for managing natural in the already dry areas of Afghanistan, disasters are often insufficiently enforced in western India and parts of Pakistan, SAR. This is coupled with a highly vulnerable potentially increasing the frequency population that is neither well aware of the and duration of droughts. As shown in risks it faces, nor of the response it should Figure 13, the mean global temperature have in the case of a natural disaster. has increased 0.7 degrees Celsius since 1975 and scientists expect the trend Environmental Degradation in global warming to continue. Higher and more variable rainfall, as well as increased and Climate Change glacier runoff, is expected to increase 42. South Asian countries suffer from rapid the frequency and intensity of floods, deforestation, with negative environmental especially affecting monsoon-dependent repercussions. The deforestation rate in the areas. Sea level rise and eventually reduced region is approximately 1.1 percent annually, glacier runoff are other areas of concerns of and about 88 percent of the region’s forest disaster risk management in the future. cover has been lost due to logging and other 11   Cal Poly Pomona, BioTrek. 20 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 44. The retreat of some glaciers in the Hima- percent of the country’s population. Many of layas presents a challenge to the region. the region’s primary cities — Chennai, Cochin, The Himalayan ecosystem supports some Karachi, Kolkata, and Mumbai — are the en- 1.5 billion people that live directly in the gines of regional growth and are located on floodplains of the many rivers it supports (e.g. the coast and threatened by sea-level rise. Indus, Ganges, Brahmaputra, and Meghna). This system influences monsoon dynamics, 46. The most severe impacts of climate change acts as a natural reservoir to sustain crops, are likely to be widespread and will call for provides groundwater recharge, and is home coordinated regional responses. For example, to a unique ecosystem with an abundance of Bangladesh shares 54 rivers with India. endemic species. With rising temperatures, Changes in upstream runoff and demand due the ice mass of the Himalayas and Hindu to climate change could significantly impact Kush are retreating more rapidly than the future water availability across all these rivers. global average, which is increasing both Likewise, sea-level rise could displace much flood and drought risks. of the population along the coastal zone and induce cross-border migration. Adaptation 45. Sea-level rise is a further concern given the long to climate change might therefore require and densely populated coastlines, and many not just local action but also cross-boundary low-lying islands. In the worst case climate- cooperative arrangements on disaster and change scenarios, sea-level rise could pose an climate risk management. Partnerships existential threat, potentially submerging much and coordinated approaches provide a cost- of the Maldives and inundating 18 percent of effective way of adapting to the impending Bangladesh’s total land, directly impacting 11 climate related risks. Figure 13: Global Land-Ocean Temperature Index (1880-2010) 1 0.8 Annual Mean 5-year Mean 0.6 Temperature Anomaly (oC) 0.4 0.2 0 1880 1885 1895 1905 1910 1920 1930 1940 1945 1955 1965 1970 1975 1980 1990 2000 2005 1890 1900 1915 1925 1935 1950 1960 1985 1995 2010 -0.2 -0.4 -0.6 -0.8 Source: NASA’s Goddard Institute for Space Studies (GISS), 2011 21 PREVENTION IS BETTER THAN CURE: BUILD CAPACITY AND REDUCE VULNERABILITY 22 India 23 PREVENTION IS BETTER THAN CURE: BUILD CAPACITY AND REDUCE VULNERABILITY Risk Identification 47. The traditional approach to disasters in SAR 49. Any effective strategy to manage disaster has been to focus on responding to events risk must begin with an identification of the and reconstructing damaged assets in the factors that cause disasters. Inputs include aftermath. By and large, the response of physical hazard data and localized socio- the major stakeholders has been reactive economic and demographic data. More rather than proactive, and this approach specifically, hazard mapping serves as the has resulted in accumulated casualties and base layer of information and provides economic losses that were higher than data on the probability of occurrence and necessary. However, if the vulnerability intensity of a hazard event. The second layer of exposed people and assets had been required is an understanding of the nature understood and addressed through various of the people and assets exposed to the preventative measures, the losses suffered hazard prone area. Third, an assessment over time would have been lower. of the physical, social, economic, and environmental factors of an exposed area 48. With a recent increase in awareness and a determines the vulnerability of human and growing understanding of disaster risk, policy physical capital. Such hazard, exposure, makers in SAR are beginning to take a more and vulnerability assessments are valuable proactive approach to managing disaster risk. tools for individuals and policymakers as It is imperative that governments continue to they determine how to effectively mitigate mainstream disaster risk management into disaster risk. their planning and development processes. The first step is identifying the risk in terms 50. The process of collecting and maintaining data of both the hazards that are prolific in a must be ingrained within strong institutional particular region, and the people and assets systems to be effective and reliable over that are exposed to these hazards. Increasing the long-term. Technical experts can project the awareness of the potential risk across future risks from historical information on all levels of society will further enhance the intensity of natural disasters and their the importance that is given to this issue. consequential losses. However, SAR suffers Policymakers must then use this information from a dearth of historical disaster loss data, on hazards and exposure to decrease the and national disaster management agencies vulnerability of their populations through have only recently begun to systematically both structural and non-structural activities determine the social and economic impact designed to mitigate the overall disaster risk. of disasters. Going forward, local agencies For the residual vulnerability that cannot be must continuously update information after addressed, governments should develop each disaster in accordance with international comprehensive risk financing strategies standards. Accurate and comprehensive loss that include setting aside reserves for post- assessment practices must be employed, disaster situations, and accessing financing and governments should allow the data to mechanisms such as contingent credit be archived in geo-referenced, open-source and risk transfer facilities. Maintaining databases that are easily accessible to momentum and promoting sound disaster relevant stakeholders. Fulfilling these tasks risk management practices will lead to safer, comprises clarifying institutional mandates, more resilient communities in the future. determining comparative advantages in 24 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview generating and managing information on 53. The process for initiating change can be risk factors, and augmenting capacity where bottom-up. Local governments, community needed. based organizations, and NGOs can utilize various interactive tools to engage individuals 51. As risk identification advances, decision at the local level. For example, in high-risk makers across all sectors need to be earthquake zones in Nepal, school awareness engaged in the planning process. Much of initiatives teach children from a young age this work is undertaken by scientists and about the hazards their communities are engineers; however, a collaborative approach exposed to and the appropriate responses between technical experts and government in case of a disaster. Programs that mobilize officials who act upon the data is required to communities to implement disaster risk ensure that the disaster risk characteristics management measures in the cyclone- are taken into account in the development affected areas of Bangladesh continue to process. Development planners and decision foster awareness in adult life and strengthen makers are not merely end users; they are the self-help capabilities of endangered collaborators in the task and their needs direct populations. Media campaigns utilizing the components of the risk assessments multiple channels of communication such that are developed. Assessments of disaster as picture-based signs and brochures, radio risks and corresponding risk levels can and television announcements, and mobile support the incorporation of risk mitigation technology in tsunami-prone areas of India, and transfer activities into a country’s long- all disseminate messages to cultivate term development plans. With the input responsibility and defy the psychological of relevant stakeholders, risk identification predispositions of denying disaster risk. enables a government to establish its These small investments at the community priorities, develop risk management plans, level can result in large behavioral shifts over the long-term. and create effective policies that strike a balance between minimizing risk and expending limited fiscal resources. Risk Mitigation 54. Reducing disaster risk calls for all stakehol- Risk Awareness ders to alter their perceptions and prioritize resilience in a country’s planning and 52. Once disaster risks have been identified, development efforts. It comprises actions they must be communicated in a manner to prevent, mitigate, and prepare against that motivates individuals to increase their the damaging impact of hazards and thus resilience to disasters. Governments, civil minimize the potential consequences on society, and the private sector can raise physical and human capital. A range of social, awareness of risks and risk-mitigation economic, environmental, and technical principles at the national, regional, and issues must be addressed through proper community levels. Awareness leads to investments in infrastructure and holistic public demand for risk resilient policies and policies that promote safety throughout can in turn lead to sustainable development sectors. Examples of structural measures in the future. This is the crucial step in to improve existing infrastructure include cultivating behavioral and institutional embankments to control the flow of changes necessary to shift from a culture waterways during flood events, and physical of emergency response to one of advance reinforcements to strengthen vulnerable preparedness across SAR. buildings. Non-structural measures include PRE V E N T ION IS B E T T E R T H A N C U R E: B U ILD C A PA C ITY A N D R ED U C E VU LN ER ABI LI TY 25 Figure 14: Benefits of Investing in Risk Mitigation CATASTROPHE CATASTROPHE ... reduces the immediate e ect of a catastrophe, Impact on Society Investment in physical resilience... ... longer term impact, ... ... and allows a faster recovery. Source: World Economic Forum, A Vision for Managing Natural Disaster Risk Time land use policies to control development building construction and maintenance. in hazard prone areas, and early warning The public sector can also provide adequate systems to alert communities of approaching economic incentives to owners of existing threats. To be most effective, these activities structures to retrofit their buildings for the must be tailored to the context of local benefit of tenants and the public at large. communities and integrated into long-term The economic rationale for pre-disaster development plans. investments in risk resilient infrastructure far outweighs the post-disaster costs 55. Enhancing physical resilience of new governments would have to incur to rebuild infrastructure is one of the most important affected communities. risk mitigation measures SAR governments can undertake to prevent the lock-in of future vulnerability. Demographic shifts, Risk Financing and Transfer population growth, and steady rates of 56. In South Asia, the state bears much of urbanization in the region are increasing the costs related to disasters, including the number of people and the amount of both explicit and implicit obligations. assets in harm’s way. It is impossible to In the developed world, risk transfer move people away from their homes and mechanisms such as insurance cover livelihoods in megacities such as Mumbai, approximately 30 percent of economic Karachi, Delhi, Dhaka, and Kolkata, but it losses. In most low-income countries is possible to institute planning processes including those in South Asia, however, that prevent weak construction in high risk these tools only cover 1 percent of areas. Engineering and academic experts losses.12 As a result, funds are diverted from can be consulted to identify best practices already strained public budgets to respond and develop enforceable building codes. 12 The onus is on the government to enforce   Linnerooth-Beyer, J. and Mechler, R. (2007). Insurance against Losses from Natural Disasters in Developing Countries. Background such codes and improve supervision of paper for the United Nations World Economic and Social Survey. 26 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview to disaster emergencies, thus further strengthening the financial preparedness of delaying long-term economic and social communities is critical to a country’s overall advancement in the region. Tools have been resilience to natural disasters. developed by the World Bank to alleviate 57. Governments should aim to develop risk this burden and assist governments and financing strategies in which risks are their citizens to more effectively manage distributed among a variety of capital bases disaster risks. At the macro-level, these that, in aggregate, can adequately withstand instruments can reduce the impact of the costs of natural disasters. Fiscal reserves disasters on a country’s overall growth and contingencies built within a country’s prospects, and on the micro-level they protect annual budget are the most economical individuals’ homes and livelihoods. As such, sources of ex-ante risk financing and can Box 2. Cyclone Disaster Mitigation in Bangladesh Bangladesh is highly exposed to cyclone hazards because of its location at the triangular shaped head of the Bay of Bengal and the sea-level geography of its coastal area. About 40 percent of the total global storm surges are recorded in Bangla- desh, and the deadliest cyclones in the past 50 years are those that have struck Bangladesh. However, the number and severity of cyclones in Bangladesh and the associated mortalities have varied greatly during this time period. The two dead- liest cyclones occurred in 1970 and 1991, resulting in 500,000 and 140,000 deaths, respectively. Most recently, Cyclone Sidr struck land in 2007, the most intense disaster event in the country’s history, but only caused 4,234 deaths, a 100-fold reduction compared to the 1970 cyclone.1 In the past 50 years, Bangladesh has learned how to adapt to recurrent cyclones and has succeeded in significantly reduc- ing cyclone-related deaths. Its programs aim to minimize vulnerability to cyclones by strengthening and developing disaster preparedness and response capacity in coastal communities, and by increasing the effectiveness of volunteers. This has been achieved by modernizing early warning systems, developing shelters and evacuation plans, constructing coastal embankments, maintaining and improving coastal forest cover, and raising awareness at the community level. Initiatives at central and local governmental, non-governmental and community levels seem to be the key for success in minimizing cyclone-related mortality. Bangladesh’s government has successfully utilized its increased revenues from 5.5 percent GDP growth per annum to invest in risk resilient infrastructure. Prior to 2007, the country had 1,500 shelters, each capable of offering refuge to up to 5,000 people in coastal districts. After Cyclone Sidr, the Bangladesh government initiated the construction of 2,000 new cyclone shelters in 15 low-lying coastal districts. Since 1960, a series of embankments have also been constructed to protect coastal regions, including 4,000 km of coastal embankments surrounding the Bay of Bengal and offshore islands. Reforestation of approximately 1,200 km of mangrove forests in Bangladesh has been carried out to mitigate cyclone risk, as it is known to serve as a protective barrier during cyclones. Under the Cyclone Preparedness Program, Bangladesh has implemented awareness campaigns to disseminate information about cyclone warning signals and preparedness mea- sures, using meetings, discussions, posters, leaflets, films, and demonstration performances. All in all, The Government of Bangladesh has invested more than US$10 billion during the past 35 years to make Bangladesh less vulnerable to natural disasters.2 The country has come a long way in its efforts and should continue to strengthen disaster planning in its long- term development goals and practices. 1 Reduced death rates from cyclones in Bangladesh: What more needs to be done?, Bulletin of the World Health Organization, 2012, 90:150-156. 2 Bangladesh: Economics of Adaptation to Climate Change Study. PRE V E N T ION IS B E T T E R T H A N C U R E: B U ILD C A PA C ITY A N D R ED U C E VU LN ER ABI LI TY 27 be used for small-scale events which may events at the national and sub-national occur frequently, but do not exert significant levels. At the regional level, the South impacts on a country’s financial resources. Asian Association for Regional Cooperation As the severity of events increases, (SAARC) is promoting comprehensive DRM individuals and governments should transfer engagements. SAARC supports knowledge the risk they cannot retain under their sharing initiatives to increase preparedness own fiscal umbrellas. In addition, private and mitigation efforts amongst all its member catastrophe insurance schemes, developed countries. In furthering this agenda, it is in collaboration with the public sector, can important to promote projects analyzing the help protect individuals from disaster risks. possible roles of governments, NGOs, and On a national and regional scale, catastrophe private sector companies in risk reduction, bonds and catastrophe pools can be used as local and regional workshops heightening mechanisms to prepay for natural disasters the awareness of stakeholders to the and serve as a backstop of additional risk threat of natural disasters, and educational coverage for governments. A blend of and training activities that increase the public and private resources (shown in understanding of policymakers, decision Figure 15) that are customized to address makers, and practitioners about disaster risk location-specific risks will be the most management. comprehensive solutions for addressing financial risks associated with disasters. 60. Ultimately, individuals and governments across varying geographies and agencies Improving Institutional Capacity must work together to mainstream disaster risk management initiatives and build 58. Institutional weaknesses increase vulnerabi- resilient communities. Firstly, individuals lities to disasters. Policies and legislations for need to have access to information about managing natural disasters are often insuf- their exposure to particular hazards and the ficiently enforced in SAR. This is especially types of vulnerabilities they face due to the the case for building codes and land use social, economic, and political characteristics planning. Technical capacity for dealing with of their particular habitats. Guidelines and natural disasters is often constrained. Fur- resources often need to be provided by thermore, administrative bodies and public higher levels of authority within society, sector officials involved in disaster manage- even as day-to-day decisions and individual ment, such as those managing health or edu- commitments to participate in risk reduction cation programs, often lack training in disas- activities are implemented at the local ter risk management and show weaknesses level. Furthermore, governments must use in longer term planning. Sudden larger scale these guidelines as tools for determining catastrophes sometimes overwhelm the investments in risk-resilient infrastructure governments’ response capacities, further and developing institutional structures and exacerbating the impact of disasters. policies that enhance risk management. To 59. The region has begun efforts to institu- be most effective, decision-makers across tionalize and mainstream disaster risk mana- various lines of government must have a gement activities. To varying degrees, each robust understanding of the complex matrix country in the region has set out to establish of hazards, exposure, and vulnerability, and institutional structures and an ex-ante use this information to devise measures to approach to mitigate the impact of hazard build safe and resilient communities. 28 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 15: Combining Financial Instruments to Address Various Layers of Risk Source: Ghesquiere, F. and Mahul, O. (2010). Financial Protection of the State Against Natural Disasters: A Primer. The World Bank. 29 ANNEX 1 – REGIONAL HAZARD PROFILE 30 Pakistan 31 ANNEX 1 – REGIONAL HAZARD PROFILE Overview of Natural Hazards Cyclones, earthquakes and related tsunamis, systems subject to frequent severe flooding extreme precipitation especially during monsoon on an annual basis, and across the bordering rains, droughts, landslides, and Glacial Lake countries. The long coasts in the region are Outburst Floods (GLOFs) are all common natural subject to frequent cyclones and tsunamis. hazards in the region. The variety and level of The location of the region on the Indian plate hazards is shaped by some key geographic, exposes the region to substantial earthquake climatic, as well as geological features. risk and frequently associated landslide hazards, especially around the Himalayas. Deserts such SAR’s geography is very diverse, ranging from as in large parts of Afghanistan, and areas of high elevations in the Himalayas, to long coast- pronounced precipitation shortfalls, make the al lines formed by the Arabian Gulf, the Indian region prone to droughts. Many of the above Ocean and the Bay of Bengal. While Sri Lanka features are not confined to national borders, and and the Maldives are island states, and India is can cause trans-boundary hazards. For example surrounded by the sea, Afghanistan, Nepal, and floods originating in Bhutan and Nepal make their Bhutan are landlocked. These distinct features way into Bangladesh and Nepal. create a diverse geography that includes glaciers, rainforests, valleys, deserts, and grasslands. The number of reported disasters has been increasing over time. Figure 16 highlights the The Himalayan Mountains are mostly respon- increased frequency of disasters and demonstrates sible for feeding the largest river systems in that flood risk, in particular, is on the rise. the region. These include the Ganges (India and Bangladesh) and its tributaries in Nepal, the Indus Individual Hazard Assessments River (India and Pakistan), and the Brahmaputra River (India and Bangladesh). The drainage basin of all these three rivers is inhabited by a large Floods proportion of the population. Flooding is the most frequently occurring disaster The climate in most of the subcontinent is in SAR, causing half of the total damages in the determined by the tropical monsoon, with last 40 years. Floods persistently affect the largest the north characterized by more temperate number of people, on average approximately 27 conditions. The monsoon brings about 70 million per year, and cause an average of over percent of SAR’s annual precipitation on average US$1 billion in annual losses. These events in a four-month period. The rains are associated also lead to significant indirect losses that are with sea surface temperature and large scale often not measured. Indirect impacts include pressure variation of the atmosphere over the the degradation of agricultural land which southern Pacific Ocean (such as El Niño). subsequently diminishes agricultural productivity, impacting rural development and income The natural characteristics are the cause for a opportunities. This is particularly important in SAR number of prevailing hazards. Monsoon and where dependence on agricultural production for seasonal glacial runoff make the major river livelihoods remains high. 32 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure 16: Total Number of Natural Disasters in SA from 1960-2009 by Type of Event Source: EM-DAT: The OFDA/CRED International Disaster Database, www.em-dat.net – Universite Catholique de Louvain, Brussels, Belgium Besides excess rainfall, flooding is also caused Figure 17: Flood Risk in SAR by a number of environmental factors. Land use changes, such as land degradation, reduction of forest cover, and ecological degradation can and have significantly enhanced the risk of flooding in affected areas. For example, unplanned development in major urban centers has changed land use and led to poor drainage capacity, compounding vulnerability to high rainfall events. Except for Bhutan and Maldives, all countries in the region are subject to considerable and extreme flood risk. The highest and most concentrated flood risk can be found around the foot-hills and the flood plains along the Himalayan belt, along with nearly all of low-lying Bangladesh and many coastal areas in the region (see Figure 17). India and Bangladesh have recorded the highest number of flood-related disasters. Source: RMSI (2010) The two last major flooding events in the region have been caused by unusual monsoon rain patterns combined with excess glacier melting took place in 2010, and was the result of unusual and cyclones. The most recent major flood event monsoon rain in Pakistan. A N N EX 1 – R EG ION A L H A ZA R D PRO FI LE 33 The floods affected 20 million people and caused over the past ten years. Earthquake events occur an estimated US$10 billion in direct damage13. infrequently, although losses from major events Simultaneous floods in Bangladesh caused the can be substantial. loss of over two thousand lives over the course of four weeks. Floods in 2007 severely impacted SAR is one of the most seismically active regions Pakistan, India, Bangladesh, Bhutan, and Nepal. in the world. The origins of the frequency and intensity of earthquakes lie to a large extent in the Cyclones Himalayan belt, where the Indian plate is moving northward towards the Eurasian plate. Another The world’s deadliest reported storm events sensitive hotspot is the friction between the occur in SAR. Since 1970, 274 cyclones have been Indian plate and the Burmese Micro-Plate in the recorded, making it the second most common Bay of Bengal and the Indian Ocean. The Indian hazard in the region (see Figure 3). An estimated peninsula also suffers from atypical earthquake 3 million people are impacted annually. When events caused by intra-plate movements. extreme cyclone events occur, the death toll can be extremely high, such as the Bhola cyclone in The seismic zone around the Himalayas affects 1970, which killed 300,000, or the 1991 cyclone Afghanistan, Pakistan, India, Nepal, and Bhutan. in Bangladesh that was responsible for 140,000 Almost all of Nepal is at high or very high risk fatalities. More recently, Cyclone Sidr in 2007 of earthquake, as is the majority of Bhutan and was the strongest cyclone recorded in history. northern parts of India. The Indian islands of However, increased preparedness significantly Andaman and Nicobar are also at risk, along with decreased the number of fatalities, while still Sri Lanka, Maldives, and the coastal regions of causing US$2 billion in damage. eastern India and southern Bangladesh. Figure 18: Cyclone Risk in SAR Warm oceans, tropical climatic conditions, and specific wind patterns in the Bay of Bengal, the Andaman Sea, and the South China Sea expose the region to significant cyclone activity. Large parts of Bangladesh are subject to considerable cyclone risk, as are the coastal areas in West Bengal, Orissa, and Andhra Pradesh, in India. While the highest incidence of cyclone events is recorded in Bangladesh and India, parts of Pakistan and Sri Lanka are also at risk (see Figure 18). Earthquakes A considerable part of the region is exposed to earthquake hazard. On average, earthquakes affect 660,000 people per year and 145,000 people have lost their lives due to earthquakes 13   See joint WB-ADB Damage and Needs Assessment (2010). “Pakistan Floods 2010. Preliminary Damage and Needs Assessment�. Source: RMSI (2010) 34 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Figure19: Earthquake Risk in SAR Figure 20: Drought Risk in SAR Source: RMSI (2010) Source: RMSI (2010) In the past 10 years several major earthquakes as high temperature and wind velocity, and these have occurred. These include the 2005 Kashmir factors can last over several seasons. Human earthquake, the 2001 Bhuj earthquake, and the impacts, such as land degradation through multiple 2004 Sumatra earthquake that triggered the cropping, over-use, over-grazing, soil erosion, Ocean Tsunami. Most recently, the 2009 Bhutan deforestation as well as poor management of earthquake led to damage valued at 4 percent of water resources, can severely compound these the country’s GDP. natural effects. Economic, social and political vulnerability can turn these conditions into a Droughts disaster. Recorded drought events account for only a small Drought affects nearly all countries in SAR. India fraction of the total hazard events and little data and Sri Lanka have the highest record of drought exists on the impact caused by droughts. A large events, not just in SAR, but across the entire number of people are reported to be affected Asian continent. In addition, drought affects by drought, and nearly as many as by flooding significant parts of Afghanistan and Pakistan. in the region. However, reported causalities and damages are low. Studies report a lower The region experienced an increase in reported mortality rate and lower economic loss for SAR droughts between the end of the 1990s and the compared to other drought-prone regions in beginning of the 2000s, coinciding with severe the world, suggesting that the impact may be precipitation deficits. However, recent events underestimated due to under-reporting. are difficult to quantify due to a lack of data. Some of the latest drought events reported A drought disaster is generally caused by a includes the 2000 and 2002 droughts in Pakistan, combination of natural conditions and social during which, millions of cattle were reported vulnerability. Droughts occur under conditions of dead and several thousand people were forced rainfall deficiency and low air humidity, as well into migration. A N N EX 1 – R EG ION A L H A ZA R D PRO FI LE 35 Landslides The Himalayan range from Bhutan, Nepal, northern Uttar Pradesh, Bihar, West Bengal and Northern India and Pakistan, to Afghanistan is Bangladesh. Unplanned construction and poor particularly exposed to landslide risk. The most land use planning often leads to the construction recent recorded landslide event was the result of of homes on steep slopes, which increases the Faizabad earthquake in Afghanistan in 1998, household vulnerability to landslides. where the landslides were estimated to have caused thousands of casualties, burying whole GLOFs occur infrequently and only in some villages. specific areas. The risk posed by GLOFs is limited compared to other hazards in the region. The strong correlation of landslides with other Reported GLOFs in Bhutan and Nepal have led to a hazards such as earthquakes and cyclones has small number of casualties, but a sizeable amount resulted in an underestimation of the impact of damage. of landslides. In the past 40 years, only 500 fatalities due to landslides were reported and total estimated losses in the same period are valued at US$54 million. Several reasons have Figure 21: Landslide Risk in SAR been advanced for the under reporting, such as the fact that 20 to 30 percent of the casualties reported from earthquakes were caused by landslides. In addition, small but numerous landslides are not recorded in certain disaster databases. Landslides can be caused by ground acceleration or major rainfall events and can be compounded by human intervention. They are considered either dry or wet, depending on whether they had been triggered by an earthquake or resulted from hydro-meteorological extreme events, like severe rainfall. The breaking of natural dams caused by landslides – locally known as bishyari in Nepali – are common in the mountains, whilst river flooding occurs when rivers augmented by monsoon rains overflow their banks in the Source: RMSI (2010) plains in the south of the country, as well as in 36 37 ANNEX 2: COUNTRY PROFILES Afghanistan A N N EX 2: C OU N TRY PRO FI LES 39 AFGHANISTAN Figure 22: Map of Afghanistan Country Level Information Geographic Area (in sq km) 652,230 Population (in Millions) 28.39 Population Density (person per sq km) 44 Urban population (% of total population) 24 Arable land (% of total area) 13 Forest land (% of total area) 1 HDI country rank (out of 182) 181 GNI per capita (ATLAS method, in USD) 250 Agriculture, value added (% of GDP) 37 Industry, value added (% of GDP) 25 Services etc., value added (% of GDP) 38 AFGHANISTAN Source: WDI, (2007, 2008), HDI (2007), UNICEF (2008), FAO (2007) AFGHANISTAN Figure 23: Percentage Distribution of Reported Disasters in Afghanistan (1970-2009) Cyclones 5% Droughts 4% Landslides Disaster Statistics (1970-2009) Earthquakes 25% 10% Total Total Affected Disaster Total Casualties People type Disaster Total Annual Total Annual Earthquake 26 9,200 240 623,000 16,000 Flood 58 3,500 90 1,1M. 29,000 Drought 4 40 1 4,8 M. 122,000 Landslide 11 950 25 302,000 7,700 Floods 56% Cyclone 5 1,700 40 193,000 5,000 Total 104 15,400 400 7 M. 180,000 Source: EM-DAT 2010, accumulated figures Economic loss Potential 1 Annual Exceedance Economic Loss Percentage Probability (USD Million) of GDP 0.5% 280 3.3% Figure 24: Average Annual Economic Loss 5% 80 0.95% of Afghanistan 20% 25 0.30% Earthquakes 14% Source: RMSI 2010 (based on 1967-2006) Floods 86% 1 Estimates the probability (in percent) of annual economic losses exceeding specific amount of USD (in USD Million). The last column shows the probable annual economic loss as percent of GDP. 40 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 1. Disaster Risk Profile Main sources of risk of conflict and social unrest have undermined the country’s protective capacity. While the Afghanistan’s rugged mountain landscape and data quality is poor for Afghanistan, it can be generally arid climate make it prone to several natural estimated that the country is the poorest in hazards. Half of Afghanistan’s population lives at risk South Asia in terms of income and second to last from at least two of the following natural hazards: in human development outcomes worldwide, droughts, floods, earthquakes. The country’s low with exacerbated child and maternal mortality protective capacity makes the population particularly rates and very low life expectancy. The high vulnerable to such hazards, substantially increasing levels of absolute poverty and the lack of its risk to natural disasters. income generating opportunities, as well as the poor protective infrastructure, add to the high The Hindu Kush Mountains divide Afghanistan vulnerability of the population. into three distinct parts: 1) the Central Highlands, which are a part of the Himalayas, 2) the sandy Potential impact of climate change Southwestern Plateau, and 3) the fertile Northern Plains. The terrain is marked by a rugged mountain Despite the relatively limited information available on landscape and increasing desertification, which has resulted in land degradation and water scarcity climate change impacts in Afghanistan, the country in some areas. The climate ranges from arid to is, and will continue to be, affected by climate semi-arid, with large temperature differences change. Climate change projections for the region between altitudes and between warm and cold anticipate increasing temperatures and decreasing seasons. Areas of extreme heat are often the annual rainfall, which are expected to exacerbate ones with the lowest precipitation. the population’s vulnerability to natural disasters, particularly to drought. Drought and flood are key challenges in Afgha- nistan. Drought events have deteriorated much Studies have shown that temperatures have been of Afghanistan’s natural resource base and increasing while rainfall has been decreasing over these events impact the largest proportion of the past 40 years. This trend will likely continue the population – impacting over four times as in the future, extending periods of heat and of many people as do floods. In addition, the high low to zero precipitation, which will in turn cause variability of precipitation throughout the country more drought events, accelerate desertification, can cause unforeseen rainstorms, which in turn and cause severe flooding impacts, augmented can cause flooding events in rivers that are only by increasingly rapid glacial melt. episodically flowing. Flood risk is amplified by increased seasonal and glacial snow melt as well 2. Disaster Risk Management as accelerated soil erosion and land degradation. To top all this off, earthquake exposure is high, Framework particularly in the northeast region, which includes Kabul. Over the past 40 years, several earthquakes The original institutional framework for disaster have killed nearly 10,000 people. An estimated risk management was put in place in the 6,500 people were killed in two 1998 earthquakes early 1980s. At the core of this structure was triggered near the Afghan-Tajik border region, and the Department for Disaster Preparedness another 1,000 perished in the 2002 earthquake in (DDP). This Department was a ministerial level the Hindu-Kush region. department and served the central disaster coordination agency and the secretariat of the Several human factors have contributed to National Commission for Emergency Response Afghanistan’s vulnerability to disasters. Decades (NCER). A N N EX 2: C OU N TRY PRO FI LES 41 Over the past 10 years, due to several engagements Despite these recent developments, the existing with the international community, the Government DRM structures and capacity remain weak, of Afghanistan (GoA) embarked on a program to which is similar to the low capacity across the update the DRM framework. In 2007, the DDP rest of the GoA. The political environment in developed a strategy to establish an effective Afghanistan, which has suffered from decades system of disaster preparedness and response by of war and civil conflict, has substantially eroded the end of 2010. Policy documents such as the the capacity of all levels of government. Recent 2008 Afghanistan National Development Strategy events have demonstrated that the GoA is not (ANDS), which includes disaster risk reduction as well prepared for natural disaster emergency a priority goal, the National Disaster Management and must rely heavily on the support of the Framework (NDMF), and the National Disaster international community. In terms of DRM, the Management Law which spells out the revised GoA suffers from low levels of technical capacity DRM institutional framework. at all levels. Early warning systems are non- existent, while comprehensive risk assessments Currently, the Afghanistan National Disaster have not been undertaken at any level. A weak Management Agency (ANDMA) is responsible for education system and poor national-local linkage coordinating and managing all aspects of disaster in disaster preparedness and response further preparedness and response. Under the ANDMA, exacerbates the vulnerability of communities. the National Disaster Management Commission (NDMC) serves as the apex body within the country’s DRM institutional framework. The role 3. Progress Towards Hyogo of the Commission is to formulate national policy Framework For Action on disaster management, including periodic reviews. The NDMC is chaired by the Second HFA Priority # 1: Ensure that disaster risk Vice President and comprises representatives reduction is a national and a local priority with from key government ministries and national a strong institutional basis for implementation agencies. To ensure access to financial resour- ces, a National Emergency Fund (NEF) was The disaster preparedness law developed three established to mobilize funds in immediate post- decades ago remains relevant for post-disaster disaster situations and is managed by the NDMC. response. The coordinating body for DRM is the DDP, a ministerial level department. Under the To effectively manage disaster preparedness and revised strategy, the DDP is now responsible response activities, and based on the National for the identification of effective measures for Plan for Disaster Management (NPDM), a National disaster prevention, mitigation, and preparedness Emergency Operations Centre (NEOC) is managed activities to reduce overall vulnerability to hazards. by the ANDMA. On a decentralized level, the ANDMA established functional offices in all 34 The National Disaster Risk Reduction (DRR) provinces of Afghanistan. The Provincial Disaster Platform was launched on February 28, 2010, Management Agencies (PDMA) are mandated which is an update of the 30 year old institutional to support the Provincial Disaster Management structure. Based on the drafted national strategy Commissions/Committees (PDMC) that are headed for disaster preparedness and response, all the by the respective Provincial Governors. At the district member ministries of the NCDM are expected to level, District Development Committees (DDC) and prepare disaster management and preparedness Community Development Councils (CDC) have been plans at sector level. Some of the ministries (e.g. established across the country and are responsible Ministry of Interior and Ministry of Health) have for disaster preparedness and response. already prepared their plans. In addition, the 42 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Ministry of Urban Development is considering will take the form of maps, reports and statistics the establishment of building codes, and has through networking amongst members of the begun research for proper practical building codes National Commission for Emergency and Disaster specified for different areas in Afghanistan. Management, the humanitarian agencies and local authorities. HFA Priority # 2: Identify, assess, and monitor disaster risks and enhance early warning HFA Priority # 3: Use of knowledge, innovation, and education to build a culture of safety and In 2003, a hazard map was completed at the resilience at all levels national level that ranked all provinces qualitatively in terms of hazards. Information was collected Each GoA department with a disaster/emergency from local authorities and based on historical management unit collects its own data for disaster events instead of quantitative, empirical methods. risks. Information collected generally relates to In addition, community level organizations disaster response, and to emergency events, have provided training in hazard assessment such as the number of people affected, the area and mapping to volunteers in order to prepare affected, crops and livestock affected, houses local assessments. Vulnerability assessments affected, etc. The DDP receives information have been conducted after localized shocks or from the provincial offices of the Ministry of emergencies. The focus of these assessments Rural Rehabilitation and Development (MRRD) has primarily been to determine the post-event on floods, earthquakes, landslides, avalanches, needs for affected populations. sand movements, storms, locust plagues, epidemics, extreme temperatures, etc. To improve early warning, a Famine Early Warning System Network (FEWSNET), is being developed In Afghanistan, the education system is under stress that utilizes satellite imagery and provides due to decades of war. Schools lack infrastructure, regular weekly climate reports that are used to teachers, and an updated teaching program. As monitor changes or to signal impending changes a result, DRM related materials have not been and forthcoming/predicted crises. FEWSNET introduced to the education system. Nevertheless, also circulates a monthly food security report for the country that highlights areas of change a new curriculum of study on disaster management and concern, which allows partners to focus and has begun in the Faculty of Geosciences in Kabul follow up on areas where stress is acute or is University, where a comprehensive disaster risk projected to increase. management program is also ongoing. The Afghanistan Information Management A bi-monthly periodical, published by InWent, Services (AIMS), in collaboration with DDP, will informs authorities and citizens of disaster risk soon commence the development of a Disaster awareness and mitigation systems. Community Management Information System (DMIS). DMIS based programs of education and awareness on will consist of data on hazards, vulnerability disaster risk management have been designed and risk assessments, and mapping, through a and disseminated on a pilot basis. multi-hazard approach. The data for this system include historical data, elements at risk, inventory HFA Priority # 4: Reduction of the underlying of hazards and their characteristics, and socio- risk factors economic data. Data will be collected through ground surveys, risk assessments, GPS, GIS, and Led by the GoA, a reforestation and environmental Earth Observation Satellites. Data dissemination working group for drought mitigation has been A N N EX 2: C OU N TRY PRO FI LES 43 4. Key Donor Engagements established and convenes UN agencies and A. The World Bank and Key Multilateral and NGOs. Activities undertaken by the working Bilateral Investments group include construction of check dams, soil and water conservation schemes, hillside ditching The current Interim Strategy Note (ISN) for Afgha- and terracing, and reforestation of native forests nistan covers the period from 2012-2014. The and plantations, and managing restored public Bank’s program is built around the following three nurseries. interlocking themes: 1) Building the legitimacy and capacity of institutions, 2) Equitable service HFA Priority # 5: Strengthen disaster preparedness delivery, and 3) Inclusive growth and jobs. In for effective response at all levels particular, the ISN emphasizes the need to develop the capacity of the state to provide The DPP is the main coordinating body and is adequate basic services to Afghan citizens, responsible for coordination of all disaster response. emphasizing the susceptibility of the poor to Plans are underway to strengthen DDP in order shocks from natural disasters and the multiplier to ensure its capacity to act as the GoA’s leading effects on poverty levels. disaster coordination unit. B. GFDRR For the financing of disaster recovery, a national emergency fund managed by MRRD and DDP In the process of supporting inclusive growth, is made available by the central government and GFDRR will support initiatives to achieve the international donors. In addition, various ministries following goals as laid out in the ISN: 1) Increase have allocated some part of their annual budget for and manage knowledge of disaster risks, 2) emergency preparedness and response. However, Increase emergency preparedness capacity, since GoA resources are limited, the government 3) Strengthen institutional capacity of selected depends on the direct support of international institutions, and 4) Increase public awareness and organizations and foreign support. community capacity. These issues will be tackled in the Afghan context and specifically implemented To reduce vulnerability to drought in Afghanistan, at the operational level. a cash-for-work instrument is being used to ensure continued income during times of drought. In addition, GFDRR partners with the Aga Khan Development the national Emergency Employment Program Network (AKDN) to launch the School Safety Initiative utilizes the local experience of emergency response in Afghanistan, which aims to mainstream disaster and coordination to distribute cash to targeted areas. risk reduction in Afghanistan’s education sector. Table 1: The World Bank and Key Multilateral and Bilateral Investments in Afghanistan’s DRM Sector Year ap- Year Funding Project size Project HFA priorities proved closed agencies (US$ mln) Comprehensive Disaster Risk UNDP, ECHO, 2007 2010 11.7 1, 5 Reduction Programme Norway National Disaster Management 2010 2011 UNDP 2.2 1 Project 44 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Over the course of two years, AKDN will collaborate in hazard prone provinces across the country. In with local officials to assess the physical, social, and addition, the initiative will develop a cadre of school functional vulnerability of the school environment safety experts through capacity building, advocacy, and promote structural and non-structural mitigation and policy changes. Combined, these activities will measures in pilot schools across the country. The project will establish minimum standards for a create a culture of safety in Afghanistan’s education safe school environment and support government system that extends beyond the two-year project stakeholders in replicating the school safety model cycle. Table 2: GFDRR Investments in Afghanistan’s DRM Sector HFA Year Year Funding Project volume Project priori- approved closed agencies (USD) ties GFDRR-AKDN School Safety Initiative 2012 2014 GFDRR 550,000 3 A N N EX 2: C OU N TRY PRO FI LES 45 Bangladesh A N N EX 2: C OU N TRY PRO FI LES 47 BANGLADESH 1    Figure 25: Map of Bangladesh Country level information Geographic Area (in sq km) 144,000 Population (in Millions) 150.6* Population Density (person per sq km) 1142 BANGLADESH Urban population (% of total population) 28 Arable land (% of total area) 58.1 Forest land (% of total area) 11.1 HDI country rank (out of 182) 146 GNI per capita (ATLAS method, in USD) 760 Agriculture, value added (% of GDP) 18 Industry, value added (% of GDP) 29 Services etc., value added (% of GDP) 53 Source: WDI, HDI, UNICEF (2008), FAO (2007), UNPD (2010), DECDG Figure 26: Percentage Distribution of Reported Disasters in Bangladesh (1970-2009) Droughts 3% Earthquakes 3% Floods 35% Cyclones 59% Disaster statistics (1970-2009) Total Total Affected Disaster Total Casualties People type Disaster Total Annual Total Annual Earthquake 7 36 1 1.900 490 Flood 75 42,000 1.070 293 M 7.5 M Economic loss potential1 Drought 5 18 1 25 M 641.000 Economic loss Percentage Annual exceedance Landslide - - - - - (USD Million) of GDP Cyclone 126 475,000 12,200 58 M 1,5 M probability 4 0.65% Total 213 516,000 132,000 376 M 9.6 M 0.5% 2 0.30% Source: EM-DAT 2010, accumulated figures 5% 900 0.15% 20% Source: RMSI 2010 (based on 1967-2006) Figure 27: Average Annual Economic Loss of Bangladesh * Earlier the World Bank documents have referred to population estimates of about 166 million based on previous information from the United Nations Population Division’s (UNPD) World Population Prospects. The Cyclones most recent 2010 Revision of the UNPD World Population Prospects estimates Bangladesh’s population at 150.6 million. The 2010 Revision 25% is consistent with additional information (including the 2001 census, 2008 voter registration for adults age 18 and over, and estimates from the Sample Vital Registration System through 2009), which the 2008 Floods Revision of the UNPD World Population Prospects did not take into account 1 Estimates the probability (in percent) of annual economic losses 75% exceeding specific amount of USD (in USD Million). The last column shows the probable annual economic loss as percent of GDP. 48 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 1. Disaster Risk Profile Disaster Risk Profile with significant indirect effects on livelihoods. For example, the 1978-79 drought affected half The geographic and climatic features of Bangladesh, of the cultivated land and population, destroying coupled with its social and economic environment, over 2 million tons of rice. Similar large-scale make it highly vulnerable to natural hazards including droughts followed in the 1980s and 1990s. While flood, drought, cyclone, and earthquake. Disaster Bangladesh is at high seismic risk, no major vulnerability in Bangladesh is exacerbated by high events have been recorded in the past 50 years, population density around the large river deltas and which has resulted in fewer efforts to increase its coast. More than 80 percent of the population resilience to such events. is potentially exposed to floods, earthquakes and droughts, and more than 70 percent to cyclones. Potential impact of climate change Bangladesh is a low-lying country with one of the Bangladesh is currently ranked as the most highest population densities in the world. The climate vulnerable country in the world, while, at country has the largest delta in the world, formed the same time, it faces one of the highest rates by the Ganges, the Brahmaputra, and the Meghna of mortality risk from natural disasters. Climate rivers. The climatic features of Bangladesh are change and the disproportionate impacts this will driven by the annual monsoon, during which time have due to the low-lying nature of the country, about 80 percent of annual rainfall occurs, which, is likely to exacerbate its disaster vulnerability. given the low-lying nature of the terrain, often leads Projections of the Intergovernmental Panel on to major flooding. During the transitional pre- and Climate Change (IPCC) suggest that warmer post-monsoon periods there are also severe local temperatures will increase both the frequency storms and tornadoes. In addition to the monsoon and intensity of cyclones in the Bay of Bengal. In rains, Bangladesh is exposed to cyclones, which addition, rapid snow melt in the upper Himalayas, have caused some of the world’s largest human coupled with increased peak discharges, would disasters. Although no major events have occurred likely increase the depth and spatial extent of recently, there is still significant seismic risk flooding in the Ganges-Brahmaputra-Meghna throughout the country, with vulnerability especially Basin. Compounding this increased flood risk is high around major population centers. Seismic the likely consequence of sea level rise, which activity is a particular concern for Dhaka, given its has the potential to cause significant economic dense population of 13 million people. losses given the share of the population living in low-lying coastal lands. Cyclones and floods have been the most frequent causes of disaster, resulting in almost all of the nearly 520,000 deaths recorded over the last 40 2. Disaster Risk Management years. Of this number, approximately 300,000 Framework and 140,000 were caused by two cyclone events alone, in 1970 and in 1991 respectively. Recurring adverse events, which have caused Floods have not caused as many casualties as significant human loss, have led the Government cyclone events; however, the damage potential of Bangladesh (GoB) to change its approach to of major flooding is the highest of all hazards and disaster risk management (DRM). Over mul- the cumulative recorded loss due to flooding is tiple decades, the GoB has put into place a estimated to be US$12 billion over the past 40 robust response-oriented disaster management years. Droughts are also a common occurrence infrastructure that was proven successful and cause of loss, affecting millions of people during Cyclone Sidr in 2007. During this event, a and causing widespread damage and losses, strong emergency response and early recovery A N N EX 2: C OU N TRY PRO FI LES 49 system effectively met the needs of the at-risk mitigation capacities, while executing the population. To continue increasing resilience to national strategic priorities set out by the GoB. adverse natural events, the GoB is now beginning The program has begun to make contributions to proactively reduce risk to these events by to improved DRM capacity through capacity introducing risk identification and mitigation building, professionalizing disaster management, measures. advocating for mainstreaming disaster risk redu- ction across sectors, encouraging community Bangladesh’s DRM structure is organized on the empowerment for disaster risk reduction, national and sub-national-levels. On the highest and strengthening response management. In level, the National Disaster Management Council particular, the CDMP II is recognized for its work (NDMC), headed by the Prime Minister, formu- on community-based risk assessments and risk lates and reviews disaster management policies. reduction action plans for flood and cyclone The Inter-Ministerial Disaster Management Coor- events. dination Committee (IMDMCC) was established to implement disaster management policies and Despite considerable efforts and success at decisions of the NDMC, assisted by the Nation- the community level in cyclone risk reduction, al Disaster Management Advisory Committee several challenges remain. Overall capacity (NDMAC). The Ministry of Disaster Management within the DMB is weak and, as a result, the and Relief (MoDMR) which has a central Disaster Bureau is limited in its ability to carry out its Management Bureau (DMB), coordinates disaster mandate. Implementation capacity for disaster preparedness and mitigation interventions across preparedness and risk reduction plans, especially all agencies. On the sub-national level, commit- at the sub-national level, is also limited. Another tees coordinate and review activities. important shortcoming is the neglect of seismic risks, which are believed to be substantial Bangladesh’s DRM strategy is detailed in the despite the infrequency of events. In addition, National Plan for Disaster Management. The Plan strategies and mechanisms for disaster risk is in alignment with the objectives and priorities financing are lacking. For example, the GoB has only a small contingency line in its budget for for action identified under various international disaster risk reduction and recovery, and relies conventions and provides a vision and policy primarily on budget reallocations away from other direction for the period of 2010 to 2015, with a goal development priorities. Finally, the threat of an of integrating DRM into sectoral development plans. increased risk caused by the impacts of climate The model is based on identifying and understanding change has not been sufficiently addressed. hazards and their interactions with communities. To support implementation of the model, resources must be mobilized and knowledge about hazards 3. Progress Towards Hyogo and vulnerabilities need to be utilized for response Framework For Action planning and early warning. The Hyogo Framework for Action, adopted in The Comprehensive Disaster Management 2005, represents the international consensus on Program (CDMP) II, funded by bilateral and monitoring and evaluating capacity to manage multinational organizations, is the key DRM imple- natural disaster risk. The framework includes mentation program for Bangladesh. It defines a the five priorities listed below, along with a brief number of interventions aimed at strengthening summary of progress achieved by the GoB in and improving disaster management and risk increasing resilience to adverse natural events. 50 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview HFA Priority # 1: Ensure that disaster risk HFA Priority # 2: Identify, assess, and monitor reduction is a national and a local priority with disaster risks and enhance early warning a strong institutional basis for implementation National risk assessment methods and tools A National Disaster Management Policy has been have been created to better understand and drafted, and the National Disaster Management prepare for monsoon rains and cyclones. Ro- Act 2012 has been recently approved. A National bust early warning systems for flood and Disaster Management Plan was approved cyclone events have been prepared and have pro- in April 2010, while a 2010 revised Standing ven successful during Cyclone Sidr, which resulted Orders on Disaster (SOD) has been approved in very few deaths relative to similar historical which outlines key administrative procedures events. To better understand seismic risk and and responsibilities of government at the vulnerability, assessments for earthquake and local and national levels. In addition, disaster tsunami risk have been completed for the three and environmental risk issues have been major cities of Dhaka, Chittagong and Sylhet - incorporated into a number of sectoral plans. and the same activity is planned for seven other Finally a multi-sectoral National Platform for major urban centers (Rangpur, Dinajpur, Tangail, Disaster Risk Reduction has been established Mymensingh, Bogra, Rajshahi Cox’s Bazar and, and regular meetings are being convened. Sirajgonj). At the local level, the GoB and humani- tarian actors, using participatory tools, conduct As a result of the DRM institutional framework put risk assessments in high-risk areas. Drought in place, local communities’ capacity to prepare prone areas have been identified and adaption for, and respond to, natural disasters has increased options pilot tested, while cyclone prone areas significantly. Capacity has been mobilized especially have also been identified. among vulnerable groups, including women and persons with disabilities. A number of Local A Disaster Management Information Centre Disaster Risk Reduction Action Plans have been (DMIC), connecting district and sub-district level developed through participatory community risk offices, monitor, archive, and disseminate key assessment tools, and 60,000 small scale risk hazard information. Systems for early warning for reduction interventions have been implemented. flash floods and for location-specific flood warning In addition to community awareness, a number are currently being developed. The establishment of stakeholders, including journalists, have been of cyclone early warning and dissemination trained in DRM, sparking their engagement in system is also ongoing. Finally, a tsunami early disaster risk reduction businesses and services. warning has been established along with seismic observatories in Dhaka, Sylhet, and Rangpur. An increased dedication of financial resources for DRM has taken place in recent years. The Natural Disaster Risk Reduction Fund (Bishesh Onudhan), HFA Priority # 3: Use of knowledge, innovation, a contingency line financed through government and education to build a culture of safety and revenue, has reached an annual allocation of resilience at all levels US$15 million. The overall DRM budget, which finances structural and non-structural mitigation The GoB has promoted a culture of improving and preparedness measures, accounted for flood and cyclone related knowledge and lessons approximately 4.5 percent of the 2010-2011 through various means, including print and National Budget2. electronic media. At various levels of government, functional networks and forums have been 2   Bangladesh: National Progress Report on the Implementation of established for DRM, which seek to involve civil the Hyogo Framework for Action, April 2011. society, NGOs, and other development partners. A N N EX 2: C OU N TRY PRO FI LES 51 While awareness of flood and cyclone risk is widely polders3, and developing coastal green-belts. In disseminated, understanding of earthquake risk is addition, the country has built a 42,000 strong still limited. volunteer base to strengthen emergency response that disseminates early warnings in Initiatives have been taken to introduce DRM in order to support evacuations in emergency various training institutions, universities, research situations. Apart from these cyclone adaptation institutions and public services training centers. A measures, Bangladesh has built flood shelters network of experts is housed in the Bangladesh and constructed nearly 5,000 km of drainage Disaster Management Education Research and channels to increase preparedness against Training (BDMERT), which is responsible for monsoon rain, the most recurring natural hazard producing education curricula for DRM. As a result, in Bangladesh. The achievement that has been most noticeable is the impact of, and response to, flood and cyclone risk information are included in the 2007 Cyclone Sidr - the strongest recorded in textbooks from elementary to secondary level, along the Bay of Bengal. The investments and activities with supplementary learning materials. In addition, described above are estimated to have saved more disaster management training modules have been than a million lives by providing emergency shelter integrated into the Bangladesh Civil Service Cadres to affected coastal communities. In contrast to the and the Armed Forces Division along with several 300,000 and 140,000 estimated deaths due to the other administrative units. cyclones of 1970 and 1991, respectively, Cyclone Sidr caused around 4,234 deaths, despite economic The National Disaster Management Plan (2010- losses estimated at 2.8 percent of GDP 4 . 2015) includes an element of public awareness on different hazards, particularly flood and cyclone. To To improve land use planning and construction encourage media personnel in engaging in disaster resilience, a number of initiatives are ongoing. related reporting, the GoB, has established an The result of these activities will be a revised Annual Media Award to recognize figures that have National Building Code, which is being updated helped promote awareness of disaster risk. In recent for the first time since 1993. The building code years, as a result of the 2007 Sidr Cyclone and the document includes a guideline on planning and 2009 Aila Cyclone, and a number of low magnitude conducting resettlement. It will incorporate earthquakes, the media has been producing a work done following cyclone Sidr in 2007, when significant number of discussions and talk shows the GoB developed a minimum standard for on natural disaster risk, climate change risk, and the housing reconstruction with a specific standard importance of disaster resilient infrastructure. for disaster resistance. In parallel, the Ministry of Land is developing a National Land Zoning and HFA Priority # 4: Reduction of the underlying National Land Use Planning, which will identify risk factors safe settlement zones. Structural and non-structural disaster mitigation Since disasters can be the result of environmental degradation, Environmental Impact Assessment measures have been scaled up, which has (EIA) methodologies now incorporate disaster risk. increased resilience, preparedness and response These guidelines must be incorporated in any project capacity, particularly for flood and cyclone prior to submission to the Executive Committee events. To mitigate the severe impacts of 3 cyclones, Bangladesh has invested in building   Emergency 2007 Cyclone Recovery and Restoration Project (Additional Financing) Project Paper, 2010. over 2,000 multipurpose shelters along the 4   Cyclone Sidr in Bangladesh, Damage, Loss and Needs Assessment coast, constructing a network of more than for Disaster Recovery and Reconstruction, A report prepared by the GoB with assistance from the International Development 6,000 km of coastal embankments and 130 Community, April 2008. 52 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview of the National Economic Council (ECNEC) activities, both at national and city levels, training for approval by the GoB. This EIA guideline is workshops on the incident command system for applicable to all ministries, agencies, and sectoral disaster management have been conducted. departments. The national relief fund continues to be the key The issue of the need to adapt to climate change contingency funding mechanism for sudden is receiving greater attention. Bangladesh has disasters. In addition, contingency stocks of rice prepared the National Adaptation Program of and non-food items (NFI), e.g. blankets, house Action (NAPA), and as a signatory of the Bali Action building materials, etc. are stock piled in case of Plan, has also developed the Bangladesh Climate major disaster. To improve response capacity, Change Strategy and Action Plan (BCCSAP) 2009, the GoB is in the process of creating a Damage which prioritizes adaptation and risk reduction, and Needs Assessment (DNA) Cell and a Multi- but also addresses low carbon development, hazard Risk Vulnerability Assessment Modeling mitigation, and technology transfer. The GoB has and Mapping (MRVA) Cell. also established a Climate Change Fund (CCF) and has allocated US$100 million to this effort. 4. Key Donor Engagements Bilateral and multilateral donors have also created a multi-donor trust fund to accelerate financing for A. The World Bank and Key Multilateral and research and adaptation in Bangladesh through Bilateral Investments the Bangladesh Climate Change Resilience Fund (BCCRF). Several projects financed by these The World Bank has been involved in post- facilities have been implemented, including the disaster recovery and reconstruction for more Sustainable Land Management Program, intended than 25 years, with a trend toward increasing to cover land related risk reduction issues including lending for risk reduction and mitigation. The Bank mining, and the Coastal Land Zoning Project. has accomplished this objective by integrating Studies have also been initiated to improve the disaster risk reduction into its overall investment resilience of the agricultural sector to disasters, programs across sectors. especially in light of variability in flood, saline-prone water, and drought-prone areas. The Bank’s Country Assistance Strategy (2011- 2014) clearly highlights the necessity to address HFA Priority # 5: Strengthen disaster preparedness Bangladesh’s vulnerability to natural disasters and for effective response at all levels climate change; this vulnerability risks increasing the country’s poverty rate. The strategy therefore To increase disaster preparedness, a National sets out to explain the vulnerability in more detail, Disaster Management Plan (2010-2015) has been highlighting the need to support core capacity approved and the Standing Orders on Disaster building activities for DRM, along with the (SOD) has been updated incorporating tsunami financing preparedness, adaptation and mitigation and earthquake hazards, and school safety and measures. contingency plans. An Emergency Operation Centre (EOC), connecting all line agencies and The Bank has invested in strengthening Ban- ministries, has been established. gladesh’s resilience to natural disasters, both through various sectoral projects as well as A total of 30,000 members of local Disaster through stand-alone DRM projects aimed at Management Committees (DMCs) across the reducing risk and building institutional capacity. country have been trained in comprehensive In particular, the Bank has a significant number disaster management, which primarily focused on of projects currently under implementation in disaster response. To accelerate capacity building response to the country’s recent cyclone events, A N N EX 2: C OU N TRY PRO FI LES 53 namely Cyclone Sidr in 2007 and Cyclone Aila improved awareness of natural hazard in 2009. The objectives of these projects are events and the piloting of urban community to support the GoB in its efforts to facilitate risk reduction methodologies that target the the restoration and recovery of the damages extreme poor. to livelihoods and infrastructure caused by 4. Improved overall effectiveness and timeliness the cyclones, to strengthen the institutional of disaster preparedness and response in DRM structure, increase preparedness, and Bangladesh by strengthening early warning contribute to a culture of risk reduction. The systems, national management capacity, and Emergency 2007 Cyclone Recovery and coordination facilities at all levels. Restoration Project is the Bank’s major ongoing 5. Improved disaster-proofing of development DRM project and was recently approved for programming, and enhanced technical additional financing to continue building on the capacity to provide the incentive for po- components initiated in 2009. These include: 1) sitive long-term changes in planning and Recovery of Agriculture Sector and Improvement investment decisions in targeted ministries. Program, 2) Reconstruction and Improvement 6. Effective managed community-level adap- of Multipurpose Shelters, 3) Rehabilitation of tation to disaster risks from a changing Coastal Embankments, 4) Disaster Risk Mitigation climate. and Reduction, and 5) Support for Emergency Recovery. Overall, the program’s components B. GFDRR are critical for sustainable economic growth and poverty reduction, as they support cyclone- GFDRR has been actively supporting the GoB in resistant infrastructure rehabilitation, livelihood reducing vulnerability to adverse natural events restoration, and vulnerability reduction. through a series of six completed investments, one ongoing, and one being prepared. These The multi-donor funded CDMP II is the key activities have focused on improving disaster DRM implementation program in the country. It response and on mitigating the impact of disaster. builds on CDMP I and aims to institutionalize the Projects have improved flood risk mapping and adoption of risk reduction approaches in its host understanding of the feasibility of risk financing Ministry of Food and Disaster Management, and and insurance instruments, while also improving across thirteen key ministries and agencies of the GoB’s ability to effectively respond to major Bangladesh. CDMP Phase II (2010-2014), at a cost events. of US$ 70 million, is designed around six outcomes: GFDRR’s focus over the next three years will 1. The development of institutions to imple- be to address Bangladesh’s DRM Challenge ment a comprehensive range of risk namely, earthquake resilience. The development reduction programs and interventions at objective of the new Bangladesh Earthquake the national level, contributing to regional Risk Mitigation Program is to establish the actions as well as international learning and enabling environment required to create a best practice. National Earthquake Risk Management Strategy 2. Reduced risk to rural populations through for Bangladesh and an Earthquake Disaster Risk structural and non-structural interventions, Management Plan for Dhaka, both of which will empowerment of rural communities and catalyze the investment needed to protect the improved awareness of, and planning for, lives and assets of Dhaka and Bangladesh as a natural hazard events, including the likely whole. The outcomes of the program, both at the impacts of climate change. local and national levels, will include: 1) consensus 3. Reduced risk to urban populations through around improved enforcement of regulation for structural and non-structural interventions, seismic risk reduction, 2) a platform of hazard 54 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview and vulnerability data to support awareness and certification program and mason and bar-bender stimulate resilience development and associated training program. Overall, this program aims at decision making tools for planners, developers, building consensus among national decision and policy makers, 3) widespread understanding makers and technical experts in order to pursue of the seismic hazard and the ways in which a common goal of reducing the seismic risk risks can be reduced, particularly amongst the that could threaten the country’s long-term key stakeholders, and 4) a seismic engineering development. Table 3: The World Bank and Key Multilateral and Bilateral Investments in Bangladesh’s DRM Sector Year Year Project volume HFA Project Funding agencies approved closed (USD) priorities AusAid, DFID, European Comprehensive Disaster 2003 2009 Union, Norway, 14,000,000 1,2,3,4,5 Management Program (CDMP I) Switzerland, UNDP Water Management Improvement 2008 Ongoing The World Bank 102,000,000 4,5 Project Development Support Credit 2008 Closed The World Bank 100,000,000 4 IV - Supplemental Financing II Social Investment Program 2008 Closed The World Bank 25,000,000 4 Additional Financing for Floods 2007 Municipal Services Additional 2008 Ongoing The World Bank 25,000,000 4,5 Financing Rural Transport Improvement 2008 Ongoing The World Bank 20,000,000 1,4,5 Additional Financing Post Cyclone Sidr and Aila Recovery 2009 Closed USAID 110,000,000 4,5 Emergency 2007 Cyclone Recovery 2008 Ongoing The World Bank 109,000,000 1, 2,4,5 and Restoration Project Livelihood Restoration in Cyclone Affected Area - Additional 2009 Ongoing The World Bank 50,000,000 1,2,4,5 Financing-III SIPP AusAid, DFID, European Comprehensive Disaster 2010 Ongoing Union, Norway, 70,000,000 1,2,3,4,5 Management Program (CDMP II) Switzerland, UNDP Emergency 2007 Cyclone Recovery and Restoration Project – Additional 2010 Ongoing The World Bank 75,000,000 1, 2,4,5 Financing A N N EX 2: C OU N TRY PRO FI LES 55 Table 4: GFDRR Investments in Bangladesh’s DRM Sector Year Year Funding Project HFA Project approved closed agencies volume (USD) priorities Agricultural Risk Insurance Feasibility Study 2008 2010 GFDRR 264,250 2, 4 Improving Bangladesh’s Response and 2008 2010 GFDRR 200,000 5 Recovery Activities Climate Change and Future Flood Risks 2008 2010 GFDRR 75,000 2 Support Rehabilitation in Cyclone Sidr-affected 2008 2013 GFDRR 2,200,000 1, 2, 4, 5 Areas through UP Block Grant System An International Conference on Climate Change, 2009 2010 GFDRR 72,383 1, 5 Natural Disasters and Cyclone Sidr Capacity Building in Damage and Loss 2008 2010 GFDRR 25,000 1, 5 Assessment Comprehensive Assessment of Socio-economic 2010 2010 GFDRR 382,670 2, 3, 5 Impact and Recovery and Reconstruction Needs Bangladesh Urban Earthquake Resilience 2012 2014 GFDRR 1,200,000 1, 2, 3, 5 Project - Phase 1 Building safer cities by improving earthquake Preparation Preparation PHRD 3,000,000 1, 2, 3, 5 resilience Bhutan A N N EX 2: C OU N TRY PRO FI LES 57 BHUTAN Figure 28: Map of Bhutan Country Level Information Geographic Area (in sq km) 38,394 Population (in Millions) 0.69 BHUTAN Population Density (person per sq km) 15 Urban population (% of total population) 34 Arable land (% of total area) 3 Forest land (% of total area) 84 HDI country rank (out of 182) 132 GNI per capita (ATLAS method, in USD) 1,900 Agriculture, value added (% of GDP) 19 Industry, value added (% of GDP) 46 Services etc., value added (% of GDP) 35 Source: WDI, (2007, 2008), HDI (2007), UNICEF (2008), FAO (2007) Figure 29: Percentage Distribution of Reported Disasters in Bhutan (1970-2009) Disaster statistics (1970-2009)* Total Total Affected Earth- Disaster Total Casualties People type Disaster quakes Total Annual Total Annual Cyclones 17% Earthquake 1 13 - 12 - 33% Flood 3 220 6 1,600 41 Glacial Floods 50% Lake Out- 4 -17 - -1000 - burst Flood Landslide 0 - - - - Cyclone 1 12 1 65,000 1,700 Total 6 260 7 67,000 1,700 Source: EM-DAT 2010, accumulated figures * Limited data availability on past disaster events 58 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 1. Disaster Risk Profile Main sources of risk of construction over the last few years has been identified as one of the main factors which have Relative to its size, Bhutan has a wide diversity led to the increase in vulnerability of structures. of geographic and climatic conditions, which are the sources of various types of natural hazards. Potential impact of climate change Over the past 40 years, a total of nearly 300 people have been reported killed from natural The 4th Assessment Report of the IPCC disasters. Floods are reported to be the disaster estimates that Bhutan will see climatic induced that causes the greatest number of deaths, changes in its mountainous ecosystem that could followed by cyclones (and related storms), and exacerbate some of the natural hazards. Expected earthquakes. increases in temperatures, accelerated recession of glaciers, greater variability in precipitation, and Bhutan is a landlocked country with a geographic potential increase in cyclonic activity in the Bay of profile that is marked by substantially varying Bengal, could lead to an increase in the incidence altitudes, including the mountainous Himalayas of landslides, flooding, and GLOFs, potentially in the north, the Shiwalik foothills in the causing severe damage in terms of loss of life and central zone, and the Duars plains in the south. economic impact. Correspondingly, the climate varies from subtropical in the south, to temperate in the highlands, to polar-like in the north where there is 2. Disaster Risk Management year-round snow cover. The seasonal monsoon, Framework which carries up to 90 percent of the annual rainfall, is most pronounced in western Bhutan. Bhutan’s 10th Five Year Plan highlights the importance of integrating disaster risk The geographic and climatic features make management into development planning and Bhutan prone to flooding, landslides, Glacial focuses in particular on GLOF and earthquake Lake Outburst Floods (GLOFs), and earthquakes. risk. For GLOFs, the Plan underlines the need Heavy seasonal monsoon rains and glacial melt to prepare hazard and risk maps, implement are the general cause of flooding and landslides. mitigation measures and monitor the underlying Among the numerous glacial lakes, 25 have been risks stemming from glaciers and glacial lakes. identified as potentially endangering human and For earthquake risk, the Plan highlights the physical resources1. Bhutan’s seismic risk is importance of increasing data availability on considerable, due to its location in the proximity exposure of and vulnerability to seismic events. of the seismically active Himalayan belt, and several earthquakes above magnitude 6 on the A vision of holistic DRM was established in Richter scale have occurred over the past 40 the 2006 DRM Framework paper. The DRM years. Framework was completed in recognition of the risks of large-scale disaster events and the The relatively small Bhutanese population settles increasingly frequent smaller events, to which densely in some urban areas and along river the Royal Government of Bhutan (RGoB) has valleys, as well as in difficult-access mountainous historically responded in an ad-hoc manner. communities. These settlement patterns are among the factors that may make Bhutan more Based on the Hyogo Framework for Action, the vulnerable to natural hazards than existing DRM Framework is guided by an ex-ante, pro- figures indicate. The degradation in the quality active, DRM approach that seeks to mainstream 1   Richardson, Shaun (2010). “Natural Disasters in South Asia – Rising DRM into the sectoral development agendas. to the Challenge: Glacial Lake Outburst Floods (GLOFs).� The Framework was established through a A N N EX 2: C OU N TRY PRO FI LES 59 broad consultative process that included national Head of the National Environment Commission; and international stakeholders and focuses on the Secretary of the Gross National Happiness understanding hazards and vulnerabilities in order to Commission; and the Head of the Department of identify and mitigate disaster risk, while increasing Disaster Management, who shall be the Member- response capacity through improvements in Secretary. technical expertise and institutional capacity. The Department of Disaster Management shall To avoid redundancies and duplication of DRM serve as the secretariat and executive arm of activities across sectors, the RGoB created a the National Disaster Management Authority formalized institutional structure that determines and also function as the National Coordinating national and sub-national responsibilities for Agency for disaster management. The National DRM. The Ministry of Home and Cultural Affairs Disaster Management Authority shall constitute (MoHCA) serves as the focal agency for DRM an Inter-Ministerial Task Force. The Inter- and is charged with coordinating activities on Ministerial Task Force shall comprise of technical different administrative levels. The Department experts from relevant Agencies. The Head of Disaster Management (DDM), established in of the Department of Disaster Management/ 2008 under MoHCA, leads all DRM activities in Executive Head of the Secretariat shall be the the country. ex-officio Chairperson of the Inter-Ministerial Task Force. The RGoB is working towards adopting the National Disaster Risk Management Bill to On the sub-national level, every Dzongkhag (District) further strengthen the disaster management administration shall constitute a Dzongkhag system in the country. The Bill is an effort to Disaster Management Committee under the decentralize disaster management activities and leadership of the Dzongdag (Governor). The to empower the nodal institutions at all levels, Dzongkhag Disaster Management Committee with the legal status to implement disaster may, if it considers necessary, constitute a reduction strategies more effectively. The draft sub-committee at the Dungkhag (Sub-District), Bill underwent a number of reviews through a Thromde (Municipal), or Gewog (Block) level to assist series of consultation meetings and workshops the Dzongkhag Disaster Management Committee with various stakeholders. Although it was in the performance of its functions. endorsed by the Cabinet during its 114th session on October 4th, 2011, the Bill is with the National At the National and Dzongkhag level, the Critical Parliament and still pending. It will be discussed Disaster Management Facility which is essential again in the joint session of the National during response and relief operations such as Parliament in the upcoming 2013 session . Emergency Operation Centre, Early Warning System, Emergency Medical Service, Search and The National Disaster Management Bill provides Rescue Team etc., will be established. establishment of National Disaster Management Authority (NDMA) under the leadership of the It is essential for the success of the national and Prime Minister at national level as the highest sectoral initiatives for disaster risk management decision-making body on disaster management in and response capability strengthening that the country. The NDMA shall comprise the Prime appropriate funding mechanisms are assured Minister, who shall be the ex-officio Chairperson; to support and sustain these activities. Funding the Minister of Home and Cultural Affairs, who mechanisms for response and relief, recovery and shall be the ex-officio Vice Chairperson; the reconstruction, and DM activities (preparedness Finance Minister; Secretaries of all Ministries, and mitigation), have been envisaged in the Dasho Zimpon, Office of the Gyalpoi Zimpon; the National Disaster Management Bill 2012. 60 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview In addition, since every ministry is to mainstream are listed below, along with a brief summary of disaster risk reduction into their development plans, progress achieved by the RGoB in increasing they are required to allocate resources from their resiliency to adverse natural events. budgets to finance DRM related activities. In times of emergencies, His Majesty’s Relief Fund can HFA Priority # 1: Ensure that disaster risk provide financial assistance in the aftermath of a reduction is a national and a local priority with disaster and has previously distributed goods and a strong institutional basis for implementation cash benefits for emergency needs. The 2005 establishment of the MoHCA as the nodal Despite recent progress in institutionalizing agency for DRM was an important step for Bhutan and mainstreaming a proactive DRM strategy, in establishing an institutional structure to manage deficiencies remain. Many of the steps to tackle disaster risks. Developed and endorsed in 2006, the the existing DRM challenges that were proposed National Disaster Risk Management Framework is a in the Framework remain to be implemented. For comprehensive multi-stakeholder strategy for DRM example, the existing administrative capacities at that seeks to mainstream DRM activities. To make national and sub-national levels lack DRM expertise, the Framework legally binding, the National Disaster especially technical expertise for the assessment Management Bill has been drafted and currently of hazards and the management of monitoring envisages the decentralization of, and funding operations. In addition, the 2009 and 2011 for, DRM activities. To this end, National Planning earthquakes emphasized the need for incorporating Guidelines and local level disaster management seismic resistant techniques into traditional building guidelines have been formulated, which includes construction. Along these lines, in December 2010, establishing DMCs and Dzongkhag Emergency the MoHCA organized an international conference Operation Centers. on disaster management and cultural heritage with the theme, “Living in Harmony with the Four To address the impacts of climate change, a Climate Elements� (of nature: Earth, Water, Fire and Wind). Change Council, has been established, responsible This conference was organized with the intention for mitigation and adaptation measures against to highlight the importance of integrating cultural adverse impacts of climate change. The Council heritage, local knowledge, traditional practices is in the process of developing a National Climate and wisdom in the overall disaster management Change Policy and a National Adaption Program framework. The conference also offered a valuable of Action. opportunity for the international community to highlight and address these concerns, share To ensure funding for DRM activities, four types of knowledge and experiences, and raise the profile funds are accessible. These include: His Majesty’s of cultural heritage and indigenous traditions in Relief Fund; the Disaster Mitigation, Prevention disaster risk management. and Preparedness Budget Line; the Ministry of Finance contingency fund to be accessed in case of emergencies; and local emergency respond funds. 3. Progress Towards Hyogo Framework For Action HFA Priority # 2: Identify, assess, and monitor disaster risks and enhance early warning The Hyogo Framework for Action represents the international consensus on how to monitor and To improve decision-making and planning for evaluate capacity to manage natural disaster risk. DRM, a multi-hazard atlas for the country is being The framework includes five priorities, which developed. The Department of Geology and Mines A N N EX 2: C OU N TRY PRO FI LES 61 has completed hazard analysis for GLOF risk in capacity. A community based DRM planning three vulnerable districts. In parallel, the DDM process has been initiated in a few districts that is preparing a disaster management manual that includes the training of district level officials, should facilitate vulnerability and risk assessment who in turn train block level officials to prepare at national and local levels. community based DRM plans. To address the increasing GLOF risk, an early HFA Priority # 4: Reduction of the underlying warning system is being established in the risk factors Punakha, Wangdue, and Chamkar valleys, and the Department of Energy is establishing a Several efforts are being undertaken to address system for flood early warnings. In addition to the underlying disaster risk factors. A National these technical measures, communities are Adaptation Program of Action has been being trained to respond to early warnings. launched, and projects are being implemented to reduce climate change induced risks and HFA Priority # 3: Use of knowledge, innovation, vulnerabilities from GLOFs. In addition, the and education to build a culture of safety and National Environment Commission incorporates resilience at all levels DRM themes when completing their Envi- ronmental Impact Assessments. Finally, drainage To publicly disseminate DRM related information, infrastructure has been put in place in flood prone areas, including slope stabilization for landslide a website for the DDM, the MoHCA and the prone areas. Disaster Management Information System, has been launched. Training on maintaining As a result of the 2009 earthquake, resilient this system has been provided to district DRM construction methods are being implemented focal points and district statistical/IT officers. in an effort to ensure newly rebuilt homes can The database is expected to offer information better withstand the impact of earthquakes. on disaster incidents, including the number of Effectively mitigating the impact of earthquakes casualties, affected people, and property loss. In at cultural heritage sites has been identified by the addition, it would provide an inventory of trained RGoB as an important area of action. Successful personnel and available resources on DRM while implementation of such a plan requires additional also tracking funds and relief materials supplied resources and knowledge to build resilience into to districts. the structures. The RGoB is making efforts to incorporate DRM HFA Priority # 5: Strengthen disaster themes into school curricula. Approximately 300 preparedness for effective response schools have prepared their disaster management at all levels plans according to guidelines issued by the DDM, and the DDM has been conducting mock The Royal Bhutan Army and Police serve a drills and training teachers to deliver safe school coordinating function in the case of an emergency. initiatives. In addition, awareness materials, such Despite this top-down structure, the DDM aims to as emergency safety handbooks, have been train all administrative levels in relevant sectors in distributed to all schools. order to increase preparedness capacity. To increase awareness of DRM themes at local To advance training in responding to disaster risk, levels, the DDM is collaborating on several a National Disaster Management Plan has been awareness raising and training programs to build prepared. Following this plan, each sector and 62 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 4. Key donor engagements agency will draft their own disaster management plans and an inter-ministerial task force will be A. The World Bank and Key Multilateral and formed to endorse the plans. Local level disaster Bilateral Investments management committees will also be trained to prepare their own plans. Bhutan’s Country Partnership Strategy (CPS) for 2011-2014 makes disaster risk management a clear Several provisions have been made for financial and cross-cutting priority. It states that the Bank’s and physical resources to be in place in case of an objective is to increase resilience to natural disasters emergency. His Majesty’s Relief Fund is in place by improving infrastructure, ensuring seismic for financing relief in the form of rations, building safety, and applying a well-defined environmental materials, cash, and other relief for affected safeguards framework. The CPS also seeks to communities. promote the engagement of communities in Table 5: The World Bank and Key Multilateral and Bilateral Investments in Bhutan’s DRM Sector Year Year Funding Project HFA Project approved closed agencies volume (USD) priorities Development Policy Credit 1 2011 Ongoing The World Bank 24,750,000 4 UNDP, OCHA, UN 2011 windstorms and earthquake 2011 2012 CERF, UNICEF, 1,887,000 3, 5 response and recovery UNFPA UNDP Regional Climate Risk Reduction 2009 2010 UNDP-BCPR 1,080,000 3, 4, 5 project (Bhutan component) UNDP Reducing Climate Change-induced GEF-LDCF, ADA, Risks and Vulnerabilities of Glacial Lake 2008 Ongoing 4,245,000 1, 2, 3 4, 5 UNDP Outburst Floods Addressing the risk of climate-induced disasters through enhanced national and 2012 Ongoing GEF 11,500,000 1, 3, 5 local capacity for effective actions Development Policy Credit 2 2012 Ongoing The World Bank 36,000,000 4 A N N EX 2: C OU N TRY PRO FI LES 63 Table 6: GFDRR Investments in Bhutan’s DRM Sector Year Year Funding Project HFA Project approved closed agencies volume (USD) priorities Bhutan Disaster Risk and Recovery 2010 2010 GFDRR 600,000 1, 2, 3, 4, 5 Program – Phase I Bhutan Post-Earthquake Rapid Needs 2009 2009 GFDRR 35,000 5 Assessment Bhutan Post-Earthquake Rapid Needs 2011 2011 GFDRR 45,000 5 Assessment Bhutan Disaster Risk and Recovery Program – Phase II (Improving Disaster 2012 Ongoing GFDRR 440,000 1, 2, 3, 4, 5 Management Capacity in Bhutan) Improving Resilience to Seismic Risk Preparation Preparation PHRD 1,414.050 2, 3, 5 disaster risk reduction, preparedness, and climate Cultural Heritage, 2) Building Bhutanese change adaptation activities. Capacity for Seismic Resilience, and 3) Capacity Building of National Search and Rescue Team The CPS encourages the use of trust funds to Members including procurement of equipment. support technical assistance activities, as well as GFDRR funding to support the program more In line with the priorities set forth by the DDM, broadly. Through development policy operations, GFDRR is further extending its support to the the Bank intends to build the institutional capacity Phase II initiative that builds on the program for DRM by supporting the development of a that commenced in the Phase I engagement. multi-hazard atlas and a macro-level hazard risk In particular, the activities will focus on: 1) assessment. Formulation of rules and regulations to support the implementation of the DM Bill and setting up B. GFDRR of DM institutions at various levels in line with the DM Bill, 2) Capacity assessment of key DRM Following the September 2009 and September agencies and the provision of priority capacity 2011 earthquakes, GFDRR has supported development needs, 3) Initiation of multi-hazard the two Post-Earthquake Rapid Needs risk and vulnerability assessment, 4) Capacity Assessments carried out jointly with RGoB strengthening of the Search and Rescue and the UN. In addition, GFDRR has set the team and development of training facilities. framework for developing the Bhutan Disaster Active engagement with relevant government Risk and Recovery Program. The initial set of authorities and institutional strengthening will activities in Phase I include: 1) International underlie each of these activities in order for them Conference on Disaster Management and to have long-lasting impact. India A N N EX 2: C OU N TRY PRO FI LES 65 INDIA 1 1  Figure 30: Map of India Country Level Information Geographic Area (in sq km) 3,287,726 Population (in Millions) 1,140 Afghanistan Population Density (person per sq km) 380 Urban population (% of total population) 30 Arable land (% of total area) 48 Nepal Bhutan Forest land (% of total area) 2 Pakistan HDI country rank (out of 182) 134 GNI per capita (ATLAS method, in USD) 1070 Agriculture, value added (% of GDP) 18 Industry, value added (% of GDP) 29 INDIA Services etc., value added (% of GDP) Source: WDI, (2007, 2008), HDI (2007), UNICEF (2008), FAO (2007) 53 Bangladesh Figure 31: Percentage Distribution of Reported Disasters in India (1970-2009) Maldives Droughts 2% Sri Lanka Earthquakes 5% Disaster Statistics (1970-2009) Cyclones Total Total Affected Disaster Total Casualties People 31% type Disaster Total Annual Total Annual Floods 52% Earthquake 20 50,000 1,280 28 M. 715,000 Flood 192 48,000 1,230 783 M. 20 M. Landslides Drought 9 320 8 961 M. 25 M Landslide 37 3,200 83 3.8 M. 98,000 10% Cyclone 113 49,000 1,260 84 M 2.2 M. Total 371 151,000 3,860 1.86 Bil. 48 M. Source: EM-DAT 2010, accumulated figures Economic loss Potential 1 Annual Exceedance Economic Loss Percentage Probability (USD Million) of GDP Figure 32: Average Annual Economic Loss 0.5% 10,987 1.2% of India 5% 4,913 0.5% Droughts 8% Earthquakes 10% 20% 2,035 0.2% Source: RMSI 2010 (based on 1967-2006) Cyclones 19% Floods 63% . 1 Estimates the probability (in percent) of annual economic losses exceeding specific amount of USD (in USD Million). The last column shows the probable annual economic loss as percent of GDP. 66 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 1. Disaster Risk Profile Main sources of risk in the Himalayan ranges, caused by both heavy rainfall and degraded land as a result of human interventions. India is prone to all major natural hazards and has experienced the highest number of disasters in Highly vulnerable populations in hazard-prone rural South Asia, with an increasing trend in terms of areas, and large urban agglomerations with hazard events and causalities over the past 40 years. The exposure and concentrated economic activity, make country is particularly exposed to earthquakes (and India vulnerable to natural hazards. Rural vulnerability associated tsunamis), floods, droughts, cyclones, and to hazards is high, particularly flood and drought risk, landslides. About 60 percent of the landmass is prone and 70 percent of India’s population lives in rural areas. to earthquakes of varying intensities, over 8 percent Urban vulnerability to hazards is high given the rapid is prone to floods, 75 percent of coastline is prone to urban growth that is characterized by concentrated cyclones, and 68 percent of the area is susceptible to economic activity, unplanned developments, and drought. Direct losses in India average 2 percent of growing slum populations. High population densities India’s GDP, and have been as high as 12 percent of not only in urban areas, but also along large rivers and central government revenues. coasts, compound increasing vulnerabilities. Given its geographic diversity, the climate ranges from Potential impact of climate change arid desert, alpine tundra and glaciers in the north, to humid tropical regions in the southwest and on the The 4th assessment report of the IPCC predicts that islands. Situated on the Indian Plate, India is surrounded the incidence and intensity of flood, drought, and by the Arabian Sea in the southwest (where the cyclone events are going to increase in the future. Lakshadweep islands are located) the Indian Ocean The report highlights key trends for India, notably a in the south, and the Bay of Bengal in the southeast, general increase in temperature with high seasonal (which includes the two island territories of Andaman variations. and Nicobar). The north is marked by the mountain ranges of the Himalayas, the Hindu Kush, the Patkai, While the total amount of monsoon rainfall is expected and also includes the Punjab Plain. The Thar Desert lies to change comparably little, the number of days of rain in the west, and the forested mountain regions lie in is expected to decrease, especially in the western and the east. Central India includes the watershed region central parts, and the days of extreme rainfall events of the Indo-Gangetic Plain and the Great Plain. are likely to increase. These projections are likely to reinforce the increasing trend of disaster incidences in Several recent events have led to major disasters. The India. 1988 Nepal-India earthquake and the 2005 Kashmir earthquake are two of the largest disaster events over the past 40 years. In 2004, the Indian Ocean 2. Disaster Risk Management Tsunami heavily impacted the Andaman and Nicobar Framework Islands, as well as the eastern coastline. Floods, the greatest driver of economic loss, occur in many areas Large-scale disasters, especially during the last on an annual basis. For example, the monsoon rains decade, have contributed to the development of can cause flooding in the north, northeast and south a proactive approach to disaster risk management of India - most recently in 2008 and 2009. In addition, (DRM) in India. The Gujarat earthquake in 2001 extreme precipitation also leads to flash floods such and the 2004 Asian Tsunami have served as as the 2005 Mumbai flooding. Cyclones are also platforms to move from a reactive emergency prevalent, driven by the Inter-Tropical Convergence response to a pro-active risk reduction approach. Zones in the Bay of Bengal and the Arabian Sea, which As a result, India’s 11th Five Year Plan (2007-2012) can have devastating impacts, such as the 1970 Bhola, for development makes provisions for a holistic and the 1999 05B cyclones. Landslides are frequent approach to DRM, transitioning from the previous A N N EX 2: C OU N TRY PRO FI LES 67 strategy that focused on an ex-post preparedness for planning and promoting training and research and response activities. Within the Five Year in the area of disaster management. This includes Plan, India established a DRM working group to documenting and developing a national level develop a culture of disaster resilience through the information base of disaster management policies, integration of disaster prevention and mitigation in prevention mechanisms, and mitigation measures. the development process. Key areas of focus to Rapid response NDRF personnel are ready for advance the DRM agenda include the: 1) integration deployment in any part of the country within a short of hazard exposure analysis into development time span to identify needs and allocate funds. planning, 2) implementation of early warning Funding in the NDRF is earmarked specifically for systems, and, 3) strengthening of technical capacity emergency response needs, including relief and through knowledge networking and sharing of best rehabilitation actions. practices. DRM capacity has improved as a result of the DMA In the aftermath of the 2004 tsunami, an ins- and its supporting policies and institutions. The titutional framework for DRM was put in place NDMA has proactively formulated guidelines and at the national level. Approved in 2005, India’s procedures for addressing various hazards and is Disaster Management Act (DMA) prescribes the applying lessons learned from the Gujarat State establishment of a disaster risk reduction culture, Disaster Management Authority (GSDMA) experi- to be implemented at the national, state and local ence to establish and strengthen institutions re- level. At each level, development planning must sponsible for disaster management in the other integrate the prevention and mitigation of disasters states. in the respective general and sectoral development 
 plans, and resources should be directed towards Despite significant progress in DRM, many cha- mitigation activities. As a consequence, India has llenges remain. India has created strong leadership implemented a number of disaster preparedness for DRM at the center, but implementation of programs, introduced risk reduction initiatives, and responsibility is left to the states where progress begun building capacity for national risk mitigation has been uneven. While some states, including programs. Gujarat, Andra Pradesh, and Orissa, have created strong DRM capacities, other vulnerable states The 2005 DMA established the National Disaster are less advanced. In addition, seismic risk Management Authority (NDMA), whose chairperson awareness, mitigation, and reduction have not been is the Prime Minister. Housed in the Ministry of mainstreamed into the country’s core DRM agenda. Home Affairs, the NDMA is the policy making body Finally, work remains to build a comprehensive for disaster management on the national level, and disaster risk financing strategy at the national, also provides guidelines for formulating state DRM sub-national and household level. plans. The NDMA is responsible for all types of natural disasters, except for droughts monitoring and management of droughts. At the state level, 3. Progress Towards Hyogo a State Disaster Management Authority (SDMA) Framework For Action is mandated to be established in each state, which functions in similar manner to the national Adopted in 2005, the Hyogo Framework for Action, equivalent. represents the international consensus on how to monitor and evaluate capacity to manage natural To support the institutional framework put in place, disaster risk. The framework includes five priorities, the DMA established a National Institute for Disaster which are listed below, along with a brief summary of Management (NIDM) and the National Disaster progress achieved by the Government of India (GoI) Response Force (NDRF). The NIDM is responsible in increasing resilience to adverse natural events. 68 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview HFA Priority # 1: Ensure that disaster risk systems to reach out to vulnerable communities. reduction is a national and a local priority Efforts are ongoing to strengthen the last mile with a strong institutional basis for connectivity by imparting adequate training to implementation community volunteers, civil society organizations, and local authorities. To strengthen community The 11th Five Year Plan emphasizes the importance level disaster preparedness, NGOs are working of mainstreaming DRM into development planning at the local level. processes and programs. Every ministry at the national and state level has been directed to integrate At the regional level, India hosts the South Asian DRM elements into their overall development plans Association of Regional Cooperation (SAARC) and ongoing development programs. Disaster Management Centre (SDMC). The SDMC aims to put in place a regional disaster management The GoI has formulated the National Disaster system to reduce disaster risk and is currently Management Policy and the Disaster Management undertaking a Regional Risk Assessment that will Act of 2005. Each line department at the national help to develop a better understanding of regional level is in the process of developing their DRM and trans-boundary risks. Plans. Another mandate of this Act is for State Governments to draft their respective state HFA Priority # 3: Use of knowledge, innovation, policies, following the national policy. As a result, and education to build a culture of safety and draft national disaster response, mitigation, and resilience at all levels human resource development plans have been prepared by respective bodies and are pending The level of awareness about disaster preparedness approval. has increased and efforts are being made to reach out to the vulnerable communities with disaster HFA Priority # 2: Identify, assess, and monitor preparedness information through print and electronic disaster risks and enhance early warning media. Nodal agencies have been identified to provide and maintain key hazard data and information. Hazard The DMA and resulting policies have articulated specific mitigation guidelines have been formulated, the need to conduct hazard risk and vulnerability circulated, and made available through NDMA’s assessments. Several state governments are website. The India Disaster Knowledge Network is conducting such assessments, while various being developed to facilitate sharing of best practices development projects have a component for hazard among various stakeholders. State specific web and vulnerability assessments embedded. One such portals are being developed by the SDMAs. result from this work is a vulnerability atlas prepared by the Building Material Technology Promotion To integrate DRM into education and training, Council that provides macro scale hazard maps with the Central Board of Secondary Education and risk assessments of various housing types. various State Education Boards have included DRM in the curriculum of secondary education, To improve early warning systems, the GoI has including supplementary textbooks and training of identified key departments and organizations teachers. The University Grant Commission (UGC) early tasked with providing warnings on different has introduced university-accredited courses on natural hazards. Respective state governments DRM. In addition, NIDM has introduced online have set up emergency control rooms and courses on disaster management for the various have put in place early warning communication practitioners and academics. A N N EX 2: C OU N TRY PRO FI LES 69 HFA Priority # 4: Reduction of the underlying The DMA empowers local authorities to take risk factors responsibilities in carrying out post disaster relief, rehabilitation, and reconstruction activities. Local To reduce vulnerability to adverse natural events, authorities are responsible for ensuring that the Ministry of Home Affairs has developed construction activities under their jurisdiction guidelines providing necessary recommendations conform with the mitigation guidelines laid for amendments to zoning regulations. The Ministry down by NDMA and SDMAs. Disaster response has also developed enforcement mechanisms, and reconstruction has been implemented on a such as town and country planning acts and state level; however, in many states, municipal building bylaws, to promote structural safety in authorities, particularly in large cities, play a major hazardous areas. State governments have revised role in providing various emergency services. In their land use zoning regulations and amended their addition, some states provided either statutory bylaws to incorporate DRM elements, and have provisions in their Municipal Acts or issued established compliance mechanisms to ensure government orders to ensure greater participation enforcement of the building codes. In addition, of local authorities in disaster response and recent post-disaster reconstruction programs have preparedness. integrated disaster risk reduction methodologies to reduce vulnerability. 4. Key Donor Engagements In the area of disaster risk financing, a pilot initiative A. The World Bank and Key Multilateral for agriculture insurance has been introduced. The and Bilateral Investments National Agricultural Insurance Scheme (NAIS) will provide coverage and financial support to farmers in India’s Country Assistance Strategy (CAS) the event of a crop failure due to natural disasters. has recognized the need for building disaster Efforts are ongoing to scale this initiative. management capacity. In the past and to date (2009- 2013), The World Bank have been committed to HFA Priority # 5: Strengthen disaster policy reform in order to improve institutional, preparedness for effective response technical and financial capacity for DRM. To ensure at all levels sustainability of DRM efforts, another priority of the CAS is to mainstream DRM in development policies The Ministry of Home Affairs, in coordination and planning. with other ministries, is responsible for responding to emergencies of different types. The Bank is currently engaged in several projects The institutional and policy mechanisms for to address multiple hazards, including cyclones, carrying out response, relief, and rehabilitation tsunamis, floods, and droughts. Projects address activities have been established. At the national both post-disaster rehabilitation and reconstruction level, a draft Crisis Management Plan, and a needs, as well as adaptation and mitigation efforts. National Response and a Mitigation Plan have Each of the projects addresses ex-ante and ex- been prepared. Based on the crisis management post DRM measures, in addition to enhancing plan, disaster response is primarily the institutional capacities throughout India. responsibility of the state governments, while the central government plays a supplementary Given the recent cyclones that have hit India’s role by providing logistical and additional financial coastal areas, the Bank has engaged with the GoI support. Disaster Contingency plans are being to carry out the National Cyclone Risk Mitigation prepared, reviewed and updated by the state Project (NCRMP). The objective of the NCRMP and/or district governments annually. is to reduce vulnerability of coastal communities 70 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Table 7: The World Bank and Key Multilateral and Bilateral Investments in India’s DRM Sector Year Project HFA Project Year closed Funding agencies approved volume priorities HFA (USD) Ongoing The World Bank 24,750,000 4 priorities Disaster Management Support Project 2003 Ongoing USAID 9,700,000 1, 3, 5 Emergency Tsunami Project 2005 Ongoing The World Bank 465,000,000 2, 3, 4 Post-disaster Aid 2008 Ongoing EU 4,000,000 4, 5 Disaster Risk Reduction Program 2009 Closed UNDP 20,000,000 1, 3, 5 Assam Integrated Flood and Riverbank Erosion Risk Management Investment 2010 Ongoing ADB 120,000,000 4, 5 Program Integrated Coastal Zone Management 2010 Ongoing The World Bank 222,000,000 4, 5 Dam Rehabilitation and Improvement 2010 Ongoing The World Bank 350,000,000 2, 3, 5 Project National Cyclone Risk Mitigation Proj- 2010 Ongoing The World Bank 255,000,000 1, 2, 4 ect Bihar Kosi Flood Recovery Project 2011 Ongoing The World Bank 220,000,000 4, 5 Rajasthan Rural Livelihoods Project 2011 Ongoing The World Bank 163,000,000 1,4 Bihar Kosi Flood Recovery Project II 2012 Preparation The World Bank 750,000,000 1,2,4 to cyclones and other hydro-meteorological houses and road infrastructure, 2) strengthening hazards through: 1) improved early warning the flood management capacity in Kosi Basin, 3) and communication systems, 2) enhanced enhancing livelihood opportunities of the affected capacity of local communities to respond to people, and 4) improving the emergency response disasters, 3) improved access to emergency capacity for future disasters. shelter, evacuation, and protection against wind storms, flooding and storm surge in high risk The Bank is currently preparing a Phase II areas, and 4) strengthening DRM capacity at project that aims to enhance resilience to floods central, state and local levels in order to enable and to increase the production of agriculture mainstreaming of risk mitigation measures into in the greater Kosi River Basin. The project is the overall development agenda. The project is developed under a multi-sector framework, currently ongoing in Tamil Nadu and Orissa, with with investment activities aimed at reducing the the potential of being extended to other coastal volatility of agricultural outputs and increasing areas in the southern part of the country.

India overall economic productivity in the Kosi River also suffers from the risk of floods, especially Basin. At the base level, the investments in flood in the fertile north. The 2008 Kosi floods were control decrease volatility and better protect some of the worst in India’s history, and the Bank the Kosi Basin from flooding that damages responded with the development of the Bihar livelihoods and agriculture. To augment the Kosi Flood Recovery Project – Phase I (BKFRP benefits of a more stable environment, the I). In partnership with the Government of Bihar, project also makes a series of investments the Bank supported immediate flood recovery to unlock the agricultural potential of the area. efforts and is orienting future risk reduction Investments in irrigation will improve farmer efforts through: 1) reconstruction of damaged access to the water necessary to grow crops year A N N EX 2: C OU N TRY PRO FI LES 71 round, and an improved road network will allow and integrate DRM into development planning. In transportation of harvests to a wider market. In addition, activities have been financed to collect addition, significant institutional strengthening and disseminate lessons learned from past and capacity building efforts will complement disaster events, and to build capacity for assessing investments in physical infrastructure. damages and losses from disasters aimed at strengthening the preparedness capacity of India B. GFDRR to major disaster events. The GFDRR has been engaged in several DRM Specific projects supported by GFDRR include the activities since 2007. The overarching objective of development of in-crop insurance proposals and these engagements is to help advance the GoI’s improving disaster risk assessments. Two projects efforts to meet the Hyogo Framework for Action. are currently ongoing, to mitigate cyclone risk Several training sessions and conferences have at the national level and flood risk in the State of been organized to improve institutional capacity Bihar. The table below summarizes approved and to conduct Post Disaster Needs Assessments ongoing activities financed by GFDRR. Table 8: GFDRR Investments in India’s DRM Sector Project Year Funding HFA Project Year closed volume approved agencies priorities (USD) Implementation Support for High Priority Disaster 2008 2011 GFDRR 450,000 4 Risk Mitigation Program in India Crop Insurance: Developing Market-based Products 2008 2011 GFDRR 306,875 4,5 Capacity Building Program in Risk Identification, 2009 2011 GFDRR 362,15 2,3 Risk Assessment and Risk Analysis Support to India’s National Cyclone Risk Mitigation 2011 Ongoing GFDRR 297,000 1,2,4 Program Support to Bihar Kosi Flood Recovery Project 2011 Ongoing GFDRR 400,000 1,2,4 Maldives A N N EX 2: C OU N TRY PRO FI LES 73 MALDIVES Figure 33: Map of Maldives Country level information Geographic Area (in sq km) 300 Population (in Millions) 0.31 Population Density (person per sq km) 1035 Urban population (% of total population) 38 Arable land (% of total area) 13 Forest land (% of total area) 3 HDI country rank (out of 182) 95 GNI per capita (ATLAS method, in USD) 3630 Agriculture, value added (% of GDP) 5.6 Industry, value added (% of GDP) 16.9 Services etc., value added (% of GDP) 77.5 Source: WDI, (2007, 2008), HDI (2007), UNICEF (2008), FAO (2007) Figure 34: Percentage Distribution of Reported Disasters in Maldives (1970-2009) MALDIVES Cyclones Earth- quakes 25% 25% Disaster statistics (1970-2009) Total Total Affected Disaster Total Casualties People type Disaster Floods 50% Total Annual Total Annual Earthquake 1 102 3 27,200 700 Flood 2 - - 2,000 50 Drought - - - - - Landslide - - - - - Cyclone 1 - 3 24,000 600 Total 4 102 6 53,000 1,400 Source: EM-DAT 2010, accumulated figures 74 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 1. Disaster Risk Profile Main sources of risk Potential impact of climate change Maldives is vulnerable to storms, tsunamis, The IPCC’s 4th assessment report suggests that excess rainfall, and sea level rise. Maldives temperatures and precipitation will increase in is an island country with the lowest average Maldives, and that the sea level will continue rising. elevation (1.5 meters above sea level), and Sea level rise will impact the protective capacity of lowest maximum elevation (2.5 meters) in the the coral reefs, increase the salinity of groundwater world. It is situated in the Indian Ocean with resources, and increase incidence and strength of an archipelagic group that comprises 1,196 cyclones, flooding, and inundation. coral islands grouped in 26 atolls, out of which 199 islands are inhabited. The warm and humid tropical climate is marked by the wet southwest Maldives is highly vulnerable to the impacts of monsoon and the dry northeast monsoon, and sea level rise given that it is the lowest-lying the northern islands in particular are exposed to country in the world. Over the last century, the cyclones. A total of 11 cyclones have directly average sea level has risen about 20 centimeters impacted the islands over the past 128 years. and further rises of the ocean could threaten the The Sumatra Subduction zone lies to the east of country’s existence. Current estimates place sea the country and is the main source of tsunami level rise at 59 centimeters by the year 2100. risk. While high impact events are relatively infre- 2. Disaster Risk Management quent, the country has experienced major Framework disaster events, including the Indian Ocean Tsunami in 2004, and is confronted with a series The Maldives’s 7th Five Year Development of challenges related to sea level rise. The 2004 Strategy sets out DRM priorities to protect the tsunami killed more than 100 people, destroyed natural environment and livelihoods. Priorities approximately 13 islands, and severely damaged include the mainstreaming of disaster risk 56 more, destroying or severely damaging management into relevant line ministries. A thousands of houses. Nearly 30,000 inhabitants second priority is to improve public awareness of were displaced and 12,000 were left homeless. DRM themes to improve planning, preparedness, The tsunami damaged or destroyed much of the and response capacity. physical infrastructure, such as hospitals, clinics, schools, transport, and communication. Economic The catalyst to a comprehensive approach to damages were estimated at US$470 million, or DRM was the 2004 Indian Ocean Tsunami, which around 62 percent of Maldives’ GDP1. In addition led to the rapid development of an institutional to tsunami risk, the risk threatening all of the DRM framework. Prior to this event, few major Maldives, and undermining future development disasters impacted Maldives and DRM structures on the island, is sea level rise. Even the slightest were therefore absent. In the wake of the rises are expected to have major impacts, such tsunami, the National Disaster Management as for the capital, Male, which is predicated to Center (NDMC), under the Ministry of Defense lose 15 percent of its dry land by 20252. and National Security (MDNS), was created. A permanent institution since then, the center is 1   Based on GDP 2004 (WDI database, 2010) and EM-DAT direct responsible for coordinating disaster management 2 economic loss figures (2010). activities, providing relief assistance and temporary   “Developing a Disaster Risk Profile for Maldives�, UNDP and RMSI (2006). shelters, and coordinating reconstruction. A N N EX 2: C OU N TRY PRO FI LES 75 The Disaster Management Act of 2006 established the institutional foundation for DRM. The Act 3. Progress Towards Hyogo defined the establishment of the National Disaster Framework For Action Management Council, which serves as the policy- making body led by the President and the Minister The Hyogo Framework for Action, represents the of the MDNS. The Council includes representatives international consensus on how to monitor and evaluate capacity to manage natural disaster risk. from each of the relevant ministries, including The framework includes five priorities, which from the political opposition. The Act defines the are listed below, along with a brief summary implementation of responsibility for the National of progress achieved by the Government in Disaster Management Authority, housed under increasing resilience to adverse natural events. the Council and led by MDNS, with representation at the central, atoll, and island level. The Act HFA Priority # 1: Ensure that disaster risk also prescribes the development of the National reduction is a national and a local priority Emergency Operations Plan and the National with a strong institutional basis Disaster Management Plan. To implement the for implementation DRM agenda, the Act provides a budget line for the Disaster Management Authority, but leaves Considerable progress has been made in establi- it to the treasury to establish a National Disaster shing a core institutional DRM structure. The Response Fund for immediate emergency National Disaster Management Center has been assistance. established and a Disaster Management Bill drafted, which includes DRM provisions for local Considerable implementation efforts have been administration levels. Provisions for local level undertaken to address emergency preparedness implementation have also been made in the and longer-term mitigation efforts. To improve decentralization act, which requires local councils emergency preparedness, the National Disaster to integrate disaster risk reduction activities. Management Center has guided the construction In addition, a Strategic National Action Plan of multi-purpose community shelters and for disaster risk reduction and climate change developed national and local level early warning adaptation has been formulated. However, while systems. To decrease the impact of natural hazards the structure has been established legally, the in the longer term, a national building code was pace of implementation of the provisions of the introduced by the Ministry of Construction and legislation has been slow. Public Infrastructure, and community awareness programs have been launched to advance disaster HFA Priority # 2: Identify, assess, and monitor mitigation and preparedness efforts. disaster risks and enhance early warning Slow implementation progress has hampered A disaster risk profile for the Maldives was the achievements of important goals. Maldives developed and published in 2006, including a has set out to engage in a country-wide, pro- detailed study and hazard mapping exercise, and active, approach to manage potential future a more detailed island risk assessment has been natural disasters including climate-change related conducted for 10 islands. The information from hazards. However, insufficient human and financial the risk assessments have been incorporated resources, and accompanying policy frameworks, into DRM planning and decision-making only to a have slowed implementation. limited extent. 76 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview The Maldives meteorological service monitors the Ministry of Housing and Environment. A revised meteorological and seismic hazards as well as Planning Act is being considered to institutionalize sea level data. A Standard Operational Procedure this revised building code. The legislation would has been formulated to provide guidance on how enable the development of land use planning early warnings should be disseminated in case guidelines and empower local authorities to carry of a disaster, and early warning messages have out their own land use planning and building code been distributed across the islands through local control functions. Social Development plans have radios and TV stations. The seismic monitoring been implemented to reduce the vulnerability of station is connected to a global seismic network populations at risk. As a consequence, relocation to allow for the monitoring of earthquakes across of some communities is ongoing, while some safe the region, and Maldives is also connected to a islands are being constructed. number of other regional disaster monitoring systems, including the Pacific Tsunami Warning In addition, the Ministry of Fisheries and Agriculture Center and the Tropical Cyclone Warning Centers has a targeted subsidies program to help increase in Delhi and La Reunion. resilience of vulnerable farmers to disasters such as floods and tsunamis. HFA Priority # 3: Use of knowledge, innovation, and education to build a culture of safety and HFA Priority # 5: Strengthen disaster resilience at all levels preparedness for effective response at all levels A national disaster event and disaster loss database was established in 2006 by the UNDP. To increase preparedness capacity, safe shelters In addition, the National Disaster Management have been established throughout the islands, and Center has launched a national awareness some schools have been retrofitted to also act as raising campaign, on disaster risk reduction, early shelters in case of an emergency. The Ministry of warning, and response actions to improve local Education has mandated that schools produce understanding of disaster risks. As part of this emergency management plans and train focal campaign, websites, posters, TV, radio, and a points in the Standard Operational Procedures for number of social media tools were used to make disaster events. In addition, community-based existing information on hazards and prevention disaster preparedness plans have been developed measures available to a wide audience. This in a number of islands, which have involved included a campaign targeting children through emergency drills among island communities. adapted DRM books. Given the importance of the tourism sector in the Maldives, a specific Standard Operational Procedure HFA Priority # 4: Reduction of the underlying has been developed for hotel operators, and airport risk factors emergency drills have also been conducted. A National Contingency Fund, managed by the Ministry The national building code was revised in 2008 and of Finance and Treasury, is aimed at responding to disseminated through a Building Code Handbook by any national level emergencies. Table 9: The World Bank and Key Multilateral and Bilateral Investments in Maldives’ DRM Sector Year Year Funding Project HFA Project approved closed agencies volume (USD) priorities Post Tsunami Emergency Relief and 2005 Closed The World Bank 14,000,000 4,5 Reconstruction Project A N N EX 2: C OU N TRY PRO FI LES 77 4. Key Donor Engagements A. The World Bank and Key Multilateral and Bilateral Investments Shortly after the 2004 tsunami, the World Bank approved the Post Tsunami Emergency The World Bank’s Country Assistance Strategy Relief and Reconstruction project, which (CAS) (2008-2011) highlights the vulnerability helped finance cash grants, reconstruction of Maldives to adverse natural events. As a of schools, health facilities, and other public consequence, the CAS commits to financing infrastructure as well as some technical climate change adaptation activities to increase assistance. Since then, the Bank’s involvement Maldives’ resilience to climate change and natural in supporting DRM initiatives in the country disaster risks. has been limited. Nepal A N N EX 2: C OU N TRY PRO FI LES 79 NEPAL1 1  Figure 35: Map of Nepal Country level information Geographic Area (in sq km) 147,180 Population (in Millions) 28,6 Population Density (person per sq km) 200 Urban population (% of total population) 17 Arable land (% of total area) 16 Forest land (% of total area) 24 HDI country rank (out of 182) 144 GNI per capita (ATLAS method, in USD) 400 Agriculture, value added (% of GDP) 34 Industry, value added (% of GDP) 17 Services etc., value added (% of GDP) 50 Source: WDI, (2007, 2008), HDI (2007), UNICEF (2008), FAO (2007) NEPAL Figure 36: Percentage Distribution of Reported Disasters in Nepal (1970-2009) Disaster statistics (1970-2009)* Cyclones and Storms Droughts 5% Total Total Affected Disaster Total Casualties People 10% type Disaster Earthquakes Total Annual Total Annual 5% Earthquake 3 810 21 542,000 13,900 Flood 32 5,600 143 3.5 M 90,000 Drought 3 - - 4.6 M 118,000 Landslides Landslide 16 1,600 41 443,000 11,000 27% Cyclone 6 80 2 185 5 Floods 53% Total 60 8,100 207 9M 233,000 Source: EM-DAT 2010, accumulated figures Figure 37: Average Annual Economic Loss Economic loss potential 1 of Nepal* Annual exceedance Economic loss Percentage probability (USD Million) of GDP 0.5% 807 9.0% 5% 321 3.59% 20% 119 1.33% Floods 100%s Source: RMSI 2010 (based on 1967-2006) * Insufficient economic Loss Data for other hazards. 1 Estimates the probability (in percent) of annual economic losses exceeding specific amount of USD (in USD Million). The last column shows the probable annual economic loss as percent of GDP. 80 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Disaster Risk Profile Main sources of risk to hazards. The cities along the foot-hills are exposed to floods, landslides and earthquakes. In particular, According to the Natural Disasters Hotspots Report2, rapid and unplanned urbanization in the Kathmandu Nepal is ranked as the 11th most vulnerable country Valley has significantly increased vulnerability to in the world to earthquakes, and 30th to flood risks. earthquakes. Combining these hazards, and the high level of vulnerability to both, the country is ranked second in Since 1970, more than 8,000 deaths as a result the world at mortality risk from two or more hazards. of natural hazards were recorded, with nearly 10 Approximately 80 percent of its geographic area is million cumulatively affected during that period. The at risk from multiple natural hazards, with the vast most significant event during this period was the majority of the population inhabiting these high-risk 1993 floods, which killed more than 1,300 people, areas. Floods and landslides are the most frequently a fifth of all Nepal’s flood victims, between 1970 recurring hazards, and floods are the source of the and 2010. Landslides, which impact seven times greatest economic loss and highest casualty rate. fewer people than floods, threaten a number of hill communities and disrupt economic activities Nepal is a landlocked country with diverse geographic through the destruction or blockage of infrastructure. and climatic features that expose it to a number of Major events can cause serious losses, such as the natural hazards. The country can be divided into three 1993 floods and landslides, which killed over 1,336 regions, which expose it to different hazards. More people and caused economic losses of nearly US$1 than 6000 rivers including the four major basins– billion. While the past 40 years have not seen many Kosi, Gandaki, Karnali, and Mahakali–drain into the earthquake events, the risk is estimated to be Gangetic plains before feeding the southern lowland considerable. Most recently, the 1988 earthquake plains of Terai. The hill region, known as Pahad, killed over 700 people, while the last major event, has high altitude variations, while the mountainous which occurred in 1934, killed nearly 10,000. region, known as Parbat, is formed by the Himalaya. Droughts, storms, and Glacial Lake Outburst Floods Given the geographic profile, the climate varies from (GLOFs) are hazards which also threaten livelihoods subtropical in the lower areas to alpine in its higher in Nepal. elevations in a short span of 200-300 kilometers. Corresponding to this variation in geography and Potential impact of climate change climate, the country is subject to multiple hazards, many of which may affect it simultaneously as a result In 2011, Nepal was ranked the 4th most climate of cascading effects. Nepal is extremely vulnerable vulnerable country in the world. Several of Nepal’s to water-related hazards. Nepal’s hydrology is highly most important development opportunities (i.e., variable, with the monsoon bringing 80 percent of hydropower and agriculture) are highly susceptible Nepal’s rainfall in less than three months during the to climate change, and its most extreme summer. development risks (i.e., drought, flood, GLOFs and waterborne diseases), may be heightened by it. Nepal’s Terai districts routinely suffer from devas- The 4th Assessment Report of the IPCC estimates tating floods affecting large, poor populations. that Nepal will experience the impacts of climate change through an increase in temperature, more High exposure to natural hazards, coupled with frequent heat waves, and shorter frost durations an agriculture-dependent population with a lack of in the future. Winters are expected to be drier and adequate infrastructures such as roads, drinking monsoon summers wetter, which could result in water, irrigation etc., makes Nepal highly vulnerable more frequent and intense summer floods and winter droughts. Even if total rainfall is not expected 2 The World Bank: Natural Disaster Hotspots, A Global Risk Analysis (Washington, DC: Disaster Risk Management Series, 2005). to decline, the increasingly rapid decline in glacial A N N EX 2: C OU N TRY PRO FI LES 81 Figure 38: Village Development Committees (VDC) Distribution of Deaths Due to Natural Disasters Source: Global Assessment of Risk Disinventar, 2009 cover due to temperature increases will increase Army, and members of the departments of mining runoff, which in turn will increase floods, GLOFs and geology, water-induced disasters, and hydrology and landslide events. & meteorology. While MoHA has led emergency preparedness and disaster management efforts, its primary purpose is to provide and distribute 5. Disaster Risk Management emergency relief to disaster victims. Framework On a sub-national level, the 1982 Act defined The Government of Nepal (GoN) has been actively the establishment of regional committees, on engaged in disaster risk management (DRM) an ad-hoc basis, along with permanent district since the early 1980s and has long established level committees. A number of committees have institutions, policies, and implementation capacity. been established that have proven effective in The current national DRM structure is based on the managing disaster relief efforts. District Disaster 1982 legislation, the Natural Calamity (Relief) Act. Relief Committees (DDRC) are headed by the This Act defines the GoN’s roles and responsibilities Chief District Officer, and include district-level to engage in DRM activities, and provides an sectoral representatives such as from the water, administrative structure for various DRM themes. health, and education sectors. The apex institution defined under the Act is the To fund DRM activities, the CDRC manages a Central Disaster Relief Committee (CDRC), presided Central Disaster Relief Fund (CDRF), which can over by the Minister of Home Affairs (MoHA) and be supplemented by the Prime Minister’s fund. comprising 27 ministry secretaries and members In addition to the CDRF, all districts are required of organizations who collaborate with the MoHA in to maintain a fixed deposit for use in the event of a DRM. These include institutions such as the Nepal disaster. At the village level, administrative bodies Red Cross Society, the Nepal Police, the Nepal have been advised to maintain some funds at their 82 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview disposal. since 2008, municipal bodies have also achieved by the GoN in increasing resilience to been required to establish a relief and recovery fund adverse natural events. in accordance with an amendment to the Local Self- Governance Act of 2007. HFA Priority # 1: Ensure that disaster risk reduction is a national and a local priority with In 2008, based on the existing and functioning DRM a strong institutional basis for implementation structures, the GoN began to shift focus from an ex- post disaster response approach to ex-ante disaster The Natural Calamity (Relief) primarily is focused risk mitigation activities. Guided by the principle of on post disaster relief and recovery. In 2008, the building resilience to hazards, and recognizing the MoHA began revising this Act to move towards need to build institutions capable of responding to the formulation of a comprehensive Disaster large-scale disasters, the GoN passed a National Management Act. The MoHA has also initiated Strategy for Disaster Risk Management (NSDRM) in the development of a NSDRM covering all aspects 2008. The NSDRM serves as a guide for the transition of DRM. However the strategy is still not formally towards a holistic approach to DRM, including a approved by the GoN and thus still remains a focus on risk identification, vulnerability reduction, conceptual document. and improved preparedness and response capacity. Following this strategy, the GoN has embarked on In parallel to drafting new legislation, to advance the the establishment of new institutional, legislative and shift from ex-post to ex-ante, the MoHA has initiated policy frameworks for DRM. As part of the evolution a process to establish a multi-sectoral national to ex-ante DRM activities, the process to repeal the platform. The platform includes representatives from Natural Calamity Relief Act has been initiated. concerned government agencies, UN agencies, donors, international and national NGOs, media, The existing DRM structure faces several challenges, academic institutions, the private sector, and in particular, the fact that the current DRM approach community based organizations. is limited to a reactive approach to natural disasters. This constraint is being addressed in the NSDRM. The GoN allocates 2.5 billion Nepal rupees (US$36 Furthermore, the existing capacities and institutions million), which is approximately 1.5 percent of its are not realized to their full potential and enforcement total annual budget, for DRM activities. There is also legislation is lacking. Finally, there has been a lack of a provision of Prime Minister Relief Fund and central a broader awareness of the risks of natural disasters Disaster Assistance Fund for Disaster Management. and possible response mechanisms, not only among However these are primarily for relief and rescue the public, but also among government officials and activities, and resources for disaster risk reduction are public employees. not allocated on a priority basis. The Local Self-Governance Act (1999) has given 6. Progress Towards Hyogo the authority and responsibility to the local Framework For Action government authorities, the District Development Committees (DDC), and the Municipalities and The Hyogo Framework for Action, represents the Village Development Committees (VDC), to design international consensus on how to monitor and and implement DRM activities at the local level. evaluate capacity to manage natural disaster risk. However, there is no systematic and assured The framework includes five priorities, which are mechanism of resource allocation to the local listed below, along with a brief summary of progress authorities from the center. A N N EX 2: C OU N TRY PRO FI LES 83 HFA Priority # 2: Identify, assess, and monitor data collection and dissemination. However, this disaster risks and enhance early warning effort is currently implemented on an ad-hoc basis as opposed to a systematic approach. This is due, National and local level risk assessment is a new in part, to the lack of a designated and functional phenomenon in Nepal. There is no national level central and district-level data clearing house that multi-hazard risk assessment covering regularly can collect, maintain, and disseminate information. occurring disasters. However, there is a 37 year historical record of disaster occurrence and their The current school curricula have a limited amount impact available in Nepal, which is based on the of information on DRM. In 2008, the secondary level “Desinventar� system, and is managed by National of education curriculum incorporated information on Society for Earthquake Technology (NSET). DRM, with a focus on preparedness and response. Recently however, several international NGOs Some work has begun on assessing the impact of have been supporting the Ministry of Education in various hazard events, including GLOFs, floods and incorporating DRM into school curricula, training earthquakes. For example, international organizations teachers on DRM, providing awareness building such as the International Centre for Integrated classes, and publishing various Information, Mountain Development (ICIMOD) have initiated a Education and Communication (IEC) materials on process to assess the socio-economic impacts of seismic risk in Kathmandu. GLOFs and flash floods through case studies. In addition, the GoN has also established a seismic HFA Priority # 4: Reduction of the underlying monitoring system within the Department of Mines risk factors and Geology. Various line ministries are engaged in pilot programs There exists a body of scientific, engineering, and to reduce disaster risk. In 2010, the GoN launched disaster preparedness experts that are engaged targeted initiatives in the areas of school earthquake in monitoring natural hazards events and making preparedness and emergency response, which is early warning information accessible for a wider managed by a consortium of actors. In addition, the audience. In 2010, to support these efforts, the Ministry of Health and NSET have initiated a pilot, GoN began designing a comprehensive early non-structural vulnerability assessment of hospitals. warning system for hydro meteorological events, Finally, the Ministry of Agriculture has been involved which is in the process of being installed and in vulnerability reduction activities such as drought operationalized. risk reduction and food security, while also being in the early stages of developing agriculture insurance HFA Priority # 3: Use of knowledge, innovation, mechanisms. and education to build a culture of safety and resilience at all levels Laws are in place, including the National Shelter Policy of 1996 and the National Urban Policy A science-based DRM approach that seeks to of 2007, which define land-use guidelines and identify hazard and understand vulnerability to these building codes. Both these laws have been made hazards has begun to take place in recent years. compulsory in municipal areas; however, despite For example, the Department of Water Induced the legislation, there is a lack of implementation Disaster Prevention, the Nepal Red Cross Society, due to weak enforcement of the codes. As a and other international NGOs have been collecting result, unplanned urbanization and construction of and disseminating national level information to unsafe houses is prevalent through the Kathmandu sensitize the population to disaster risk through Valley. Lack of management and planning of human 84 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Table 10: The World Bank and Key Multilateral and Bilateral Investments in Nepal’s DRM Sector Year Year Project volume HFA Project Funding agencies approved closed (USD) priorities Building Resilience The World Bank/ to Climate Related 2012 Ongoing Climate Investment 25,000,000 2,4,5 Hazards Fund 7. Key Donor Engagements settlement in the Valley has significantly increased A. The World Bank and Key Multilateral and the vulnerability of people to earthquakes because Bilateral Investments of the weak structural integrity of most buildings. Nepal’s Interim Strategy Note (ISN) for FY 2012-2013 The National Disaster Management Plan, developed recognizes the importance of ‘reducing vulnerability in 1993 and endorsed by the Government in 1996, and increasing resilience’ and its commitment emphasizes the need to match natural resource to actively engage in disaster risk management management, climate change, and development activities. The World Bank is dedicated to helping with disaster management. The new NSDRM Nepal manage disasters, particularly floods and is expected to combine these elements in order earthquakes, and to continue non-lending technical to holistically address the contributing factors of assistance for DRM initiatives. The Bank further disaster risk. commits to exploring project support aimed at reducing disaster risks through collaboration with HFA Priority # 5: Strengthen disaster GFDRR. preparedness for effective response at all levels In addition, the Bank has committed to participating in the Nepal Risk Reduction Consortium (NRRC), A limited number of districts of Nepal had developed an initiative launched by the GoN and a group of District Disaster Management Plans (DDMP) international organizations working to promote the based on Geographic Information System (GIS) UN International Strategy for Disaster Reduction information. However, due to lack of coordination (ISDR) in 2009. NRRC exists to bridge the spectrum and technical capacity, these plans were not fully of development and humanitarian partners in order implemented and monitored. Furthermore , there is to support the GoN in taking action to implement no early warning system in place for major hazards long term DRM. The members of the NRRC with outreach to disaster-prone communities. In a include the Asian Development Bank (ADB), the few localized areas, single hazard-oriented early International Federation of the Red Cross and warning systems are managed by the Department Red Crescent Societies (IFRC), the United Nations of Hydrology and Meteorology. Development Program (UNDP), the UN Office for the Coordination of Humanitarian Affairs (OCHA), There is currently no systematic Disaster Impact the UN International Strategy for Disaster Reduction Assessment carried out in the GoN. However, the (ISDR), AusAid, the Department for International proposed NSDRM seeks to mainstream disaster Development (DFID), the Humanitarian Aid impact assessments across line ministries. Department of the European Commission (ECHO), A N N EX 2: C OU N TRY PRO FI LES 85 Japan International Cooperation Agency (JICA) the B. GFDRR World Health Organization (WHO), and the World Bank /GFDRR. The GFDRR has been engaged in ex-ante DRM activities since 2007. The overarching objective The NRRC has developed a Disaster Risk Reduction of these engagements is to help advance the Action Plan that builds on the GoN National GoN’s efforts to meet the Hyogo Framework for Strategy for Disaster Risk Management. Based on consultations with key stakeholders to identify Action. Engagements are based around providing disaster risk reduction priorities that are urgent assistance to support the shift from ex-post to ax- and viable, five flagship areas were identified ante DRM activities, including the initial foundation and proposed: 1) School and Hospital Safety, 2) of a potential risk transfer mechanism for farmers. Emergency Preparedness and Response, 3) Flood Table 11 summarizes approved and ongoing activities Management in the Kosi River Basin, 4) Community financed by GFDRR. Based Disaster Risk Management, and 5) Policy/ Institutional Support for DRM. Over the next two years, GFDRR will support the Nepal Disaster Risk Management Country The World Bank has taken a leading role in coor- Program. In particular, the focus of the program dinating Flagship 3: Flood Management in the Kosi River Basin. The Kosi River Basin is the biggest is to build capacity within the GoN, in addition river basin in Nepal and flooding in the Kosi to investing in risk identification, awareness, severely impacts communities in Nepal as well and mitigation activities to enhance resilience to as across the border in Bihar, India. Managing disasters. In particular, the program components water induced disasters, primarily floods, is a include: 1) Institutional Strengthening and Building priority for the government with both short and Technical Expertise, 2) Flood Management long term goals. The short term goals focus Project Kosi River Basin, 3) Enhancing on enhancing institutional capabilities towards Emergency Response Capacity, 4) Enhancing flood management while the long term goals Weather Forecast for Disaster Preparedness, focus on implementing effective flood mitigation 5) School and Hospital Emergency Planning measures. In its role, the World Bank continues to assist the GoN with flood risk assessments, and Safety Initiative, and 6) Support for Nepal structural risk mitigation, the development of Disaster Risk Management Flagship Program. flood forecasting models and early warning These activities are being coordinated through systems, and the strengthening of institutional partnerships with members of the NRRC as capacity to manage floods. well as the GoN. Table 11: GFDRR Investments in Nepal’s DRM Sector Year Year Funding Project HFA Project approved closed agencies Size (USD) priorities Nepal: Agricultural Insurance Feasibility Study 2008 2010 GFDRR 159,000 2,4,5 Hazard Risk Management Program Nepal 2008 2011 GFDRR 914,000 2 Nepal Disaster Risk Management Country Program 2010 Ongoing GFDRR 1,800,000 2, 3, 4, 5 Pilot Program for Seismic School Safety in the 2010 Ongoing PHRD 1,500,000 3, 4 Kathmandu Valley Pakistan A N N EX 2: C OU N TRY PRO FI LES 87 PAKISTAN 1 1  Figure 39: Map of Pakistan Country level information Geographic Area (in sq km) 796,100 Population (in Millions) 166 PAKISTAN Population Density (person per sq km) 215 Urban population (% of total population) 36 Arable land (% of total area) 27 Forest land (% of total area) 2.3 HDI country rank (out of 182) 141 GNI per capita (ATLAS method, in USD) 980 Agriculture, value added (% of GDP) 20 Industry, value added (% of GDP) 27 Services etc., value added (% of GDP) 53 Source: WDI, (2007, 2008), HDI (2007), UNICEF (2008), FAO (2007) Figure 40: Percentage Distribution of Reported Disasters in Pakistan (1970-2009) Droughts 1% Cyclones 15% Earthquakes 18% Landslides 15% Floods 51% Disaster statistics (1970-2009) No. of No. of affected No of casualties people Disaster disaster type Annual Anual total Total Total avg avg Earthquake 21 79,000 2,000 6.6 M 168,000 Flood 59 9,000 230 42 M 1.1 M Economic loss potential 1 Drought 1 145 ,4 2.2 M 56,000 Annual exceedance Economic loss Percentage Landslide 17 580 15 3,600 95 probability (USD Million) of GDP Cyclone 17 1,450 40 2.2 M 37,000 0.5% 4,024 3.17% Total 115 90,000 2,300 53 M 471,000 5% 1,258 0.99% Source: EM-DAT 2010, accumulated figures 20% 382 0.30% Source: RMSI 2010 (based on 1967-2006) Figure 41: Average Annual Economic Loss of Pakistan Floods 33% 1 Estimates the probability (in percent) of annual economic losses Earthquakes exceeding specific amount of USD (in USD Million). The last column shows the probable annual economic loss as percent of GDP. 67% 88 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 1. Disaster And Climate Risk Profile Disaster Risk Profile 60 percent of the country is classified as semi- arid to arid, with the most susceptible regions Pakistan’s diverse geography exposes it to a experiencing drought two or three years every large number of hazards, and the high population decade. Recent droughts include those of 2000 density in disaster prone areas makes the country and 2002, which severely impacted livelihoods highly vulnerable to adverse natural events. and forced thousands to migrate. Additionally, 14 Flood events have been the most recurrent and cyclones have occurred over the past 40 years. have had the greatest impact, while earthquakes These events can be especially high impact in have happened less often but caused significant the coastal areas, because the low-lying coastal concentrated damages. Total deaths over the past belt allows storms to travel several hundred 40 years exceed 90,000, and total recorded losses kilometers inland and, along the way, destroy from disaster amount to US$20 billion, including crops and livelihoods. the US$10 billion in losses caused by the 2010 flood, and the US$5 billion caused by the 2005 Several underlying risk factors cause natural earthquake. Losses from another major flooding hazards to be potentially devastating in Pakistan. event in 2011 are being quantified by the ongoing With a dense population, situated in areas damage and Needs Assessment. subject to multiple hazards, most assets are not constructed to be resilient to major events. Additional risk factors contributing to Pakistan’s The country’s large size and location between vulnerability include limited enforcement of the Himalayas to the north and the coast of the existing building codes, weak early warning Arabian Sea to the south, give rise to its very systems, and a lack of awareness and education distinct physiographic zones. The notable zones on disasters and response. are the Northern Highlands, encompassing among others the Hindu Kush, Karakoram Climate Risk Profile Range, and Himalayas, the Indus plain, and the Balochistan plateau. Earthquake exposure is very Climate change could increase Pakistan’s vulne- high in the northern region, while flood exposure rability to natural disasters. This phenomenon in is high throughout the country, due to the runoff Pakistan is expected to increase glacial melt, raise from the mountain rivers and the monsoon rain the sea level along Pakistan’s coast, and increase season. The generally temperate climate varies periods without precipitation. Increased glacial among mostly arid and semi-arid areas, a warm, recession, estimated by some to be around 400 humid maritime climate along the coast, and meters a year in the present and near future, will a temperate alpine climate in the Karakoram result in less water inflow to the Indus river basin. ranges. These factors may lead to increased intensity and frequency of flash flood and especially drought Pakistan has experienced a wide range of major events that could compromise potable water disasters in the past 40 years. The country is supply, irrigation water, and power generation. one of the most flood prone in South Asia, and a number of floods have caused significant damage, particularly during 1950, 1992, 1998, 2010, and 2. Disaster Risk Management 2011. Major earthquakes occur with relatively high Framework frequency, with the last major event occurring in 2005, killing 73,000 and causing US$5 billion in Pakistan’s National Disaster Risk Management losses. Other major earthquakes over the past Framework (NDRMF) seeks to build and strengthen 40 years occurred in 1974 and in 1990. Most of linkages with all applicable national and international Pakistan experiences low rainfall and as much as protocols and sectorial developmental policies. At A N N EX 2: C OU N TRY PRO FI LES 89 the national level, these include, inter alia, the Poverty disaster- related agencies and activities, and passage Reduction Strategy Paper (PRSP), the Medium Term of the 18th Constitutional Amendment by Pakistan’s Development Framework 2006-10, and the Ten Year Parliament, which devolved some powers to the Perspective Development Plan 2001-2011. provinces, including overall responsibility to prepare for and respond to disaster. As a consequence of the 2005 earthquake, the GoP has made concerted efforts towards establishing The NDRMF, developed through a broad consultative a comprehensive disaster management regime. process led by the NDMA, calls for the integration of This has involved a strategic shift from the previous risk assessment in the planning and design stages reactive to a proactive approach. To implement of all new infrastructure projects. The Framework this proactive strategy, an integrated management holds the promotion of multi-stakeholder, multi- structure has been set up that links the vital functions sectoral, and multidisciplinary approaches in disaster of preparedness, risk reduction and early recovery risk reduction as its foremost policy principle in order to longer term reconstruction and rehabilitation. to effectively mainstream DRM into development planning. The projected impacts of global climate In 2006, the 1958 Calamity Act, which historically change are integrated into the Framework to help governed disaster response and recovery activities, the GoP increase resilience to these emerging was replaced by the National Disaster Management challenges, and builds on analytical work and studies Ordinance (NDMO). The NDMO provides the carried out by various national and international institutional and regulatory framework for the agencies. functioning of the new proactive national DRM regime, including all federal, provincial, and local Significant progress in implementing the DRM government institutions tasked with disaster agenda has been inhibited mostly by a lack of management responsibilities. capacity within the government, particularly at the sub-national levels. The disaster risk agenda has not Under the 2006 NDMO, the National Disaster received sufficient resources to make significant Management Authority (NDMA) was established progress. Compounding this constraint is the and has become operational. The NDMA is the lack of dedicated professional staff at the disaster national coordinating agency for disaster risk management authorities at the federal, provincial, reduction and, together with the Earthquake and district levels. Finally, the limited progress on Reconstruction and Rehabilitation Authority (ERRA), undertaking hazard risk assessments and limitations it is responsible for all aspects of DRM from risk in collection and sharing of risk data has led to the identification and mitigation to post-disaster absence of a comprehensive understanding of the recovery and reconstruction. The NDMA serves as overall risks and required mitigation interventions. a secretariat to the National Disaster Management Commission (NDMC), which is chaired by the Prime Minister and includes representatives from various 3. Progress Towards Hyogo federal ministries and provincial governments. The Framework For Action NDMA is tasked with coordination of all disaster risk management activities in the country. At the sub- The Hyogo Framework for Action represents the national levels, the Provincial Disaster Management international consensus on how to monitor and Authorities (PDMAs) and District Disaster evaluate capacity to manage natural disaster risk. Management Authorities (DDMAs) are mandated The framework includes five priorities, which are with undertaking disaster management functions. listed below, along with a brief summary of progress Recent developments include the creation of achieved by the GoP in increasing resilience to a Ministry of Climate Change, to coordinate all adverse natural events. 90 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview HFA Priority # 1: Ensure that disaster risk system for collecting, archiving, and disseminating reduction is a national and a local priority with data on hydro-meteorological hazards is available a strong institutional basis for implementation through the Pakistan Meteorological Department. The same still needs to be put in place for all The NDM Act, which was approved in 2010 remaining hazards along with a compatible platform. by the national legislature and supersedes the NDMO 2006, provides the legal framework The GoP is building its capacity for the monitoring for DRM in Pakistan. It outlines the creation of and warning of floods. An institutionalized appropriate institutions at the national, provincial, process, managed by the Meteorological and district levels. A policy making body, NDMC, Department, ensures dissemination of flood and the national authority, the NDMA, have been early warnings to national stakeholders, providing established along with the creation of Provincial, input to vulnerable communities using multiple and District authorities. In addition to the legal channels. In addition, to strengthen tsunami and organizational institutions that have been early warning systems, the NDMA has initiated established, the NDRMF provides a national a project, with support of international donors, road map for institutional capacity building and to strengthen capacities at National Tsunami identifying responsibilities of stakeholders. Warning Centers in Karachi and Islamabad. The National Disaster Management Fund (NDMF), HFA Priority # 3: Use of knowledge, innovation, to which the GoP contributed PKR 300 million as and education to build a culture of safety and an initial grant, is envisaged as a reserve fund to resilience at all levels help the government deal with disasters. However, the fund has not been able to function as planned, To improve technical DRM capacity, the NDMA largely due to the absence of approved procedures. worked with the Ministry of Education to develop a At the provincial level, some Provincial Disaster strategy to integrate DRM in the education curricula. Management Authorities (PDMA)s are also trying As a result, DRM themes are in the process of to establish their own provincial funds for DRM. being integrated into primary and secondary level Additional funding is made available in the event education in order to improve awareness. At the of a catastrophe through the President’s and Prime tertiary level, specialized courses in DRM are Minister’s Relief Fund, which provided support being offered at private and public universities. In after the 2005 earthquake and the floods of 2010. addition, the NDMA is working on the integration of DRM themes into the training academies for HFA Priority # 2: Identify, assess, and monitor civil servants, such as the National School of Public disaster risks and enhance early warning Policy. Identified as a priority under the NDRMF, the To improve the capacity of DRM professionals, NDMA has launched the National Working the National Institute for Disaster Management group (NWG) on risk assessments which would (NIDM) was established to provide state of the coordinate, collate, and provide strategic guidance art facilities for planning and promoting training to all risk assessments in the country. NDMA is and research and developing core competencies also working with various partners on multi-hazard in the area of DRM. The Institute will also risk assessments and mapping forward in Pakistan. document and develop national level information Local level risk assessments are also conducted by databases on DRM policies, documentation, and a number of stakeholders on a city and district level. prevention mechanisms. While data collection and sharing is at times To increase awareness of DRM themes amongst constrained, a reasonably well-functioning national the general population, the GoP has initiated a A N N EX 2: C OU N TRY PRO FI LES 91 number of activities. First, it has declared October Building code is currently being updated to include 8 (the day of the 2005 earthquake) as a national seismic provisions as an integral part of the code. disaster awareness day. Second, the NDMA Similar to the rest of the region, enforcement of has conducted community awareness programs the code will likely pose a significant challenge, in the coastal areas of Pakistan, including mock requiring a certain capacity and skillset from the evacuation drills during tsunamis. The NDMA has concerned agencies for proper implementation. also conducted awareness raising programs in earthquake prone areas to increase preparedness, HFA Priority # 5: Strengthen disaster response, and recovery capacity. Finally, the preparedness for effective response NDMA works with different media groups to at all levels develop public DRM awareness through various The NDMA is working on a number of initiatives media outlets. to develop disaster preparedness and response HFA Priority # 4: Reduction of the underlying capacities. These include the development of a risk factors national disaster response plan, the establishment of emergency operations centers, and contingency Given the high vulnerability of the agricultural planning for key hydro-meteorological hazards. In sector to hazards, the GoP directed the Ministry addition, search and rescue teams for urban areas of Agriculture to analyze the sector’s vulnerability and districts as well as some communities are to natural disasters and to develop mitigation and being established, trained, and equipped. To further prevention mechanisms. As a result, the Ministry increase response capacity, the NDMF has been developed early warning systems, encouraged established and will be used to meet the expenses contingency crop planning and diversification, and of DRM activities. Apart from the NDMF, disaster promoted supplementary off-farm and non-farm relief funds are also available under the Prime activities for income generation. The GoP is also Minister’s Disaster Relief Fund. Finally, there are piloting an insurance program to cover crops from province level resources available to respond to adverse natural events in selected districts. disasters through the Chief Minister’s Relief Fund. However, further work is required to systematically To safeguard industrial and productive activities distribute relief funds to disaster affected areas. from the impact of natural disasters, the Ministry of Industries and Special Initiatives has 4. Key Donor Engagements developed DRM strategies. Among these, the Ministry created guidelines for the industrial A. The World Bank and Key Multilateral sector to ensure the safety of industry and its and Bilateral Investments production processes in hazard-prone areas. It has also created incentives and disincentives for The World Bank’s current Country Assistance industries to implement disaster safety measures, Strategy (CAS) 2010-2014, is committed to awareness raising programs, and vulnerability supporting the government in the development reduction activities. of a comprehensive hazard risk management strategy through dialogue, advisory activities, Following the 2005 earthquake, the GoP placed and technical assistance. The CAS supports the a high priority on enforcing building codes for outcome of improvement in Pakistan’s disaster safer construction against natural disasters, risk management capacity under the sustainable and housing reconstruction followed a strict development strategic pillar. Through the CAS, earthquake resistant building technique. To the Bank is working to support the GoP’s paradigm promote the construction of disaster resilience shift in DRM, in which the Government has structures across the country, the National moved from a predominantly reactive approach 92 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Table 12: The World Bank and Key Multilateral and Bilateral Investments in Pakistan’s DRM Sector Year Funding Project volume HFA Project Status approved agencies (USD) priorities Earthquake Emergency Recovery 2006 Closed The World Bank 400,000,000 1,4 Credit Earthquake Recovery Credit II 2008 Closed The World Bank 125,000,000 1,4 One UN DRM Programme 2008 Ongoing ONE UN 9,000,000 1,2,3,4,5 Project for National Disaster 2010 Ongoing JICA 4,400,000 1,2,3,5 Management Plan Pakistan Flood Emergency Cash 2011 Ongoing The World Bank 125,000,000 5 Transfer Project Balochistan Disaster Management 2012 Ongoing MDTF 5,000,000 1,2,3 Project to a more pro-active engagement to reduce the on supporting PDMA Balochistan in strengthening impact of adverse natural events. While the CAS institutional disaster risk management capacity acknowledges advances made in the promotion and emergency response systems, developing a of effective DRM strategy, it also underlines the hazard and risk assessment in the provincial capital, various challenges remaining, including a general and supporting PDMA Balochistan in establishing lack of awareness and the limited in-country and piloting a CBDRM program to engage local technical capacity. The current constraints to communities in risk management activities and the efficient operation of DRM systems and to guide initiatives to improve DRM awareness. response mechanisms are also highlighted, while In addition, the project includes a contingent the national risk environment has not yet been emergency response component. In the event of identified and analyzed. The CAS also presents a natural disaster in Balochistan, critical emergency the current and ongoing activities and some of response and recovery costs in the Province may be the broad planned interventions by the Bank in supported through this component upon activation. order to support effective DRM in the country. In particular, the Bank has launched the Balochistan Additionally, the Bank is implementing a US$3 Disaster Risk Management Project in FY12 to help million programme financed by Government of support DRM initiatives in Pakistan’s largest and Japan’s Policy and Human Resources Development highly vulnerable province. The objective of this (PHRD) fund to develop appropriate methodologies project is to strengthen the capacity of the Provincial and guidelines for assessing and subsequently Disaster Management Agency of Balochistan enhancing the multi-hazard early warning systems (PDMA Balochistan) to prepare for and respond to and the disaster response capacities of urban local natural disasters. In particular, the project focuses authorities in two pilot cities. A N N EX 2: C OU N TRY PRO FI LES 93 B. GFDRR Table 13 sets out the GFDRR investments in DRM and vulnerabilities to adverse natural events. since 2007. The majority of the investments have Another project has been approved by GFDRR for been focused on ex-post support to post-disaster provision of support to the NDMA and other key reconstruction, with a key objective of analyzing the government counterpart agencies in developing a lessons learned. The current operation, Development national risk assessment platform and provision of of Hazard Risk Assessment in Urban Areas is focused recommendations for a comprehensive approach on improving the GoP’s understanding of the hazards to financing disaster risk. Table 13: GFDRR Investments in Pakistan’s DRM Sector Year Year Funding Project HFA Project approved closed agencies volume (USD) priorities Building Capacity to Effectively Deliver Safety 2008 2009 GFDRR 250,000 4,5 Nets in Post-disaster Situations in Pakistan Results and Lessons in the Rural Housing Reconstruction Response to the 2005 Pakistan 2008 2011 GFDRR 230,000 2,3,4 Earthquake Flood Emergency Preparedness in Pakistan 2010 2011 GFDRR 280,000 2,3,4,5 Pakistan Floods DNA 2011 2011 GFDRR 550,000 5 Pakistan Development Forum 2011 2011 GFDRR 150,000 1,2,3,4,5 Development of a Program for Hazard and Risk 2011 Ongoing GFDRR 500,000 2,3,4,5 Assessment in Urban Areas Strengthening Pakistan's Urban Disaster 2012 Ongoing PHRD 3,000,000 2, 3, 4 Response Capacity Development of a National Platform for Risk 2012 Ongoing GFDRR 500,000 4 Assesment and Cat Risk Financing Mechanisms Sri Lanka A N N EX 2: C OU N TRY PRO FI LES 95 SRI LANKA Figure 42: Map of Sri Lanka Country Level Information Geographic Area (in sq km) 65,610 Population (in Millions) 20.85 Population Density (person per sq km) 312 SRI LANKA Urban population (% of total population) 35 Arable land (% of total area) 15 Forest land (% of total area) 28 HDI country rank (out of 182) 97 GNI per capita (ATLAS method, in USD) 2240 Agriculture, value added (% of GDP) 11.2 Industry, value added (% of GDP) 29 Services etc., value added (% of GDP) 59.5 Source: Source: Sri Lanka Central Bank Report 2011, FAO (2007) Figure 43: Percentage Distribution of Reported Disasters in Sri Lanka (1970-2009) Cyclones 6% Droughts 13% Landslides 5% Tsunami 1% Disaster statistics (1970-2009) Floods 74% Total Total Affected Disaster Total Casualties People type Disaster Total Annual Total Annual Earthquake 1 35,000 - 1M - Flood 45 950 24 9.7 M 248,000 Drought 8 - - 6.3 M 56,000 Economic loss Potential 1 Landslide 3 120 3 130 3 Annual Exceedance Economic Loss Percentage Cyclone 4 755 19 1.4 M 37,000 (USD Million) of GDP Probability Total 61 37,200 954 18.4 M 471,000 0.5% 275 1.02% Source: EM-DAT 2010, accumulated figures 5% 107 0.40% Figure 44: Average Annual Economic Loss of 20% 39 0.14% Sri Lanka* Source: RMSI 2010 (based on 1967-2006) Floods 100% 1 Estimates the probability (in percent) of annual economic losses exceeding specific amount of USD (in USD Million)The last column * Insufficient Economic Loss Data for other hazards. shows the probable annual economic loss as percent of GDP. 96 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 1. Disaster Risk Profile belt. This geography creates an uneven spatial and temporal distribution of rain, which exposes a significant portion of the island to flood and Main Sources of Risk drought risk. Weather patterns are driven by the monsoon, with the southwest monsoon causing The impacts of natural disasters have been sizable severe flooding in the Western, Southern and over the past four decades, particularly those of flood Sabaragamuwa provinces, and the northeast and drought. Floods have cumulatively affected monsoon causes flooding in the Eastern, Northern, more than 10 million people, while droughts have and North-Central provinces. The monsoon also affected more than six million. Droughts occur three exposes the country to drought risk, particularly to four times a decade and have caused economic in the southeastern, northern, north central, and setbacks. Though less frequent, cyclones have had northwestern regions. Originating from the Bay significant impacts, such as the 1978 cyclone that of Bengal, mostly during northeast monsoon, impacted over one million people and caused one the north and eastern seaboards are exposed thousand fatalities. to cyclone risk. Sri Lanka is also exposed to landslides in the hilly central highlands. Figure 45 Sri Lanka’s geographic and climatic diversity provides a visualization of the various hazards Sri exposes it to a number of risks from natural Lanka is exposed to. hazards, with the majority of hazard events being flood, drought, and cyclone. The mountain Relative to its small size and concentrated massif in the south-central part of the island economic activities, disaster incidence is high divides the landscape into three distinctive zones in Sri Lanka. Nearly 500,000 people are affected - the central highlands, the plains, and the coastal every year by disasters, and annual losses average Figure 45: Hazard Profile of Sri Lanka Floods Landslides Cyclones Drought People Affected Houses Destroyed Houses Destroyed Crop Losses (Ha) www.desinventar.lk Source: www.desinventar.lk A N N EX 2: C OU N TRY PRO FI LES 97 Figure 46: National Council for Disaster Management Social Services Police National Council for Disaster Rehabilitation and Reconstruction Management Finances Home Affairs Chairman: H.E. President Land Vice Chair: Hon. Prime Minister Health Leader of the Opposition Fisheries and Aquatic Resources Science and Technology ForeignAffairs Chief Opposition Housing Ministers MPS Water Supply Coast Conservation Ministry of Disaster Management Highways Irrigation Urban Development Power Education Disaster Management Centre Defense Environment Source: Road Map for Sri Lanka, 2005 approximately US$50 million. Vulnerability to showing a decrease in rainfall compared to adverse natural events is significant due to high historical records, with accompanying changes in population density and concentrated economic the spatial distribution of rainfall. activities in flood prone and coastal areas. This vulnerability is compounded by unplanned patterns Sri Lanka’s communication report to the UNFCC of human settlement, economic development, shows that extreme events across Sri Lanka are and poor land-use planning. These human activities have resulted in severe encroachments expected to increase in the future, leading to not only into flood plains, but also, unstable an increase in three risks. First, climate change slopes. A substantial number of conflict-related, could increase losses caused by floods and newly resettled people, especially in the Northern droughts, posing risks to economic productivity Province, compound Sri Lanka’s vulnerability to and human health due to more intense and disasters. frequent flooding and to higher frequency and duration of droughts. Second, landslide losses, Potential impact of climate change which have been increasing over the past two decades, are expected to continue increasing due The 4th Assessment Report of the IPCC shows to greater soil saturation during extreme rainfall that climate change could impact Sri Lanka through increases in temperature and rainfall events. Third, the coastal population of Sri Lanka, variability. By 2100, temperatures are projected to representing 32 percent of the total population, increase by 2.5°C, and mean rainfall is projected is increasingly exposed to coastal hazards, both to change by 7 percent, with almost all models in terms of frequency and magnitude. 98 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview 2. Disaster Risk Management Framework The “Mahinda Chintana – Vision for Future�, to adverse natural events, including: strengthening is the key development policy framework the country’s disaster monitoring and early warning operational in the country. This policy has clearly systems, emergency preparedness and planning, indicated that a culture of safety will be created increasing awareness and capacity of sub-national through systematic management of natural, officials and schools, and, introducing and enforcing technological, and man-made disaster risks. DRM aspects into land-use and development There is also emphasis in the Vision on promoting planning. environmental sustainability, including watershed/ water resources management, coastal zone The disaster management framework in Sri Lanka management, etc. which are closely linked to took shape in the aftermath of the 2004 tsunami Disaster Risk Management (DRM). and is based on emergency preparedness and response. In 2005, a Select Committee was The 2004 tsunami set Sri Lanka on a path to established by the Sri Lankan Parliament, which engaging more actively in DRM activities. Since was charged with investigating the country’s then, the Government of Sri Lanka (GoSL) has preparedness to meet emergencies and made considerable efforts to reduce vulnerability recommending steps to be taken to minimize the Figure 47: Overview of Disaster Management Coordination Mechanism in Sri Lanka Department of Meteorology Geological Survey and Mines Bureau ( GSMB) National Building Research Organization (NBRO) National Council for Disaster Management National Science Foundation (NSF) Coast Conservation Department (CCD) National Aquatic Resources Agency (NARA) Disaster Management Centre Colombo Municipal Council (CMC) & Fire Brigade Sri Lankan Navy Through District DM Coordinators Mahaveli Authority Department of Irrigation National Water Supply and Drainage Board Provincial District Line District NGO’s (NWS&DB) Councils Secretariats Departments and CBO’s Atomic Energy Agency Central Environmental Authority (CEA) Local Divisional Authorities Secreariats Ceylon Electricity Board (CEB) Department of Social Services Grama Marine Pollution and Prevention Authority Niladaries Medical Research Institute Department of Agriculture Villages Other A N N EX 2: C OU N TRY PRO FI LES 99 damage caused by similar events. Based on the rainfall, tsunami, cyclone, landslide, and sea surge Select Committee’s recommendations, the Sri hazards are being developed, and some have Lanka Disaster Management (DM) Act, No. 13 of been made operational at the community level. 2005, was enacted in May 2005. Under this Act, To increase disaster awareness, training programs the National Council for Disaster Management have been launched for district level officials, school (NCDM), chaired by the President and vice- children and vulnerable communities. To improve chaired by the Prime Minister, was established land use planning, hazard maps for landslides and as the apex body for DRM coordination and coastal hazards have been developed. monitoring in Sri Lanka. While progress has been made since the 2004 The Ministry of Disaster Management was tsunami to improve institutional capacity to empowered as the leading ministry, and the engage in DRM, challenges remain, which were Disaster Management Center (DMC) was highlighted in the Interim HFA Progress Report established as the executing agency for DRM, of 2008 and 2011. Gaps exist in the technical responsible for implementing the directives of capacity of the agencies to implement a fully NCDM. Since the Act was created, the DMC fledged national DRM plan. In addition, the has become the national level nodal agency legal and policy provisions to implement and to responsible for coordinating all aspects of DRM, enforce the national DRM plan must continue to from disaster risk mitigation policies and plans, improve over time to damage assessments and post-disaster reconstruction. The Center has also promoted 3. Progress Towards Hyogo collaboration between local level DRM programs and has guided their development to ensure Framework For Action alignment with sector development programs. The Hyogo Framework for Action, represents the international consensus on how to monitor and The Sri Lanka DRM framework is based on two evaluate capacity to manage natural disaster risk. aspects of managing disaster risk, in addition The framework includes five priorities, which to ongoing efforts to streamline the roles and are listed below, along with a brief summary responsibilities of the DMC. These include: 1) of progress achieved by the GoSL in increasing Risk Management, which entails risk evaluation, resilience to adverse natural events. disaster preparedness and emergency response and recovery, and 2) Early Warning Systems, HFA Priority #1: Ensure that disaster risk which involves the capture of risk and hazard reduction is a national and a local priority early warning information, the evaluation of with a strong institutional basis for the intensity of events, and the communication implementation of major warnings to various stakeholders. A mechanism for monitoring and evaluation, The DMC has been leading discussions with the which includes agreement on specific risk Ministry of Local Government to include DRM in reduction indicators, and the means of gathering the local government policy document approved information, is being improved to deliver early by the Cabinet of Ministers. The Ministry has warnings and guide evacuation more effectively. accepted the amendments suggested by the DMC for the new Act, which is currently under Advances in reducing vulnerability have been made development. through enhanced emergency preparedness, increased disaster awareness and improved land Complementing the new institutional framework, use planning. National early warning systems for the National Disaster Management Coordinating 100 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Committee (NDMCC), Sri Lanka’s national DRM In addition, a comprehensive Sri Lanka Disaster platform that comprises 60 members representing Information System (DesInventar), which records state and private sector agencies, NGOs, and historic disaster losses, is being maintained and other stakeholders, has met regularly since 2007. is available online at www.desinventar.lk. A The NDMCC has proved to be effective especially system has been established at national level to in disaster response and relief. The DMC is in the regularly update Desinventar. process of developing a common work program for the NDMCC reflecting the DRM activities of Strengthening of the early warning systems has the stakeholder agencies for the next two years been a key priority since the Act was approved, and this effort is expected to avoid duplication of and improvements have been made in monitoring DRM efforts by different stakeholder agencies. and dissemination. To improve data collection and analysis, the Department of Meteorology is To continue advancing DRM, there remain three in the process of installing a Doppler Weather broad challenges. First, coordination with the various Radar System that will improve short-term heavy line departments engaged in DRM activities — such rain forecasting. To improve dissemination and as the Ministry of Irrigation & Water Management augment connectivity across the country, a and the Ministry of Agricultural Development for total of 74 Early Warning Towers with satellite Flood Risk Management — remains weak. Second, communication packages have been made preparation of DRM plans for government agencies, operational along the coastal belt. In addition, a as required by the DM Act, has been delayed VHF and HF Radio Communication System has because approval from the National Council for the been established linking 10 highly disaster prone National Disaster Management Plan has not yet districts. To ensure effective dissemination of been obtained. Finally, there has been inadequate emergency messages, the DMC has established institutional capacity within the ministries and district a system with Dialog GSM, a leading mobile administrations to manage the resources mobilized telecom company having a customer base of over for disaster response and recovery programs. seven million, for disseminating disaster early warning through SMSs and Cell Broadcasting. HFA Priority #2: Identify, assess, and monitor 
 disaster risks and enhance early warning HFA Priority #3: Use of knowledge, innovation, and education to build a culture of safety and Preliminary hazard mapping has been undertaken resilience at all levels throughout Sri Lanka. The DMC has started developing a multi-hazard risk profile for Sri The GoSL has supported the development and Lanka. Through this effort, relevant technical execution of disaster awareness campaigns agencies are being supported to develop hazard across Sri Lanka. To improve DRM awareness profiles of five main hazards, which include among the population, the DMC engages in landslides, coastal hazards, cyclone, floods, and national and local level exhibitions to present drought, which are expected to be completed by the message of disaster resilience to the public. December 2012. Local level hazard maps have Several media tools have been produced to raise been prepared by communities affected by the public awareness in relevant communities such 2004 tsunami as well as the communities highly as, inter alia, cartoons, films, booklets, computer vulnerable to floods and landslides. Community games, and posters on different hazards. level hazard maps have been created for approximately 100 communities, and guidelines Education programs have been developed across have been developed for the preparation of the education spectrum, from grade schools to hazard maps at the village level. universities. District level school DRM awareness A N N EX 2: C OU N TRY PRO FI LES 101 and training programs, with special focus on Disaster Management Centre has supported Sri the 2004 tsunami were conducted along the Lanka in establishing a web portal linking all DRM coastal belt and mock drills were practiced in all relevant institutions, to publish best practices schools identified as being vulnerable to tsunami and other material for the region (http://www.saarc- hazard. Teachers have been trained to convey sadkn.org/countries/srilanka/default.aspx). The DMC the importance of disaster risk, and the National has developed a web portal to host all climate Institute of Education, under the coordination change related information, and education and of the DMC, has developed supplementary communication materials, and is responsible for textbooks on disasters. Degree programs have information dissemination to different stakeholder been developed within universities, including groups (www.climateadaptation.lk). at the University of Peradeniya, which has developed a Postgraduate Degree Program in HFA Priority #4: Reduction of the underlying DRM. In addition, the University of Kelaniya offers risk factors a Diploma Course in Disaster Management, and the University of Colombo offers a certificate A number of risk factors, within two broad course in Disaster Management. The Civil categories, have been addressed on the policy Engineering Department of the University of level in Sri Lanka. First, land-use policies, which Moratuwa has initiated a certificate course on are virtually non-existent, are being developed in ‘Disaster Resistant Construction Practices’; consultation with stakeholders. Coastal reservation the first course was successfully completed in and setback zones have been declared in the May 2011 with the participation of more than 30 coastal management plan, while environmentally engineers. Furthermore, initial discussions have sensitive areas have been declared as protected been held with the Department of Technical areas. Education and Training to introduce a module on Disaster Resistant Construction Practices into Disaster risk is now being integrated into social the Civil Engineering curriculum of the Technical and environmental assessments. The DMC Colleges which produces the majority of the Civil and the Central Environmental Authority are Engineering technical officers in the country. collaborating to carry out Integrated Strategic Environmental Assessments (ISEA) that inte- Professional training programs have also been grate disaster risk. The first ISEA was undertaken established. For example, district and divisional to facilitate sustainable development in the officers have been trained to improve their capacity Northern Province after the conflicts. Building to assess disaster risks and integrate DRM themes on this success, the NDMC has advised Sri into development planning. In addition, a training Lanka to undertake similar assessments across program on disaster resistant housing has been other provinces. Thus far, ISEAs have been developed for engineers and the technical officers completed for Central and Uva provinces, and for involved in the post conflict housing reconstruction the Gampaha district of the Western Province. programs in the Northern and Eastern provinces. A number of environmental measures have accompanied policy level decisions. Natural Advances have also been made to develop a usable dense vegetation along coastal belts has been web platform to share information and coordinate planted to guard against high winds and wave efforts. The DMC has established a website (www. surges, while wetland mangrove restoration and dmc.gov.lk) where DRM information is published, conservation programs have been implemented. and which has also built a resource center to share knowledge on DRM. In addition, the South Asian To address the issue of climate change, the GoSL Association for Regional Cooperation (SAARC) has developed the National Climate Change 102 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview Adaptation Strategy (NCCAS). The NCCAS focuses In accordance with the DM Act, a number of both on climate change and DRM, recognizing preparedness measures have been implemented. the uncertainty of the projected changes and The DMC has established an Emergency impacts of climate change, but also accepting Operations Center which operates 24x7 to that adaptation and DRM are imperative to ensure coordinate emergency response and early warning the country’s continued economic and social dissemination activities. To improve execution, development. The NCCAS seeks to: 1) mainstream the DMC has trained approximately 250 officers climate change adaptation into national planning engaged in disaster response activities at the and development, 2) enable climate resilient and district and divisional levels on the Incident healthy human settlements, 3) minimize climate Command System, providing management tools change impacts on food security while improving for DRM. In addition, national, district, and local climate resilience of key economic drivers, and, level officials, volunteers, and communities have 4) safeguard natural resources and biodiversity received training for disaster preparedness and from the impacts of climate change. response. As a result, a number of skilled staff and volunteers are available to be deployed Under the DM Act of 2005, a provision was made across the country in case of an emergency. for disaster financing. The Act stated that a fund Tsunami simulation exercises have also been shall be capitalized with monies received from the carried out in all the vulnerable villages to ensure consolidated fund of the GoSL, in addition to other timely evacuation. A resource database called sources of funds such as loans and donations. Sri Lanka Disaster Resource Network (SLDRN) However, at present, a fund has not been has been developed with district level resources established. Insurance schemes for protecting available for emergency response. Finally, an against disaster losses are currently in their intra-government network has been established infancy, with discussions on-going to implement to connect responsible departments to facilitate a pilot project that incorporates community-based the sharing of GIS maps and other data to better organizations with financial institutions that serve as coordinate early warning and response operations. re-insurers. HFA Priority #5: Strengthen disaster 4. Key Donor Engagements preparedness for effective response A. The World Bank and Key Multilateral at all levels and Bilateral Investments The GoSL has identified disaster preparedness Sri Lanka’s Country Assistance Strategy (CAS) as a priority in the DRM Policy. Accordingly, for 2009-2012 made an explicit and concrete National Disaster Management Plan and Disaster case for the Bank’s engagement in DRM. The Preparedness and Response Plans for 16 districts weaknesses in Sri Lanka’s social protection out of 25, and 77 divisions out of 327, have been mechanisms become most apparent during developed. Village level plans have also been post-disaster situations, and therefore, the CAS created in the most vulnerable areas. The National aimed at improving the effectiveness of social Emergency Response Committee (NERC) meets protection systems, such as promoting a cash regularly to assess the readiness of member transfer system to be used in a post-disaster organizations in the event of a disaster. In addition, environment. The CAS also highlights the need to a National Emergency Operations Plan (NEOP) is assist agricultural producers that are particularly currently being developed, in order to ensure a well- vulnerable to negative impacts of natural disasters. coordinated and effective disaster response. The current Country Partnership Strategy (CPS) A N N EX 2: C OU N TRY PRO FI LES 103 for FY2013 – FY2016 also highlight the need Development to 1) reduce flooding in the Colombo for the strengthening of the country’s disaster sub catchment, and 2) strengthen the capacity risk management system with special focus of local authorities in the Colombo Metropolitan on mainstreaming DRM and Climate Change Area to rehabilitate, improve, and maintain local Adaptation into urban development. infrastructure and services through selected demonstration investments. In particular, the Bank has engaged with the GoSL to launch an ambitious economic and physical GFDRR regeneration program for the Metro Colombo area through the Metro Colombo Urban Development The GFDRR has engaged in three DRM operations Program (MCUDP). The objective of the MCUDP since 2007, with one of them completed in is to support the Ministry of Defence and Urban 2011 and the remaining two becoming effective Table 14: The World Bank and Key Multilateral and Bilateral Investments in Sri Lanka’s DRM Sector Year Year Funding Project HFA Project approved closed agencies volume (USD) priorities Tsunami ERL 2005 Closed The World Bank 75,000,000 1,4 Puttalam Housing Project 2007 Ongoing The World Bank 32,000,000 Dam Safety and Water 2008 Ongoing The World Bank 65,300,000 2 Resources Planning Disaster Management Communication and Re- 2007 Completed Netherland Govt 7,500,000 4 sponse Capacity Develop- ment Project Phase I completed. Phase I 15,000,000 Emergency Response Phase II on going 2007 Netherland Govt Phase II 25,000,000 2,4,5 Project Phase I,II,III Phase III under Phase III 37,500,000 evaluation Flood Recovery 2011 Ongoing The World Bank 48,000,000 4,5 Metro Colombo Urban 2012 Ongiong The World Bank 213,000,000 1,4, 5 Development Project 104 Di s a s te r R is k M a n a g e m e n t in S ou th Asia : A Reg ion a l Overview recently. The first project, Improving Sri Lanka’s agencies to assess and quantify disaster risk, in Response and Recovery in the Aftermath of particular flood risk, and to formulate appropriate Natural Disaster, was completed in 2011. This policy and operational responses to this risk. project focused on collecting and disseminating lessons learned from past disaster events and A third project, a GFDRR activity financed by a building capacity for assessing damages and Japanese PHRD grant, is the Metro Colombo – losses from disasters. Towards a Flood Resilient Urban Environment Project. This activity will finance the technical inputs The second project, Mainstreaming Disaster Risk and studies necessary to advance preparation of Management in Sri Lanka, was approved in 2011. a flood management program aimed at improving This project is the consolidated engagement for the flood resilience of the country’s capital city the next three years and aims to strengthen the and surrounding areas. Table 15 summarizes the technical capacity of Sri Lankan government approved and ongoing activities financed by GFDRR. Table15: GFDRR Investments in Sri Lanka’s DRM Sector Year Year Funding Project HFA Project approved closed agencies volume (USD) priorities Improving Sri Lanka's Response and 2008 2011 GFDRR 230,000 5 Recovery in the aftermath of Natural Disaster Mainstreaming Disaster Risk Management in 2011 2014 GFDRR 1,4300,000 2,3,4,5 Sri Lanka Metro Colombo – Towards a Flood Resilient 2012 2013 PHRD 990,000 2,3,4,5 Urban Environment Global Facility for Disaster Reduction and Recovery 1818 H Street, NW Washington, DC 20433, USA Telephone: 202-458-0268 Facsimile: 202-522-3277 Website: www.gfdrr.org