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Welfare and Climate Risks in Coastal Bangladesh : The Impacts of Climatic Extremes on Multidimensional Poverty and the Wider Benefits of Climate Adaptation (2023)

Verschuur, Jasper ; Becher, Olivia ; Kazi, Swarna ; [et al.]

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource (59 pages)

Parallel Title: Erscheint auch als Verschuur, Jasper Welfare and Climate Risks in Coastal Bangladesh: The Impacts of Climatic Extremes on Multidimensional Poverty and the Wider Benefits of Climate Adaptation

Keywords: Adaptation Co-Benefits ; Climate Change ; Coastal Risk ; Cyclone Hazard Data ; Environmental Risk ; Household Survey ; Multidimensional Poverty Index ; Poverty ; Poverty Reduction ; Welfare Implications

Abstract: It is widely recognized that climate hazards impact the poor disproportionately. However, quantifying these disproportionate hazard impacts on a large scale is difficult given limited information on households' location and socioeconomic characteristics, and incomplete quantitative frameworks to assess welfare impacts on households. This paper constructs a household-level multidimensional poverty index using a synthetic household dataset of 43 million people residing in the coastal zone of Bangladesh. Households are spatially linked to the critical infrastructure networks they depend on, including housing; water, sanitation, and hygiene; electricity; education; and health services. Combined with detailed cyclone hazard data, the paper first quantifies risks to households, agriculture, and infrastructure. It then presents a novel framework for translating critical infrastructure impacts into the temporary incidence of service deprivations, which can contribute to temporary deprivations and hence multidimensional poverty. The paper uses this framework to evaluate the benefits of various adaptation options. The findings show that asset risk due to flooding is USD 483 million per year at present, increasing to USD 750 million per year in 2050 under climate change. Households face an average infrastructure service disruption of two days per year, which is expected to increase to 4.6 days per year in 2050. This, in turn, would incur a temporary increase in multidimensional poverty (7.2 percent of people are multidimensionally poor at the baseline) of up to 94 percent (2.9 million people) 30 days after an extreme cyclone event (a 1-in-100 years event) at present and 153.9 percent (4.8 million people) in the future. The paper quantifies the large welfare benefits of upgrading embankments, showing how apart from significant risk reduction, these interventions reduce service disruptions by up to 70 percent in some areas and can help up to 1.6 million (0.23 million under current and proposed programs) people from experiencing some form of temporary poverty. Overall, the paper identifies poor households exposed to climate impacts, as well as those prone to falling into poverty temporarily, both ofcould help to mainstream equity considerations in new adaptation programs

DOI: 10.1596/1813-9450-10373

URL: lizenzpflichtig

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The Bangladesh Delta : A Lighthouse Case Study (2021)

Pakulski, Ingrid ; Browder, Greg ; Engle, Nathan ; [et al.]

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource

Series Statement: Water Papers

Abstract: This case study report discusses current development strategy for the Bangladesh Delta, which reflects an integrated approach to disaster risk management and water resources management. In this context, special attention is given to the Bangladesh Delta Plan 2100 and the role of the World Bank in Bangladesh's transition toward sustainable, climate-resilient development. The report goes over key building blocks of the government's current delta management and highlights some aspects of the Bangladesh Delta Plan 2100 that may also be relevant to other deltas

DOI: 10.1596/35066

URL: Deutschlandweit zugänglich

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Bangladesh : Enhancing Coastal Resilience in a Changing Climate (2022)

Kazi, Swarna ; Haque Khan, Zahir-ul ; Jongejan, Ruben ; [et al.]

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource

Series Statement: Other Environmental Study

Keywords: Adaptation To Climate Change ; Climate Change Impacts ; Environment ; Flood Control ; Water Resources

Abstract: As the World Bank and government of Bangladesh celebrate 50 years of development cooperation this year, a key highlight is the journey towards addressing climate change and improving the resilience of the coastal zone. From the outset, the World Bank has been a long-standing partner in the government's efforts to reduce the risks from disasters and enhance coastal resilience, resulting in a number of noteworthy achievements. Bangladesh demonstrated how investments in the entire chain of disaster risk reduction saves lives, reduces economic losses, and protects development gains. Proactive policies and sound investments in strengthening resilience across multiple fronts over the last five decades have resulted in a drastic decline in the number of casualties from cyclones. Bangladesh's approach has been an integrated one, from grassroots strengthening of community-level adaptation and community-based early warning systems, to investing in key protective infrastructure and promoting innovations, all founded on a strategic policy framework. With the success of these initiatives, Bangladesh has emerged as a global leader in climate resilience. Although there has been significant progress, with the coastal population and economy expected to grow, and the intensity and magnitude of extreme events projected to increase due to climate change, hazard impacts still pose a great threat to the development ambitions of the country. Thus, further actions are needed to improve the resilience of the coastal zone. This report provides new perspectives and insights into how to address the impacts of climate-related hazards in the coastal zone. The report provides evidence of the drivers of risks in Bangladesh's coastal zone, analyzes what has been achieved so far in reducing these risks, and reviews the lessons learned from these achievements. Supported by in-depth analytical work, the report explores innovative solutions illustrated with artist impressions and puts forward seven key recommendations to enhance coastal resilience in Bangladesh and build shared prosperity for decades to come. What is clear from the report is that investing in coastal resilience will bring multiple benefits, and that the time to act is now

DOI: 10.1596/38004

URL: lizenzpflichtig

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Wave Reduction by Mangroves during Cyclones in Bangladesh : Implementing Nature-Based Solutions for Coastal Resilience (2022)

Mancheno, Alejandra Gijon ; Jonkman, S.N. (Bas) ; Kazi, Swarna ; [et al.]

Washington, D.C : The World Bank

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Language: English

Pages: 1 Online-Ressource (57 pages)

Parallel Title: Erscheint auch als Mancheno, Alejandra Gijon Wave Reduction by Mangroves during Cyclones in Bangladesh: Implementing Nature-Based Solutions for Coastal Resilience

Keywords: Coastal Resilience ; Energy Attenuation ; Environment ; Environmental Engineering ; Forestry ; Mangrove Stability ; Wave Energy Balance ; Wave Energy Dissipation ; Wave Reduction

Abstract: This paper investigates how mangrove foreshores can be integrated into embankment designs in Bangladesh. The effect of mangroves on surges has already been studied for the design conditions of Bangladesh. However, the impact of wave attenuation by mangroves on embankment designs is not known. A model is thus developed to estimate the wave height reduction by a mangrove forest, and how such wave attenuation would influence the design of a landward embankment. Model simulations suggest that mangrove belts with a width between 100 and 1,000 meters (perpendicular to the coast) could provide wave attenuation rates between 7 and 55 percent (compared to a situation without mangroves) at potential afforestation sites identified in previous studies. Such wave attenuation rates would reduce the embankment height by 0.09?0.30 meters, diminish the slope revetment thickness by 13?46 percent, and decrease the wave shear stresses at the embankment toe up to 25?70 percent. Relatively wider mangrove belts not only cause a larger reduction of the embankment design requirements, but also host larger biodiversity and are more resilient against pests and extreme events. The model results are highly sensitive to the mangrove properties, and collecting data on the local mangrove species is recommended to reduce uncertainty in the predictions. Moreover, the results also suggest that trees older than 10?20 years might collapse during storms. Expanding the mangrove stability model, including other pioneer species in the analysis, and exploring the option of canopy pruning are thus advised to ensure the integrity of any future afforestation efforts. Overall, this paper provides a methodology that could be applied to design nature-based solutions in Bangladesh

DOI: 10.1596/1813-9450-10240

URL: lizenzpflichtig

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