Account (% age 15+) Country Climate and Development Report (CCDR) The percentage of respondents who report having an account (by themselves or together with someone else) at a bank or similar financial institution (see the definition for "bank or similar financial institution account") or report personally using a mobile money service in the past year (see the definition for "mobile money account"), (% age 15+) Global Findex Database Account, income, poorest 40% (% ages 15+) Country Climate and Development Report (CCDR) The percentage of respondents who report having an account (by themselves or together with someone else) at a bank or another type of financial institution (see the definition for "financial institution account") or report personally using a mobile money service in the past year (see the definition for "mobile money account"), poorest 40% (% ages 15+) Global Findex database Agricultural land (% of land area) Country Climate and Development Report (CCDR) Agricultural land refers to the share of land area that is arable, under permanent crops, and under permanent pastures. Arable land includes land defined by the FAO as land under temporary crops (double-cropped areas are counted once), temporary meadows for mowing or for pasture, land under market or kitchen gardens, and land temporarily fallow. Land abandoned as a result of shifting cultivation is excluded. Land under permanent crops is land cultivated with crops that occupy the land for long periods and need not be replanted after each harvest, such as cocoa, coffee, and rubber. This category includes land under flowering shrubs, fruit trees, nut trees, and vines, but excludes land under trees grown for wood or timber. Permanent pasture is land used for five or more years for forage, including natural and cultivated crops. FAO electronic files and web site, Food and Agriculture Organization of the United Nations (FAO), publisher: Food and Agriculture Organization of the United Nations (FAO) Agriculture & Rural Development Climate Change Environment Arable land (% of land area) Country Climate and Development Report (CCDR) Arable land includes land defined by the FAO as land under temporary crops (double-cropped areas are counted once), temporary meadows for mowing or for pasture, land under market or kitchen gardens, and land temporarily fallow. Land abandoned as a result of shifting cultivation is excluded. FAO electronic files and website, Food and Agriculture Organization of the United Nations (FAO), publisher: Food and Agriculture Organization of the United Nations (FAO) Agriculture & Rural Development Climate Change Environment Forest area (% of land area) Country Climate and Development Report (CCDR) Forest area (% of land area) is the share of total land area that is under natural or planted stands of trees of at least 5 meters in situ, whether productive or not, and excludes tree stands in agricultural production systems (for example, in fruit plantations and agroforestry systems) and trees in urban parks and gardens. FAOSTAT, Food and Agriculture Organization of the United Nations (FAO), uri: https://www.fao.org/faostat/en/#data/RL, publisher: Food and Agriculture Organization of the United Nations (FAO) Agriculture & Rural Development Climate Change Environment Total protests and riots since 2018 Country Climate and Development Report (CCDR) Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population (%) - Min. exposure, 2100 Country Climate and Development Report (CCDR) Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population, is reported as a percentage and is reflective of the population in the year 2100, determined by the minimum exposure scenario (RCP26) Kulp, S.A., Strauss, B.H. New elevation data triple estimates of global vulnerability to sea-level rise and coastal flooding. Nat Commun 10, 4844 (2019). https://doi.org/10.1038/s41467-019-12808-z Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population (%) - Max exposure, 2100 Country Climate and Development Report (CCDR) Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population, is reported as a percentage and is reflective of the population in the year 2100, determined by the maximum exposure scenario (RCP85) Kulp, S.A., Strauss, B.H. New elevation data triple estimates of global vulnerability to sea-level rise and coastal flooding. Nat Commun 10, 4844 (2019). https://doi.org/10.1038/s41467-019-12808-z Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population (%) - Min. exposure, 2050 Country Climate and Development Report (CCDR) Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population, is reported as a percentage and is reflective of the population in the year 2050, determined by the minimum exposure scenario (RCP26) Kulp, S.A., Strauss, B.H. New elevation data triple estimates of global vulnerability to sea-level rise and coastal flooding. Nat Commun 10, 4844 (2019). https://doi.org/10.1038/s41467-019-12808-z Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population (%) - Max exposure, 2050 Country Climate and Development Report (CCDR) Additional population exposed to annual coastal floods due to sea level rise, as a share of actual population, is reported as a percentage and is reflective of the population in the year 2050, determined by the maximum exposure scenario (RCP85) Kulp, S.A., Strauss, B.H. New elevation data triple estimates of global vulnerability to sea-level rise and coastal flooding. Nat Commun 10, 4844 (2019). https://doi.org/10.1038/s41467-019-12808-z Nitrogen application (tons per ha) Country Climate and Development Report (CCDR) Data generated by taking Nutrient Nitrogen N (tonnes) [Fertilizers by Nutrient sheet] and dividing it by Area Harvested (ha) [Crops and Livestock Products sheet] from FAOSTAT. FAOSTAT data is made available under the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 IGO license (CC BY-NC-SA 3.0 IGO; https://creativecommons.org/licenses/by-nc-sa/3.0/igo). In addition to this license, some database specific terms of use are listed: Terms of Use of Datasets. FAOSTAT. Available at: http://www.fao.org/faostat/en/#data Additional people below $1.90 as % of total population by impact - All impacts Country Climate and Development Report (CCDR) Additional people below $1.90 as % of total population for all impacts, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $1.90 as % of total population by impact - Agriculture Revenues Country Climate and Development Report (CCDR) Additional people below $1.90 as % of total population by impact, from climate change impacts relating to Agriculture Revenues, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $1.90 as % of total population by impact - Disasters Country Climate and Development Report (CCDR) Additional people below $1.90 as % of total population by impact, from climate change impacts relating to Disasters, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $1.90 as % of total population by impact - Food prices Country Climate and Development Report (CCDR) Additional people below $1.90 as % of total population by impact, from climate change impacts relating to Food Prices, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $1.90 as % of total population by impact - Health Country Climate and Development Report (CCDR) Additional people below $1.90 as % of total population by impact, from climate change impacts relating to Health, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $1.90 as % of total population by impact - Labor productivity Country Climate and Development Report (CCDR) Additional people below $1.90 as % of total population by impact, from climate change impacts relating to Labor Productivity, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $4 as % of total population by impact, by 2030 - Agriculture Country Climate and Development Report (CCDR) Additional people below $4 as % of total population by impact, by 2030, from climate change impacts relating to Agriculture, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $4 as % of total population by impact, by 2030 - All Impacts Country Climate and Development Report (CCDR) Additional people below $4 as % of total population by impact, by 2030, from all impacts, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $4 as % of total population by impact, by 2030 - Disasters Country Climate and Development Report (CCDR) Additional people below $4 as % of total population by impact, by 2030, from climate change impacts relating to Disasters, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $4 as % of total population by impact, by 2030 - Health Country Climate and Development Report (CCDR) Additional people below $4 as % of total population by impact, by 2030, from climate change impacts relating to Health, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Additional people below $4 as % of total population by impact, by 2030 - Temperature Country Climate and Development Report (CCDR) Additional people below $4 as % of total population by impact, by 2030, from climate change impacts relating to Temperature, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Change in income (%) for bottom 40% of the population by impact, by 2030 - Agriculture (original) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact, by 2030, from climate change impacts relating to Agriculture, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Change in income (%) for bottom 40% of the population by impact, by 2030 - All Impacts (original) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population for all impacts impact, by 2030, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Change in income (%) for bottom 40% of the population by impact, by 2030 - Disasters (original) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact, by 2030, from climate change impacts relating to Disasters, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Change in income (%) for bottom 40% of the population by impact, by 2030 - Health (original) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact, by 2030, from climate change impacts relating to Health, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Change in income (%) for bottom 40% of the population by impact, by 2030 - Temperature (original) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact, by 2030, from climate change impacts relating to Temperature, is generated from data within Shock Waves : Managing the Impacts of Climate Change on Poverty. This report examines the potential impact of climate change and climate policies on poverty reduction. It also provides guidance on how to create a “win-win” situation so that climate change policies contribute to poverty reduction and poverty-reduction policies contribute to climate change mitigation and resilience building. The key finding of the report is that climate change represents a significant obstacle to the sustained eradication of poverty, but future impacts on poverty are determined by policy choices: rapid, inclusive, and climate-informed development can prevent most short-term impacts whereas immediate pro-poor, emissions-reduction policies can drastically limit long-term ones. Hallegatte, Stephane; Bangalore, Mook; Bonzanigo, Laura; Fay, Marianne; Kane, Tamaro; Narloch, Ulf; Rozenberg, Julie; Treguer, David; Vogt-Schilb, Adrien. 2016. Shock Waves : Managing the Impacts of Climate Change on Poverty. Climate Change and Development;. Washington, DC: World Bank. © World Bank. https://openknowledge.worldbank.org/handle/10986/22787 License: CC BY 3.0 IGO. Change in income (%) for bottom 40% of the population by impact - Agriculture Revenues (update) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact - All impacts (update) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact - Disasters (update) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact - Food prices (update) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact - Health (update) Country Climate and Development Report (CCDR) Change in income (%) for bottom 40% of the population by impact - Labor productivity (update) Country Climate and Development Report (CCDR) CO2 emissions by sector (Mt CO2 eq) - Bunker Fuels Country Climate and Development Report (CCDR) Bunker fuels sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Building Country Climate and Development Report (CCDR) Building sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Electricity/Heat Country Climate and Development Report (CCDR) CO2 emissions by sector (Mt CO2 eq) - Total excluding LUCF Country Climate and Development Report (CCDR) Total CO2 emissions (excluding LUCF) are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Energy Country Climate and Development Report (CCDR) Energy sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Fugitive Emissions Country Climate and Development Report (CCDR) Fugitive sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Total including LUCF Country Climate and Development Report (CCDR) Total CO2 emissions (including LUCF) are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Industrial Processes Country Climate and Development Report (CCDR) Industrial Processes sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Land-Use Change and Forestry Country Climate and Development Report (CCDR) Land-Use Change and Forestry sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Manufacturing/Construction Country Climate and Development Report (CCDR) Manufacturing and construction sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. CO2 emissions by sector (Mt CO2 eq) - Other Fuel Combustion Country Climate and Development Report (CCDR) CO2 emissions by sector (Mt CO2 eq) - Transportation Country Climate and Development Report (CCDR) Transportation sector CO2 emissions are generated from the World Resource Institute's Climate Watch. Climate Watch Historical Emission data contains sector-level greenhouse gas (GHG) emissions data for 194 countries and the European Union (EU) for the period 1990-2018, including emissions of the six major GHGs from most major sources and sinks. Non-CO2 emissions are expressed in CO2 equivalents using 100-year global warming potential values from IPCC Fourth Assessment Report. Climate Watch Historical GHG Emissions data (previously published through CAIT Climate Data Explorer) are derived from several sources. Any use of the Land-Use Change and Forestry or Agriculture indicator should be cited as FAO 2020, FAOSTAT Emissions Database. Any use of CO2 emissions from fuel combustion data should be cited as CO2 Emissions from Fuel Combustion, OECD/IEA, 2020. Climate Watch. 2020. Washington, DC: World Resources Institute. Available online at: https://www.climatewatchdata.org. Annual methane emissions at operating coal mines (Mt CO2e 100 years) Country Climate and Development Report (CCDR) Methane emissions from operating coal mining (Mt CO2eq) is generated from the Global Coal Mine Tracker (GCMT). The GCMT provides information on the world’s major coal mines: every operating mine producing 3 million tonnes per annum (mtpa) or greater, and every proposed mine with a capacity of 1 mtpa or greater. The map and underlying data are updated bi-annually, in January and July. With each update, coverage is expanded to include smaller mines. By January 2022, GCMT will have cataloged every coal mine producing 1 mtpa or greater. Each mine included in the tracker is linked to a wiki page on GEM.wiki, which provides additional details. GCMT was accessed in July 2021 to generate this data. Global Coal Mine Tracker, Global Energy Monitor. Available at: https://globalenergymonitor.org/projects/global-coal-mine-tracker/ Annual CO2 combustion emissions at operating coal mines (Mt CO2) Country Climate and Development Report (CCDR) CO2 emissions from operating coal mining (Mt CO2eq) is generated from the Global Coal Mine Tracker (GCMT). The GCMT provides information on the world’s major coal mines: every operating mine producing 3 million tonnes per annum (mtpa) or greater, and every proposed mine with a capacity of 1 mtpa or greater. The map and underlying data are updated bi-annually, in January and July. With each update, coverage is expanded to include smaller mines. By January 2022, GCMT will have cataloged every coal mine producing 1 mtpa or greater. Each mine included in the tracker is linked to a wiki page on GEM.wiki, which provides additional details. GCMT was accessed in July 2021 to generate this data. Global Coal Mine Tracker, Global Energy Monitor. Available at: https://globalenergymonitor.org/projects/global-coal-mine-tracker/ Annual methane emisssions at proposed coal projects (Mt CO2e 100 years) Country Climate and Development Report (CCDR) Methane emissions from proposed coal mining (Mt CO2eq) is generated from the Global Coal Mine Tracker (GCMT). The GCMT provides information on the world’s major coal mines: every operating mine producing 3 million tonnes per annum (mtpa) or greater, and every proposed mine with a capacity of 1 mtpa or greater. The map and underlying data are updated bi-annually, in January and July. With each update, coverage is expanded to include smaller mines. By January 2022, GCMT will have cataloged every coal mine producing 1 mtpa or greater. Each mine included in the tracker is linked to a wiki page on GEM.wiki, which provides additional details. GCMT was accessed in July 2021 to generate this data. Global Coal Mine Tracker, Global Energy Monitor. Available at: https://globalenergymonitor.org/projects/global-coal-mine-tracker/ Annual CO2 combustion emissions at proposed coal projects (Mt CO2) Country Climate and Development Report (CCDR) Annual coal production (Mt per year) - Operating Country Climate and Development Report (CCDR)