Water and Climate Adaptation Plan for the Sava River Basin
This report presents the water and climate adaptation plan (WATCAP) developed for the Sava river basin (SRB) as result of a study undertaken by the World Bank. The WATCAP is intended to help to bridge the gap between the climate change predictions for the SRB and the decision makers in current and planned water management investment projects that will be affected by changing climate trends. The purpose of the report is to: (i) assist stakeholders and decision makers in assessing and planning for the risks generated by climate change impacts on water resources; (ii) provide a basis for future plans and studies of adaptation to climate change impacts in the SRB; and (iii) stimulate cooperation and debate across the basin toward additional and more detailed studies on climate change impacts at the regional and basin scale. The SRB is projected to experience small increases in water use by the public water supply, industry, energy, and agricultural and irrigation sectors. However, it is widely expected that new hydropower plants (HPPs) will be constructed in the near future, making energy (primarily through hydropower) the most important water use in the SRB.
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dig-okr-10986229462024-08-07T20:14:57Z Water and Climate Adaptation Plan for the Sava River Basin Annex 2. Guidance Note on Adaptation to Climate Change for Flooding World Bank Group FLOODING FLOOD RUNOFF SEASONAL PRECIPITATION EMISSION ENVIRONMENTAL QUALITY DOWNSTREAM STATIONS DAILY PRECIPITATION IPCC CLIMATE CHANGE FLOOD EVENTS TEMPERATURE CLIMATE MODEL SIMULATIONS RESPONSE TO CLIMATE CHANGE EXTREME PRECIPITATION EVENTS CLIMATE CHANGE IMPACT RIVER BASIN IMPACT OF CLIMATE CHANGE METEOROLOGICAL VARIABLES COMBAT CLIMATE CHANGE WEATHER CONVERGENCE EXTREME EVENTS METEOROLOGY CLIMATE HYDROLOGY CLIMATE CHANGE ASSESSMENT HYDROLOGICAL MODEL FLOOD RISK FOREST DECISION MAKING RIVERS HYDROLOGICAL RESPONSE CLIMATE CHANGE MODELLING CAPACITY BUILDING EVAPOTRANSPIRATION FLOOD PROTECTION CLIMATE SCENARIOS SEASON FUTURE CLIMATE CHANGE FLOOD PUMPING STATIONS ADAPTATION MEASURES AIR LARGE SCALE PRECIPITATION PHYSICS AIR TEMPERATURE LAKES FLOOD PROTECTION SYSTEM WATER MANAGEMENT CONVECTIVE PRECIPITATION ADAPTATION TO CLIMATE CLIMATE MODELLING FLOOD RISK MANAGEMENT CLIMATE CHANGE SCENARIOS MITIGATION CLIMATE CHANGE ADAPTATION FLOODS CLIMATE CHANGE FORECASTS CAPACITY EMISSION SCENARIO TEMPERATURES FUTURE CLIMATE SCENARIOS WEATHER STATIONS CLIMATE ADAPTATION RAIN METEOROLOGICAL STATIONS LESS WATER CLIMATE PROJECTIONS TEMPERATURE DATA RAINFALL SURFACE TEMPERATURE CLIMATE MODEL ADAPTATION TO CLIMATE CHANGE WATER CYCLE METEOROLOGICAL DATA ADAPTATION ADAPTATION NEEDS EXTREME PRECIPITATION EVAPORATION SEASONS PRECIPITATION CLIMATE MODELS RUNOFF LONG-TERM MITIGATION CLIMATE PREDICTIONS IMPACT OF CLIMATE CLIMATE TRENDS This report presents the water and climate adaptation plan (WATCAP) developed for the Sava river basin (SRB) as result of a study undertaken by the World Bank. The WATCAP is intended to help to bridge the gap between the climate change predictions for the SRB and the decision makers in current and planned water management investment projects that will be affected by changing climate trends. The purpose of the report is to: (i) assist stakeholders and decision makers in assessing and planning for the risks generated by climate change impacts on water resources; (ii) provide a basis for future plans and studies of adaptation to climate change impacts in the SRB; and (iii) stimulate cooperation and debate across the basin toward additional and more detailed studies on climate change impacts at the regional and basin scale. The SRB is projected to experience small increases in water use by the public water supply, industry, energy, and agricultural and irrigation sectors. However, it is widely expected that new hydropower plants (HPPs) will be constructed in the near future, making energy (primarily through hydropower) the most important water use in the SRB. 2015-11-10T20:09:58Z 2015-11-10T20:09:58Z 2015-08 Report Rapport Informe http://documents.worldbank.org/curated/en/2015/10/25223388/water-climate-adaptation-plan-sava-river-basin-vol-4-annex-2-guidance-note-adaptation-climate-change-flooding https://hdl.handle.net/10986/22946 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank application/pdf text/plain World Bank, Washington, DC |
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Banco Mundial |
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DSpace |
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Estados Unidos |
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US |
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Bibliográfico |
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En linea |
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dig-okr |
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biblioteca |
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America del Norte |
| libraryname |
Biblioteca del Banco Mundial |
| language |
English en_US |
| topic |
FLOODING FLOOD RUNOFF SEASONAL PRECIPITATION EMISSION ENVIRONMENTAL QUALITY DOWNSTREAM STATIONS DAILY PRECIPITATION IPCC CLIMATE CHANGE FLOOD EVENTS TEMPERATURE CLIMATE MODEL SIMULATIONS RESPONSE TO CLIMATE CHANGE EXTREME PRECIPITATION EVENTS CLIMATE CHANGE IMPACT RIVER BASIN IMPACT OF CLIMATE CHANGE METEOROLOGICAL VARIABLES COMBAT CLIMATE CHANGE WEATHER CONVERGENCE EXTREME EVENTS METEOROLOGY CLIMATE HYDROLOGY CLIMATE CHANGE ASSESSMENT HYDROLOGICAL MODEL FLOOD RISK FOREST DECISION MAKING RIVERS HYDROLOGICAL RESPONSE CLIMATE CHANGE MODELLING CAPACITY BUILDING EVAPOTRANSPIRATION FLOOD PROTECTION CLIMATE SCENARIOS SEASON FUTURE CLIMATE CHANGE FLOOD PUMPING STATIONS ADAPTATION MEASURES AIR LARGE SCALE PRECIPITATION PHYSICS AIR TEMPERATURE LAKES FLOOD PROTECTION SYSTEM WATER MANAGEMENT CONVECTIVE PRECIPITATION ADAPTATION TO CLIMATE CLIMATE MODELLING FLOOD RISK MANAGEMENT CLIMATE CHANGE SCENARIOS MITIGATION CLIMATE CHANGE ADAPTATION FLOODS CLIMATE CHANGE FORECASTS CAPACITY EMISSION SCENARIO TEMPERATURES FUTURE CLIMATE SCENARIOS WEATHER STATIONS CLIMATE ADAPTATION RAIN METEOROLOGICAL STATIONS LESS WATER CLIMATE PROJECTIONS TEMPERATURE DATA RAINFALL SURFACE TEMPERATURE CLIMATE MODEL ADAPTATION TO CLIMATE CHANGE WATER CYCLE METEOROLOGICAL DATA ADAPTATION ADAPTATION NEEDS EXTREME PRECIPITATION EVAPORATION SEASONS PRECIPITATION CLIMATE MODELS RUNOFF LONG-TERM MITIGATION CLIMATE PREDICTIONS IMPACT OF CLIMATE CLIMATE TRENDS FLOODING FLOOD RUNOFF SEASONAL PRECIPITATION EMISSION ENVIRONMENTAL QUALITY DOWNSTREAM STATIONS DAILY PRECIPITATION IPCC CLIMATE CHANGE FLOOD EVENTS TEMPERATURE CLIMATE MODEL SIMULATIONS RESPONSE TO CLIMATE CHANGE EXTREME PRECIPITATION EVENTS CLIMATE CHANGE IMPACT RIVER BASIN IMPACT OF CLIMATE CHANGE METEOROLOGICAL VARIABLES COMBAT CLIMATE CHANGE WEATHER CONVERGENCE EXTREME EVENTS METEOROLOGY CLIMATE HYDROLOGY CLIMATE CHANGE ASSESSMENT HYDROLOGICAL MODEL FLOOD RISK FOREST DECISION MAKING RIVERS HYDROLOGICAL RESPONSE CLIMATE CHANGE MODELLING CAPACITY BUILDING EVAPOTRANSPIRATION FLOOD PROTECTION CLIMATE SCENARIOS SEASON FUTURE CLIMATE CHANGE FLOOD PUMPING STATIONS ADAPTATION MEASURES AIR LARGE SCALE PRECIPITATION PHYSICS AIR TEMPERATURE LAKES FLOOD PROTECTION SYSTEM WATER MANAGEMENT CONVECTIVE PRECIPITATION ADAPTATION TO CLIMATE CLIMATE MODELLING FLOOD RISK MANAGEMENT CLIMATE CHANGE SCENARIOS MITIGATION CLIMATE CHANGE ADAPTATION FLOODS CLIMATE CHANGE FORECASTS CAPACITY EMISSION SCENARIO TEMPERATURES FUTURE CLIMATE SCENARIOS WEATHER STATIONS CLIMATE ADAPTATION RAIN METEOROLOGICAL STATIONS LESS WATER CLIMATE PROJECTIONS TEMPERATURE DATA RAINFALL SURFACE TEMPERATURE CLIMATE MODEL ADAPTATION TO CLIMATE CHANGE WATER CYCLE METEOROLOGICAL DATA ADAPTATION ADAPTATION NEEDS EXTREME PRECIPITATION EVAPORATION SEASONS PRECIPITATION CLIMATE MODELS RUNOFF LONG-TERM MITIGATION CLIMATE PREDICTIONS IMPACT OF CLIMATE CLIMATE TRENDS |
| spellingShingle |
FLOODING FLOOD RUNOFF SEASONAL PRECIPITATION EMISSION ENVIRONMENTAL QUALITY DOWNSTREAM STATIONS DAILY PRECIPITATION IPCC CLIMATE CHANGE FLOOD EVENTS TEMPERATURE CLIMATE MODEL SIMULATIONS RESPONSE TO CLIMATE CHANGE EXTREME PRECIPITATION EVENTS CLIMATE CHANGE IMPACT RIVER BASIN IMPACT OF CLIMATE CHANGE METEOROLOGICAL VARIABLES COMBAT CLIMATE CHANGE WEATHER CONVERGENCE EXTREME EVENTS METEOROLOGY CLIMATE HYDROLOGY CLIMATE CHANGE ASSESSMENT HYDROLOGICAL MODEL FLOOD RISK FOREST DECISION MAKING RIVERS HYDROLOGICAL RESPONSE CLIMATE CHANGE MODELLING CAPACITY BUILDING EVAPOTRANSPIRATION FLOOD PROTECTION CLIMATE SCENARIOS SEASON FUTURE CLIMATE CHANGE FLOOD PUMPING STATIONS ADAPTATION MEASURES AIR LARGE SCALE PRECIPITATION PHYSICS AIR TEMPERATURE LAKES FLOOD PROTECTION SYSTEM WATER MANAGEMENT CONVECTIVE PRECIPITATION ADAPTATION TO CLIMATE CLIMATE MODELLING FLOOD RISK MANAGEMENT CLIMATE CHANGE SCENARIOS MITIGATION CLIMATE CHANGE ADAPTATION FLOODS CLIMATE CHANGE FORECASTS CAPACITY EMISSION SCENARIO TEMPERATURES FUTURE CLIMATE SCENARIOS WEATHER STATIONS CLIMATE ADAPTATION RAIN METEOROLOGICAL STATIONS LESS WATER CLIMATE PROJECTIONS TEMPERATURE DATA RAINFALL SURFACE TEMPERATURE CLIMATE MODEL ADAPTATION TO CLIMATE CHANGE WATER CYCLE METEOROLOGICAL DATA ADAPTATION ADAPTATION NEEDS EXTREME PRECIPITATION EVAPORATION SEASONS PRECIPITATION CLIMATE MODELS RUNOFF LONG-TERM MITIGATION CLIMATE PREDICTIONS IMPACT OF CLIMATE CLIMATE TRENDS FLOODING FLOOD RUNOFF SEASONAL PRECIPITATION EMISSION ENVIRONMENTAL QUALITY DOWNSTREAM STATIONS DAILY PRECIPITATION IPCC CLIMATE CHANGE FLOOD EVENTS TEMPERATURE CLIMATE MODEL SIMULATIONS RESPONSE TO CLIMATE CHANGE EXTREME PRECIPITATION EVENTS CLIMATE CHANGE IMPACT RIVER BASIN IMPACT OF CLIMATE CHANGE METEOROLOGICAL VARIABLES COMBAT CLIMATE CHANGE WEATHER CONVERGENCE EXTREME EVENTS METEOROLOGY CLIMATE HYDROLOGY CLIMATE CHANGE ASSESSMENT HYDROLOGICAL MODEL FLOOD RISK FOREST DECISION MAKING RIVERS HYDROLOGICAL RESPONSE CLIMATE CHANGE MODELLING CAPACITY BUILDING EVAPOTRANSPIRATION FLOOD PROTECTION CLIMATE SCENARIOS SEASON FUTURE CLIMATE CHANGE FLOOD PUMPING STATIONS ADAPTATION MEASURES AIR LARGE SCALE PRECIPITATION PHYSICS AIR TEMPERATURE LAKES FLOOD PROTECTION SYSTEM WATER MANAGEMENT CONVECTIVE PRECIPITATION ADAPTATION TO CLIMATE CLIMATE MODELLING FLOOD RISK MANAGEMENT CLIMATE CHANGE SCENARIOS MITIGATION CLIMATE CHANGE ADAPTATION FLOODS CLIMATE CHANGE FORECASTS CAPACITY EMISSION SCENARIO TEMPERATURES FUTURE CLIMATE SCENARIOS WEATHER STATIONS CLIMATE ADAPTATION RAIN METEOROLOGICAL STATIONS LESS WATER CLIMATE PROJECTIONS TEMPERATURE DATA RAINFALL SURFACE TEMPERATURE CLIMATE MODEL ADAPTATION TO CLIMATE CHANGE WATER CYCLE METEOROLOGICAL DATA ADAPTATION ADAPTATION NEEDS EXTREME PRECIPITATION EVAPORATION SEASONS PRECIPITATION CLIMATE MODELS RUNOFF LONG-TERM MITIGATION CLIMATE PREDICTIONS IMPACT OF CLIMATE CLIMATE TRENDS World Bank Group Water and Climate Adaptation Plan for the Sava River Basin |
| description |
This report presents the water and
climate adaptation plan (WATCAP) developed for the Sava
river basin (SRB) as result of a study undertaken by the
World Bank. The WATCAP is intended to help to bridge the gap
between the climate change predictions for the SRB and the
decision makers in current and planned water management
investment projects that will be affected by changing
climate trends. The purpose of the report is to: (i) assist
stakeholders and decision makers in assessing and planning
for the risks generated by climate change impacts on water
resources; (ii) provide a basis for future plans and studies
of adaptation to climate change impacts in the SRB; and
(iii) stimulate cooperation and debate across the basin
toward additional and more detailed studies on climate
change impacts at the regional and basin scale. The SRB is
projected to experience small increases in water use by the
public water supply, industry, energy, and agricultural and
irrigation sectors. However, it is widely expected that new
hydropower plants (HPPs) will be constructed in the near
future, making energy (primarily through hydropower) the
most important water use in the SRB. |
| format |
Report |
| topic_facet |
FLOODING FLOOD RUNOFF SEASONAL PRECIPITATION EMISSION ENVIRONMENTAL QUALITY DOWNSTREAM STATIONS DAILY PRECIPITATION IPCC CLIMATE CHANGE FLOOD EVENTS TEMPERATURE CLIMATE MODEL SIMULATIONS RESPONSE TO CLIMATE CHANGE EXTREME PRECIPITATION EVENTS CLIMATE CHANGE IMPACT RIVER BASIN IMPACT OF CLIMATE CHANGE METEOROLOGICAL VARIABLES COMBAT CLIMATE CHANGE WEATHER CONVERGENCE EXTREME EVENTS METEOROLOGY CLIMATE HYDROLOGY CLIMATE CHANGE ASSESSMENT HYDROLOGICAL MODEL FLOOD RISK FOREST DECISION MAKING RIVERS HYDROLOGICAL RESPONSE CLIMATE CHANGE MODELLING CAPACITY BUILDING EVAPOTRANSPIRATION FLOOD PROTECTION CLIMATE SCENARIOS SEASON FUTURE CLIMATE CHANGE FLOOD PUMPING STATIONS ADAPTATION MEASURES AIR LARGE SCALE PRECIPITATION PHYSICS AIR TEMPERATURE LAKES FLOOD PROTECTION SYSTEM WATER MANAGEMENT CONVECTIVE PRECIPITATION ADAPTATION TO CLIMATE CLIMATE MODELLING FLOOD RISK MANAGEMENT CLIMATE CHANGE SCENARIOS MITIGATION CLIMATE CHANGE ADAPTATION FLOODS CLIMATE CHANGE FORECASTS CAPACITY EMISSION SCENARIO TEMPERATURES FUTURE CLIMATE SCENARIOS WEATHER STATIONS CLIMATE ADAPTATION RAIN METEOROLOGICAL STATIONS LESS WATER CLIMATE PROJECTIONS TEMPERATURE DATA RAINFALL SURFACE TEMPERATURE CLIMATE MODEL ADAPTATION TO CLIMATE CHANGE WATER CYCLE METEOROLOGICAL DATA ADAPTATION ADAPTATION NEEDS EXTREME PRECIPITATION EVAPORATION SEASONS PRECIPITATION CLIMATE MODELS RUNOFF LONG-TERM MITIGATION CLIMATE PREDICTIONS IMPACT OF CLIMATE CLIMATE TRENDS |
| author |
World Bank Group |
| author_facet |
World Bank Group |
| author_sort |
World Bank Group |
| title |
Water and Climate Adaptation Plan for the Sava River Basin |
| title_short |
Water and Climate Adaptation Plan for the Sava River Basin |
| title_full |
Water and Climate Adaptation Plan for the Sava River Basin |
| title_fullStr |
Water and Climate Adaptation Plan for the Sava River Basin |
| title_full_unstemmed |
Water and Climate Adaptation Plan for the Sava River Basin |
| title_sort |
water and climate adaptation plan for the sava river basin |
| publisher |
World Bank, Washington, DC |
| publishDate |
2015-08 |
| url |
http://documents.worldbank.org/curated/en/2015/10/25223388/water-climate-adaptation-plan-sava-river-basin-vol-4-annex-2-guidance-note-adaptation-climate-change-flooding https://hdl.handle.net/10986/22946 |
| work_keys_str_mv |
AT worldbankgroup waterandclimateadaptationplanforthesavariverbasin AT worldbankgroup annex2guidancenoteonadaptationtoclimatechangeforflooding |
| _version_ |
1807159466454417408 |