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This book was inspired by the Hydrology–H030 Session of the 2019 AGU (America Geophysical Union) Fall Meeting. In recent years, simulating potential future vulnerability and sustainability of water resources due to climate change are mainly focused on global and regional scale watersheds by using climate change scenarios. These scenarios may have low resolution and may not be accurate for local watersheds. This book addresses the impacts of climate change upon water quantity and quality at small scale watersheds. Emphases are on climate-induced water resource vulnerabilities (e.g., flood, drought, groundwater depletion, evapotranspiration, and water pollution) and methodologies (e.g., computer modeling, field measurement, and management practice) employed to mitigation and adapt climate change impacts on water resources. Application implications to local water resource management are also discussed in this book.
Research & information: general --- Environmental economics --- GCM --- bias correction methods --- hydrological simulation --- climate change --- IRES --- OM --- DOC --- POC --- ephemeral stream --- event sampling --- headwaters --- tailwater recovery ditch --- AnnAGNPS --- BMP --- asymmetric warming --- normalized difference vegetation index --- second-order partial correlation analysis --- day and nighttime warming --- diurnal temperature range --- cottonwood --- sap flux --- STELLA --- vapor pressure deficit --- water year type --- hydrological drought --- adaptive strategies --- Central Valley --- streamflow --- SWAT model --- CNRM-CM5 --- CESM1-BGC.1 --- HADGEM2-AO.1 --- Alabama River Basin --- GRACE --- GGDI --- drought --- wavelet coherence --- teleconnections --- water model --- energy model --- climate scenario --- Nile River Basin --- perception --- adaptation --- irrigation water quality --- agriculture --- smallholder farmers --- Ethiopia Rift Valley --- vulnerability assessment --- Indian Himalayas --- springs --- springshed management --- water security --- n/a
Choose an application
This book was inspired by the Hydrology–H030 Session of the 2019 AGU (America Geophysical Union) Fall Meeting. In recent years, simulating potential future vulnerability and sustainability of water resources due to climate change are mainly focused on global and regional scale watersheds by using climate change scenarios. These scenarios may have low resolution and may not be accurate for local watersheds. This book addresses the impacts of climate change upon water quantity and quality at small scale watersheds. Emphases are on climate-induced water resource vulnerabilities (e.g., flood, drought, groundwater depletion, evapotranspiration, and water pollution) and methodologies (e.g., computer modeling, field measurement, and management practice) employed to mitigation and adapt climate change impacts on water resources. Application implications to local water resource management are also discussed in this book.
GCM --- bias correction methods --- hydrological simulation --- climate change --- IRES --- OM --- DOC --- POC --- ephemeral stream --- event sampling --- headwaters --- tailwater recovery ditch --- AnnAGNPS --- BMP --- asymmetric warming --- normalized difference vegetation index --- second-order partial correlation analysis --- day and nighttime warming --- diurnal temperature range --- cottonwood --- sap flux --- STELLA --- vapor pressure deficit --- water year type --- hydrological drought --- adaptive strategies --- Central Valley --- streamflow --- SWAT model --- CNRM-CM5 --- CESM1-BGC.1 --- HADGEM2-AO.1 --- Alabama River Basin --- GRACE --- GGDI --- drought --- wavelet coherence --- teleconnections --- water model --- energy model --- climate scenario --- Nile River Basin --- perception --- adaptation --- irrigation water quality --- agriculture --- smallholder farmers --- Ethiopia Rift Valley --- vulnerability assessment --- Indian Himalayas --- springs --- springshed management --- water security --- n/a
Choose an application
This book was inspired by the Hydrology–H030 Session of the 2019 AGU (America Geophysical Union) Fall Meeting. In recent years, simulating potential future vulnerability and sustainability of water resources due to climate change are mainly focused on global and regional scale watersheds by using climate change scenarios. These scenarios may have low resolution and may not be accurate for local watersheds. This book addresses the impacts of climate change upon water quantity and quality at small scale watersheds. Emphases are on climate-induced water resource vulnerabilities (e.g., flood, drought, groundwater depletion, evapotranspiration, and water pollution) and methodologies (e.g., computer modeling, field measurement, and management practice) employed to mitigation and adapt climate change impacts on water resources. Application implications to local water resource management are also discussed in this book.
Research & information: general --- Environmental economics --- GCM --- bias correction methods --- hydrological simulation --- climate change --- IRES --- OM --- DOC --- POC --- ephemeral stream --- event sampling --- headwaters --- tailwater recovery ditch --- AnnAGNPS --- BMP --- asymmetric warming --- normalized difference vegetation index --- second-order partial correlation analysis --- day and nighttime warming --- diurnal temperature range --- cottonwood --- sap flux --- STELLA --- vapor pressure deficit --- water year type --- hydrological drought --- adaptive strategies --- Central Valley --- streamflow --- SWAT model --- CNRM-CM5 --- CESM1-BGC.1 --- HADGEM2-AO.1 --- Alabama River Basin --- GRACE --- GGDI --- drought --- wavelet coherence --- teleconnections --- water model --- energy model --- climate scenario --- Nile River Basin --- perception --- adaptation --- irrigation water quality --- agriculture --- smallholder farmers --- Ethiopia Rift Valley --- vulnerability assessment --- Indian Himalayas --- springs --- springshed management --- water security
Listing 1 - 3 of 3 |
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