The Indus basin heavily depends on its upstream mountainous part for the downstream supply of water while downstream demands are high. Since downstream demands will likely continue to increase, accurate hydrological projections for the future supply are important. We use an ensemble of statistically downscaled CMIP5 General Circulation Model outputs for RCP4.5 and RCP8.5 to force a cryospheric-hydrological model and generate transient hydrological projections for the entire 21st century for the upper Indus basin. Three methodological advances are introduced: (i) A new precipitation dataset that corrects for the underestimation of high-altitude precipitation is used. (ii) The model is calibrated using data on river runoff, snow cover and geo...
Future of the crucial Himalayan water supplies has generally been assessed under the anthropogenic w...
This study focusses on identifying a set of representative climate model projections for the Upper I...
Rivers originating in the high mountains of Asia are among the most meltwater-dependent river system...
The Indus basin heavily depends on its upstream mountainous part for the downstream supply of water ...
This study was undertaken under the Indus Basin Programme of ICIMOD, funded in part by the United Ki...
Future hydrological extremes, such as floods and droughts, may pose serious threats for the liveliho...
Future hydrological extremes, such as floods and droughts, may pose serious threats for the liveliho...
The spatial variation in observed and projected climate change is large and mountain ranges and thei...
Climate change is recognized as one of the greatest challenges of 21st century. This study investiga...
In Asia, water resources largely depend on water generated in the mountainous upstream parts of seve...
The Upper Indus Basin (UIB) heavily depends on its frozen water resources, and an accelerated melt d...
Climate change has implications for water resources by increasing temperature, shifting precipitatio...
PhD ThesisThe Indus is crucial for Pakistan; economically and for water and food security. This thes...
The Upper Indus Basin (UIB) is a major source of supplying water to different areas because of snow ...
Future of the crucial Himalayan water supplies has generally been assessed under the anthropogenic w...
This study focusses on identifying a set of representative climate model projections for the Upper I...
Rivers originating in the high mountains of Asia are among the most meltwater-dependent river system...
The Indus basin heavily depends on its upstream mountainous part for the downstream supply of water ...
This study was undertaken under the Indus Basin Programme of ICIMOD, funded in part by the United Ki...
Future hydrological extremes, such as floods and droughts, may pose serious threats for the liveliho...
Future hydrological extremes, such as floods and droughts, may pose serious threats for the liveliho...
The spatial variation in observed and projected climate change is large and mountain ranges and thei...
Climate change is recognized as one of the greatest challenges of 21st century. This study investiga...
In Asia, water resources largely depend on water generated in the mountainous upstream parts of seve...
The Upper Indus Basin (UIB) heavily depends on its frozen water resources, and an accelerated melt d...
Climate change has implications for water resources by increasing temperature, shifting precipitatio...
PhD ThesisThe Indus is crucial for Pakistan; economically and for water and food security. This thes...
The Upper Indus Basin (UIB) is a major source of supplying water to different areas because of snow ...
Future of the crucial Himalayan water supplies has generally been assessed under the anthropogenic w...
This study focusses on identifying a set of representative climate model projections for the Upper I...
Rivers originating in the high mountains of Asia are among the most meltwater-dependent river system...