To study the impact of future climatic changes on hydrology in the Kaidu River Basin in the Tianshan Mountains, two sets of future climatic data were used to force a well-calibrated hydrologic model: one is bias-corrected regional climate model (RCM) outputs for RCP4.5 and RCP8.5 future emission scenarios, and the other is simple climate change (SCC) with absolute temperature change of −1~6°C and relative precipitation change of −20%~60%. Results show the following: (1) temperature is likely to increase by 2.2°C and 4.6°C by the end of the 21st century under RCP4.5 and RCP8.5, respectively, while precipitation will increase by 2%~24%, with a significant rise in the dry season and small change in the wet season; (2) flow will change by −1%~2...
Quantification of the impacts of climate change on streamflow and other hydrological parameters is o...
The climate change and Land Use/Land Cover (LULC) change both have an important impact on the rainfa...
Climate change directly impacts the hydrological cycle via increasing temperatures and seasonal prec...
To study the impact of future climatic changes on hydrology in the Kaidu River Basin in the Tianshan...
To study the impact of future climatic changes on hydrology in the Kaidu River Basin in the Tianshan...
Changes in the hydrological systems are expected due to climate change resulting from enhanced green...
Changes in the hydrological systems are expected due to climate change resulting from enhanced green...
Climate change may affect water resources by altering various processes in natural ecosystems. Dynam...
Tuotuo River basin, known as the source region of the Yangtze River, is the key area where the impac...
Study region: The Kaidu River Basin (KRB) is located on the central southern slope of the Tianshan M...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
This paper estimates the likely impacts of future climate change on streamflow, especially the hydro...
Two statistical downscaling models were used to downscale regional climate change scenarios, on the ...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
The study of climate change impacts on streamflow in small-middle basins within the Upper Yangtze Ri...
Quantification of the impacts of climate change on streamflow and other hydrological parameters is o...
The climate change and Land Use/Land Cover (LULC) change both have an important impact on the rainfa...
Climate change directly impacts the hydrological cycle via increasing temperatures and seasonal prec...
To study the impact of future climatic changes on hydrology in the Kaidu River Basin in the Tianshan...
To study the impact of future climatic changes on hydrology in the Kaidu River Basin in the Tianshan...
Changes in the hydrological systems are expected due to climate change resulting from enhanced green...
Changes in the hydrological systems are expected due to climate change resulting from enhanced green...
Climate change may affect water resources by altering various processes in natural ecosystems. Dynam...
Tuotuo River basin, known as the source region of the Yangtze River, is the key area where the impac...
Study region: The Kaidu River Basin (KRB) is located on the central southern slope of the Tianshan M...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
This paper estimates the likely impacts of future climate change on streamflow, especially the hydro...
Two statistical downscaling models were used to downscale regional climate change scenarios, on the ...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
The study of climate change impacts on streamflow in small-middle basins within the Upper Yangtze Ri...
Quantification of the impacts of climate change on streamflow and other hydrological parameters is o...
The climate change and Land Use/Land Cover (LULC) change both have an important impact on the rainfa...
Climate change directly impacts the hydrological cycle via increasing temperatures and seasonal prec...