Study region: The headwaters of Tarim River. Study focus: The Tarim River basin is the largest arid inland river basin in China and recently only Aksu, Yarkant and Hotan Rivers have natural hydraulic connections with it. With climate changing, the runoff from the headwaters of Tarim River basin has undergone obvious changes that significantly affected downstream areas. It is necessary to quantitatively attribute the impact of climate changes on runoff. However, the previous researches mostly focused on the Aksu River basin, and the attribution of runoff changes in the Yarkant and Hotan River basins was nearly blank. This paper is dedicated to reveal the dominated climate factors for the runoff changes in all the three tributaries with large...
Observed streamflow of headwater catchments of the Tarim River (Central Asia) increased by about 30%...
The study of climate change impacts on streamflow in small-middle basins within the Upper Yangtze Ri...
Climate variability and change play a crucial role in the vulnerable system of the Aksu River basin ...
The hydrological response to climate change in the Tarim River Basin was investigated by analysing t...
Funding: This study was conducted within the project SuMaRiO (Sustainable Management of River Oases ...
Abstract Streamflow series of five hydrological stations were analyzed with aim to indicate variabil...
Study region: Tarim River Basin (TRB)- the largest inland basin of China and essential part of the w...
Glacierised river catchments are highly sensitive to climate change, while large populations may dep...
Study region: River basins with glacier ratios ranging from 1.8% to 20.7% in the monsoon-influenced ...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
Climate change in Northwest China could lead to the change of the hydrological cycle and water resou...
There is a growing concern over the effects of climate change on glacier melting and hydrology. In t...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
The River Aksu is the principal tributary to the River Tarim, providing about three quarters of its ...
In arid and semi-arid regions of North West china, glacier-melt, seasonal snowmelt and rainfall are ...
Observed streamflow of headwater catchments of the Tarim River (Central Asia) increased by about 30%...
The study of climate change impacts on streamflow in small-middle basins within the Upper Yangtze Ri...
Climate variability and change play a crucial role in the vulnerable system of the Aksu River basin ...
The hydrological response to climate change in the Tarim River Basin was investigated by analysing t...
Funding: This study was conducted within the project SuMaRiO (Sustainable Management of River Oases ...
Abstract Streamflow series of five hydrological stations were analyzed with aim to indicate variabil...
Study region: Tarim River Basin (TRB)- the largest inland basin of China and essential part of the w...
Glacierised river catchments are highly sensitive to climate change, while large populations may dep...
Study region: River basins with glacier ratios ranging from 1.8% to 20.7% in the monsoon-influenced ...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
Climate change in Northwest China could lead to the change of the hydrological cycle and water resou...
There is a growing concern over the effects of climate change on glacier melting and hydrology. In t...
The Tarim river basin in China is a huge inland arid basin, which is expected to be highly vulnerabl...
The River Aksu is the principal tributary to the River Tarim, providing about three quarters of its ...
In arid and semi-arid regions of North West china, glacier-melt, seasonal snowmelt and rainfall are ...
Observed streamflow of headwater catchments of the Tarim River (Central Asia) increased by about 30%...
The study of climate change impacts on streamflow in small-middle basins within the Upper Yangtze Ri...
Climate variability and change play a crucial role in the vulnerable system of the Aksu River basin ...