Stream flow plays a crucial role in the environment, society, and the economy, and identifying the causes of changes in runoff is important to understanding the impact of climate change and human activity. This study examines the variation trends in recorded runoff for the Xinshui River, a tributary of the Yellow River on the Loess Plateau, and uses hydrological simulations to investigate how climate change and human activity have contributed to those trends. Results show that the recorded runoff at the Daning station on the Xinshui River declined significantly from 1955–2008 with an abrupt change occurring in 1973. The Simplified Water Balance Model (SWBM) simulates monthly discharge well with a Nash–Sutcliffe efficiency (NSE) coefficient ...
The runoff of many rivers in arid and semi-arid regions around the world has decreased remarkably wi...
Human activities have been widely acknowledged to be the main cause for the runoff decrease in the Y...
Purpose Significant changes in the runoff and sediment load have been detected in many catchments of...
Discerning the controlling factors of spatial and temporal changes in runoff is critical for water r...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Surface runoff from the Wei River basin, the largest tributary of the Yellow River in China, has dra...
The Fenhe River is the second largest tributary of the Yellow River in China. Climatic variation and...
The serious soil erosion problems and decreased runoff of the Loess Plateau may aggravate the shorta...
A better understanding of how streamflow interacts with climate change and human activities would co...
Climate variation and human activities are commonly recognized as two major factors affecting basin ...
The Yellow River is one of the major rivers with severe runoff declines in China, but there are sign...
Runoff in North China has been dramatically declining in recent decades Although climate change and ...
Evaluating the changes in runoff and analyzing its attribution under the changing environment is of ...
The Huolin River is located in the monsoon marginal zone in Northeast China. It is an important sour...
The Yellow River Basin is a typical arid and semi-arid area, which is very sensitive to climate chan...
The runoff of many rivers in arid and semi-arid regions around the world has decreased remarkably wi...
Human activities have been widely acknowledged to be the main cause for the runoff decrease in the Y...
Purpose Significant changes in the runoff and sediment load have been detected in many catchments of...
Discerning the controlling factors of spatial and temporal changes in runoff is critical for water r...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Surface runoff from the Wei River basin, the largest tributary of the Yellow River in China, has dra...
The Fenhe River is the second largest tributary of the Yellow River in China. Climatic variation and...
The serious soil erosion problems and decreased runoff of the Loess Plateau may aggravate the shorta...
A better understanding of how streamflow interacts with climate change and human activities would co...
Climate variation and human activities are commonly recognized as two major factors affecting basin ...
The Yellow River is one of the major rivers with severe runoff declines in China, but there are sign...
Runoff in North China has been dramatically declining in recent decades Although climate change and ...
Evaluating the changes in runoff and analyzing its attribution under the changing environment is of ...
The Huolin River is located in the monsoon marginal zone in Northeast China. It is an important sour...
The Yellow River Basin is a typical arid and semi-arid area, which is very sensitive to climate chan...
The runoff of many rivers in arid and semi-arid regions around the world has decreased remarkably wi...
Human activities have been widely acknowledged to be the main cause for the runoff decrease in the Y...
Purpose Significant changes in the runoff and sediment load have been detected in many catchments of...