Hydrological modelling is of critical importance to flood control. However, flood forecasting in semi-arid region is a great challenge to hydrologists, particularly in a changing environment. Taking the Zhulong River catchment located in north China as a case, the performance of GR4J model for hydrological modelling was investigated based on the analysis for changes in hydrological process of three periods defined as natural period (1967–1979), moderate human impact period (1980–1996) and intensive human impact period (1997–2015). Results show that 1) the annual precipitation and temperature of the catchment both presented upward trends, while the annual observed runoff exhibited a significant downward trend in the time span from 1967 to 20...
Stream flow plays a crucial role in the environment, society, and the economy, and identifying the c...
Climate change and human activities have together altered the river hydrological regime and conseque...
Identifying the causes (climate vs. human activities) for hydrological variability is a major challe...
The Huolin River is located in the monsoon marginal zone in Northeast China. It is an important sour...
The runoff of some rivers in the world especially in the arid and semi-arid areas has decreased rema...
Study region: Upper Yangtze River Basin, China. Study focus: The intensification of climate change a...
Flood simulation and forecasting in various types of watersheds is a hot issue in hydrology. Concept...
Quantifying the effects of climate variability and human activities on runoff changes will contribut...
The Chaobai River basin in northern China consists of two major tributaries, the Chao River and Bai ...
Climate change and human activities have been identified as the two main reasons for the change in r...
Climate variation and human activities are commonly recognized as two major factors affecting basin ...
The Laohahe basin is one of the typical semi-arid regions in Northeast China. Quantitatively estimat...
Climate change and human activity are typically regarded as the two most important factors affecting...
Changes in the hydrological systems are expected due to climate change resulting from enhanced green...
Climate change and human activities are two major driving forces affecting the hydrologic cycle, whi...
Stream flow plays a crucial role in the environment, society, and the economy, and identifying the c...
Climate change and human activities have together altered the river hydrological regime and conseque...
Identifying the causes (climate vs. human activities) for hydrological variability is a major challe...
The Huolin River is located in the monsoon marginal zone in Northeast China. It is an important sour...
The runoff of some rivers in the world especially in the arid and semi-arid areas has decreased rema...
Study region: Upper Yangtze River Basin, China. Study focus: The intensification of climate change a...
Flood simulation and forecasting in various types of watersheds is a hot issue in hydrology. Concept...
Quantifying the effects of climate variability and human activities on runoff changes will contribut...
The Chaobai River basin in northern China consists of two major tributaries, the Chao River and Bai ...
Climate change and human activities have been identified as the two main reasons for the change in r...
Climate variation and human activities are commonly recognized as two major factors affecting basin ...
The Laohahe basin is one of the typical semi-arid regions in Northeast China. Quantitatively estimat...
Climate change and human activity are typically regarded as the two most important factors affecting...
Changes in the hydrological systems are expected due to climate change resulting from enhanced green...
Climate change and human activities are two major driving forces affecting the hydrologic cycle, whi...
Stream flow plays a crucial role in the environment, society, and the economy, and identifying the c...
Climate change and human activities have together altered the river hydrological regime and conseque...
Identifying the causes (climate vs. human activities) for hydrological variability is a major challe...