Land use and climate change are recognized as two major drivers affecting surface streamflow. On the Chinese Loess Plateau, implementation of several land restoration projects has changed land cover in recent decades. The main objectives of this study were to understand how streamflow evolved on the Loess Plateau and how land use and climate change have contributed to this change. In this study, we selected 22 hydrological modelling studies covering 25 different watersheds in the Loess Plateau and we performed a meta-analysis by using the hydrological and meteorological data collected from these studies. The results indicate a streamflow decrease in 41 of a total of 52 case studies whereas precipitation change was found to be non-significan...
This study researched the individual and combined impacts of future LULC and climate changes on wate...
Global climate change and diverse human activities have resulted in distinct temporal-spatial variab...
Land use and climate are two main factors directly influencing catchment hydrology, and separation o...
Land use and climate change are recognized as two major drivers affecting surface streamflow. On the...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Understanding hydrological effects of ecological restoration (ER) is fundamental to develop effectiv...
x; "> </The catchments in the Loess Plateau, in China’s middle reaches of the Yello...
Land use change is one of the dominant driving factors of hydrological change at the watershed scale...
Catchments in the Loess Plateau have been under the influence of human activities for centuries. In ...
Stream flow plays a crucial role in the environment, society, and the economy, and identifying the c...
To maintain the sustainable utilization of water resources and reduce soil erosion in the Loess Plat...
Water resources, which are considerably affected by land use/land cover (LULC) and climate changes, ...
Climate variation and land use changes have been widely recognized as two major factors that impact ...
The continuous ecological management of the Loess Plateau is known throughout the world for two stra...
The objective of this study was to examine the trends of changes in streamflow in a watershed of the...
This study researched the individual and combined impacts of future LULC and climate changes on wate...
Global climate change and diverse human activities have resulted in distinct temporal-spatial variab...
Land use and climate are two main factors directly influencing catchment hydrology, and separation o...
Land use and climate change are recognized as two major drivers affecting surface streamflow. On the...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Understanding hydrological effects of ecological restoration (ER) is fundamental to develop effectiv...
x; "> </The catchments in the Loess Plateau, in China’s middle reaches of the Yello...
Land use change is one of the dominant driving factors of hydrological change at the watershed scale...
Catchments in the Loess Plateau have been under the influence of human activities for centuries. In ...
Stream flow plays a crucial role in the environment, society, and the economy, and identifying the c...
To maintain the sustainable utilization of water resources and reduce soil erosion in the Loess Plat...
Water resources, which are considerably affected by land use/land cover (LULC) and climate changes, ...
Climate variation and land use changes have been widely recognized as two major factors that impact ...
The continuous ecological management of the Loess Plateau is known throughout the world for two stra...
The objective of this study was to examine the trends of changes in streamflow in a watershed of the...
This study researched the individual and combined impacts of future LULC and climate changes on wate...
Global climate change and diverse human activities have resulted in distinct temporal-spatial variab...
Land use and climate are two main factors directly influencing catchment hydrology, and separation o...