Understanding hydrological effects of ecological restoration (ER) is fundamental to develop effective measures guiding future ER and to adapt climate change in China's Loess Plateau (LP). Streamflow (Q) is an important indicator of hydrological processes that represents the combined effects of climatic and land surface conditions. Here 14 catchments located in the LP were chosen to explore the Q response to different driving factors during the period 1961-2009 by using elasticity and decomposition methods based on the Budyko framework. Our results show that (1) annual Q exhibited a decreasing trend in all catchments (-0.30 similar to -1.71 mm yr(-2)), with an average reduction of -0.87 mm yr(-2). The runoff coefficients in flood season and ...
Understanding catchment hydrological response to intensive land use/cover change (LUCC) and climate ...
Climate changes and underlying surface of the watershed have affected the evolution of streamflow to...
The streamflow has declined significantly in the coal mining concentrated watershed of the Loess Pla...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Land use and climate change are recognized as two major drivers affecting surface streamflow. On the...
Land use and climate change are recognized as two major drivers affecting surface streamflow. On the...
Suspended sediment yields (SSY) respond strongly to ecological restoration (ER) efforts, and signifi...
To maintain the sustainable utilization of water resources and reduce soil erosion in the Loess Plat...
To maintain the sustainable utilization of water resources and reduce soil erosion in the Loess Plat...
The “Grain for Green” project (GGP) was launched in 1999 on China’s Loess Plateau to reduce soil ero...
Understanding hydrological responses to climate change and land use and land cover change (LULCC) is...
The ecological restoration projects in the Loess Plateau (LP) has significantly altered the underlyi...
Understanding hydrological responses to climate change and land use and land cover change (LULCC) is...
Catchments in the Loess Plateau have been under the influence of human activities for centuries. In ...
Understanding catchment hydrological response to intensive land use/cover change (LUCC) and climate ...
Climate changes and underlying surface of the watershed have affected the evolution of streamflow to...
The streamflow has declined significantly in the coal mining concentrated watershed of the Loess Pla...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Quantifying the relative contributions of climate variability and human activity to streamflow chang...
Land use and climate change are recognized as two major drivers affecting surface streamflow. On the...
Land use and climate change are recognized as two major drivers affecting surface streamflow. On the...
Suspended sediment yields (SSY) respond strongly to ecological restoration (ER) efforts, and signifi...
To maintain the sustainable utilization of water resources and reduce soil erosion in the Loess Plat...
To maintain the sustainable utilization of water resources and reduce soil erosion in the Loess Plat...
The “Grain for Green” project (GGP) was launched in 1999 on China’s Loess Plateau to reduce soil ero...
Understanding hydrological responses to climate change and land use and land cover change (LULCC) is...
The ecological restoration projects in the Loess Plateau (LP) has significantly altered the underlyi...
Understanding hydrological responses to climate change and land use and land cover change (LULCC) is...
Catchments in the Loess Plateau have been under the influence of human activities for centuries. In ...
Understanding catchment hydrological response to intensive land use/cover change (LUCC) and climate ...
Climate changes and underlying surface of the watershed have affected the evolution of streamflow to...
The streamflow has declined significantly in the coal mining concentrated watershed of the Loess Pla...