China's Loess Plateau is both the largest and deepest loess deposit in the world, and it has long been one of the most severely eroded areas on Earth. Since the 1970s, numerous soil-and water-conservation practices have been implemented: terracing, planting of vegetation, natural vegetation rehabilitation, and check-dam construction. With the implementation of the Grain-for- Green Project in 1999, the Loess Plateau has become the most successful ecological restoration zone in China. However, these large-scale restoration measures and drought have significantly reduced both runoff and sediment from the Loess Plateau. This situation has both advantages and disadvantages for the lower Yellow River. Some local soil erosion has been successfully...
Extensive vegetation restoration practices have been implemented to control soil erosion on the Lo...
The natural environments in the semiarid regions of the Chinese Loess Plateau (CLP) are fragile due ...
Catchments in the Loess Plateau (623 586 km2) of China have been widely reported to contribute signi...
The Loess Plateau of China is one of the most severe soil and water loss areas in the world. Since 1...
The Loess Plateau of China is one of the most severe soil and water loss areas in the world. Since 1...
The Loess Plateau is well known for severe soil erosion and ecosystem degradation. The key issues in...
Land restoration has been implemented worldwide as an effective way to combat land degradation and i...
Decades of reckless deforestation have caused serious soil erosion and land desertification issues i...
Facing the eco-environmental construction on the Loess Plateau, especially the vegetation restoratio...
Ecological environment investigation and assessment in ten years in the zone of major ecological pro...
An ecosystem service assessment can directly reflect the effectiveness of ecological restoration, re...
Resolving ecological and economic challenges is an international topic. On the Loess Plateau of Chin...
The natural environments in the semiarid regions of the Chinese Loess Plateau (CLP) are fragile due ...
Abstract: The Loess Plateau, China, has long been suffering from serious soil erosion. About 2000 ye...
Ecological restoration can result in extensive land use transitions which may directly impact on wat...
Extensive vegetation restoration practices have been implemented to control soil erosion on the Lo...
The natural environments in the semiarid regions of the Chinese Loess Plateau (CLP) are fragile due ...
Catchments in the Loess Plateau (623 586 km2) of China have been widely reported to contribute signi...
The Loess Plateau of China is one of the most severe soil and water loss areas in the world. Since 1...
The Loess Plateau of China is one of the most severe soil and water loss areas in the world. Since 1...
The Loess Plateau is well known for severe soil erosion and ecosystem degradation. The key issues in...
Land restoration has been implemented worldwide as an effective way to combat land degradation and i...
Decades of reckless deforestation have caused serious soil erosion and land desertification issues i...
Facing the eco-environmental construction on the Loess Plateau, especially the vegetation restoratio...
Ecological environment investigation and assessment in ten years in the zone of major ecological pro...
An ecosystem service assessment can directly reflect the effectiveness of ecological restoration, re...
Resolving ecological and economic challenges is an international topic. On the Loess Plateau of Chin...
The natural environments in the semiarid regions of the Chinese Loess Plateau (CLP) are fragile due ...
Abstract: The Loess Plateau, China, has long been suffering from serious soil erosion. About 2000 ye...
Ecological restoration can result in extensive land use transitions which may directly impact on wat...
Extensive vegetation restoration practices have been implemented to control soil erosion on the Lo...
The natural environments in the semiarid regions of the Chinese Loess Plateau (CLP) are fragile due ...
Catchments in the Loess Plateau (623 586 km2) of China have been widely reported to contribute signi...