Add to ORKGSoil erosion in the upper reaches of the Yangtze River in China is a major concern and the Central Government has initiated the Grain-for-Green Programme to convert farmland to forests and grassland to improve the environment. This paper analyses the relationship between land use and soil erosion in Zhongjiang, a typical agricultural county of Sichuan Province located in areas with severe soil erosion in the upper reaches of the Yangtze River. In our analysis, we use the ArcGIS spatial analysis module with detailed land-use data as well as data on slope conditions and soil erosion. Our research shows that the most serious soil erosion is occurring on agricultural land with a slope of 10 similar to 25 degrees. Both farmland and permanent cro...
AbstractRain-fed (dryland) farming is an ancient agricultural production system in China. It occurs ...
ABSTRACT. China’s Sloping Land Conversion Program seeks to improve both the environmental and econom...
The Revised Universal Soil Loss Equation (RUSLE) was used in conjunction with geographic information...
Soil erosion in the upper reaches of the Yangtze River in China is a major concern and the Central G...
The Upper Yangtze River Basin comprises a densely-populated agricultural region with mountainous and...
The Lancang River Watershed is one of the most biologically diverse areas in the world. The river fl...
With the accelerated development of urbanization, the exploration and usage of land resources is bec...
The Loess Plateau has been suffering from serious soil erosion for a long time, which originated in ...
A study was undertaken to develop an appropriate plan of land use under suitable slope gradient to c...
The black soil region in Northeast China is one of the major grain-producing areas of China. Soil er...
Since 1999, the Grain for Green policy has been implemented in Shaanxi, Sichuan and Gansu province, ...
AbstractStudy regionSemi-arid hilly loess region of China.Study focusThe objectives of this study we...
As soil erosion has become a serious threat to agriculture in China, the "Grain-for-Green" project w...
This thesis explores the relationship between environmental restoration and social-economic factors....
Study region: Semi-arid hilly loess region of China. Study focus: The objectives of this study were ...
AbstractRain-fed (dryland) farming is an ancient agricultural production system in China. It occurs ...
ABSTRACT. China’s Sloping Land Conversion Program seeks to improve both the environmental and econom...
The Revised Universal Soil Loss Equation (RUSLE) was used in conjunction with geographic information...
Soil erosion in the upper reaches of the Yangtze River in China is a major concern and the Central G...
The Upper Yangtze River Basin comprises a densely-populated agricultural region with mountainous and...
The Lancang River Watershed is one of the most biologically diverse areas in the world. The river fl...
With the accelerated development of urbanization, the exploration and usage of land resources is bec...
The Loess Plateau has been suffering from serious soil erosion for a long time, which originated in ...
A study was undertaken to develop an appropriate plan of land use under suitable slope gradient to c...
The black soil region in Northeast China is one of the major grain-producing areas of China. Soil er...
Since 1999, the Grain for Green policy has been implemented in Shaanxi, Sichuan and Gansu province, ...
AbstractStudy regionSemi-arid hilly loess region of China.Study focusThe objectives of this study we...
As soil erosion has become a serious threat to agriculture in China, the "Grain-for-Green" project w...
This thesis explores the relationship between environmental restoration and social-economic factors....
Study region: Semi-arid hilly loess region of China. Study focus: The objectives of this study were ...
AbstractRain-fed (dryland) farming is an ancient agricultural production system in China. It occurs ...
ABSTRACT. China’s Sloping Land Conversion Program seeks to improve both the environmental and econom...
The Revised Universal Soil Loss Equation (RUSLE) was used in conjunction with geographic information...