The Loess Plateau of China is one of the most severe soil and water loss areas in the world. Since 1999, the Grain to Green Program (GTGP) has been implemented in the region. This study aimed to analyze spatial and temporal variations of ecosystem services from 2000 to 2015 to assess the effects of the GTGP, including carbon sequestration, water regulation, soil conservation and sand fixation. During the study period, the area of forest land and grassland significantly expanded, while the area of farmland decreased sharply. Ecosystem services showed an overall improvement with localized deterioration. Carbon sequestration, water regulation and soil conservation increased substantially. Sand fixation showed a decreasing trend mainly because ...
Accurately identifying the spatiotemporal variations and driving factors of ecosystem services (ES) ...
Trade-offs of ecosystem services (ESs) are valuable for decision-making when integrating growth, the...
The Sloping Land Conversion Program (SLCP), preferentially initiated to reduce water loss and soil e...
The Loess Plateau of China is one of the most severe soil and water loss areas in the world. Since 1...
Decades of reckless deforestation have caused serious soil erosion and land desertification issues i...
Land restoration has been implemented worldwide as an effective way to combat land degradation and i...
Grassland restoration projects are currently being implemented to mitigate human disturbance to the ...
China's Loess Plateau is both the largest and deepest loess deposit in the world, and it has long be...
An ecosystem service assessment can directly reflect the effectiveness of ecological restoration, re...
The complexity and fragility of the Yellow River Basin ecosystem limits its economic growth and sust...
Assessing ecosystem services (ESs) is vital for the environment development. This study explored the...
Ecological restoration can mitigate human disturbance to the natural environment and restore ecosyst...
Ecological restoration programs are expected to control environmental deterioration and enhance ecos...
Accurately identifying the spatiotemporal variations and driving factors of ecosystem services (ES) ...
The ecological degradation caused by unreasonable development and prolonged utilization threatens ec...
Accurately identifying the spatiotemporal variations and driving factors of ecosystem services (ES) ...
Trade-offs of ecosystem services (ESs) are valuable for decision-making when integrating growth, the...
The Sloping Land Conversion Program (SLCP), preferentially initiated to reduce water loss and soil e...
The Loess Plateau of China is one of the most severe soil and water loss areas in the world. Since 1...
Decades of reckless deforestation have caused serious soil erosion and land desertification issues i...
Land restoration has been implemented worldwide as an effective way to combat land degradation and i...
Grassland restoration projects are currently being implemented to mitigate human disturbance to the ...
China's Loess Plateau is both the largest and deepest loess deposit in the world, and it has long be...
An ecosystem service assessment can directly reflect the effectiveness of ecological restoration, re...
The complexity and fragility of the Yellow River Basin ecosystem limits its economic growth and sust...
Assessing ecosystem services (ESs) is vital for the environment development. This study explored the...
Ecological restoration can mitigate human disturbance to the natural environment and restore ecosyst...
Ecological restoration programs are expected to control environmental deterioration and enhance ecos...
Accurately identifying the spatiotemporal variations and driving factors of ecosystem services (ES) ...
The ecological degradation caused by unreasonable development and prolonged utilization threatens ec...
Accurately identifying the spatiotemporal variations and driving factors of ecosystem services (ES) ...
Trade-offs of ecosystem services (ESs) are valuable for decision-making when integrating growth, the...
The Sloping Land Conversion Program (SLCP), preferentially initiated to reduce water loss and soil e...