The Chinese government introduced six ecological restoration programs to improve its natural environment. Although these programs have proven successful in improving local environmental conditions, some studies have questioned their effectiveness when regions suffer from extreme weather conditions. Using the Grain for Green Program (GGP) region as a study area, we estimated vegetation activities in the GGP region from 2000 to 2010 to clarify the trends in vegetation growth and their driving forces. The results showed that: (1) vegetation activities improved in the GGP region during 2000-2010, with 58.94% of the area showing an increased trend in the NDVI (normalized difference vegetation index); (2) 26.33% of the increased vegetation was ca...
In recent decades, the monitoring of vegetation dynamics has become crucial because of its important...
Since the late 1970s, the Chinese government has initiated ecological restoration programs in the Th...
The 400 mm annual precipitation fluctuation zone (75°55′–127°6′E and 26&...
The Chinese government introduced six ecological restoration programs to improve its natural environ...
China has launched multiple afforestation programs since 1978, including the 'Three North' Shelterbe...
Large-scale ecological restoration (ER) projects have been implemented in northwest China in recent ...
Under the background of global warming, understanding the dynamic of vegetation plays a key role in ...
Dynamic change in vegetation is an integral component of terrestrial ecosystems, which has become a ...
Ongoing climate change and human activities have a great effect on vegetation dynamics. Understandin...
This study attempts to quantify the relative contributions of vegetation greening in China due to cl...
To tackle ecological problems, many ecological restoration projects have been implemented in norther...
In 1999, the Yellow River Basin (YRB) launched the Grain for Green Program (GGP), which has had a hu...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
In recent decades, the monitoring of vegetation dynamics has become crucial because of its important...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
In recent decades, the monitoring of vegetation dynamics has become crucial because of its important...
Since the late 1970s, the Chinese government has initiated ecological restoration programs in the Th...
The 400 mm annual precipitation fluctuation zone (75°55′–127°6′E and 26&...
The Chinese government introduced six ecological restoration programs to improve its natural environ...
China has launched multiple afforestation programs since 1978, including the 'Three North' Shelterbe...
Large-scale ecological restoration (ER) projects have been implemented in northwest China in recent ...
Under the background of global warming, understanding the dynamic of vegetation plays a key role in ...
Dynamic change in vegetation is an integral component of terrestrial ecosystems, which has become a ...
Ongoing climate change and human activities have a great effect on vegetation dynamics. Understandin...
This study attempts to quantify the relative contributions of vegetation greening in China due to cl...
To tackle ecological problems, many ecological restoration projects have been implemented in norther...
In 1999, the Yellow River Basin (YRB) launched the Grain for Green Program (GGP), which has had a hu...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
In recent decades, the monitoring of vegetation dynamics has become crucial because of its important...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
In recent decades, the monitoring of vegetation dynamics has become crucial because of its important...
Since the late 1970s, the Chinese government has initiated ecological restoration programs in the Th...
The 400 mm annual precipitation fluctuation zone (75°55′–127°6′E and 26&...