Vegetation is a key component of the ecosystem and plays an important role in water retention and resistance to soil erosion. In this study, we used a multiyear normalized difference vegetation index (NDVI) dataset (1982-2013) and corresponding datasets for observed climatic variables to analyze changes in the NDVI at both temporal and spatial scales. The relationships between NDVI, climate change, and human activities were also investigated. The annual average NDVI showed an upward trend over the 32-year study period, especially in the center of the Loess Plateau. NDVI variations lagged behind monthly temperature changes by approximately 1 month. The contribution of human activities to variations in NDVI has become increasingly significant...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
The 400 mm annual precipitation fluctuation zone (75°55′–127°6′E and 26&...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
Understanding the spatio-temporal changes of vegetation and its climatic control factors can provide...
Spatiotemporal variations of Chinese Loess Plateau vegetation cover during 1981-2006 have been inves...
Monitoring the dynamics of vegetation growth and its response to climate change is important to unde...
Vegetation greening has been widely occurring on the Chinese Loess Plateau, and the contributions of...
AbstractThe change of terrestrial ecosystem spatial distribution driven by climatic change is one of...
In 1999, the Grain for Green Project was implemented by the Chinese government. Since then, the vege...
Vegetation greening steered by land use management in the Chinese Loess Plateau has been widely repo...
We present an analysis of the impacts of weather change and large-scale vegetation conservation prog...
The impacts of climate change and human activities on vegetation dynamics have attracted wide attent...
Since the early 2000s, the vegetation cover of the Loess Plateau (LP) has increased significantly, w...
Soil erosion is still one of major issues limiting agricultural and forestry productivity in Loess P...
China defined twenty-five National Key Ecological Function Areas in 2010, and adopted various measur...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
The 400 mm annual precipitation fluctuation zone (75°55′–127°6′E and 26&...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
Understanding the spatio-temporal changes of vegetation and its climatic control factors can provide...
Spatiotemporal variations of Chinese Loess Plateau vegetation cover during 1981-2006 have been inves...
Monitoring the dynamics of vegetation growth and its response to climate change is important to unde...
Vegetation greening has been widely occurring on the Chinese Loess Plateau, and the contributions of...
AbstractThe change of terrestrial ecosystem spatial distribution driven by climatic change is one of...
In 1999, the Grain for Green Project was implemented by the Chinese government. Since then, the vege...
Vegetation greening steered by land use management in the Chinese Loess Plateau has been widely repo...
We present an analysis of the impacts of weather change and large-scale vegetation conservation prog...
The impacts of climate change and human activities on vegetation dynamics have attracted wide attent...
Since the early 2000s, the vegetation cover of the Loess Plateau (LP) has increased significantly, w...
Soil erosion is still one of major issues limiting agricultural and forestry productivity in Loess P...
China defined twenty-five National Key Ecological Function Areas in 2010, and adopted various measur...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
The 400 mm annual precipitation fluctuation zone (75°55′–127°6′E and 26&...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...