Vegetation regulates the exchange of terrestrial carbon and water fluxes and connects the biosphere, hydrosphere, and atmosphere. Over the last four decades, vegetation greening has been observed worldwide using satellite technology. China has also experienced a notably widespread greening trend. However, the responsiveness of vegetation dynamics to elevated CO2 concentration, climate change, and human activities remains unclear. In this study, we attempted to explore the impact of natural (precipitation, air temperature), biogeochemical (CO2), and anthropogenic drivers (nighttime light, afforestation area) on changes in vegetation greenness in the Haihe River Basin (HRB) during 2002–2018 at the county-level. We further determined the major...
The reliable detection and attribution of changes in vegetation growth is a prerequisite for the dev...
Since the 21st century, China has experienced rapid development, and the spatial and temporal change...
How to distinguish the relative role of climate change and human activities in vegetation dynamics h...
Assessing the dynamics of vegetation and its response to environmental changes is essential to under...
Understanding the interactions of climate-vegetation and human-vegetation has been a critical issue ...
This study attempts to quantify the relative contributions of vegetation greening in China due to cl...
China has promoted its vegetation cover and terrestrial carbon sink through ecological restorations ...
Vegetation greening has been widely occurring on the Chinese Loess Plateau, and the contributions of...
Climate change and anthropogenic activities are widely considered the main factors affecting vegetat...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
Global environmental change is rapidly altering the dynamics of terrestrial vegetation, with consequ...
Abstract China accounts for 25% of the global greening. There are temporal and spatial differences o...
In recent decades, the monitoring of vegetation dynamics has become crucial because of its important...
Natural climate change and human activities are the main driving forces associated with vegetation c...
The reliable detection and attribution of changes in vegetation growth is a prerequisite for the dev...
Since the 21st century, China has experienced rapid development, and the spatial and temporal change...
How to distinguish the relative role of climate change and human activities in vegetation dynamics h...
Assessing the dynamics of vegetation and its response to environmental changes is essential to under...
Understanding the interactions of climate-vegetation and human-vegetation has been a critical issue ...
This study attempts to quantify the relative contributions of vegetation greening in China due to cl...
China has promoted its vegetation cover and terrestrial carbon sink through ecological restorations ...
Vegetation greening has been widely occurring on the Chinese Loess Plateau, and the contributions of...
Climate change and anthropogenic activities are widely considered the main factors affecting vegetat...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
In recent decades, climate change has affected vegetation growth in terrestrial ecosystems. We inves...
Global environmental change is rapidly altering the dynamics of terrestrial vegetation, with consequ...
Abstract China accounts for 25% of the global greening. There are temporal and spatial differences o...
In recent decades, the monitoring of vegetation dynamics has become crucial because of its important...
Natural climate change and human activities are the main driving forces associated with vegetation c...
The reliable detection and attribution of changes in vegetation growth is a prerequisite for the dev...
Since the 21st century, China has experienced rapid development, and the spatial and temporal change...
How to distinguish the relative role of climate change and human activities in vegetation dynamics h...