Add to ORKG[1] Study of the effect of current climate changes on vegetation growth, and their spatial patterns improves our understanding of the interactions between terrestrial ecosystems and climatic systems. This paper explores the spatial patterns of vegetation growth responding to climate variability over Northern Hemisphere (>25N) from 1980 to 2000 using a mechanistic terrestrial carbon model. The results indicate that changes in climate and atmospheric CO2 likely function as dominant controllers for the greening trend during the study period. At the continental scale, atmospheric CO2, temperature, and precipitation account for 49%, 31%, and 13 % of the increase in growing season LAI, respectively, but their relative role is not constant acro...
International audienceAbstract. Satellite data reveal widespread changes in Earth's vegetation cover...
International audienceA number of studies have suggested that the growing season duration has signif...
The enhanced vegetation growth by climate warming plays a pivotal role in amplifying the seasonal cy...
International audienceStudy of the effect of current climate changes on vegetation growth, and their...
We qualitatively and quantitatively assessed the factors related to vegetation growth using Earth sy...
We qualitatively and quantitatively assessed the factors related to vegetation growth using Earth sy...
Global terrestrial vegetation dynamics have been rapidly altered by climate change. A widespread veg...
There have been hiatuses in global warming since the 1990s, and their potential impacts have attract...
The climate regime shift during the 1980s had a substantial impact on the terrestrial ecosystems and...
We combine satellite and ground observations during 1950-2011 to study the long-term links between m...
The enhanced vegetation growth by climate warming plays a pivotal role in amplifying the seasonal cy...
The potential for feedbacks between terrestrial vegetation, climate, and the atmospheric CO2 partial...
International audienceAbstract. Satellite data reveal widespread changes in Earth's vegetation cover...
International audienceA number of studies have suggested that the growing season duration has signif...
The enhanced vegetation growth by climate warming plays a pivotal role in amplifying the seasonal cy...
International audienceStudy of the effect of current climate changes on vegetation growth, and their...
We qualitatively and quantitatively assessed the factors related to vegetation growth using Earth sy...
We qualitatively and quantitatively assessed the factors related to vegetation growth using Earth sy...
Global terrestrial vegetation dynamics have been rapidly altered by climate change. A widespread veg...
There have been hiatuses in global warming since the 1990s, and their potential impacts have attract...
The climate regime shift during the 1980s had a substantial impact on the terrestrial ecosystems and...
We combine satellite and ground observations during 1950-2011 to study the long-term links between m...
The enhanced vegetation growth by climate warming plays a pivotal role in amplifying the seasonal cy...
The potential for feedbacks between terrestrial vegetation, climate, and the atmospheric CO2 partial...
International audienceAbstract. Satellite data reveal widespread changes in Earth's vegetation cover...
International audienceA number of studies have suggested that the growing season duration has signif...
The enhanced vegetation growth by climate warming plays a pivotal role in amplifying the seasonal cy...