In this study, vegetation–climate and vegetation–carbon cycle interactions during anthropogenic climate change are assessed by using the Earth System Model of the Max Planck Institute for Meteorology (MPI ESM) that includes vegetation dynamics and an interactive carbon cycle. We assume anthropogenic CO2 emissions according to the RCP 8.5 scenario in the time period from 1850 to 2120. For the time after 2120, we assume zero emissions to evaluate the response of the stabilising Earth System by 2300. Our results suggest that vegetation dynamics have a considerable influence on the changing global and regional climate. In the simulations, global mean tree cover extends by 2300 due to increased atmospheric CO2 concentration and global warming. T...
Vegetation strongly affects climate by influencing the exchanges of energy and moisture between the...
Understanding the transition of biosphere‐atmosphere carbon exchange between glacial and interglacia...
A coupled global vegetation–climate model is used to investigatethe effects of vegetation feedbacks ...
In this study, vegetation–climate and vegetation–carbon cycle interactions during anthropogenic clim...
Abstract. In this study, vegetation–climate and vegetation– carbon cycle interactions during anthrop...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
The aim of our study was to use the coupled climate-carbon cycle model HadCM3C to quantify climate i...
Background Dynamic Global Vegetation Models (DGVMs) compute the terrestrial carbon balance as well ...
This study describes the coupling of the dynamic global vegetation model (DGVM), Lund–Potsdam–Jena M...
The climate exerts the dominant control on the spatial distribution of the major vegetation types on...
Afforestation and reforestation have become popular instruments of climate mitigation policy, as for...
Observation and modelling studies have indicated that the global land surfaces have been undergoing ...
Abstract.Vegetation strongly affects climate by influencing the exchanges of energy and moisture bet...
International audienceThe importance of the biogeophysical atmosphere-vegetation feedback in compari...
Satellite data reveal widespread changes in Earth's vegetation cover. Regions intensively attended t...
Vegetation strongly affects climate by influencing the exchanges of energy and moisture between the...
Understanding the transition of biosphere‐atmosphere carbon exchange between glacial and interglacia...
A coupled global vegetation–climate model is used to investigatethe effects of vegetation feedbacks ...
In this study, vegetation–climate and vegetation–carbon cycle interactions during anthropogenic clim...
Abstract. In this study, vegetation–climate and vegetation– carbon cycle interactions during anthrop...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
The aim of our study was to use the coupled climate-carbon cycle model HadCM3C to quantify climate i...
Background Dynamic Global Vegetation Models (DGVMs) compute the terrestrial carbon balance as well ...
This study describes the coupling of the dynamic global vegetation model (DGVM), Lund–Potsdam–Jena M...
The climate exerts the dominant control on the spatial distribution of the major vegetation types on...
Afforestation and reforestation have become popular instruments of climate mitigation policy, as for...
Observation and modelling studies have indicated that the global land surfaces have been undergoing ...
Abstract.Vegetation strongly affects climate by influencing the exchanges of energy and moisture bet...
International audienceThe importance of the biogeophysical atmosphere-vegetation feedback in compari...
Satellite data reveal widespread changes in Earth's vegetation cover. Regions intensively attended t...
Vegetation strongly affects climate by influencing the exchanges of energy and moisture between the...
Understanding the transition of biosphere‐atmosphere carbon exchange between glacial and interglacia...
A coupled global vegetation–climate model is used to investigatethe effects of vegetation feedbacks ...