A series of nine simulations has been made with the Lund-Potsdam-Jena Dynamic Global Vegetation Model (LPJ-DGVM) in order to explore the impacts of climate variability and Holocene changes in variability (as simulated by the Fast Ocean-Atmosphere Model, FOAM) on vegetation in three forest-dominated regions of China and in the semi-arid Sahelian region of northern Africa. The simulations illustrate that changes both in the magnitude of climate variability and in the persistence of above/below average conditions have the potential to modify the vegetation response to changes in mean climate. Simulated changes in moisture availability affect vegetation through drought stress or through changing the fuel availability in semi-arid regions where ...
The abrupt desertification over the northern Africa in the mid-Holocene is studied in both a complex...
Quaternary climate variability strongly affected ecosystems and vegetation. Climatic oscillations be...
International audienceImproving the model-based predictions of plant species under a projected clima...
A series of nine simulations has been made with the Lund-Potsdam-Jena Dynamic Global Vegetation Mode...
A series of nine simulations has been made with the Lund–Potsdam–Jena Dynamic Global Vegetation Mode...
Vegetation dynamics could lead to changes in the global carbon and hydrology cycle, as well as feedb...
We present a transient simulation of global vegetation and climate patterns of the mid- and late Hol...
International audienceWe present the first simulation of the last 6000 years with a version of the I...
International audienceThe outputs of the climate simulated by two General Circulation Models (GCMs),...
Dryland ecosystems are a major source of land cover, account for about 40% of Earth's terrestrial su...
This study compares the dynamic vegetation response in two Dynamic Global Vegetation Models (DGVMs) ...
Vegetation is known to interact with the other components of the climate system over a wide range of...
The abrupt desertification over the northern Africa in the mid-Holocene is studied in both a complex...
Quaternary climate variability strongly affected ecosystems and vegetation. Climatic oscillations be...
International audienceImproving the model-based predictions of plant species under a projected clima...
A series of nine simulations has been made with the Lund-Potsdam-Jena Dynamic Global Vegetation Mode...
A series of nine simulations has been made with the Lund–Potsdam–Jena Dynamic Global Vegetation Mode...
Vegetation dynamics could lead to changes in the global carbon and hydrology cycle, as well as feedb...
We present a transient simulation of global vegetation and climate patterns of the mid- and late Hol...
International audienceWe present the first simulation of the last 6000 years with a version of the I...
International audienceThe outputs of the climate simulated by two General Circulation Models (GCMs),...
Dryland ecosystems are a major source of land cover, account for about 40% of Earth's terrestrial su...
This study compares the dynamic vegetation response in two Dynamic Global Vegetation Models (DGVMs) ...
Vegetation is known to interact with the other components of the climate system over a wide range of...
The abrupt desertification over the northern Africa in the mid-Holocene is studied in both a complex...
Quaternary climate variability strongly affected ecosystems and vegetation. Climatic oscillations be...
International audienceImproving the model-based predictions of plant species under a projected clima...