International audience[1] We study the response of the land biosphere to climate change by coupling a climate general circulation model to a global carbon cycle model. This coupled model was forced by observed CO 2 emissions for the 1860-1990 period and by the IPCC SRES-A2 emission scenario for the 1991-2100 period. During the historical period, our simulated Net Primary Production (NPP) and net land uptake (NEP) are comparable to the observations in term of trend and variability. By the end of the 21st century, we show that the global NEP is reduced by 56% due to the climate change. In the tropics, increasing temperature, through an increase of evapotranspiration, acts to reduce the soil water content, which leads to a 80% reduction of net...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
1. Most current climate–carbon cycle models that include the terrestrial carbon (C) cycle are based ...
International audienceThe purpose of this study was to evaluate 10 process‐based terrestrial biosphe...
International audience[1] We study the response of the land biosphere to climate change by coupling ...
The biosphere is a major pool in the global carbon cycle; its response to climatic change is therefo...
Global warming caused by anthropogenic CO2 emissions is expected to reduce the capability of the oce...
Global warming caused by anthropogenic CO2 emissions is expected to reduce the capability of the oce...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
International audience[1] We evaluated how climate change, rising atmospheric CO 2 concentration, an...
We studied the effects of climate and land-use change on the global terrestrial carbon cycle for the...
Future climate change induced by atmospheric emissions of greenhouse gases is believed to have a lar...
Land-atmosphere carbon exchange makes a significant contribution to the variability of atmospheric C...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
The terrestrial biosphere is a key regulator of atmospheric chemistry and climate. During past perio...
Background: The amount of carbon dioxide in the atmosphere steadily increases as a consequence of an...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
1. Most current climate–carbon cycle models that include the terrestrial carbon (C) cycle are based ...
International audienceThe purpose of this study was to evaluate 10 process‐based terrestrial biosphe...
International audience[1] We study the response of the land biosphere to climate change by coupling ...
The biosphere is a major pool in the global carbon cycle; its response to climatic change is therefo...
Global warming caused by anthropogenic CO2 emissions is expected to reduce the capability of the oce...
Global warming caused by anthropogenic CO2 emissions is expected to reduce the capability of the oce...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
International audience[1] We evaluated how climate change, rising atmospheric CO 2 concentration, an...
We studied the effects of climate and land-use change on the global terrestrial carbon cycle for the...
Future climate change induced by atmospheric emissions of greenhouse gases is believed to have a lar...
Land-atmosphere carbon exchange makes a significant contribution to the variability of atmospheric C...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
The terrestrial biosphere is a key regulator of atmospheric chemistry and climate. During past perio...
Background: The amount of carbon dioxide in the atmosphere steadily increases as a consequence of an...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
1. Most current climate–carbon cycle models that include the terrestrial carbon (C) cycle are based ...
International audienceThe purpose of this study was to evaluate 10 process‐based terrestrial biosphe...