Add to ORKG[1] Climate-carbon cycle model CLIMBER2-LPJ is run with consistent fields of future fossil fuel CO2 emissions and geographically explicit land cover changes for four Special Report on Emissions Scenarios (SRES) scenarios, A1B, A2, B1, and B2. By 2100, increases in global mean temperatures range between 1.7C (B1) and 2.7C (A2) relative to the present day. Biogeochemical warming associated with future tropical land conversion is larger than its corresponding biogeophysical cooling effect in A2, and amplifies biogeophysical warming associated with Northern Hemisphere land abandonment in B1. In 2100, simulated atmospheric CO2 ranged from 592 ppm (B1) to 957 ppm (A2). Future CO2 concentrations simulated with the model are higher than previously ...
International audienceAbstract The effects of land-use changes on climate are assessed using specifi...
A coupled physical-biogeochemical climate model that includes a dynamic global vegetation model and ...
We assess the role of changing natural (volcanic, aerosol, insolation) and anthropogenic (CO2 emissi...
The impact of land use on the global carbon cycle and climate is assessed. The Bern carbon cycle-cli...
The effects of land-use changes on climate are assessed using specified-concentration simulations co...
International audienceWe constructed a model to analyze the interactions between land-use change and...
We assess the role of changing natural (volcanic, aerosol, insolation) and anthropogenic (CO2 emissi...
Anthropogenic activities such as fossil fuel production and Land Use and Land Use Changes (LULCC) ha...
We studied the effects of climate and land-use change on the global terrestrial carbon cycle for the...
International audienceBiogeophysical (BGP) and biogeochemical (BGC) effects of land-use and land cov...
International audienceAbstract The effects of land-use changes on climate are assessed using specifi...
A coupled physical-biogeochemical climate model that includes a dynamic global vegetation model and ...
We assess the role of changing natural (volcanic, aerosol, insolation) and anthropogenic (CO2 emissi...
The impact of land use on the global carbon cycle and climate is assessed. The Bern carbon cycle-cli...
The effects of land-use changes on climate are assessed using specified-concentration simulations co...
International audienceWe constructed a model to analyze the interactions between land-use change and...
We assess the role of changing natural (volcanic, aerosol, insolation) and anthropogenic (CO2 emissi...
Anthropogenic activities such as fossil fuel production and Land Use and Land Use Changes (LULCC) ha...
We studied the effects of climate and land-use change on the global terrestrial carbon cycle for the...
International audienceBiogeophysical (BGP) and biogeochemical (BGC) effects of land-use and land cov...
International audienceAbstract The effects of land-use changes on climate are assessed using specifi...
A coupled physical-biogeochemical climate model that includes a dynamic global vegetation model and ...
We assess the role of changing natural (volcanic, aerosol, insolation) and anthropogenic (CO2 emissi...