Multimillennial simulations with a fully coupled climate–carbon cycle model are examined to assess the persistence of the climatic impacts of anthropogenic CO2 emissions. It is found that the time required to absorb anthropogenic CO2 strongly depends on the total amount of emissions; for emissions similar to known fossil fuel reserves, the time to absorb 50 % of the CO2 is more than 2000 yr. The long-term climate response appears to be independent of the rate at which CO2 is emitted over the next few centuries. Results further suggest that the lifetime of the surface air temperature anomaly might be as much as 60 % longer than the lifetime of anthropogenic CO2 and that two-thirds of the maximum temperature anomaly will persist for longer th...
The legacy of historical and the long-term impacts of 21st century greenhouse gas emissions on clima...
Eight earth system models of intermediate complexity (EMICs) are used to project climate change comm...
A complex Earth system model including atmosphere, ocean, ice sheets, marine carbon cycle and terres...
[1] Two earth-system models of intermediate complexity are used to study the long term response to a...
CO2 released from combustion of fossil fuels equilibrates among the various carbon reservoirs of the...
CO2 released from combustion of fossil fuels equilibrates among the various carbon reservoirs of the...
In this paper, we use a coupled climate and carbon cycle model to investigate the global climate and...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
The ratio of CO2 accumulating in the atmosphere to the CO2 flux into the atmosphere due to human act...
This thesis gives insight into key aspects of the climate system response to anthropogenic carbon di...
[1] A model of the ocean and seafloor carbon cycle is subjected to injection of new CO2 pulses of va...
Anthropogenic climate change will continue long after anthropogenic CO2 emissions cease. Atmospheric...
Transient simulations are performed over the entire last millennium with a general circulation model...
Abstract. The ratio of CO2 accumulating in the atmosphere to the CO2 flux into the atmosphere due to...
[1] Current international climate mitigation efforts aim to stabilize levels of greenhouse gases in ...
The legacy of historical and the long-term impacts of 21st century greenhouse gas emissions on clima...
Eight earth system models of intermediate complexity (EMICs) are used to project climate change comm...
A complex Earth system model including atmosphere, ocean, ice sheets, marine carbon cycle and terres...
[1] Two earth-system models of intermediate complexity are used to study the long term response to a...
CO2 released from combustion of fossil fuels equilibrates among the various carbon reservoirs of the...
CO2 released from combustion of fossil fuels equilibrates among the various carbon reservoirs of the...
In this paper, we use a coupled climate and carbon cycle model to investigate the global climate and...
A complex earth system model, simulating atmosphere and ocean dynamics, marine biogeochemistry, terr...
The ratio of CO2 accumulating in the atmosphere to the CO2 flux into the atmosphere due to human act...
This thesis gives insight into key aspects of the climate system response to anthropogenic carbon di...
[1] A model of the ocean and seafloor carbon cycle is subjected to injection of new CO2 pulses of va...
Anthropogenic climate change will continue long after anthropogenic CO2 emissions cease. Atmospheric...
Transient simulations are performed over the entire last millennium with a general circulation model...
Abstract. The ratio of CO2 accumulating in the atmosphere to the CO2 flux into the atmosphere due to...
[1] Current international climate mitigation efforts aim to stabilize levels of greenhouse gases in ...
The legacy of historical and the long-term impacts of 21st century greenhouse gas emissions on clima...
Eight earth system models of intermediate complexity (EMICs) are used to project climate change comm...
A complex Earth system model including atmosphere, ocean, ice sheets, marine carbon cycle and terres...