The sensitivity of the potential feedbacks between climate and biogeochemical cycles (BGC) is adressed with the help of LOVECLIM, a global three-dimensional Earth system model of intermediate complexity. Key physical or biogeochemical parameters of LOVECLIM are varied within their range of uncertainty in order to provide an ensemble of parameter sets resulting in contrasted climate and global carbon cycle sensitivities. The selected climate parameter sets lead to a climate sensitivity ranging from 2 to 4°C and a reduction of the Atlantic meridional overturning circulation (MOC) ranging from 20 to 60% after 1 kyr in response to identical external forcings. The key parameters for the carbon cycle were chosen among those with the largest imp...
Eleven coupled climate–carbon cycle models used a common protocol to study the coupling between clim...
International audienceEleven coupled climate–carbon cycle models used a common protocol to study the...
International audienceThe atmospheric carbon dioxide concentration plays a crucial role in the radia...
Under present-day conditions no deepwater is formed in the North Pacific. There is however evidence ...
Future climate change induced by atmospheric emissions of greenhouse gases is believed to have a lar...
Results from the fully and biogeochemically coupled simulations in which CO2 increases at a rate of ...
CO2 and carbon cycle changes in the land, ocean and atmosphere are investigated using the comprehens...
Based on simulations using the University of Victoria's Earth System Climate Model, we analyzed the ...
Changes to climate–carbon cycle feedbacks may ignificantly affect the Earth system's response to gre...
Climate change involves a direct response of the climate system to forcing which is amplified or dam...
International audienceCarbon cycle feedbacks are usually categorized into carbon–concentration and c...
Perturbations to the carbon cycle could constitute large feedbacks on future changes in atmospheric ...
The feedbacks between climate, atmospheric CO2 concentration and the terrestrial carbon cycle are a ...
Eleven coupled climate–carbon cycle models used a common protocol to study the coupling between clim...
International audienceEleven coupled climate–carbon cycle models used a common protocol to study the...
International audienceThe atmospheric carbon dioxide concentration plays a crucial role in the radia...
Under present-day conditions no deepwater is formed in the North Pacific. There is however evidence ...
Future climate change induced by atmospheric emissions of greenhouse gases is believed to have a lar...
Results from the fully and biogeochemically coupled simulations in which CO2 increases at a rate of ...
CO2 and carbon cycle changes in the land, ocean and atmosphere are investigated using the comprehens...
Based on simulations using the University of Victoria's Earth System Climate Model, we analyzed the ...
Changes to climate–carbon cycle feedbacks may ignificantly affect the Earth system's response to gre...
Climate change involves a direct response of the climate system to forcing which is amplified or dam...
International audienceCarbon cycle feedbacks are usually categorized into carbon–concentration and c...
Perturbations to the carbon cycle could constitute large feedbacks on future changes in atmospheric ...
The feedbacks between climate, atmospheric CO2 concentration and the terrestrial carbon cycle are a ...
Eleven coupled climate–carbon cycle models used a common protocol to study the coupling between clim...
International audienceEleven coupled climate–carbon cycle models used a common protocol to study the...
International audienceThe atmospheric carbon dioxide concentration plays a crucial role in the radia...