The uptake and storage of anthropogenic carbon in the North Atlantic is investigated using different configurations of ocean general circulation/carbon cycle models. We investigate how different representations of the ocean physics in the models, which represent the range of models currently in use, affect the evolution of CO2 uptake in the North Atlantic. The buffer effect of the ocean carbon system would be expected to reduce ocean CO2 uptake as the ocean absorbs increasing amounts of CO2. We find that the strength of the buffer effect is very dependent on the model ocean state, as it affects both the magnitude and timing of the changes in uptake. The timescale over which uptake of CO2 in the North Atlantic drops to below preindustrial le...
The ocean carbon cycle plays a fundamental role in the Earth’s climate system, on decadal to multi-m...
The increase in anthropogenic, atmospheric carbon dioxide (CO2) has been largely mitigated by ocean ...
International audiencehe North Atlantic Ocean is a major sink region for atmospheric CO2 and contrib...
The increase of atmospheric CO2 concentrations due to anthropogenic activities is substantially damp...
Global warming simulations are performed with a coupled climate model of reduced complexity to inves...
The North Atlantic Ocean accounts for about 25% of the global oceanic anthropogenic carbon sink. Thi...
International audienceUptake of atmospheric carbon dioxide in the subpolar North Atlantic Ocean decl...
Global warming simulations are performed with a coupled climate model of reduced complexity to inves...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
The North Atlantic Ocean is a region of intense uptake of atmospheric CO2. To assess how this CO2 si...
Observational studies report a rapid decline of ocean CO2 uptake in the temperate North Atlantic dur...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
The increase in atmospheric CO2 over this century depends on the evolution of the oceanic air–sea CO...
The ocean carbon cycle plays a fundamental role in the Earth’s climate system, on decadal to multi-m...
The increase in anthropogenic, atmospheric carbon dioxide (CO2) has been largely mitigated by ocean ...
International audiencehe North Atlantic Ocean is a major sink region for atmospheric CO2 and contrib...
The increase of atmospheric CO2 concentrations due to anthropogenic activities is substantially damp...
Global warming simulations are performed with a coupled climate model of reduced complexity to inves...
The North Atlantic Ocean accounts for about 25% of the global oceanic anthropogenic carbon sink. Thi...
International audienceUptake of atmospheric carbon dioxide in the subpolar North Atlantic Ocean decl...
Global warming simulations are performed with a coupled climate model of reduced complexity to inves...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
The North Atlantic Ocean is a region of intense uptake of atmospheric CO2. To assess how this CO2 si...
Observational studies report a rapid decline of ocean CO2 uptake in the temperate North Atlantic dur...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
The increase in atmospheric CO2 over this century depends on the evolution of the oceanic air–sea CO...
The ocean carbon cycle plays a fundamental role in the Earth’s climate system, on decadal to multi-m...
The increase in anthropogenic, atmospheric carbon dioxide (CO2) has been largely mitigated by ocean ...
International audiencehe North Atlantic Ocean is a major sink region for atmospheric CO2 and contrib...