We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ocean models and Earth system models. In response to a CO2 pulse emission of 590 Pg C (corresponding to an instantaneous doubling of atmospheric CO2 from 278 to 556 ppm), the fraction of CO2 emitted that is absorbed by the ocean is: 37±8%, 56±10%, and 81±4% (model mean ±2s ) in year 30, 100, and 1000 after the emission pulse, respectively. Modeled oceanic uptake of pulse CO2 on timescales from decades to about a century is strongly correlated with simulated present-day uptake of chlorofluorocarbons (CFCs) and CO2 across all models, while the amount of pulse CO2 absorbed by the ocean from a century to a millennium is strongly correlated with m...
This chapter focuses on the role of the ocean in the global carbon cycle on the time scale of decade...
Carbon dioxide (CO2) is, next to water vapour, considered to be the most important natural greenhous...
The ocean is the only cumulative sink of atmospheric CO2. It has absorbed approximately 40% of the C...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
The increase of atmospheric CO2 concentrations due to anthropogenic activities is substantially damp...
The uptake of anthropogenic CO2 by the ocean is simulated using a perturbation approach in a three-d...
We have compared simulations of anthropogenic CO2 in the four three-dimensional ocean models that pa...
A carbon cycle model is presented in which direct ventilation of intermediate and deep ocean waters ...
The ocean and land absorb anthropogenic CO2 from industrial fossil-fuel emissions and land-use chang...
The ocean currently takes up a large fraction of the anthropogenic emissions of carbon dioxide and ...
Trends and variability in the ocean-atmosphere CO2 flux and the uptake of anthropogenic CO2 are simu...
The uptake and storage of anthropogenic carbon in the North Atlantic is investigated using different...
This paper briefly reviews the key processes that determine oceanic CO2 uptake and sets this descrip...
About one quarter of the CO2 emitted to the atmosphere by human activities is absorbed annually by t...
This chapter focuses on the role of the ocean in the global carbon cycle on the time scale of decade...
Carbon dioxide (CO2) is, next to water vapour, considered to be the most important natural greenhous...
The ocean is the only cumulative sink of atmospheric CO2. It has absorbed approximately 40% of the C...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
We compare modeled oceanic carbon uptake in response to pulse CO2 emissions using a suite of global ...
The increase of atmospheric CO2 concentrations due to anthropogenic activities is substantially damp...
The uptake of anthropogenic CO2 by the ocean is simulated using a perturbation approach in a three-d...
We have compared simulations of anthropogenic CO2 in the four three-dimensional ocean models that pa...
A carbon cycle model is presented in which direct ventilation of intermediate and deep ocean waters ...
The ocean and land absorb anthropogenic CO2 from industrial fossil-fuel emissions and land-use chang...
The ocean currently takes up a large fraction of the anthropogenic emissions of carbon dioxide and ...
Trends and variability in the ocean-atmosphere CO2 flux and the uptake of anthropogenic CO2 are simu...
The uptake and storage of anthropogenic carbon in the North Atlantic is investigated using different...
This paper briefly reviews the key processes that determine oceanic CO2 uptake and sets this descrip...
About one quarter of the CO2 emitted to the atmosphere by human activities is absorbed annually by t...
This chapter focuses on the role of the ocean in the global carbon cycle on the time scale of decade...
Carbon dioxide (CO2) is, next to water vapour, considered to be the most important natural greenhous...
The ocean is the only cumulative sink of atmospheric CO2. It has absorbed approximately 40% of the C...