Add to ORKGAs particulate organic carbon rains down from the surface ocean it is respired back to carbon dioxide and released into the oceans interior. The depth at which this sinking carbon is converted back to carbon dioxideknown as the remineralization depthdepends on the balance between particle sinking speeds and their rate of decay. A host of climate-sensitive factors can affect this balance, including temperature, oxygen concentration, stratification, community composition and the mineral content of the sinking particles. Here we use a three-dimensional global ocean biogeochemistry model to show that a modest change in remineralization depth can have a substantial impact on atmospheric carbon dioxide concentrations. For example, when the depth ...
The ocean’s biological carbon pump plays a central role in regulating atmospheric CO2 levels. In par...
The ocean is currently a significant net sink for anthropogenically remobilised CO2, taking up aroun...
We use an Earth system model of intermediate complexity, CLIMBER-2, to investigate what recent impro...
As particulate organic carbon rains down from the surface ocean it is respired back to carbon dioxid...
International audienceThe biological carbon pump causes carbon sequestration in deep waters by downw...
The biological carbon pump, which transports particulate organic carbon (POC) from the surface to th...
Temperature-dependent remineralization of organic matter is, in general, not included in marine biog...
The sinking of photosynthetically produced organic carbon from the ocean surface to its interior is ...
International audienceTo assess the sensitivity of surface ocean pCO 2 and air-sea CO 2 fluxes to ch...
The ocean is one of the principal reservoirs of CO2, a greenhouse gas, and therefore plays a crucial...
The concentration of CO2 in the atmosphere is sensitive to changes in the depth at which sinking par...
The biogeochemical cycling of carbon between its sources and sinks determines the rate of increase i...
International audienceChanging atmospheric composition due to human activities, primarily carbon dio...
While atmospheric CO2 concentrations have been increasing during recent decades due to anthropogenic...
The ocean’s biological carbon pump plays a central role in regulating atmospheric CO2 levels. In par...
The ocean is currently a significant net sink for anthropogenically remobilised CO2, taking up aroun...
We use an Earth system model of intermediate complexity, CLIMBER-2, to investigate what recent impro...
As particulate organic carbon rains down from the surface ocean it is respired back to carbon dioxid...
International audienceThe biological carbon pump causes carbon sequestration in deep waters by downw...
The biological carbon pump, which transports particulate organic carbon (POC) from the surface to th...
Temperature-dependent remineralization of organic matter is, in general, not included in marine biog...
The sinking of photosynthetically produced organic carbon from the ocean surface to its interior is ...
International audienceTo assess the sensitivity of surface ocean pCO 2 and air-sea CO 2 fluxes to ch...
The ocean is one of the principal reservoirs of CO2, a greenhouse gas, and therefore plays a crucial...
The concentration of CO2 in the atmosphere is sensitive to changes in the depth at which sinking par...
The biogeochemical cycling of carbon between its sources and sinks determines the rate of increase i...
International audienceChanging atmospheric composition due to human activities, primarily carbon dio...
While atmospheric CO2 concentrations have been increasing during recent decades due to anthropogenic...
The ocean’s biological carbon pump plays a central role in regulating atmospheric CO2 levels. In par...
The ocean is currently a significant net sink for anthropogenically remobilised CO2, taking up aroun...
We use an Earth system model of intermediate complexity, CLIMBER-2, to investigate what recent impro...