Distributional models of ocean carbon export

A model simulation of the global carbon cycle demonstrates that the biological and solubility pumps are of comparable importance in determining the spatial distribution of annual mean air-sea fluxes in the Atlantic. The model also confirms that the impact of the (steady state) biological pump on the magnitude and spatial distribution of anthropogenic CO 2 uptake is minimal. An Atlantic Ocean carbon budget developed from analysis of the model combined with observations suggests that the air-sea flux of carbon is inadequate to supply the postulated large dissolved inorganic carbon export from the Atlantic. Other sources of carbon are required, such as an input from the Pacific via the Bering Strait and Arctic, river inflow, or an import of dissolved organic carbon.

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Insights into Southern Ocean carbon export from the δ13C of particles and dissolved inorganic carbon during the SOIREE iron release experiment

Deep Sea Research Part II Topical Studies in Oceanography ◽

10.1016/s0967-0645(01)00013-3 ◽

2001 ◽

Vol 48 (11-12) ◽

pp. 2655-2680 ◽

Cited By ~ 92

Author(s):

T.W Trull ◽

L Armand

Keyword(s):

Southern Ocean ◽

Inorganic Carbon ◽

Dissolved Inorganic Carbon ◽

Iron Release ◽

Carbon Export ◽

Release Experiment ◽

Ocean Carbon

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Multi-year robotic observations reveal the seasonality of downward carbon export pathways in the Southern Ocean

10.21203/rs.3.rs-1006941/v1 ◽

2021 ◽

Author(s):

Léo Lacour ◽

Joan Llort ◽

Nathan Briggs ◽

Peter Strutton ◽

Philip Boyd

Keyword(s):

Southern Ocean ◽

Phytoplankton Bloom ◽

Optical Signal ◽

Carbon Export ◽

Particle Injection ◽

Physical Forcing ◽

Poc Flux ◽

Carbon Pump ◽

Ocean Carbon ◽

Biological Carbon Pump

Abstract At high latitudes, the export of organic matter from the surface to the ocean interior, the biological carbon pump, has conventionally been attributed to the gravitational sinking of particulate organic carbon (POC). Conspicuous deficits in ocean carbon budgets have recently challenged this long-lived paradigm of a sole pathway. Multiple strands of evidence have demonstrated the importance of additional export pathways, including the particle injection pumps (PIPs). Recent model estimates revealed that PIPs have a comparable downward POC flux to the biological gravitational pump (BGP), but with potentially different seasonal signatures. To date, logistical constraints have prevented concomitant and extensive observations of these pumps, and little is known about the seasonality of their fluxes. Here, using year-round robotic observations and recent advances in optical signal analysis, we concurrently investigated the functioning of two PIPs - the mixed layer and eddy subduction pumps - and the BGP in Southern Ocean waters. By comparing three phytoplankton bloom cycles in contrasting environments, we show how physical forcing and phytoplankton phenology influence the magnitude and seasonality of these pumps, with implications for carbon sequestration efficiency.

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