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How deep is deep enough? Ocean iron fertilization and carbon sequestration in the Southern Ocean

How deep is deep enough? Ocean iron fertilization and carbon sequestration in the Southern Ocean
How deep is deep enough? Ocean iron fertilization and carbon sequestration in the Southern Ocean
Artificial ocean iron fertilization (OIF) enhances phytoplankton productivity and is being explored as a means of sequestering anthropogenic carbon within the deep ocean. To be considered successful, carbon should be exported from the surface ocean and isolated from the atmosphere for an extended period (e.g., the Intergovernmental Panel on Climate Change's standard 100 year time horizon). This study assesses the impact of deep circulation on carbon sequestered by OIF in the Southern Ocean, a high-nutrient low-chlorophyll region known to be iron stressed. A Lagrangian particle-tracking approach is employed to analyze water mass trajectories over a 100 year simulation. By the end of the experiment, for a sequestration depth of 1000 m, 66% of the carbon had been reexposed to the atmosphere, taking an average of 37.8 years. Upwelling occurs predominately within the Antarctic Circumpolar Current due to Ekman suction and topography. These results emphasize that successful OIF is dependent on the physical circulation, as well as the biogeochemistry.
ocean iron fertilization, Lagrangian particle tracking, deep circulation, Southern Ocean
0094-8276
2489-2495
Robinson, J.
8812551a-26bb-49c3-801f-67bfb878c7c7
Popova, E.E.
3ea572bd-f37d-4777-894b-b0d86f735820
Yool, A.
882aeb0d-dda0-405e-844c-65b68cce5017
Srokosz, M.
1e0442ce-679f-43f2-8fe4-9a0f0174d483
Lampitt, R.S.
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
Blundell, J.R.
88114f32-6b76-46b2-b2d8-d6ef64a82b0d
Robinson, J.
8812551a-26bb-49c3-801f-67bfb878c7c7
Popova, E.E.
3ea572bd-f37d-4777-894b-b0d86f735820
Yool, A.
882aeb0d-dda0-405e-844c-65b68cce5017
Srokosz, M.
1e0442ce-679f-43f2-8fe4-9a0f0174d483
Lampitt, R.S.
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
Blundell, J.R.
88114f32-6b76-46b2-b2d8-d6ef64a82b0d

Robinson, J., Popova, E.E., Yool, A., Srokosz, M., Lampitt, R.S. and Blundell, J.R. (2014) How deep is deep enough? Ocean iron fertilization and carbon sequestration in the Southern Ocean. Geophysical Research Letters, 41 (7), 2489-2495. (doi:10.1002/2013GL058799).

Record type: Article

Abstract

Artificial ocean iron fertilization (OIF) enhances phytoplankton productivity and is being explored as a means of sequestering anthropogenic carbon within the deep ocean. To be considered successful, carbon should be exported from the surface ocean and isolated from the atmosphere for an extended period (e.g., the Intergovernmental Panel on Climate Change's standard 100 year time horizon). This study assesses the impact of deep circulation on carbon sequestered by OIF in the Southern Ocean, a high-nutrient low-chlorophyll region known to be iron stressed. A Lagrangian particle-tracking approach is employed to analyze water mass trajectories over a 100 year simulation. By the end of the experiment, for a sequestration depth of 1000 m, 66% of the carbon had been reexposed to the atmosphere, taking an average of 37.8 years. Upwelling occurs predominately within the Antarctic Circumpolar Current due to Ekman suction and topography. These results emphasize that successful OIF is dependent on the physical circulation, as well as the biogeochemistry.

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e-pub ahead of print date: April 2014
Published date: 16 April 2014
Keywords: ocean iron fertilization, Lagrangian particle tracking, deep circulation, Southern Ocean
Organisations: Marine Systems Modelling, Marine Biogeochemistry, Physical Oceanography, Marine Physics and Ocean Climate

Identifiers

Local EPrints ID: 364276
URI: http://eprints.soton.ac.uk/id/eprint/364276
DOI: doi:10.1002/2013GL058799
ISSN: 0094-8276
PURE UUID: efe7086c-142c-4231-91eb-8626ef8814de

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Date deposited: 14 Apr 2014 09:03
Last modified: 14 Mar 2024 16:32

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Contributors

Author: J. Robinson
Author: E.E. Popova
Author: A. Yool
Author: M. Srokosz
Author: R.S. Lampitt
Author: J.R. Blundell

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