The formation of the ocean’s anthropogenic carbon reservoir
The formation of the ocean’s anthropogenic carbon reservoir
The shallow overturning circulation of the oceans transports heat from the tropics to the mid-latitudes. This overturning also influences the uptake and storage of anthropogenic carbon (Cant). We demonstrate this by quantifying the relative importance of ocean thermodynamics, circulation and biogeochemistry in a global biochemistry and circulation model. Almost 2/3 of the Cant ocean uptake enters via gas exchange in waters that are lighter than the base of the ventilated thermocline. However, almost 2/3 of the excess Cant is stored below the thermocline. Our analysis shows that subtropical waters are a dominant component in the formation of subpolar waters and that these water masses essentially form a common Cant reservoir. This new method developed and presented here is intrinsically Lagrangian, as it by construction only considers the velocity or transport of waters across isopycnals. More generally, our approach provides an integral framework for linking ocean thermodynamics with biogeochemistry.
35473
Iudicone, Daniele
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Rodgers, Keith B.
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Plancherel, Yves
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Aumont, Olivier
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Ito, Takamitsu
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Key, Robert M.
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Madec, Gurvan
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Ishii, Masao
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3 November 2016
Iudicone, Daniele
e126ed06-8bab-4971-abf1-98a0d5f9dc7f
Rodgers, Keith B.
1078c51c-546c-486a-90fb-f33a5662338a
Plancherel, Yves
41bd5574-9869-464e-b384-b5cc0689a0dc
Aumont, Olivier
6ea5af9d-4c27-42d9-9ba7-749729efa72f
Ito, Takamitsu
f9253d28-2145-45ac-b553-0ac71e415e7c
Key, Robert M.
c7544b09-4f44-4b40-9507-a74ca3e53b83
Madec, Gurvan
ffb28deb-4bbd-4a4c-914f-492f813e4864
Ishii, Masao
55efe660-e0ca-411e-ae34-2c4856fe8cda
Iudicone, Daniele, Rodgers, Keith B., Plancherel, Yves, Aumont, Olivier, Ito, Takamitsu, Key, Robert M., Madec, Gurvan and Ishii, Masao
(2016)
The formation of the ocean’s anthropogenic carbon reservoir.
Scientific Reports, 6, .
(doi:10.1038/srep35473).
Abstract
The shallow overturning circulation of the oceans transports heat from the tropics to the mid-latitudes. This overturning also influences the uptake and storage of anthropogenic carbon (Cant). We demonstrate this by quantifying the relative importance of ocean thermodynamics, circulation and biogeochemistry in a global biochemistry and circulation model. Almost 2/3 of the Cant ocean uptake enters via gas exchange in waters that are lighter than the base of the ventilated thermocline. However, almost 2/3 of the excess Cant is stored below the thermocline. Our analysis shows that subtropical waters are a dominant component in the formation of subpolar waters and that these water masses essentially form a common Cant reservoir. This new method developed and presented here is intrinsically Lagrangian, as it by construction only considers the velocity or transport of waters across isopycnals. More generally, our approach provides an integral framework for linking ocean thermodynamics with biogeochemistry.
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srep35473.pdf
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Accepted/In Press date: 28 September 2016
e-pub ahead of print date: 3 November 2016
Published date: 3 November 2016
Organisations:
Marine Systems Modelling
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Local EPrints ID: 403261
URI: http://eprints.soton.ac.uk/id/eprint/403261
PURE UUID: 490f49a1-726f-49ac-aec5-e990a2c5d495
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Date deposited: 24 Nov 2016 11:59
Last modified: 15 Mar 2024 03:38
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Contributors
Author:
Daniele Iudicone
Author:
Keith B. Rodgers
Author:
Yves Plancherel
Author:
Olivier Aumont
Author:
Takamitsu Ito
Author:
Robert M. Key
Author:
Gurvan Madec
Author:
Masao Ishii
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