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Changes in ocean heat, carbon content, and ventilation: a review of the first decade of GO-SHIP global repeat hydrography

Changes in ocean heat, carbon content, and ventilation: a review of the first decade of GO-SHIP global repeat hydrography
Changes in ocean heat, carbon content, and ventilation: a review of the first decade of GO-SHIP global repeat hydrography
Global ship-based programs, with highly accurate, full water column physical and biogeochemical observations repeated decadally since the 1970s, provide a crucial resource for documenting ocean change. The ocean, a central component of Earth's climate system, is taking up most of Earth's excess anthropogenic heat, with about 19% of this excess in the abyssal ocean beneath 2,000 m, dominated by Southern Ocean warming. The ocean also has taken up about 27% of anthropogenic carbon, resulting in acidification of the upper ocean. Increased stratification has resulted in a decline in oxygen and increase in nutrients in the Northern Hemisphere thermocline and an expansion of tropical oxygen minimum zones. Southern Hemisphere thermocline oxygen increased in the 2000s owing to stronger wind forcingand ventilation. The most recent decade of global hydrography has mapped dissolved organic carbon, a large, bioactive reservoir, for the first time and quantified its contribution to export production (?20%) and deep-ocean oxygen utilization. Ship-based measurements also show that vertical diffusivity increases from a minimum in the thermocline to a maximum within the bottom 1,500 m, shifting our physical paradigm of the ocean's overturning circulation.
1941-1405
185-215
Talley, L.D.
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Feely, R.A.
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Sloyan, B.M.
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Wanninkhof, R.
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Baringer, M.O.
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Bullister, J.L.
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Carlson, C.A.
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Doney, S.C.
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Fine, R.A.
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Firing, E.
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Gruber, N.
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Hansell, D.A.
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Ishii, M.
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Johnson, G.C.
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Katsumata, K.
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Key, R.M.
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Kramp, M.
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Langdon, C.
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Macdonald, A.M.
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Mathis, J.T.
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McDonagh, E.L.
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Mecking, S.
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Millero, F.J.
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Mordy, C.W.
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Nakano, T.
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Sabine, C.L.
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Smethie, W.M.
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Swift, J.H.
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Tanhua, T.
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Thurnherr, A.M.
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Warner, M.J.
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Zhang, J.-Z.
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Talley, L.D.
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Feely, R.A.
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Sloyan, B.M.
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Wanninkhof, R.
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Baringer, M.O.
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Bullister, J.L.
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Carlson, C.A.
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Doney, S.C.
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Fine, R.A.
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Firing, E.
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Gruber, N.
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Hansell, D.A.
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Ishii, M.
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Johnson, G.C.
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Katsumata, K.
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Key, R.M.
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Kramp, M.
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Langdon, C.
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Macdonald, A.M.
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Mathis, J.T.
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McDonagh, E.L.
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Mecking, S.
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Millero, F.J.
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Mordy, C.W.
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Nakano, T.
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Sabine, C.L.
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Smethie, W.M.
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Swift, J.H.
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Tanhua, T.
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Thurnherr, A.M.
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Warner, M.J.
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Zhang, J.-Z.
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Talley, L.D., Feely, R.A., Sloyan, B.M., Wanninkhof, R., Baringer, M.O., Bullister, J.L., Carlson, C.A., Doney, S.C., Fine, R.A., Firing, E., Gruber, N., Hansell, D.A., Ishii, M., Johnson, G.C., Katsumata, K., Key, R.M., Kramp, M., Langdon, C., Macdonald, A.M., Mathis, J.T., McDonagh, E.L., Mecking, S., Millero, F.J., Mordy, C.W., Nakano, T., Sabine, C.L., Smethie, W.M., Swift, J.H., Tanhua, T., Thurnherr, A.M., Warner, M.J. and Zhang, J.-Z. (2016) Changes in ocean heat, carbon content, and ventilation: a review of the first decade of GO-SHIP global repeat hydrography. Annual Review of Marine Science, 8 (1), 185-215. (doi:10.1146/annurev-marine-052915-100829).

Record type: Article

Abstract

Global ship-based programs, with highly accurate, full water column physical and biogeochemical observations repeated decadally since the 1970s, provide a crucial resource for documenting ocean change. The ocean, a central component of Earth's climate system, is taking up most of Earth's excess anthropogenic heat, with about 19% of this excess in the abyssal ocean beneath 2,000 m, dominated by Southern Ocean warming. The ocean also has taken up about 27% of anthropogenic carbon, resulting in acidification of the upper ocean. Increased stratification has resulted in a decline in oxygen and increase in nutrients in the Northern Hemisphere thermocline and an expansion of tropical oxygen minimum zones. Southern Hemisphere thermocline oxygen increased in the 2000s owing to stronger wind forcingand ventilation. The most recent decade of global hydrography has mapped dissolved organic carbon, a large, bioactive reservoir, for the first time and quantified its contribution to export production (?20%) and deep-ocean oxygen utilization. Ship-based measurements also show that vertical diffusivity increases from a minimum in the thermocline to a maximum within the bottom 1,500 m, shifting our physical paradigm of the ocean's overturning circulation.

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More information

Published date: January 2016
Organisations: Marine Physics and Ocean Climate

Identifiers

Local EPrints ID: 390217
URI: http://eprints.soton.ac.uk/id/eprint/390217
DOI: doi:10.1146/annurev-marine-052915-100829
ISSN: 1941-1405
PURE UUID: 242641d9-729b-40ca-a09b-4ba3e7ee26d8

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Date deposited: 21 Mar 2016 14:23
Last modified: 14 Mar 2024 23:14

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Contributors

Author: L.D. Talley
Author: R.A. Feely
Author: B.M. Sloyan
Author: R. Wanninkhof
Author: M.O. Baringer
Author: J.L. Bullister
Author: C.A. Carlson
Author: S.C. Doney
Author: R.A. Fine
Author: E. Firing
Author: N. Gruber
Author: D.A. Hansell
Author: M. Ishii
Author: G.C. Johnson
Author: K. Katsumata
Author: R.M. Key
Author: M. Kramp
Author: C. Langdon
Author: A.M. Macdonald
Author: J.T. Mathis
Author: E.L. McDonagh
Author: S. Mecking
Author: F.J. Millero
Author: C.W. Mordy
Author: T. Nakano
Author: C.L. Sabine
Author: W.M. Smethie
Author: J.H. Swift
Author: T. Tanhua
Author: A.M. Thurnherr
Author: M.J. Warner
Author: J.-Z. Zhang

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