Atlantic-Pacific Asymmetry in Deep Water Formation

David Ferreira; Paola Cessi; Helen K. Coxall; Agatha De Boer; Henk A. Dijkstra; Sybren S. Drijfhout; Tor Eldevik; Nili Harnik; Jerry F. McManus; David P. Marshall; Johan Nilsson; Fabien Roquet; Tapio Schneider; Robert C. Wills

doi:10.1146/annurev-earth-082517-010045

Atlantic-Pacific Asymmetry in Deep Water Formation

David Ferreira, Paola Cessi, Helen K. Coxall, Agatha De Boer, Henk A. Dijkstra, Sybren S. Drijfhout, Tor Eldevik, Nili Harnik, Jerry F. McManus, David P. Marshall, Johan Nilsson, Fabien Roquet, Tapio Schneider, Robert C. Wills

Research output: Contribution to journal › Review article › peer-review

Abstract

While the Atlantic Ocean is ventilated by high-latitude deep water formation and exhibits a pole-To-pole overturning circulation, the Pacific Ocean does not. This asymmetric global overturning pattern has persisted for the past 2-3 million years, with evidence for different ventilation modes in the deeper past. In the current climate, the Atlantic-Pacific asymmetry occurs because the Atlantic is more saline, enabling deep convection. To what extent the salinity contrast between the two basins is dominated by atmospheric processes (larger net evaporation over the Atlantic) or oceanic processes (salinity transport into the Atlantic) remains an outstanding question. Numerical simulations have provided support for both mechanisms; observations of the present climate support a strong role for atmospheric processes as well as some modulation by oceanic processes. A major avenue for future work is the quantification of the various processes at play to identify which mechanisms are primary in different climate states.

Original language	English
Pages (from-to)	327-352
Number of pages	26
Journal	Annual Review of Earth and Planetary Sciences
Volume	46
DOIs	https://doi.org/10.1146/annurev-earth-082517-010045
Publication status	Published - 30 May 2018

Funding

We acknowledge funding from the International Meteorological Institute and the Bolin Centre for Climate Research for the workshop on “The Atlantic Meridional Overturning Circulation in a Global Perspective” held at Stockholm University in September 2015. P.C., J.F.M., and T.S. acknowledge support from the US National Science Foundation (grant OCE-1634128 to P.C., grant AGS-1635019 to J.F.M., and grant AGS-1019211 to T.S.). T.E. acknowledges support from the Research Council of Norway (project NORTH). T.S. thanks Ryan Abernathey and Laure Zanna for helpful discussions.

Keywords

meridional overturning circulation, salinity, hydrological cycle, multiple equilibria, climate, deep water formation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1146/annurev-earth-082517-010045

annurev-earth-082517-010045Final published version, 4.74 MBLicence: Taverne

Cite this

Ferreira, D., Cessi, P., Coxall, H. K., De Boer, A., Dijkstra, H. A., Drijfhout, S. S., Eldevik, T., Harnik, N., McManus, J. F., Marshall, D. P., Nilsson, J., Roquet, F., Schneider, T., & Wills, R. C. (2018). Atlantic-Pacific Asymmetry in Deep Water Formation. Annual Review of Earth and Planetary Sciences, 46, 327-352. https://doi.org/10.1146/annurev-earth-082517-010045

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abstract = "While the Atlantic Ocean is ventilated by high-latitude deep water formation and exhibits a pole-To-pole overturning circulation, the Pacific Ocean does not. This asymmetric global overturning pattern has persisted for the past 2-3 million years, with evidence for different ventilation modes in the deeper past. In the current climate, the Atlantic-Pacific asymmetry occurs because the Atlantic is more saline, enabling deep convection. To what extent the salinity contrast between the two basins is dominated by atmospheric processes (larger net evaporation over the Atlantic) or oceanic processes (salinity transport into the Atlantic) remains an outstanding question. Numerical simulations have provided support for both mechanisms; observations of the present climate support a strong role for atmospheric processes as well as some modulation by oceanic processes. A major avenue for future work is the quantification of the various processes at play to identify which mechanisms are primary in different climate states.",

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AU - Drijfhout, Sybren S.

AU - Eldevik, Tor

AU - Harnik, Nili

AU - McManus, Jerry F.

AU - Marshall, David P.

AU - Nilsson, Johan

AU - Roquet, Fabien

AU - Schneider, Tapio

AU - Wills, Robert C.

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N2 - While the Atlantic Ocean is ventilated by high-latitude deep water formation and exhibits a pole-To-pole overturning circulation, the Pacific Ocean does not. This asymmetric global overturning pattern has persisted for the past 2-3 million years, with evidence for different ventilation modes in the deeper past. In the current climate, the Atlantic-Pacific asymmetry occurs because the Atlantic is more saline, enabling deep convection. To what extent the salinity contrast between the two basins is dominated by atmospheric processes (larger net evaporation over the Atlantic) or oceanic processes (salinity transport into the Atlantic) remains an outstanding question. Numerical simulations have provided support for both mechanisms; observations of the present climate support a strong role for atmospheric processes as well as some modulation by oceanic processes. A major avenue for future work is the quantification of the various processes at play to identify which mechanisms are primary in different climate states.

AB - While the Atlantic Ocean is ventilated by high-latitude deep water formation and exhibits a pole-To-pole overturning circulation, the Pacific Ocean does not. This asymmetric global overturning pattern has persisted for the past 2-3 million years, with evidence for different ventilation modes in the deeper past. In the current climate, the Atlantic-Pacific asymmetry occurs because the Atlantic is more saline, enabling deep convection. To what extent the salinity contrast between the two basins is dominated by atmospheric processes (larger net evaporation over the Atlantic) or oceanic processes (salinity transport into the Atlantic) remains an outstanding question. Numerical simulations have provided support for both mechanisms; observations of the present climate support a strong role for atmospheric processes as well as some modulation by oceanic processes. A major avenue for future work is the quantification of the various processes at play to identify which mechanisms are primary in different climate states.

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JO - Annual Review of Earth and Planetary Sciences

JF - Annual Review of Earth and Planetary Sciences

ER -

Atlantic-Pacific Asymmetry in Deep Water Formation

Abstract

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Keywords

UN SDGs

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