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Summertime increases in upper-ocean stratification and mixed-layer depth

Summertime increases in upper-ocean stratification and mixed-layer depth
Summertime increases in upper-ocean stratification and mixed-layer depth
The surface mixed layer of the world ocean regulates global climate by controlling heat and carbon exchange between the atmosphere and the oceanic interior1,2,3. The mixed layer also shapes marine ecosystems by hosting most of the ocean’s primary production4 and providing the conduit for oxygenation of deep oceanic layers. Despite these important climatic and life-supporting roles, possible changes in the mixed layer during an era of global climate change remain uncertain. Here we use oceanographic observations to show that from 1970 to 2018 the density contrast across the base of the mixed layer increased and that the mixed layer itself became deeper. Using a physically based definition of upper-ocean stability that follows different dynamical regimes across the global ocean, we find that the summertime density contrast increased by 8.9 ± 2.7 per cent per decade (10−6–10−5 per second squared per decade, depending on region), more than six times greater than previous estimates. Whereas prior work has suggested that a thinner mixed layer should accompany a more stratified upper ocean5,6,7, we find instead that the summertime mixed layer deepened by 2.9 ± 0.5 per cent per decade, or several metres per decade (typically 5–10 metres per decade, depending on region). A detailed mechanistic interpretation is challenging, but the concurrent stratification and deepening of the mixed layer are related to an increase in stability associated with surface warming and high-latitude surface freshening8,9, accompanied by a wind-driven intensification of upper-ocean turbulence10,11. Our findings are based on a complex dataset with incomplete coverage of a vast area. Although our results are robust within a wide range of sensitivity analyses, important uncertainties remain, such as those related to sparse coverage in the early years of the 1970–2018 period. Nonetheless, our work calls for reconsideration of the drivers of ongoing shifts in marine primary production, and reveals stark changes in the world’s upper ocean over the past five decades.
0028-0836
592-598
Sallée, Jean-baptiste
286cb991-56c7-4468-92a7-860a23aeed7a
Pellichero, Violaine
8fd6ef78-26c1-4093-b0dc-e856198bf163
Akhoudas, Camille
8a5f9d96-0b30-42b2-af43-cc088f30e513
Pauthenet, Etienne
23c0ea09-4afa-4c85-876f-adfd4cf077cf
Vignes, Lucie
bb12386a-7590-4612-a178-0e49e6a7af8e
Schmidtko, Sunke
419c5ab6-4e2a-4cb3-ac30-746b2a82b9ea
Garabato, Alberto Naveira
97c0e923-f076-4b38-b89b-938e11cea7a6
Sutherland, Peter
946b050f-56a5-42e0-aa14-08ce429a1f0e
Kuusela, Mikael
7c35a2ed-858b-43e0-a17e-6d345b02eb64
Sallée, Jean-baptiste
286cb991-56c7-4468-92a7-860a23aeed7a
Pellichero, Violaine
8fd6ef78-26c1-4093-b0dc-e856198bf163
Akhoudas, Camille
8a5f9d96-0b30-42b2-af43-cc088f30e513
Pauthenet, Etienne
23c0ea09-4afa-4c85-876f-adfd4cf077cf
Vignes, Lucie
bb12386a-7590-4612-a178-0e49e6a7af8e
Schmidtko, Sunke
419c5ab6-4e2a-4cb3-ac30-746b2a82b9ea
Garabato, Alberto Naveira
97c0e923-f076-4b38-b89b-938e11cea7a6
Sutherland, Peter
946b050f-56a5-42e0-aa14-08ce429a1f0e
Kuusela, Mikael
7c35a2ed-858b-43e0-a17e-6d345b02eb64

Sallée, Jean-baptiste, Pellichero, Violaine, Akhoudas, Camille, Pauthenet, Etienne, Vignes, Lucie, Schmidtko, Sunke, Garabato, Alberto Naveira, Sutherland, Peter and Kuusela, Mikael (2021) Summertime increases in upper-ocean stratification and mixed-layer depth. Nature, 591 (7851), 592-598. (doi:10.1038/s41586-021-03303-x).

Record type: Article

Abstract

The surface mixed layer of the world ocean regulates global climate by controlling heat and carbon exchange between the atmosphere and the oceanic interior1,2,3. The mixed layer also shapes marine ecosystems by hosting most of the ocean’s primary production4 and providing the conduit for oxygenation of deep oceanic layers. Despite these important climatic and life-supporting roles, possible changes in the mixed layer during an era of global climate change remain uncertain. Here we use oceanographic observations to show that from 1970 to 2018 the density contrast across the base of the mixed layer increased and that the mixed layer itself became deeper. Using a physically based definition of upper-ocean stability that follows different dynamical regimes across the global ocean, we find that the summertime density contrast increased by 8.9 ± 2.7 per cent per decade (10−6–10−5 per second squared per decade, depending on region), more than six times greater than previous estimates. Whereas prior work has suggested that a thinner mixed layer should accompany a more stratified upper ocean5,6,7, we find instead that the summertime mixed layer deepened by 2.9 ± 0.5 per cent per decade, or several metres per decade (typically 5–10 metres per decade, depending on region). A detailed mechanistic interpretation is challenging, but the concurrent stratification and deepening of the mixed layer are related to an increase in stability associated with surface warming and high-latitude surface freshening8,9, accompanied by a wind-driven intensification of upper-ocean turbulence10,11. Our findings are based on a complex dataset with incomplete coverage of a vast area. Although our results are robust within a wide range of sensitivity analyses, important uncertainties remain, such as those related to sparse coverage in the early years of the 1970–2018 period. Nonetheless, our work calls for reconsideration of the drivers of ongoing shifts in marine primary production, and reveals stark changes in the world’s upper ocean over the past five decades.

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Summertime increases in upper-ocean stratification and mixed-layer depth - Accepted Manuscript
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Accepted/In Press date: 26 January 2021
e-pub ahead of print date: 24 March 2021
Published date: 25 March 2021
Additional Information: Publisher Copyright: © 2021, The Author(s), under exclusive licence to Springer Nature Limited. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
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Identifiers

Local EPrints ID: 448938
URI: http://eprints.soton.ac.uk/id/eprint/448938
DOI: doi:10.1038/s41586-021-03303-x
ISSN: 0028-0836
PURE UUID: d0cd7b87-7025-4a2b-8a0d-e3a6971ce655
ORCID for Alberto Naveira Garabato: ORCID iD orcid.org/0000-0001-6071-605X

Catalogue record

Date deposited: 11 May 2021 16:49
Last modified: 15 Oct 2024 04:01

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Contributors

Author: Jean-baptiste Sallée
Author: Violaine Pellichero
Author: Camille Akhoudas
Author: Etienne Pauthenet
Author: Lucie Vignes
Author: Sunke Schmidtko
Author: Alberto Naveira Garabato ORCID iD
Author: Peter Sutherland
Author: Mikael Kuusela

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