Ekman-driven salt transport as a key mechanism for open-ocean polynya formation at Maud Rise
Ekman-driven salt transport as a key mechanism for open-ocean polynya formation at Maud Rise
Open-ocean polynyas formed over the Maud Rise, in the Weddell Sea, during the winters of 2016–2017. Such polynyas are rare events in the Southern Ocean and are associated with deep convection, affecting regional carbon and heat budgets. Using an ocean state estimate, we found that during 2017, early sea ice melting occurred in response to enhanced vertical mixing of heat, which was accompanied by mixing of salt. The melting sea ice compensated for the vertically mixed salt, resulting in a net buoyancy gain. An additional salt input was then necessary to destabilize the upper ocean. This came from a hitherto unexplored polynya-formation mechanism: an Ekman transport of salt across a jet girdling the northern flank of the Maud Rise. Such transport was driven by intensified eastward surface stresses during 2015–2018. Our results illustrate how highly localized interactions between wind, ocean flow and topography can trigger polynya formation in the open Southern Ocean.
eadj0777
Narayanan, Aditya
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Roquet, Fabien
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Gille, Sarah T.
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Gülk, Birte
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Mazloff, Matthew R.
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Silvano, Alessandro
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Naveira Garabato, Alberto C.
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1 May 2024
Narayanan, Aditya
fcefd201-5148-4059-9dae-7a1a7330953e
Roquet, Fabien
df1aac99-2c3a-4497-a84d-63efec104bb3
Gille, Sarah T.
6685a419-8041-49eb-98e5-b54d7aef90ec
Gülk, Birte
4e083c9a-a189-434b-a967-2a1d6508cd15
Mazloff, Matthew R.
caeb0ed2-c954-4ac9-b908-ac0557c9e995
Silvano, Alessandro
54a4322b-c52d-4179-a414-dc108c416ec9
Naveira Garabato, Alberto C.
97c0e923-f076-4b38-b89b-938e11cea7a6
Narayanan, Aditya, Roquet, Fabien and Gille, Sarah T.
,
et al.
(2024)
Ekman-driven salt transport as a key mechanism for open-ocean polynya formation at Maud Rise.
Science Advances, 10 (18), , [adj0777].
(doi:10.1126/sciadv.adj0777).
Abstract
Open-ocean polynyas formed over the Maud Rise, in the Weddell Sea, during the winters of 2016–2017. Such polynyas are rare events in the Southern Ocean and are associated with deep convection, affecting regional carbon and heat budgets. Using an ocean state estimate, we found that during 2017, early sea ice melting occurred in response to enhanced vertical mixing of heat, which was accompanied by mixing of salt. The melting sea ice compensated for the vertically mixed salt, resulting in a net buoyancy gain. An additional salt input was then necessary to destabilize the upper ocean. This came from a hitherto unexplored polynya-formation mechanism: an Ekman transport of salt across a jet girdling the northern flank of the Maud Rise. Such transport was driven by intensified eastward surface stresses during 2015–2018. Our results illustrate how highly localized interactions between wind, ocean flow and topography can trigger polynya formation in the open Southern Ocean.
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sciadv.adj0777
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Accepted/In Press date: 29 March 2024
e-pub ahead of print date: 1 May 2024
Published date: 1 May 2024
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Local EPrints ID: 490055
URI: http://eprints.soton.ac.uk/id/eprint/490055
ISSN: 2375-2548
PURE UUID: ff57bd62-030c-4f32-8665-20fd3bb87b7d
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Date deposited: 14 May 2024 16:34
Last modified: 06 Jun 2024 02:18
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Author:
Aditya Narayanan
Author:
Fabien Roquet
Author:
Sarah T. Gille
Author:
Birte Gülk
Author:
Matthew R. Mazloff
Corporate Author: et al.
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