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Zonal distribution of circumpolar deep water transformation rates and its relation to heat content on Antarctic shelves

Zonal distribution of circumpolar deep water transformation rates and its relation to heat content on Antarctic shelves
Zonal distribution of circumpolar deep water transformation rates and its relation to heat content on Antarctic shelves
We analyze 15-year of observational data and a 5-year Southern Ocean model simulation to quantify the transformation rates of Circumpolar Deep Water (CDW) and the associated heat loss to the surface. This study finds that over the continental shelves of East Antarctica and the Weddell and Ross Seas, surface buoyancy fluxes transform ∼4.4 Sv of surface waters into CDW, providing a path for CDW to lose heat to the surface. In addition, ∼6.6 Sv of CDW are mixed with surface waters in the Weddell and Ross subpolar gyres. In contrast, enhanced stratification inhibits the outcropping of CDW isopycnals, reducing their transformation rates by a factor of ∼8 over the continental shelf and by a factor of ∼3 over the deeper ocean in the Amundsen and Bellingshausen Seas. The CDW retains its offshore warm properties as it intrudes over the continental shelves, resulting in elevated bottom temperatures there. This analysis demonstrates the importance of processes in subpolar gyres to erode CDW and to facilitate further transformation on the continental shelves, significantly reducing the heat able to access ice shelf fronts. This sheltering effect is strongest in the western Weddell Sea and tends to diminish toward the east, which helps explain the large zonal differences in continental-shelf bottom temperatures and the melt rates of Antarctic ice shelves.
Antarctica, Circumpolar Deep Water, Southern Ocean, ice shelves
2169-9275
Narayanan, Aditya
fcefd201-5148-4059-9dae-7a1a7330953e
Gille, Sarah T.
6685a419-8041-49eb-98e5-b54d7aef90ec
Mazloff, Matthew R.
caeb0ed2-c954-4ac9-b908-ac0557c9e995
Plessis, Marcel D. du
dff35682-d3fd-4aa9-b50c-09d104fdf518
Murali, K.
0e54174b-b1d7-4637-982b-3dd37d6a7a85
Roquet, Fabien
df1aac99-2c3a-4497-a84d-63efec104bb3
Narayanan, Aditya
fcefd201-5148-4059-9dae-7a1a7330953e
Gille, Sarah T.
6685a419-8041-49eb-98e5-b54d7aef90ec
Mazloff, Matthew R.
caeb0ed2-c954-4ac9-b908-ac0557c9e995
Plessis, Marcel D. du
dff35682-d3fd-4aa9-b50c-09d104fdf518
Murali, K.
0e54174b-b1d7-4637-982b-3dd37d6a7a85
Roquet, Fabien
df1aac99-2c3a-4497-a84d-63efec104bb3

Narayanan, Aditya, Gille, Sarah T., Mazloff, Matthew R., Plessis, Marcel D. du, Murali, K. and Roquet, Fabien (2023) Zonal distribution of circumpolar deep water transformation rates and its relation to heat content on Antarctic shelves. Journal of Geophysical Research: Oceans, 128 (6), [e2022JC019310]. (doi:10.1029/2022JC019310).

Record type: Article

Abstract

We analyze 15-year of observational data and a 5-year Southern Ocean model simulation to quantify the transformation rates of Circumpolar Deep Water (CDW) and the associated heat loss to the surface. This study finds that over the continental shelves of East Antarctica and the Weddell and Ross Seas, surface buoyancy fluxes transform ∼4.4 Sv of surface waters into CDW, providing a path for CDW to lose heat to the surface. In addition, ∼6.6 Sv of CDW are mixed with surface waters in the Weddell and Ross subpolar gyres. In contrast, enhanced stratification inhibits the outcropping of CDW isopycnals, reducing their transformation rates by a factor of ∼8 over the continental shelf and by a factor of ∼3 over the deeper ocean in the Amundsen and Bellingshausen Seas. The CDW retains its offshore warm properties as it intrudes over the continental shelves, resulting in elevated bottom temperatures there. This analysis demonstrates the importance of processes in subpolar gyres to erode CDW and to facilitate further transformation on the continental shelves, significantly reducing the heat able to access ice shelf fronts. This sheltering effect is strongest in the western Weddell Sea and tends to diminish toward the east, which helps explain the large zonal differences in continental-shelf bottom temperatures and the melt rates of Antarctic ice shelves.

Text
JGR Oceans - 2023 - Narayanan - Zonal Distribution of Circumpolar Deep Water Transformation Rates and Its Relation to Heat - Version of Record
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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Accepted/In Press date: 21 May 2023
e-pub ahead of print date: 3 June 2023
Published date: June 2023
Keywords: Antarctica, Circumpolar Deep Water, Southern Ocean, ice shelves

Identifiers

Local EPrints ID: 477561
URI: http://eprints.soton.ac.uk/id/eprint/477561
DOI: doi:10.1029/2022JC019310
ISSN: 2169-9275
PURE UUID: 99118750-afd4-40b1-a880-f503adf25dd5
ORCID for Aditya Narayanan: ORCID iD orcid.org/0000-0002-8967-2211

Catalogue record

Date deposited: 08 Jun 2023 16:44
Last modified: 17 Mar 2024 04:20

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Contributors

Author: Aditya Narayanan ORCID iD
Author: Sarah T. Gille
Author: Matthew R. Mazloff
Author: Marcel D. du Plessis
Author: K. Murali
Author: Fabien Roquet

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