Recent recovery of Antarctic Bottom Water formation in the Ross Sea driven by climate anomalies
Recent recovery of Antarctic Bottom Water formation in the Ross Sea driven by climate anomalies
Antarctic Bottom Water (AABW) supplies the lower limb of the global overturning circulation, ventilates the abyssal ocean and sequesters heat and carbon on multidecadal to millennial timescales. AABW originates on the Antarctic continental shelf, where strong winter cooling and brine released during sea ice formation produce Dense Shelf Water, which sinks to the deep ocean. The salinity, density and volume of AABW have decreased over the last 50 years, with the most marked changes observed in the Ross Sea. These changes have been attributed to increased melting of the Antarctic Ice Sheet. Here we use in situ observations to document a recovery in the salinity, density and thickness (that is, depth range) of AABW formed in the Ross Sea, with properties in 2018–2019 similar to those observed in the 1990s. The recovery was caused by increased sea ice formation on the continental shelf. Increased sea ice formation was triggered by anomalous wind forcing associated with the unusual combination of positive Southern Annular Mode and extreme El Niño conditions between 2015 and 2018. Our study highlights the sensitivity of AABW formation to remote forcing and shows that climate anomalies can drive episodic increases in local sea ice formation that counter the tendency for increased ice-sheet melt to reduce AABW formation.
780-786
Silvano, Alessandro
54a4322b-c52d-4179-a414-dc108c416ec9
Foppert, Annie
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Rintoul, Stephen R.
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Holland, Paul R.
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Tamura, Takeshi
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Kimura, Noriaki
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Castagno, Pasquale
aaef2fbf-9770-43a4-98fe-bbdb339afc51
Falco, Pierpaolo
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Budillon, Giorgio
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Haumann, F. Alexander
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Naveira Garabato, Alberto C.
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Macdonald, Alison M.
44a94888-e58a-454e-8f29-dad6ea845dcd
1 December 2020
Silvano, Alessandro
54a4322b-c52d-4179-a414-dc108c416ec9
Foppert, Annie
0c9eadae-737b-4cab-9520-9d89b9d2c3dc
Rintoul, Stephen R.
ff078a21-d6cd-45bf-8c8f-f81f2e8ae410
Holland, Paul R.
1288654c-2b5b-4d4c-b360-7eebe59c7539
Tamura, Takeshi
6d6ab0db-99cc-43bb-a548-7d6cc9a672d9
Kimura, Noriaki
413fff85-5098-49a4-8b87-ca1d6f68ecc2
Castagno, Pasquale
aaef2fbf-9770-43a4-98fe-bbdb339afc51
Falco, Pierpaolo
15575f67-5836-47d2-b0f0-5aad80b8d583
Budillon, Giorgio
8902bf6b-c3ce-4ba4-9241-8a15f00b3cc7
Haumann, F. Alexander
9103a082-f15c-4bde-b4bf-425720dbd6ec
Naveira Garabato, Alberto C.
97c0e923-f076-4b38-b89b-938e11cea7a6
Macdonald, Alison M.
44a94888-e58a-454e-8f29-dad6ea845dcd
Silvano, Alessandro, Foppert, Annie, Rintoul, Stephen R., Holland, Paul R., Tamura, Takeshi, Kimura, Noriaki, Castagno, Pasquale, Falco, Pierpaolo, Budillon, Giorgio, Haumann, F. Alexander, Naveira Garabato, Alberto C. and Macdonald, Alison M.
(2020)
Recent recovery of Antarctic Bottom Water formation in the Ross Sea driven by climate anomalies.
Nature Geoscience, 13 (12), .
(doi:10.1038/s41561-020-00655-3).
Abstract
Antarctic Bottom Water (AABW) supplies the lower limb of the global overturning circulation, ventilates the abyssal ocean and sequesters heat and carbon on multidecadal to millennial timescales. AABW originates on the Antarctic continental shelf, where strong winter cooling and brine released during sea ice formation produce Dense Shelf Water, which sinks to the deep ocean. The salinity, density and volume of AABW have decreased over the last 50 years, with the most marked changes observed in the Ross Sea. These changes have been attributed to increased melting of the Antarctic Ice Sheet. Here we use in situ observations to document a recovery in the salinity, density and thickness (that is, depth range) of AABW formed in the Ross Sea, with properties in 2018–2019 similar to those observed in the 1990s. The recovery was caused by increased sea ice formation on the continental shelf. Increased sea ice formation was triggered by anomalous wind forcing associated with the unusual combination of positive Southern Annular Mode and extreme El Niño conditions between 2015 and 2018. Our study highlights the sensitivity of AABW formation to remote forcing and shows that climate anomalies can drive episodic increases in local sea ice formation that counter the tendency for increased ice-sheet melt to reduce AABW formation.
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Accepted/In Press date: 2 October 2020
e-pub ahead of print date: 16 November 2020
Published date: 1 December 2020
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Local EPrints ID: 449108
URI: http://eprints.soton.ac.uk/id/eprint/449108
ISSN: 1752-0894
PURE UUID: 735368d8-4fa0-4038-8a23-9510e3b7b94c
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Date deposited: 17 May 2021 16:33
Last modified: 06 Jun 2024 02:07
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Contributors
Author:
Annie Foppert
Author:
Stephen R. Rintoul
Author:
Paul R. Holland
Author:
Takeshi Tamura
Author:
Noriaki Kimura
Author:
Pasquale Castagno
Author:
Pierpaolo Falco
Author:
Giorgio Budillon
Author:
F. Alexander Haumann
Author:
Alison M. Macdonald
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