The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

Southern Ocean carbon sink enhanced by sea-ice feedbacks at the Antarctic Cold Reversal

Southern Ocean carbon sink enhanced by sea-ice feedbacks at the Antarctic Cold Reversal
Southern Ocean carbon sink enhanced by sea-ice feedbacks at the Antarctic Cold Reversal

The Southern Ocean occupies 14% of the Earth’s surface and plays a fundamental role in the global carbon cycle and climate. It provides a direct connection to the deep ocean carbon reservoir through biogeochemical processes that include surface primary productivity, remineralization at depth and the upwelling of carbon-rich water masses. However, the role of these different processes in modulating past and future air–sea carbon flux remains poorly understood. A key period in this regard is the Antarctic Cold Reversal (ACR, 14.6–12.7 kyr bp), when mid- to high-latitude Southern Hemisphere cooling coincided with a sustained plateau in the global deglacial increase in atmospheric CO2. Here we reconstruct high-latitude Southern Ocean surface productivity from marine-derived aerosols captured in a highly resolved horizontal ice core. Our multiproxy reconstruction reveals a sustained signal of enhanced marine productivity across the ACR. Transient climate modelling indicates this period coincided with maximum seasonal variability in sea-ice extent, implying that sea-ice biological feedbacks enhanced CO2 sequestration and created a substantial regional marine carbon sink, which contributed to the plateau in CO2 during the ACR. Our results highlight the role Antarctic sea ice plays in controlling global CO2, and demonstrate the need to incorporate such feedbacks into climate–carbon models.

1752-0894
489-497
Fogwill, C. J.
3bad6ae9-5a6d-467e-b523-9d5ed0147455
Turney, C. S.M.
5e673fdb-42c9-4bc3-994a-519db28fdec8
Menviel, L.
7b589d2f-6bfe-47e7-8069-958c5056390b
Baker, A.
ce6949c6-7c5b-4b75-bcf3-a3a403ef04db
Weber, M. E.
17f8a8e3-8d43-4065-bb67-8a2a6f93745e
Ellis, B.
adaabf3a-30a6-460a-a731-7d82f32b2ded
Thomas, Z. A.
4b512d3a-3478-4270-9fdd-61256aa640d3
Golledge, N. R.
6e5f88b4-366b-49f9-81fe-3354a1bd7d88
Etheridge, D.
5b27e0fd-f665-42d8-b66f-8e8d711958bf
Rubino, M.
ddb80d1f-fb3c-457a-95e9-f9011c96eaa3
Thornton, D. P.
cdb7f1cd-0cb5-473e-a6c2-53a292af0ccd
van Ommen, T. D.
fb099f33-cdd9-48d8-b48d-c53657f16ed3
Moy, A. D.
d61a49e7-b7de-45c2-bfc3-e373d057823f
Curran, M. A.J.
e367c0e0-1f7f-4173-a8ed-91b8c449ef96
Davies, S.
97fc0877-2d6c-495b-8b49-3235f2a2b8f2
Bird, M. I.
4ebef611-1452-46ad-9ae0-75c83e83eee9
Munksgaard, N. C.
2f3926f4-290e-46bd-bd28-6ff6e8cd8a4c
Rootes, C. M.
09ba95f5-2feb-430d-90b4-7284ca84356d
Millman, H.
af919a54-fad7-4207-84a1-7e6cb15716b4
Vohra, J.
95a649a5-9049-4a02-ac5c-f48a714eb10b
Rivera, A.
7cb89221-0fa6-4f7f-bee9-74992fed36ae
Mackintosh, A.
e913f032-0036-43f6-ac4d-d2f9b0642e90
Pike, J.
2a1c07af-2bec-410d-b757-3a8a348fe499
Hall, I. R.
79d6c80f-11a9-4ffe-ba43-a20c5ee1c9de
Bagshaw, E. A.
d34b716f-8162-4788-81a8-03146d5528ed
Rainsley, E.
4fe1e6f6-b8c2-46b3-8e94-1149b980a55a
Bronk Ramsey, Christopher
58d46d3d-0731-46e9-b17b-a1552645d666
Montenari, M.
24342144-9946-45b3-b403-f9f9bc5b0c54
Cage, A. G.
8183e581-e759-451a-8961-e5ee0202d264
Harris, M. R.P.
4bd7e363-c60e-4038-8a01-cfb9166293aa
Jones, R.
f8b5db51-10c7-4b4e-81e3-e5c3833eb2ce
Power, A.
b29601c8-3c10-44c3-b38a-152dfa0f1670
Love, J.
8c9e9a6a-5a4a-4444-8f9a-ba60d72a5ed8
Young, J.
deae04ef-9e2b-4237-832f-4db036d21059
Weyrich, L. S.
d2468818-de45-48ce-8987-d51886909226
Cooper, A.
19dc1ef7-30e4-4549-9c58-3eee5aa06ea6
Fogwill, C. J.
3bad6ae9-5a6d-467e-b523-9d5ed0147455
Turney, C. S.M.
5e673fdb-42c9-4bc3-994a-519db28fdec8
Menviel, L.
7b589d2f-6bfe-47e7-8069-958c5056390b
Baker, A.
ce6949c6-7c5b-4b75-bcf3-a3a403ef04db
Weber, M. E.
17f8a8e3-8d43-4065-bb67-8a2a6f93745e
Ellis, B.
adaabf3a-30a6-460a-a731-7d82f32b2ded
Thomas, Z. A.
4b512d3a-3478-4270-9fdd-61256aa640d3
Golledge, N. R.
6e5f88b4-366b-49f9-81fe-3354a1bd7d88
Etheridge, D.
5b27e0fd-f665-42d8-b66f-8e8d711958bf
Rubino, M.
ddb80d1f-fb3c-457a-95e9-f9011c96eaa3
Thornton, D. P.
cdb7f1cd-0cb5-473e-a6c2-53a292af0ccd
van Ommen, T. D.
fb099f33-cdd9-48d8-b48d-c53657f16ed3
Moy, A. D.
d61a49e7-b7de-45c2-bfc3-e373d057823f
Curran, M. A.J.
e367c0e0-1f7f-4173-a8ed-91b8c449ef96
Davies, S.
97fc0877-2d6c-495b-8b49-3235f2a2b8f2
Bird, M. I.
4ebef611-1452-46ad-9ae0-75c83e83eee9
Munksgaard, N. C.
2f3926f4-290e-46bd-bd28-6ff6e8cd8a4c
Rootes, C. M.
09ba95f5-2feb-430d-90b4-7284ca84356d
Millman, H.
af919a54-fad7-4207-84a1-7e6cb15716b4
Vohra, J.
95a649a5-9049-4a02-ac5c-f48a714eb10b
Rivera, A.
7cb89221-0fa6-4f7f-bee9-74992fed36ae
Mackintosh, A.
e913f032-0036-43f6-ac4d-d2f9b0642e90
Pike, J.
2a1c07af-2bec-410d-b757-3a8a348fe499
Hall, I. R.
79d6c80f-11a9-4ffe-ba43-a20c5ee1c9de
Bagshaw, E. A.
d34b716f-8162-4788-81a8-03146d5528ed
Rainsley, E.
4fe1e6f6-b8c2-46b3-8e94-1149b980a55a
Bronk Ramsey, Christopher
58d46d3d-0731-46e9-b17b-a1552645d666
Montenari, M.
24342144-9946-45b3-b403-f9f9bc5b0c54
Cage, A. G.
8183e581-e759-451a-8961-e5ee0202d264
Harris, M. R.P.
4bd7e363-c60e-4038-8a01-cfb9166293aa
Jones, R.
f8b5db51-10c7-4b4e-81e3-e5c3833eb2ce
Power, A.
b29601c8-3c10-44c3-b38a-152dfa0f1670
Love, J.
8c9e9a6a-5a4a-4444-8f9a-ba60d72a5ed8
Young, J.
deae04ef-9e2b-4237-832f-4db036d21059
Weyrich, L. S.
d2468818-de45-48ce-8987-d51886909226
Cooper, A.
19dc1ef7-30e4-4549-9c58-3eee5aa06ea6

Fogwill, C. J., Turney, C. S.M., Menviel, L., Baker, A., Weber, M. E., Ellis, B., Thomas, Z. A., Golledge, N. R., Etheridge, D., Rubino, M., Thornton, D. P., van Ommen, T. D., Moy, A. D., Curran, M. A.J., Davies, S., Bird, M. I., Munksgaard, N. C., Rootes, C. M., Millman, H., Vohra, J., Rivera, A., Mackintosh, A., Pike, J., Hall, I. R., Bagshaw, E. A., Rainsley, E., Bronk Ramsey, Christopher, Montenari, M., Cage, A. G., Harris, M. R.P., Jones, R., Power, A., Love, J., Young, J., Weyrich, L. S. and Cooper, A. (2020) Southern Ocean carbon sink enhanced by sea-ice feedbacks at the Antarctic Cold Reversal. Nature Geoscience, 13 (7), 489-497. (doi:10.1038/s41561-020-0587-0).

Record type: Article

Abstract

The Southern Ocean occupies 14% of the Earth’s surface and plays a fundamental role in the global carbon cycle and climate. It provides a direct connection to the deep ocean carbon reservoir through biogeochemical processes that include surface primary productivity, remineralization at depth and the upwelling of carbon-rich water masses. However, the role of these different processes in modulating past and future air–sea carbon flux remains poorly understood. A key period in this regard is the Antarctic Cold Reversal (ACR, 14.6–12.7 kyr bp), when mid- to high-latitude Southern Hemisphere cooling coincided with a sustained plateau in the global deglacial increase in atmospheric CO2. Here we reconstruct high-latitude Southern Ocean surface productivity from marine-derived aerosols captured in a highly resolved horizontal ice core. Our multiproxy reconstruction reveals a sustained signal of enhanced marine productivity across the ACR. Transient climate modelling indicates this period coincided with maximum seasonal variability in sea-ice extent, implying that sea-ice biological feedbacks enhanced CO2 sequestration and created a substantial regional marine carbon sink, which contributed to the plateau in CO2 during the ACR. Our results highlight the role Antarctic sea ice plays in controlling global CO2, and demonstrate the need to incorporate such feedbacks into climate–carbon models.

This record has no associated files available for download.

More information

e-pub ahead of print date: 22 June 0220
Published date: 1 July 2020

Identifiers

Local EPrints ID: 480215
URI: http://eprints.soton.ac.uk/id/eprint/480215
DOI: doi:10.1038/s41561-020-0587-0
ISSN: 1752-0894
PURE UUID: 2b1b2ed2-9284-43fc-a033-24f11768bd0e
ORCID for Z. A. Thomas: ORCID iD orcid.org/0000-0002-2323-4366

Catalogue record

Date deposited: 01 Aug 2023 17:06
Last modified: 06 Jun 2024 02:16

Export record

Altmetrics

Contributors

Author: C. J. Fogwill
Author: C. S.M. Turney
Author: L. Menviel
Author: A. Baker
Author: M. E. Weber
Author: B. Ellis
Author: Z. A. Thomas ORCID iD
Author: N. R. Golledge
Author: D. Etheridge
Author: M. Rubino
Author: D. P. Thornton
Author: T. D. van Ommen
Author: A. D. Moy
Author: M. A.J. Curran
Author: S. Davies
Author: M. I. Bird
Author: N. C. Munksgaard
Author: C. M. Rootes
Author: H. Millman
Author: J. Vohra
Author: A. Rivera
Author: A. Mackintosh
Author: J. Pike
Author: I. R. Hall
Author: E. A. Bagshaw
Author: E. Rainsley
Author: Christopher Bronk Ramsey
Author: M. Montenari
Author: A. G. Cage
Author: M. R.P. Harris
Author: R. Jones
Author: A. Power
Author: J. Love
Author: J. Young
Author: L. S. Weyrich
Author: A. Cooper

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×