An Amundsen Sea source of decadal temperature changes on the Antarctic continental shelf
An Amundsen Sea source of decadal temperature changes on the Antarctic continental shelf
Mass loss from the Antarctic Ice Sheet is dominated by basal melting–induced warm ocean water. Ice-sheet mass loss and thinning of buttressing ice shelves occur primarily in the Amundsen and Bellingshausen Seas. Here, we show that in a global ocean simulation using the 0.25° Nucleus for European Modeling of Ocean (NEMO) model driven by the JRA55 reanalysis from 1982 to 2017, the Amundsen sector of the Antarctic continental shelf acts as a gateway, regulating the on-shelf access of warm Circumpolar Deep Water (CDW) from the deep ocean and its westward transfer to other sectors up to ca. 90° E, particularly the Ross Sea. As a result, anomalies in Antarctic-shelf-averaged temperature mainly originate in the Amundsen sector. These changes are primarily governed by shifts in the Amundsen Sea Low associated with tropical climate variability, modulating the on-shelf transport of CDW via wind-driven perturbations to ocean currents. The ensuing temperature anomalies progress westward from the Amundsen Sea via three distinct routes: a slow, convoluted westward pathway on the shelf via the Antarctic Coastal Current; a faster westward pathway along the shelf break via the Antarctic Slope Current and then onto the shelf along topographic troughs; and a third, eastward route toward the Bellingshausen sector, whereby temperature anomalies are transported into a region of local wind-generated changes farther north. These results emphasize the importance of the Amundsen sector for climate variability over the Antarctic shelves.
37-52
Drijfhout, Sybren S.
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Bull, Christopher Y. S.
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Hewitt, Helene
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Holland, Paul R.
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Jenkins, Adrian
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Mathiot, Pierre
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Garabato, Alberto Naveira
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Drijfhout, Sybren S.
a5c76079-179b-490c-93fe-fc0391aacf13
Bull, Christopher Y. S.
98609cfb-4282-44ab-8976-d7b7ce811955
Hewitt, Helene
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Holland, Paul R.
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Jenkins, Adrian
a36e1c51-a60a-465a-b1c4-e39ff3344b03
Mathiot, Pierre
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Garabato, Alberto Naveira
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Drijfhout, Sybren S., Bull, Christopher Y. S., Hewitt, Helene, Holland, Paul R., Jenkins, Adrian, Mathiot, Pierre and Garabato, Alberto Naveira
(2023)
An Amundsen Sea source of decadal temperature changes on the Antarctic continental shelf.
Ocean Dynamics, 74, .
(doi:10.1007/s10236-023-01587-3).
Abstract
Mass loss from the Antarctic Ice Sheet is dominated by basal melting–induced warm ocean water. Ice-sheet mass loss and thinning of buttressing ice shelves occur primarily in the Amundsen and Bellingshausen Seas. Here, we show that in a global ocean simulation using the 0.25° Nucleus for European Modeling of Ocean (NEMO) model driven by the JRA55 reanalysis from 1982 to 2017, the Amundsen sector of the Antarctic continental shelf acts as a gateway, regulating the on-shelf access of warm Circumpolar Deep Water (CDW) from the deep ocean and its westward transfer to other sectors up to ca. 90° E, particularly the Ross Sea. As a result, anomalies in Antarctic-shelf-averaged temperature mainly originate in the Amundsen sector. These changes are primarily governed by shifts in the Amundsen Sea Low associated with tropical climate variability, modulating the on-shelf transport of CDW via wind-driven perturbations to ocean currents. The ensuing temperature anomalies progress westward from the Amundsen Sea via three distinct routes: a slow, convoluted westward pathway on the shelf via the Antarctic Coastal Current; a faster westward pathway along the shelf break via the Antarctic Slope Current and then onto the shelf along topographic troughs; and a third, eastward route toward the Bellingshausen sector, whereby temperature anomalies are transported into a region of local wind-generated changes farther north. These results emphasize the importance of the Amundsen sector for climate variability over the Antarctic shelves.
Text
s10236-023-01587-3
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Accepted/In Press date: 2 November 2023
e-pub ahead of print date: 21 November 2023
Identifiers
Local EPrints ID: 490503
URI: http://eprints.soton.ac.uk/id/eprint/490503
ISSN: 1616-7341
PURE UUID: 6468bccc-c41e-46b8-8529-9ce6593c5c34
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Date deposited: 29 May 2024 16:33
Last modified: 30 May 2024 01:43
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Author:
Christopher Y. S. Bull
Author:
Helene Hewitt
Author:
Paul R. Holland
Author:
Adrian Jenkins
Author:
Pierre Mathiot
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