Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front

The global ocean and climate systems are strongly influenced by physical oceanographic processess within the Southern Ocean1. In particular, the exchange of water between subtropical North Atlantic Deep Water and the Antarctic Circumpolar Current controls the rate at which the latter upwells and mix...

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Published in:Nature Geoscience
Main Authors: Sheen, K.L., White, N.J., Caulfield, C.P., Hobbs, R.W.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2012
Subjects:
Antarctic
The Antarctic
Antarc*
North Atlantic Deep Water
North Atlantic
South Atlantic Ocean
Online Access:https://eprints.soton.ac.uk/342460/
id ftsouthampton:oai:eprints.soton.ac.uk:342460
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spelling ftsouthampton:oai:eprints.soton.ac.uk:342460 2023-07-30T03:57:15+02:00 Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front Sheen, K.L. White, N.J. Caulfield, C.P. Hobbs, R.W. 2012 https://eprints.soton.ac.uk/342460/ unknown Sheen, K.L., White, N.J., Caulfield, C.P. and Hobbs, R.W. (2012) Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front. Nature Geoscience, 5 (8), 542-546. (doi:10.1038/ngeo1502 <http://dx.doi.org/10.1038/ngeo1502>). Article PeerReviewed 2012 ftsouthampton https://doi.org/10.1038/ngeo1502 2023-07-09T21:41:07Z The global ocean and climate systems are strongly influenced by physical oceanographic processess within the Southern Ocean1. In particular, the exchange of water between subtropical North Atlantic Deep Water and the Antarctic Circumpolar Current controls the rate at which the latter upwells and mixes2. Despite its significance, the details of this exchange are poorly understood. Acoustic imaging of the water column can reveal the detailed thermohaline structure3. Here we present a subsurface acoustic image, acquired in October 1998, that crosses the Sub-Antarctic Front in the South Atlantic Ocean, where the two water masses converge and shear past each other. We find that down to a depth of 2.5?km, the vertical boundary between the North Atlantic Deep Water and the Antarctic Circumpolar Current is sharp and mass exchange is negligible. Below this depth, where cross-track velocities converge, we detect a prominent swirling structure that is 500 m high and 10?km wide. We analyse prestack acoustic records, which suggest that this structure rotates at an average speed of 0.3±0.1?m?s?1 about a horizontal axis. We suggest that the structure could either be a thermohaline intrusion created by frontal instability processes, or—more speculatively—a localized and intermittent overturning event Article in Journal/Newspaper Antarc* Antarctic North Atlantic Deep Water North Atlantic South Atlantic Ocean University of Southampton: e-Prints Soton Antarctic The Antarctic Nature Geoscience 5 8 542 546
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language unknown
description The global ocean and climate systems are strongly influenced by physical oceanographic processess within the Southern Ocean1. In particular, the exchange of water between subtropical North Atlantic Deep Water and the Antarctic Circumpolar Current controls the rate at which the latter upwells and mixes2. Despite its significance, the details of this exchange are poorly understood. Acoustic imaging of the water column can reveal the detailed thermohaline structure3. Here we present a subsurface acoustic image, acquired in October 1998, that crosses the Sub-Antarctic Front in the South Atlantic Ocean, where the two water masses converge and shear past each other. We find that down to a depth of 2.5?km, the vertical boundary between the North Atlantic Deep Water and the Antarctic Circumpolar Current is sharp and mass exchange is negligible. Below this depth, where cross-track velocities converge, we detect a prominent swirling structure that is 500 m high and 10?km wide. We analyse prestack acoustic records, which suggest that this structure rotates at an average speed of 0.3±0.1?m?s?1 about a horizontal axis. We suggest that the structure could either be a thermohaline intrusion created by frontal instability processes, or—more speculatively—a localized and intermittent overturning event
format Article in Journal/Newspaper
author Sheen, K.L.
White, N.J.
Caulfield, C.P.
Hobbs, R.W.
spellingShingle Sheen, K.L.
White, N.J.
Caulfield, C.P.
Hobbs, R.W.
Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front
author_facet Sheen, K.L.
White, N.J.
Caulfield, C.P.
Hobbs, R.W.
author_sort Sheen, K.L.
title Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front
title_short Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front
title_full Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front
title_fullStr Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front
title_full_unstemmed Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front
title_sort seismic imaging of a large horizontal vortex at abyssal depths beneath the sub-antarctic front
publishDate 2012
url https://eprints.soton.ac.uk/342460/
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
North Atlantic Deep Water
North Atlantic
South Atlantic Ocean
genre_facet Antarc*
Antarctic
North Atlantic Deep Water
North Atlantic
South Atlantic Ocean
op_relation Sheen, K.L., White, N.J., Caulfield, C.P. and Hobbs, R.W. (2012) Seismic imaging of a large horizontal vortex at abyssal depths beneath the Sub-Antarctic Front. Nature Geoscience, 5 (8), 542-546. (doi:10.1038/ngeo1502 <http://dx.doi.org/10.1038/ngeo1502>).
op_doi https://doi.org/10.1038/ngeo1502
container_title Nature Geoscience
container_volume 5
container_issue 8
container_start_page 542
op_container_end_page 546
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