Time‐lapse seismic imaging of oceanic fronts and transient lenses within South Atlantic Ocean
Time‐lapse seismic imaging of oceanic fronts and transient lenses within South Atlantic Ocean
Oceanic fronts play a pivotal role in controlling water mass transfer, although little is known about deep frontal structure on appropriate temporal and spatial scales. Here, we present a sequence of calibrated time-lapse images from a three-dimensional seismic survey that straddles the Brazil-Malvinas Confluence—a significant feature of the meridional overturning circulation. Eight vertical transects reveal the evolution of a major front. It is manifest as a discrete planar surface that dips at less than 2° and is traceable to 1.5–2 km depth. Its shape and surface expression are consistent with sloping isopycnal surfaces of the calculated potential density field and with coeval sea surface temperature measurements, respectively. Within the top ∼1 km, where cold fresh water subducts beneath warm salty water, a series of tilted lenses are banked up against the sharply defined front. The largest of these structures is centered at 700 m depth and is cored by cold fresh water. Time-lapse imagery demonstrates that this tilted lens grows and decays over 9 days. It has a maximum diameter of <34±0.13 km and a maximum height of <750±10 m. Beneath 1 km, where horizontal density gradients are negligible, numerous deforming lenses and filaments on length scales of 10–100 km are being swept toward the advecting front.
Gunn, Kathryn L.
5952c101-ecf3-4b62-b817-86007cdc8ce4
White, N.J.
eb4ecd52-ad8f-49e8-9292-6770215e7ae4
Caulfield, Colm-cille P.
6b898276-f8b9-4f3a-8e02-9240c7acf2e0
15 July 2020
Gunn, Kathryn L.
5952c101-ecf3-4b62-b817-86007cdc8ce4
White, N.J.
eb4ecd52-ad8f-49e8-9292-6770215e7ae4
Caulfield, Colm-cille P.
6b898276-f8b9-4f3a-8e02-9240c7acf2e0
Gunn, Kathryn L., White, N.J. and Caulfield, Colm-cille P.
(2020)
Time‐lapse seismic imaging of oceanic fronts and transient lenses within South Atlantic Ocean.
Journal of Geophysical Research: Oceans, 125 (7), [e2020JC016293].
(doi:10.1029/2020jc016293).
Abstract
Oceanic fronts play a pivotal role in controlling water mass transfer, although little is known about deep frontal structure on appropriate temporal and spatial scales. Here, we present a sequence of calibrated time-lapse images from a three-dimensional seismic survey that straddles the Brazil-Malvinas Confluence—a significant feature of the meridional overturning circulation. Eight vertical transects reveal the evolution of a major front. It is manifest as a discrete planar surface that dips at less than 2° and is traceable to 1.5–2 km depth. Its shape and surface expression are consistent with sloping isopycnal surfaces of the calculated potential density field and with coeval sea surface temperature measurements, respectively. Within the top ∼1 km, where cold fresh water subducts beneath warm salty water, a series of tilted lenses are banked up against the sharply defined front. The largest of these structures is centered at 700 m depth and is cored by cold fresh water. Time-lapse imagery demonstrates that this tilted lens grows and decays over 9 days. It has a maximum diameter of <34±0.13 km and a maximum height of <750±10 m. Beneath 1 km, where horizontal density gradients are negligible, numerous deforming lenses and filaments on length scales of 10–100 km are being swept toward the advecting front.
Text
JGR Oceans - 2020 - Gunn - Time‐Lapse Seismic Imaging of Oceanic Fronts and Transient Lenses Within South Atlantic Ocean
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Accepted/In Press date: 8 June 2020
e-pub ahead of print date: 10 June 2020
Published date: 15 July 2020
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Local EPrints ID: 484004
URI: http://eprints.soton.ac.uk/id/eprint/484004
ISSN: 2169-9275
PURE UUID: 45cb7633-062e-4e62-a471-28fe488d2a86
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Date deposited: 08 Nov 2023 18:23
Last modified: 18 Mar 2024 04:16
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Author:
Kathryn L. Gunn
Author:
N.J. White
Author:
Colm-cille P. Caulfield
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