Glider observations of enhanced deep water upwelling at a shelf break canyon: a mechanism for cross-slope carbon and nutrient exchange
Glider observations of enhanced deep water upwelling at a shelf break canyon: a mechanism for cross-slope carbon and nutrient exchange
Using underwater gliders we have identified canyon driven upwelling across the Celtic Sea shelf-break, in the vicinity of Whittard Canyon. The presence of this upwelling appears to be tied to the direction and strength of the local slope current, which is in itself highly variable. During typical summer time equatorward flow, an unbalanced pressure gradient force and the resulting disruption of geostrophic flow can lead to upwelling along the main axis of two small shelf break canyons. As the slope current reverts to poleward flow, the upwelling stops and the remnants of the upwelled features are mixed into the local shelf water or advected away from the region. The upwelled features are identified by the presence of sub-pycnocline high salinity water on the shelf, and are upwelled from a depth of 300 m on the slope, thus providing a mechanism for the transport of nutrients across the shelf break onto the shelf.
7575–7588
Porter, M.
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Inall, M.E.
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Hopkins, J.
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Palmer, M.R.
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Dale, A.C.
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Aleynik, D.
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Barth, J.A.
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Mahaffey, C.
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Smeed, D.A.
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October 2016
Porter, M.
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Inall, M.E.
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Hopkins, J.
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Palmer, M.R.
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Dale, A.C.
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Aleynik, D.
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Barth, J.A.
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Mahaffey, C.
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Smeed, D.A.
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Porter, M., Inall, M.E., Hopkins, J., Palmer, M.R., Dale, A.C., Aleynik, D., Barth, J.A., Mahaffey, C. and Smeed, D.A.
(2016)
Glider observations of enhanced deep water upwelling at a shelf break canyon: a mechanism for cross-slope carbon and nutrient exchange.
Journal of Geophysical Research: Oceans, 121 (10), .
(doi:10.1002/2016JC012087).
Abstract
Using underwater gliders we have identified canyon driven upwelling across the Celtic Sea shelf-break, in the vicinity of Whittard Canyon. The presence of this upwelling appears to be tied to the direction and strength of the local slope current, which is in itself highly variable. During typical summer time equatorward flow, an unbalanced pressure gradient force and the resulting disruption of geostrophic flow can lead to upwelling along the main axis of two small shelf break canyons. As the slope current reverts to poleward flow, the upwelling stops and the remnants of the upwelled features are mixed into the local shelf water or advected away from the region. The upwelled features are identified by the presence of sub-pycnocline high salinity water on the shelf, and are upwelled from a depth of 300 m on the slope, thus providing a mechanism for the transport of nutrients across the shelf break onto the shelf.
Text
Porter_et_al-2016-Journal_of_Geophysical_Research__Oceans
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Accepted/In Press date: 19 September 2016
e-pub ahead of print date: 18 October 2016
Published date: October 2016
Organisations:
National Oceanography Centre, Marine Physics and Ocean Climate
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Local EPrints ID: 407127
URI: http://eprints.soton.ac.uk/id/eprint/407127
PURE UUID: 43bb50d0-1087-4182-b47c-41726526916e
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Date deposited: 30 Mar 2017 01:05
Last modified: 15 Mar 2024 13:00
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Contributors
Author:
M. Porter
Author:
M.E. Inall
Author:
J. Hopkins
Author:
M.R. Palmer
Author:
A.C. Dale
Author:
D. Aleynik
Author:
J.A. Barth
Author:
C. Mahaffey
Author:
D.A. Smeed
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