Internal tide‐driven tracer transport across the continental slope
Internal tide‐driven tracer transport across the continental slope
The role of the internal tide in driving tracer transport across the continental slope is examined using simplified layered theory, channel model experiments, and observational diagnostics of near shelf-edge moorings. The effect of the internal tide is interpreted in terms of its Stokes' drift, which is separated into two distinct components: a bolus component, driven by the covariance of layer thickness and the velocity, and a shear component, driven by the velocity following the movement of an interface. For a three-layer ocean, in the model experiments and observations, the onshore propagation of an internal tide drives a Stokes' transport directed onshore in the surface and the bottom layers and directed offshore in the pycnocline. This reversing structure is due to the bolus component dominating near the boundaries, while the shear component dominates at the pycnocline. In the observational diagnostics, the Stokes' transport is not canceled by the Eulerian transport, which is mainly directed along bathymetric contours. The Stokes' drift of the internal tide then provides a systematic on shelf tracer transport if there is a tracer sink on the shelf, carried in the surface or bottom layers. Conversely, the tracer transport is directed offshore if there is a tracer source on the shelf with plumes of shelf tracer expected to be carried offshore along the pycnocline. This tracer transport as a result of the internal tide is diagnosed for heat, salt, and nitrate. The depth-integrated nitrate flux is directed onto the shelf supplying nutrients to the productive shelf seas.
Stokes' transport, exchange, internal tide, moorings, nitrate, shelf edge
Spingys, Carl
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Williams, Richard G.
6686109a-abe3-41f7-8636-14cb8daaa6db
Hopkins, Joanne E.
b31b2eba-76cc-4bad-9757-ff1de87fedb0
Hall, Rob A.
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Green, J. A. Mattias
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Sharples, Jonathan
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September 2020
Spingys, Carl
8afecaad-9a5a-4713-949c-b47501498363
Williams, Richard G.
6686109a-abe3-41f7-8636-14cb8daaa6db
Hopkins, Joanne E.
b31b2eba-76cc-4bad-9757-ff1de87fedb0
Hall, Rob A.
2a3a90bb-b421-4487-8f38-c114ac0b7ed7
Green, J. A. Mattias
9fcc6dc0-8c2b-4276-ba59-3f88d3ae81d8
Sharples, Jonathan
4a1bb5bd-1d5a-4ba5-b00d-2f508d7d2653
Spingys, Carl, Williams, Richard G., Hopkins, Joanne E., Hall, Rob A., Green, J. A. Mattias and Sharples, Jonathan
(2020)
Internal tide‐driven tracer transport across the continental slope.
Journal of Geophysical Research: Oceans, 125 (9), [e2019JC015530].
(doi:10.1029/2019JC015530).
Abstract
The role of the internal tide in driving tracer transport across the continental slope is examined using simplified layered theory, channel model experiments, and observational diagnostics of near shelf-edge moorings. The effect of the internal tide is interpreted in terms of its Stokes' drift, which is separated into two distinct components: a bolus component, driven by the covariance of layer thickness and the velocity, and a shear component, driven by the velocity following the movement of an interface. For a three-layer ocean, in the model experiments and observations, the onshore propagation of an internal tide drives a Stokes' transport directed onshore in the surface and the bottom layers and directed offshore in the pycnocline. This reversing structure is due to the bolus component dominating near the boundaries, while the shear component dominates at the pycnocline. In the observational diagnostics, the Stokes' transport is not canceled by the Eulerian transport, which is mainly directed along bathymetric contours. The Stokes' drift of the internal tide then provides a systematic on shelf tracer transport if there is a tracer sink on the shelf, carried in the surface or bottom layers. Conversely, the tracer transport is directed offshore if there is a tracer source on the shelf with plumes of shelf tracer expected to be carried offshore along the pycnocline. This tracer transport as a result of the internal tide is diagnosed for heat, salt, and nitrate. The depth-integrated nitrate flux is directed onto the shelf supplying nutrients to the productive shelf seas.
Text
Stokes_Paper
- Author's Original
More information
Accepted/In Press date: 31 August 2020
e-pub ahead of print date: 3 September 2020
Published date: September 2020
Keywords:
Stokes' transport, exchange, internal tide, moorings, nitrate, shelf edge
Identifiers
Local EPrints ID: 444400
URI: http://eprints.soton.ac.uk/id/eprint/444400
ISSN: 2169-9275
PURE UUID: 6a19bcad-9285-4522-af79-48b65b11e84e
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Date deposited: 16 Oct 2020 16:31
Last modified: 17 Mar 2024 03:46
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Contributors
Author:
Carl Spingys
Author:
Richard G. Williams
Author:
Joanne E. Hopkins
Author:
Rob A. Hall
Author:
J. A. Mattias Green
Author:
Jonathan Sharples
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