Thermohaline circulation of shallow tidal seas

A. E. Hill; J. Brown; L. Fernand; J. Holt; K. J. Horsburgh; R. Proctor; R. Raine; W. R. Turrell

doi:10.1029/2008GL033459

Thermohaline circulation of shallow tidal seas

A. E. Hill, J. Brown, L. Fernand, J. Holt, K. J. Horsburgh, R. Proctor, R. Raine, W. R. Turrell

Infectious Disease

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Abstract

The mechanisms controlling the temperature and salinity structure of shallow continental shelf seas have been understood for over thirty years, yet knowledge of what drives their large-scale circulation has remained relatively unknown. Here we describe a decade long programme of measurements, using satellite-tracked drifting buoys on the northwest European shelf, to draw attention to a striking picture of highly organised thermohaline circulation consisting of narrow, near surface, fast flowing jets. These are ubiquitous above sharp horizontal gradients in bottom temperatures and/or salinities. The circulation phenomena we describe are likely to be prevalent on all similar, wide, tidally energetic continental shelves including those off north-eastern China, Argentina and parts of the Arctic. The robust, repeatable observation of the key role of jets above bottom fronts results in a fundamental reassessment of how we view the dynamics of shelf seas.

Original language	English
Article number	L11605
Journal	Geophysical Research Letters
Volume	35
Issue number	11
DOIs	https://doi.org/10.1029/2008GL033459
Publication status	Published - 16 Jun 2008

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10.1029/2008GL033459

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AU - Hill, A. E.

AU - Brown, J.

AU - Fernand, L.

AU - Holt, J.

AU - Horsburgh, K. J.

AU - Proctor, R.

AU - Raine, R.

AU - Turrell, W. R.

PY - 2008/6/16

Y1 - 2008/6/16

N2 - The mechanisms controlling the temperature and salinity structure of shallow continental shelf seas have been understood for over thirty years, yet knowledge of what drives their large-scale circulation has remained relatively unknown. Here we describe a decade long programme of measurements, using satellite-tracked drifting buoys on the northwest European shelf, to draw attention to a striking picture of highly organised thermohaline circulation consisting of narrow, near surface, fast flowing jets. These are ubiquitous above sharp horizontal gradients in bottom temperatures and/or salinities. The circulation phenomena we describe are likely to be prevalent on all similar, wide, tidally energetic continental shelves including those off north-eastern China, Argentina and parts of the Arctic. The robust, repeatable observation of the key role of jets above bottom fronts results in a fundamental reassessment of how we view the dynamics of shelf seas.

AB - The mechanisms controlling the temperature and salinity structure of shallow continental shelf seas have been understood for over thirty years, yet knowledge of what drives their large-scale circulation has remained relatively unknown. Here we describe a decade long programme of measurements, using satellite-tracked drifting buoys on the northwest European shelf, to draw attention to a striking picture of highly organised thermohaline circulation consisting of narrow, near surface, fast flowing jets. These are ubiquitous above sharp horizontal gradients in bottom temperatures and/or salinities. The circulation phenomena we describe are likely to be prevalent on all similar, wide, tidally energetic continental shelves including those off north-eastern China, Argentina and parts of the Arctic. The robust, repeatable observation of the key role of jets above bottom fronts results in a fundamental reassessment of how we view the dynamics of shelf seas.

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Thermohaline circulation of shallow tidal seas

Abstract

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