The dynamics of mean circulation on the continental shelf

Shaw, Ping-Tung Peter

doi:10.1575/1912/2419

Cited by 5 publications

(1 citation statement)

References 37 publications

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“…The geochemical evidence may therefore be taken to imply quiescence of near-bottom mean and fluctuating currents. A simple theoretical framework for the prediction of the wind-induced bottom pressure field over a sloping shelf has been developed recently [Csanady, 1978[Csanady, , 1982Shaw, 1982]. The theory has proved useful for interpreting observations along both the east and the west coasts [Csanady, 1981;Noble et al, 1983;Hickey and Pola, 1983].…”

Section: Introductionmentioning

confidence: 99%

The “insulating” effect of a steep continental slope

Csanady¹,

Shaw²

1983

J. Geophys. Res.

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Geochemical evidence shows that the midcontinental slope off the Mid‐Atlantic Bight constitutes an important sink for substances attached to fine particles. It is reasonable to infer that near‐bottom currents in this region are generally much weaker than those over the adjacent continental shelf, allowing the settling out of fine particles and their incorporation into permanent sediment. A partial dynamical explanation of this phenomenon may be sought in the “insulating” effect of a steep slope. At levels below the main thermocline the bottom pressure perturbation associated with steady flow is governed by a parabolic equation which expresses vorticity tendency balance between bottom stress curl and vortex stretching. A heat conduction analogy is appropriate, in which the friction coefficient corresponds to conductivity and the bottom slope corresponds to heat capacity. Over the continental slope the latter is large, suppressing pressure gradients originating from the shelf. Thus steady, near‐bottom currents over the middle slope are generally weak. Exceptions to this rule are locations subject to intense winter cooling and deep convection, which may generate strong thermohaline near‐bottom flow. Oscillatory motions of importance (which may be taken to be coastally trapped waves and topographic waves propagating shoreward from deep water) are weak partly because an efficient local generation mechanism is lacking. Disturbances originating from the Gulf Stream decay as the depth reduces below 3 km, by a mechanism the details of which are not clear at present. The findings in the Mid‐Atlantic Bight are likely to apply to other continental slopes distant from western boundary currents and not subject to intense winter cooling.

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Section: Introductionmentioning

confidence: 99%

The “insulating” effect of a steep continental slope

Csanady¹,

Shaw²

1983

J. Geophys. Res.

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A note on the geostrophic velocity field referenced to a point

Hopkins

1996

Continental Shelf Research

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Physical oceanography of continental shelves

Allen¹,

Beardsley²,

Blanton³

et al. 1983

Reviews of Geophysics

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Knowledge of the physical oceanography of continental shelves has increased tremendously in recent years, primarily as a result of new current and hydrographic measurements made in locations where no comparable measurements existed previously. In general, observations from geographically distinct continental shelves have shown that the nature of the flow may vary considerably from region to region. Although some characteristics, such as the response of currents to wind forcing, are common to many shelves, the relative importance of various physical processes in influencing the shelf flow field frequently is different. In the last several years, the scientific literature on shelf studies has expanded rapidly, with that for separate regions, to some extent, developing independently because of the variable role played by different physical effects.

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The dynamics of mean circulation on the continental shelf

Cited by 5 publications

References 37 publications

The “insulating” effect of a steep continental slope

The “insulating” effect of a steep continental slope

A note on the geostrophic velocity field referenced to a point

Physical oceanography of continental shelves

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