The modification of turbulent thermal wind balance by non-traditional effects

The meridional component of the earth's rotation is often neglected in geophysical contexts. This is referred to as the ‘traditional approximation’ and is justified by the typically small vertical velocity and aspect ratio of such problems. Ocean fronts are regions of strong horizontal buoyancy...

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Veröffentlicht in:	Journal of fluid mechanics 2021-10, Vol.925, Article A17
1. Verfasser:	Crowe, Matthew N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Approximation Aspect ratio Buoyancy Earth rotation Fluid mechanics Fronts JFM Papers Nutrients Rotation Tracers Velocity Vertical advection Wind Wind effects
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container_title	Journal of fluid mechanics
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creator	Crowe, Matthew N.
description	The meridional component of the earth's rotation is often neglected in geophysical contexts. This is referred to as the ‘traditional approximation’ and is justified by the typically small vertical velocity and aspect ratio of such problems. Ocean fronts are regions of strong horizontal buoyancy gradient and are associated with strong vertical transport of tracers and nutrients. Given these comparatively large vertical velocities, non-traditional rotation may play a role in governing frontal dynamics. Here the effects of non-traditional rotation on a front in turbulent thermal wind balance are considered using an asymptotic approach. Solutions are presented for a general horizontal buoyancy profile and examined in the simple case of a straight front. Non-traditional effects are found to depend strongly on the direction of the front and may lead to the generation of jets and the modification of the frontal circulation and vertical transport.
doi_str_mv	10.1017/jfm.2021.669
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source	Cambridge Journals
subjects	Approximation Aspect ratio Buoyancy Earth rotation Fluid mechanics Fronts JFM Papers Nutrients Rotation Tracers Velocity Vertical advection Wind Wind effects
title	The modification of turbulent thermal wind balance by non-traditional effects
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