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Diagnosis of vertical velocities with the QG omega equation: an examination of the errors due to sampling strategy

Diagnosis of vertical velocities with the QG omega equation: an examination of the errors due to sampling strategy
Diagnosis of vertical velocities with the QG omega equation: an examination of the errors due to sampling strategy
Vertical motion at the mesoscale plays a key role in ocean circulation, ocean-atmosphere interaction, and hence climate. It is not yet possible to make direct Eulerian measurements of vertical velocities less than 1000 m day?1. However, by assuming quasi-geostrophic (QG) balance, vertical velocities O (10 m day?1) can be diagnosed from the geostrophic velocity field and suitable boundary conditions. Significant errors in the accuracy of this diagnosis arise from the necessary compromise between spatial resolution and synopticity of a hydrographic survey. This problem has been addressed by sampling the output of a numerical ocean model to simulate typical oceanographic surveys of mesoscale fronts. The balance between the number of observations and the synopticity of observations affects the apparent flow and in particular the diagnosed vertical motion. A combination of effects can typically lead to errors of 85% in the estimation of net vertical heat flux. An analytical two-layer model is used to understand components of this error and indicate the key parameters for the design of mesoscale sampling.
woce, ocean circulation, fronts, mesoscale eddies, frontogenesis, environmental surveys, baroclinic instability
0967-0637
315-346
Allen, J.T.
b251a62b-f443-4591-b695-9aa8c4d73741
Smeed, D.A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Nurser, A.J.G.
2493ef9a-21e9-4d8b-9c32-08677e7e145a
Zhang, J.W.
27009b1e-dd46-4a6c-a3bc-d5a90246d9e9
Rixen, M.
e15b7917-e295-4ba7-a825-a7680cf5a0f8
Allen, J.T.
b251a62b-f443-4591-b695-9aa8c4d73741
Smeed, D.A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Nurser, A.J.G.
2493ef9a-21e9-4d8b-9c32-08677e7e145a
Zhang, J.W.
27009b1e-dd46-4a6c-a3bc-d5a90246d9e9
Rixen, M.
e15b7917-e295-4ba7-a825-a7680cf5a0f8

Allen, J.T., Smeed, D.A., Nurser, A.J.G., Zhang, J.W. and Rixen, M. (2001) Diagnosis of vertical velocities with the QG omega equation: an examination of the errors due to sampling strategy. Deep Sea Research Part I: Oceanographic Research Papers, 48 (2), 315-346. (doi:10.1016/S0967-0637(00)00035-2).

Record type: Article

Abstract

Vertical motion at the mesoscale plays a key role in ocean circulation, ocean-atmosphere interaction, and hence climate. It is not yet possible to make direct Eulerian measurements of vertical velocities less than 1000 m day?1. However, by assuming quasi-geostrophic (QG) balance, vertical velocities O (10 m day?1) can be diagnosed from the geostrophic velocity field and suitable boundary conditions. Significant errors in the accuracy of this diagnosis arise from the necessary compromise between spatial resolution and synopticity of a hydrographic survey. This problem has been addressed by sampling the output of a numerical ocean model to simulate typical oceanographic surveys of mesoscale fronts. The balance between the number of observations and the synopticity of observations affects the apparent flow and in particular the diagnosed vertical motion. A combination of effects can typically lead to errors of 85% in the estimation of net vertical heat flux. An analytical two-layer model is used to understand components of this error and indicate the key parameters for the design of mesoscale sampling.

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More information

Published date: February 2001
Keywords: woce, ocean circulation, fronts, mesoscale eddies, frontogenesis, environmental surveys, baroclinic instability

Identifiers

Local EPrints ID: 8765
URI: http://eprints.soton.ac.uk/id/eprint/8765
DOI: doi:10.1016/S0967-0637(00)00035-2
ISSN: 0967-0637
PURE UUID: c660f852-053f-47db-bcba-8c316e22a1bc
ORCID for J.W. Zhang: ORCID iD orcid.org/0000-0001-9583-6000

Catalogue record

Date deposited: 14 Sep 2004
Last modified: 16 Mar 2024 02:53

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Contributors

Author: J.T. Allen
Author: D.A. Smeed
Author: A.J.G. Nurser
Author: J.W. Zhang ORCID iD
Author: M. Rixen

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