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A Tracer-Contour Inverse Method for Estimating Ocean Circulation and Mixing

A Tracer-Contour Inverse Method for Estimating Ocean Circulation and Mixing
A Tracer-Contour Inverse Method for Estimating Ocean Circulation and Mixing
A method is developed for estimating the along-isopycnal and vertical mixing coefficients (K and D) and the absolute velocity from time-averaged hydrographic data. The method focuses directly on transports down tracer gradients on isopycnals. When the tracer considered is salinity or an appropriate variable for heat, this downgradient transport constitutes the along-isopycnal component of the thermohaline overturning circulation. In the method, a geostrophic streamfunction is defined that is related on isopycnals by tracer contours and by the thermal wind relationship in the vertical. Volume and tracer conservation constraints are also included. The method is overdetermined and avoids much of the signal-to-noise error associated with differentiating hydrographic data in conventional inverse methods. The method is validated against output of a layered model. It is shown to resolve both K and D, the downgradient isopycnal transport, and the mean flow on isopycnals in the North Pacific and South Atlantic.

Importantly, an understanding is established of both the physics underlying the method and the circumstances necessary for an inverse method to determine the mixing rates and the absolute velocity. If mixing is neglected, the method is the Bernoulli inverse method. At the limit of zero weight on the tracer-contour equations the method is a conventional box inverse method. Comparisons are drawn between each method and their relative merits are discussed. A new closed expression for the absolute velocity is also presented.
Ocean circulation, Mixing, Isopycnal mixing, Tracers, Transport, Thermohaline circulation
0022-3670
26-47
Zika, Jan D.
1843cce7-77ce-4ef6-9f79-bcf4f9db30e5
McDougall, Trevor J.
06a3853b-ba2c-4203-8a7d-34dd0e0a8836
Sloyan, Bernadette M.
76a5a33f-4e74-4bfa-a330-688351a53717
Zika, Jan D.
1843cce7-77ce-4ef6-9f79-bcf4f9db30e5
McDougall, Trevor J.
06a3853b-ba2c-4203-8a7d-34dd0e0a8836
Sloyan, Bernadette M.
76a5a33f-4e74-4bfa-a330-688351a53717

Zika, Jan D., McDougall, Trevor J. and Sloyan, Bernadette M. (2010) A Tracer-Contour Inverse Method for Estimating Ocean Circulation and Mixing. Journal of Physical Oceanography, 40 (1), 26-47. (doi:10.1175/2009JPO4208.1).

Record type: Article

Abstract

A method is developed for estimating the along-isopycnal and vertical mixing coefficients (K and D) and the absolute velocity from time-averaged hydrographic data. The method focuses directly on transports down tracer gradients on isopycnals. When the tracer considered is salinity or an appropriate variable for heat, this downgradient transport constitutes the along-isopycnal component of the thermohaline overturning circulation. In the method, a geostrophic streamfunction is defined that is related on isopycnals by tracer contours and by the thermal wind relationship in the vertical. Volume and tracer conservation constraints are also included. The method is overdetermined and avoids much of the signal-to-noise error associated with differentiating hydrographic data in conventional inverse methods. The method is validated against output of a layered model. It is shown to resolve both K and D, the downgradient isopycnal transport, and the mean flow on isopycnals in the North Pacific and South Atlantic.

Importantly, an understanding is established of both the physics underlying the method and the circumstances necessary for an inverse method to determine the mixing rates and the absolute velocity. If mixing is neglected, the method is the Bernoulli inverse method. At the limit of zero weight on the tracer-contour equations the method is a conventional box inverse method. Comparisons are drawn between each method and their relative merits are discussed. A new closed expression for the absolute velocity is also presented.

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More information

Published date: January 2010
Keywords: Ocean circulation, Mixing, Isopycnal mixing, Tracers, Transport, Thermohaline circulation
Organisations: Physical Oceanography

Identifiers

Local EPrints ID: 337461
URI: http://eprints.soton.ac.uk/id/eprint/337461
ISSN: 0022-3670
PURE UUID: 01c998e3-e71f-4cfc-a728-eac2eab1b706

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Date deposited: 25 Apr 2012 12:50
Last modified: 14 Mar 2024 10:53

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Contributors

Author: Jan D. Zika
Author: Trevor J. McDougall
Author: Bernadette M. Sloyan

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