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The Representation of Ocean Circulation and Variability in Thermodynamic Coordinates (2014)

Groeskamp, Sjoerd ; Zika, Jan D. ; McDougall, Trevor J. ; [weitere]

American Meteorological Society

In: Journal of Physical Oceanography. 2014; 44(7): 1735-1750. Published 2014 Jul 01. doi: 10.1175/jpo-d-13-0213.1.

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Publikationsdatum: 2014-07-01

Beschreibung: The ocean’s circulation is analyzed in Absolute Salinity SA and Conservative Temperature Θ coordinates. It is separated into 1) an advective component related to geographical displacements in the direction normal to SA and Θ isosurfaces and 2) into a local component, related to local changes in SA–Θ values, without a geographical displacement. In this decomposition, the sum of the advective and local components of the circulation is equivalent to the material derivative of SA and Θ. The sum is directly related to sources and sinks of salt and heat. The advective component is represented by the advective thermohaline streamfunction . After removing a trend, the local component can be represented by the local thermohaline streamfunction . Here, can be diagnosed using a monthly averaged time series of SA and Θ from an observational dataset. In addition, and are determined from a coupled climate model. The diathermohaline streamfunction is the sum of and and represents the nondivergent diathermohaline circulation in SA–Θ coordinates. The diathermohaline trend, resulting from the trend in the local changes of SA and Θ, quantifies the redistribution of the ocean’s volume in SA–Θ coordinates over time. It is argued that the diathermohaline streamfunction provides a powerful tool for the analysis of and comparison among ocean models and observation-based gridded climatologies.

Print ISSN: 0022-3670

Digitale ISSN: 1520-0485

Thema: Geologie und Paläontologie , Physik

Publiziert von American Meteorological Society

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A Thermohaline Inverse Method for Estimating Diathermohaline Circulation and Mixing (2014)

Groeskamp, Sjoerd ; Zika, Jan D. ; Sloyan, Bernadette M. ; [weitere]

American Meteorological Society

In: Journal of Physical Oceanography. 2014; 44(10): 2681-2697. Published 2014 Oct 01. doi: 10.1175/jpo-d-14-0039.1.

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Publikationsdatum: 2014-10-01

Beschreibung: The thermohaline inverse method (THIM) is presented that provides estimates of the diathermohaline streamfunction , the downgradient along-isopycnal diffusion coefficient K, and the isotropic downgradient turbulent diffusion coefficient D of small-scale mixing processes. This is accomplished by using the water mass transformation framework in two tracer dimensions: here in Absolute Salinity SA and Conservative Temperature Θ coordinates. The authors show that a diathermal volume transport down a Conservative Temperature gradient is related to surface heating and cooling and mixing, and a diahaline volume transport down an Absolute Salinity gradient is related to surface freshwater fluxes and mixing. Both the diahaline and diathermal flows can be calculated using readily observed parameters that are used to produce climatologies, surface flux products, and mixing parameterizations for K and D. Conservation statements for volume, salt, and heat in (SA, Θ) coordinates, using the diahaline and diathermal volume transport expressed as surface freshwater and heat fluxes and mixing, allow for the formulation of a system of equations that is solved by an inverse method that can estimate the unknown diathermohaline streamfunction and the diffusion coefficients K and D. The inverse solution provides an accurate estimate of , K, and D when tested against a numerical climate model for which all these parameters are known.

Print ISSN: 0022-3670

Digitale ISSN: 1520-0485

Thema: Geologie und Paläontologie , Physik

Publiziert von American Meteorological Society

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On Geometrical Aspects of Interior Ocean Mixing (2014)

McDougall, Trevor J. ; Groeskamp, Sjoerd ; Griffies, Stephen M.

American Meteorological Society

In: Journal of Physical Oceanography. 2014; 44(8): 2164-2175. Published 2014 Aug 01. doi: 10.1175/jpo-d-13-0270.1.

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Publikationsdatum: 2014-08-01

Beschreibung: The small-slope approximation to the full three-dimensional diffusion tensor of epineutral diffusion gives exactly the same tracer flux as the commonly used projected nonorthogonal diffusive flux of layered ocean models and of theoretical studies. The epineutral diffusion achieved by this small-slope approximation is not exactly in the direction of the correct epineutral tracer gradient. That is, the use of the small-slope approximation leads to a very small flux of tracer in a direction in which there is no epineutral gradient of tracer. For (the tracer) temperature or salinity, the difference between the correct epineutral gradient and the small-slope approximation to it is proportional to neutral helicity. The authors also make the point that small-scale turbulent mixing processes act to diffuse tracers isotropically (i.e., the same in each spatial direction) and hence it is strictly a misnomer to call this process “dianeutral diffusion” or “vertical diffusion.” This realization also has implications for the diffusion tensor.

Print ISSN: 0022-3670

Digitale ISSN: 1520-0485

Thema: Geologie und Paläontologie , Physik

Publiziert von American Meteorological Society

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