Isopycnal eddy stirring dominates thermohaline mixing in the upper subpolar North Atlantic
Isopycnal eddy stirring dominates thermohaline mixing in the upper subpolar North Atlantic
The Atlantic Meridional Overturning Circulation entails vigorous thermohaline transformations in the subpolar North Atlantic Ocean (SPNA). There, warm and saline waters originating in the (sub)tropics are converted into cooler and fresher waters by a combination of surface fluxes and sub-surface mixing. Using microstructure measurements and a small-scale variance conservation framework, we quantify the diapycnal and isopycnal contributions –by microscale turbulence and mesoscale eddies, respectively– to thermohaline mixing within the eastern SPNA. Isopycnal stirring is found to account for the majority of thermal (65%) and haline (84%) variance dissipation in the upper 400 m of the eastern SPNA. A simple dimensional analysis suggests that isopycnal stirring could account for (Formula presented.) (5–10) Sv of diahaline volume flux, suggesting an important role of such stirring in regional water-mass transformations. Our mixing measurements are thus consistent with recent indirect estimates in highlighting the importance of isopycnal stirring for North Atlantic overturning.
diapycnal mixing, isopycnal stirring, meridional overturning circulation, microstructure turbulence, subpolar North Atlantic, thermohaline transformations
Fernández Castro, Bieito
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Fernández Román, Daniel
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Ferron, Bruno
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Fontela, Marcos
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Lherminier, Pascale
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Naveira Garabato, Alberto
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Pérez, Fiz F.
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Spingys, Carl
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Polzin, Kurt
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Velo, Antón
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Fernández Castro, Bieito
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Fernández Román, Daniel
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Ferron, Bruno
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Fontela, Marcos
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Lherminier, Pascale
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Naveira Garabato, Alberto
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Pérez, Fiz F.
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Spingys, Carl
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Polzin, Kurt
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Velo, Antón
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Fernández Castro, Bieito, Fernández Román, Daniel, Ferron, Bruno, Fontela, Marcos, Lherminier, Pascale, Naveira Garabato, Alberto, Pérez, Fiz F., Spingys, Carl, Polzin, Kurt and Velo, Antón
(2024)
Isopycnal eddy stirring dominates thermohaline mixing in the upper subpolar North Atlantic.
Journal of Geophysical Research: Oceans, 129 (9), [e2023JC020817].
(doi:10.1029/2023JC020817).
Abstract
The Atlantic Meridional Overturning Circulation entails vigorous thermohaline transformations in the subpolar North Atlantic Ocean (SPNA). There, warm and saline waters originating in the (sub)tropics are converted into cooler and fresher waters by a combination of surface fluxes and sub-surface mixing. Using microstructure measurements and a small-scale variance conservation framework, we quantify the diapycnal and isopycnal contributions –by microscale turbulence and mesoscale eddies, respectively– to thermohaline mixing within the eastern SPNA. Isopycnal stirring is found to account for the majority of thermal (65%) and haline (84%) variance dissipation in the upper 400 m of the eastern SPNA. A simple dimensional analysis suggests that isopycnal stirring could account for (Formula presented.) (5–10) Sv of diahaline volume flux, suggesting an important role of such stirring in regional water-mass transformations. Our mixing measurements are thus consistent with recent indirect estimates in highlighting the importance of isopycnal stirring for North Atlantic overturning.
Text
JGR Oceans - 2024 - Fernández Castro - Isopycnal Eddy Stirring Dominates Thermohaline Mixing in the Upper Subpolar North
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Accepted/In Press date: 4 September 2024
e-pub ahead of print date: 18 September 2024
Keywords:
diapycnal mixing, isopycnal stirring, meridional overturning circulation, microstructure turbulence, subpolar North Atlantic, thermohaline transformations
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Local EPrints ID: 494847
URI: http://eprints.soton.ac.uk/id/eprint/494847
ISSN: 2169-9275
PURE UUID: a3088d17-a3a0-4d91-a82b-e16d746eaf1e
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Date deposited: 17 Oct 2024 16:38
Last modified: 18 Oct 2024 01:59
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Author:
Daniel Fernández Román
Author:
Bruno Ferron
Author:
Marcos Fontela
Author:
Pascale Lherminier
Author:
Fiz F. Pérez
Author:
Carl Spingys
Author:
Kurt Polzin
Author:
Antón Velo
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