Dynamics of Downwelling in an Eddying Marginal Sea: Contrasting the Eulerian and the Isopycnal Perspective

Dynamics of Downwelling in an Eddying Marginal Sea: Contrasting the Eulerian and the Isopycnal Perspective

In this study, we explore the downward branch of the Atlantic meridional overturning circulation (AMOC) from a perspective in depth space (Eulerian downwelling) as well as from a perspective in density space (diapycnal downwelling). Using an idealized model, we focus on the role of eddying marginal...

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Veröffentlicht in:Journal of physical oceanography 2019-11, Vol.49 (11), p.3017-3035
Hauptverfasser: Brüggemann, Nils, Katsman, Caroline A.
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Sprache:eng
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Atlantic Meridional Overturning Circulation (AMOC)
Boundary currents
Convection
Dense water
Downwelling
Eddies
Fluxes
Heat
Heat loss
Isopycnals
Marginal seas
Ocean circulation
Plankton
Studies
Topography
Water masses
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Katsman, Caroline A.
description In this study, we explore the downward branch of the Atlantic meridional overturning circulation (AMOC) from a perspective in depth space (Eulerian downwelling) as well as from a perspective in density space (diapycnal downwelling). Using an idealized model, we focus on the role of eddying marginal seas, where dense water is formed by deep convection due to an intense surface heat loss. We assess where diapycnal mass fluxes take place, investigate the pathways of dense water masses, and elucidate the role of eddies. We find that there are fundamental differences between the Eulerian and diapycnal downwelling: the strong Eulerian near-boundary downwelling is not associated with substantial diapycnal downwelling; the latter takes place in the interior and elsewhere in the boundary current. We show that the diapycnal downwelling appears to be more appropriate to describe the pathways of water masses. In our model, dense water masses are exported along two routes: those formed in the upper part of the boundary current are exported directly; those formed in the interior move toward the boundary along isopycnals due to eddy stirring and are then exported. This study thus reveals a complex three-dimensional view of the overturning in a marginal sea, with possible implications for our understanding of the AMOC.
doi_str_mv 10.1175/JPO-D-19-0090.1
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source American Meteorological Society; EZB-FREE-00999 freely available EZB journals
subjects Atlantic Meridional Overturning Circulation (AMOC)
Boundary currents
Convection
Dense water
Downwelling
Eddies
Fluxes
Heat
Heat loss
Isopycnals
Marginal seas
Ocean circulation
Plankton
Studies
Topography
Water masses
title Dynamics of Downwelling in an Eddying Marginal Sea: Contrasting the Eulerian and the Isopycnal Perspective
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