Eddy Saturation of the Southern Ocean: A Baroclinic Versus Barotropic Perspective
Loading...
Date
Authors
Constantinou, Navid
Hogg, Andy
Journal Title
Journal ISSN
Volume Title
Publisher
American Geophysical Union
Abstract
“Eddy saturation” is the regime in which the total time-mean volume transport of an oceanic
current is relatively insensitive to the wind stress forcing and is often invoked as a dynamical description of
Southern Ocean circulation. We revisit the problem of eddy saturation using a primitive equations model
in an idealized channel setup with bathymetry. We apply only mechanical wind stress forcing; there is no
diapycnal mixing or surface buoyancy forcing. Our main aim is to assess the relative importance of two
mechanisms for producing eddy-saturated states: (i) the commonly invoked baroclinic mechanism that
involves the competition of sloping isopycnals and restratification by production of baroclinic eddies and
(ii) the barotropic mechanism that involves production of eddies through lateral shear instabilities or
through the interaction of the barotropic current with bathymetric features. Our results suggest that the
barotropic flow component plays a crucial role in determining the total volume transport.
Description
Keywords
Citation
Collections
Source
Geophysical Research Letters
Type
Book Title
Entity type
Access Statement
Open Access
License Rights
Restricted until
Downloads
File
Description