Submesoscale Baroclinic Instability in the Bottom Boundary Layer

Author:

Wenegrat Jacob O.1,Callies Jörn2,Thomas Leif N.1

Affiliation:

1. Earth System Science, Stanford University, Stanford, California

2. Division of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California

Abstract

AbstractWeakly stratified layers over sloping topography can support a submesoscale baroclinic instability mode, a bottom boundary layer counterpart to surface mixed layer instabilities. The instability results from the release of available potential energy, which can be generated because of the observed bottom intensification of turbulent mixing in the deep ocean, or the Ekman adjustment of a current on a slope. Linear stability analysis suggests that the growth rates of bottom boundary layer baroclinic instabilities can be comparable to those of the surface mixed layer mode and are relatively insensitive to topographic slope angle, implying the instability is robust and potentially active in many areas of the global oceans. The solutions of two separate one-dimensional theories of the bottom boundary layer are both demonstrated to be linearly unstable to baroclinic instability, and results from an example nonlinear simulation are shown. Implications of these findings for understanding bottom boundary layer dynamics and processes are discussed.

Funder

National Science Foundation

Publisher

American Meteorological Society

Subject

Oceanography

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