Equilibration of an Atmosphere by Adiabatic Eddy Fluxes

Author(s)

Jansen, Malte Friedrich; Ferrari, Raffaele

Abstract

A major question for climate studies is to quantify the role of turbulent eddy fluxes in maintaining the observed atmospheric mean state. Both the equator-to-pole temperature gradient and the static stability of the extratropical atmosphere are set by a balance between these eddy fluxes and the radiative forcing. Much attention has been paid to the adjustment of the isentropic slope, which relates the static stability and the meridional temperature gradient. It is often argued that the extratropical atmosphere always equilibrates such that isentropes leaving the surface in the subtropics reach the tropopause near the poles. However, recent work challenged this argument. This paper revisits scaling arguments for the equilibrated mean state of a dry atmosphere, which results from a balance between the radiative forcing and the along-isentropic eddy heat flux. These arguments predict weak sensitivity of the isentropic slope to changes in the radiative forcing, consistent with previous results. Large changes can, however, be achieved if other external parameters, such as the size and rotation rate of the planet, are varied. The arguments are also extended to predict both the meridional temperature gradient and the static stability independently. This allows a full characterization of the atmospheric mean state as a function of external parameters.

Date issued

2013-09

URI

http://hdl.handle.net/1721.1/87782

Department

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences

Journal

Journal of the Atmospheric Sciences

Publisher

American Meteorological Society

Citation

Jansen, Malte, and Raffaele Ferrari. “Equilibration of an Atmosphere by Adiabatic Eddy Fluxes.” J. Atmos. Sci. 70, no. 9 (September 2013): 2948–2962. © 2013 American Meteorological Society

Version: Final published version

ISSN

0022-4928

1520-0469