The Ed Lorenz Symposium

1.1

Theories for eddy fluxes in the two-layer quasi-geostrophic model

Isaac M. Held, NOAA/GFDL, Princeton, NJ

One of the classic theoretical models with which we have developed our intuition about eddy fluxes in the midlatitude troposphere is the two layer quasi-geostrophic model on a beta-plane. Ed Lorenz's classic works, building on the insights of Norman Phillips, clarified the energetics of this system and helped solidify its place as a building block of our understanding of the general circulation.In this talk I argue that our understanding of the eddy fluxes in this model remains very incomplete, and that progress in this area is central to improving our theories of the general circulation. I consider the special case of a statistically steady flow forced by thermal relaxation that creates a baroclinically unstable jet, and in which kinetic energy is dissipated by linear surface friction. I think of this model as the E. Coli of climate models.

I summarize a series of works in which, together with a number of colleagues, I have tried to understand how the eddy fluxes of heat and potential vorticity are constrained in this statistically steady state. Central to this work is the relationship between inhomogeneous jet-like flows of atmospheric interest and homogeneous geostrophic turbulence, and the related question of whether theories for the eddy fluxes are fundamentally local or global. I argue that the homogeneous turbulence limit is very relevant to this problem. In the homogeneous limit, eddy length scales are typically determined by the Rhine's scale, rather than the radius of deformation, and this provides a central ingredient in a scaling theory for the eddy fluxes that closely mimics the results of numerical simulations.

The two-layer model is easily criticized for distorting linear baroclinic instability, as compared to that in models with continuous stratification, in particular by artificially creating a critical shear for instability that is proportional to the depth of the lower layer. An argument will be presented that the two-layer model may be a better model of strongly nonlinear statistically steady flows than of linear instability.

wrf recording  Recorded presentation

Session 1, Lorenz Symposium I
Thursday, 13 January 2005, 8:30 AM-9:30 AM

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