13th Conference on Middle Atmosphere
15th Conference on Atmospheric and Oceanic Fluid Dynamics
17th Conference on Climate Variability and Change

JP5.12

Explicit simulation of mesospheric gravity-wave drag in an idealized GCM with high vertical resolution

Erich Becker, Leibniz-Institute of Atmospheric Physics, Kuehlungsborn, Germany; and G. Schmitz

We estimate the effects of inertia-gravity waves on the general circulation of the upper mesosphere using a mechanistic GCM with moderate horizontal resolution (T85) and high vertical resolution from the boundary layer to the lower thermosphere (L190). Horizontal and vertical diffusion are based on nonlinear mixing-length parameterizations. Wave reflection at the model top is controlled by gradually increasing the mixing lengths above 80 km. Under these conditions, the resolved inertia-gravity waves dissolve around the mesopause and generate considerable wave drag and frictional heating, amounting to about two thirds of previous estimates derived from gravity-wave parameterizations. In addition, synoptic waves develop in the baroclinic zone of the upper summer mesosphere and partly offset the resolved gravity-wave drag. The total wave drag in the upper summer mesosphere leads to a clear reversal of the mean zonal wind and to temperatures being far below the assumed radiatively determined state.

Joint Poster Session 5, Gravity waves--Poster-- (JOINT WITH MIDDLE ATMOSPHERE, FLUID DYNAMICS AND CLIMATE VARIATION
Tuesday, 14 June 2005, 4:30 PM-6:00 PM, Riverside

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