EVALUATION OF THE SKYHI GENERAL-CIRCULATION MODEL USING AIRCRAFT N2O MEASUREMENTS .1. POLAR WINTER STRATOSPHERIC METEOROLOGY AND TRACER MORPHOLOGY

Winter polar stratospheric nitric oxide (N2O) measurements made during two NASA polar aircraft field campaigns are used to evaluate the dyna mics of the Geophysical Fluid Dynamics Laboratory's ''SKYHI'' general circulation model. SKYHI has 1-degrees latitude by 1.2-degrees longitu de grid spacing and 40 vertical levels (up to 80 km) and prescribed N2 O dissociation coefficients. The model has been integrated a total of 20 months, producing one Antarctic and two Arctic winters. The climato logies of these winters are compared with the known northern and south ern hemisphere climatologies and to the meteorological conditions duri ng the time of the field campaigns. The two Arctic SKYHI winters show considerable interannual variability. In the lower stratosphere, SKYHI realistically simulates the magnitude and variability of winds and te mperatures both inside and outside the polar vortex and can produce a credible sudden warming. In the Antarctic the magnitude and variabilit y of winds and temperatures around the polar vortex are quite realisti c, but inside the vortex, temperatures are too low. Flight data from e ach mission have been averaged together to produce a contour map showi ng N2O morphology in and around the vortex. Because the N2O distributi on in the lower stratosphere is under dynamical control, the mean N2O field can be used to interpret the dynamics of the polar stratosphere. At the Arctic vortex edge, AASE data show large gradients of N2O on i sentropic surfaces. SKYHI vortex edge gradients are nearly as large, a nd model mixing ratios between 400 and 500 K (potential temperature) a re similar to the observations. In the Antarctic, model mixing ratios are too high everywhere and the edge gradients are flatter than the ob served gradients. The comparison of mean N2O fields suggests realistic wave activity in the SKYHI Arctic winter but inadequate wave activity in the SKYHI Antarctic winter.