Ar. Douglass et al., A 3-DIMENSIONAL SIMULATION OF THE OZONE ANNUAL CYCLE USING WINDS FROMA DATA ASSIMILATION SYSTEM, JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 101(D1), 1996, pp. 1463-1474
The wind fields from the NASA Goddard stratospheric data assimilation
procedure are used in a three-dimensional chemistry and transport mode
l to produce an ozone simulation for the year September 11, 1991 to Se
ptember 10, 1992. Photochemical production and loss are taken from the
Goddard two-dimensional model. The calculated ozone is compared with
observations from the total ozone mapping spectrometer (TOMS) on board
Nimbus 7 and the microwave limb sounder on the upper atmospheric rese
arch satellite. Although the model total ozone is about 50 Dobson unit
s (DU; = 2.69 x 10(-16) molecules cm(-2)) lower than TOMS in the tropi
cs and up to 70 DU higher than TOMS in middle to high latitudes, the s
imulated ozone fields reproduce many of the features in the observatio
ns. Even at the end of this integration, the synoptic features in the
modeled total ozone are very similar to TOMS observations, indicating
that the model maintains realistic values for the horizontal and verti
cal gradients, at least in the lower stratosphere. From this good comp
arison between model and observations on timescales ranging from days
to months, we infer that the transport driven by the assimilated wind
fields closely approximates the actual atmospheric transport. Therefor
e the assimilated winds are useful for applications which may be sensi
tive to the lower stratospheric transport.