POAM II ozone observations in the Antarctic ozone hole in 1994, 1995, and 1996

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Abstract

We present an overview of Polar Ozone and Aerosol Measurement (POAM) II satellite-based observations of ozone in the Antarctic ozone hole in 1994, 1995, and 1996. The POAM II observations are consistent with previous observations suggesting that ozone loss in the ozone hole is confined to the polar vortex. Ozone concentrations are observed to decrease by nearly a factor of 10 near 20 km during the ozone hole formation period, and a reduction in ozone was observed up to 24 km. The timing of ozone loss and recovery was similar in each year. Ozone concentrations begin to decrease in July, and the period of largest depletion observed by POAM II occurs between early September and early October, when the observations are obtained at high southern latitudes (82°-88°S) near the vortex center. However, ozone concentrations were consistently lower (by about 10%) in 1996, throughout the ozone hole altitude region and time period, than in the other two years. We have also used the POAM II observations to compute vertical profiles of monthly averaged ozone photochemical loss rates as a function of potential temperature in August (450-800 K) and September (450-700 K) of each year, incorporating a correction for diabatic descent. We find that the ozone loss rates are no significantly different from zero in August 1994 at any potential temperature level. However, we do find significant chemical loss in August 1995 below 600 K, and in August 1996 at all levels up to 700 K. Maximum monthly averaged ozone chemical loss rates occurred in September near 500 K in each year (1994: 0.1 ± 0.004 parts per million by volume per day (ppmv/d); 1995 and 1996: 0.08 ± 0.004 ppmv/d). Generally, in September, loss rates were larger in 1994 than in 1995 and 1996 below 550 K, and above 550 K the largest loss rates occurred in 1996. We find significant chemical loss up to at least 700 K in September in all three years. Finally, the POAM II observations show that in late spring, after the ozone hole chemical processing has been completed, ozone mixing ratio are lower inside the Antarctic vortex (relative to outside the vortex) at all levels between at least 450 K and 1500 K, presumably resulting from a combination of dynamical and chemical effects.

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Bevilacqua, R. M., Aellig, C. P., Debrestian, D. J., Fromm, M. D., Hoppel, K., Lumpe, J. D., … Rosenfield, J. E. (1997, October 20). POAM II ozone observations in the Antarctic ozone hole in 1994, 1995, and 1996. Journal of Geophysical Research Atmospheres. Blackwell Publishing Ltd. https://doi.org/10.1029/97jd01623

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