Editorial Type:
Article
Article Type:
Research Article

GOME Observations of Stratospheric Trace Gas Distributions during the Splitting Vortex Event in the Antarctic Winter of 2002. Part I: Measurements

Andreas Richter Institute for Environmental Physics, University of Bremen, Bremen, Germany

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Folkard Wittrock Institute for Environmental Physics, University of Bremen, Bremen, Germany

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Mark Weber Institute for Environmental Physics, University of Bremen, Bremen, Germany

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Steffen Beirle Institute for Environmental Physics, University of Heidelberg, Heidelberg, Germany

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Sven Kühl Institute for Environmental Physics, University of Heidelberg, Heidelberg, Germany

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Ulrich Platt Institute for Environmental Physics, University of Heidelberg, Heidelberg, Germany

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Thomas Wagner Institute for Environmental Physics, University of Heidelberg, Heidelberg, Germany

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Walburga Wilms-Grabe Institute for Environmental Physics, University of Heidelberg, Heidelberg, Germany

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John P. Burrows Institute for Environmental Physics, University of Bremen, Bremen, Germany

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Print Publication:
01 Mar 2005
DOI:
https://doi.org/10.1175/JAS-3325.1
Page(s):
778–785
Restricted access

Abstract

Measurements from the Global Ozone Monitoring Experiment (GOME) are used to study the chemical evolution of the stratosphere during the unusual 2002 winter in the Southern Hemisphere. The results show that chlorine activation as indicated by OClO columns was similar to previous years in the vortex until the major warming on 26 September 2002 after which it decreased rapidly. Similarly, NO2 columns were only slightly larger than in previous years before the warming, indicating strong denoxification and probably also denitrification. After the warming, very large NO2 columns were observed for a few days, which then decreased again as the vortex reestablished itself until the final warming. Ozone columns were much larger than in any previous year from September onward, mainly as a result of the unusual dynamical situation. Analysis of the global long-term time series of GOME measurements since 1996 provides a unique opportunity to set the austral winter 2002 into perspective. The GOME data reveal the large difference in variability of chlorine activation between the two hemispheres, whereas denoxification shows surprisingly little variation from year to year in both hemispheres. However, NO2 depletion in the Southern Hemisphere is usually sustained for about one month longer in the Antarctic stratosphere as a result of the stable vortex. Compared to the observations in the Northern Hemisphere, the austral winter 2002 was still stable and cold and had a high potential for chemical ozone destruction.

Corresponding author address: Dr. Andreas Richter, Institute of Environmental Physics, University of Bremen, P.O. Box 33 04 40, D-28334 Bremen, Germany. Email: andreas.richter@iup.physik.uni-bremen.de

Abstract

Measurements from the Global Ozone Monitoring Experiment (GOME) are used to study the chemical evolution of the stratosphere during the unusual 2002 winter in the Southern Hemisphere. The results show that chlorine activation as indicated by OClO columns was similar to previous years in the vortex until the major warming on 26 September 2002 after which it decreased rapidly. Similarly, NO2 columns were only slightly larger than in previous years before the warming, indicating strong denoxification and probably also denitrification. After the warming, very large NO2 columns were observed for a few days, which then decreased again as the vortex reestablished itself until the final warming. Ozone columns were much larger than in any previous year from September onward, mainly as a result of the unusual dynamical situation. Analysis of the global long-term time series of GOME measurements since 1996 provides a unique opportunity to set the austral winter 2002 into perspective. The GOME data reveal the large difference in variability of chlorine activation between the two hemispheres, whereas denoxification shows surprisingly little variation from year to year in both hemispheres. However, NO2 depletion in the Southern Hemisphere is usually sustained for about one month longer in the Antarctic stratosphere as a result of the stable vortex. Compared to the observations in the Northern Hemisphere, the austral winter 2002 was still stable and cold and had a high potential for chemical ozone destruction.

Corresponding author address: Dr. Andreas Richter, Institute of Environmental Physics, University of Bremen, P.O. Box 33 04 40, D-28334 Bremen, Germany. Email: andreas.richter@iup.physik.uni-bremen.de

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