Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex

In-situ measurements of ozone and water vapour, in the Antarctic lower stratosphere, were made as part of the APE-GAIA mission in September and October 1999. The measurements show a distinct difference above and below the 415K isentrope. Above 415K, the chemically perturbed region of low ozone and w...

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Published in:Annales Geophysicae
Main Authors: Peet, E., Rudakov, V., Yushkov, V., Redaelli, G., MacKenzie, A. R.
Format: Text
Language:English
Published: 2018
Subjects:
Antarctic
Austral
The Antarctic
Antarc*
Online Access:https://doi.org/10.5194/angeo-22-4035-2004
https://angeo.copernicus.org/articles/22/4035/2004/
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spelling ftcopernicus:oai:publications.copernicus.org:angeo35568 2023-05-15T13:36:36+02:00 Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex Peet, E. Rudakov, V. Yushkov, V. Redaelli, G. MacKenzie, A. R. 2018-09-27 application/pdf https://doi.org/10.5194/angeo-22-4035-2004 https://angeo.copernicus.org/articles/22/4035/2004/ eng eng doi:10.5194/angeo-22-4035-2004 https://angeo.copernicus.org/articles/22/4035/2004/ eISSN: 1432-0576 Text 2018 ftcopernicus https://doi.org/10.5194/angeo-22-4035-2004 2020-07-20T16:27:31Z In-situ measurements of ozone and water vapour, in the Antarctic lower stratosphere, were made as part of the APE-GAIA mission in September and October 1999. The measurements show a distinct difference above and below the 415K isentrope. Above 415K, the chemically perturbed region of low ozone and water vapour is clearly evident. Below 415K, but still above the tropopause, no sharp meridional gradients in ozone and water vapour were observed. The observations are consistent with analyses of potential vorticity from the European Centre for Medium Range Weather Forecasting, which show smaller radial gradients at 380K than at 450K potential temperature. Ozone loss in the chemically perturbed region above 415K averages 5ppbv per day for mid-September to mid-October. Apparent ozone loss rates in the sub-vortex region are greater, at 7ppbv per day. The data support, therefore, the existence of a sub-vortex region in which meridional transport is more efficient than in the vortex above. The low ozone mixing ratios in the sub-vortex region may be due to in-situ chemical destruction of ozone or transport of ozone-poor air out of the bottom of the vortex. The aircraft data we use cannot distinguish between these two processes. Key words. Meteorology and atmospheric dynamics polar meteorology) – Atmospheric composition and structure (middle atmosphere–composition and chemistry) Text Antarc* Antarctic Copernicus Publications: E-Journals Antarctic Austral The Antarctic Annales Geophysicae 22 12 4035 4041
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description In-situ measurements of ozone and water vapour, in the Antarctic lower stratosphere, were made as part of the APE-GAIA mission in September and October 1999. The measurements show a distinct difference above and below the 415K isentrope. Above 415K, the chemically perturbed region of low ozone and water vapour is clearly evident. Below 415K, but still above the tropopause, no sharp meridional gradients in ozone and water vapour were observed. The observations are consistent with analyses of potential vorticity from the European Centre for Medium Range Weather Forecasting, which show smaller radial gradients at 380K than at 450K potential temperature. Ozone loss in the chemically perturbed region above 415K averages 5ppbv per day for mid-September to mid-October. Apparent ozone loss rates in the sub-vortex region are greater, at 7ppbv per day. The data support, therefore, the existence of a sub-vortex region in which meridional transport is more efficient than in the vortex above. The low ozone mixing ratios in the sub-vortex region may be due to in-situ chemical destruction of ozone or transport of ozone-poor air out of the bottom of the vortex. The aircraft data we use cannot distinguish between these two processes. Key words. Meteorology and atmospheric dynamics polar meteorology) – Atmospheric composition and structure (middle atmosphere–composition and chemistry)
format Text
author Peet, E.
Rudakov, V.
Yushkov, V.
Redaelli, G.
MacKenzie, A. R.
spellingShingle Peet, E.
Rudakov, V.
Yushkov, V.
Redaelli, G.
MacKenzie, A. R.
Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex
author_facet Peet, E.
Rudakov, V.
Yushkov, V.
Redaelli, G.
MacKenzie, A. R.
author_sort Peet, E.
title Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex
title_short Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex
title_full Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex
title_fullStr Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex
title_full_unstemmed Ozone and water vapour in the austral polar stratospheric vortex and sub-vortex
title_sort ozone and water vapour in the austral polar stratospheric vortex and sub-vortex
publishDate 2018
url https://doi.org/10.5194/angeo-22-4035-2004
https://angeo.copernicus.org/articles/22/4035/2004/
geographic Antarctic
Austral
The Antarctic
geographic_facet Antarctic
Austral
The Antarctic
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_source eISSN: 1432-0576
op_relation doi:10.5194/angeo-22-4035-2004
https://angeo.copernicus.org/articles/22/4035/2004/
op_doi https://doi.org/10.5194/angeo-22-4035-2004
container_title Annales Geophysicae
container_volume 22
container_issue 12
container_start_page 4035
op_container_end_page 4041
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