Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models

Projections of stratospheric ozone from a suite of chemistry-climate models (CCMs) have been analyzed. In addition to a reference simulation where anthropogenic halogenated ozone depleting substances (ODSs) and greenhouse gases (GHGs) vary with time, sensitivity simulations with either ODS or GHG co...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Eyring, V., Cionni, I., Bodeker, G. E., Charlton-Perez, A. J., Kinnison, D. E., Scinocca, J. F., Waugh, D. W., Akiyoshi, H., Bekki, S., Chipperfield, M. P., Dameris, M., Dhomse, S., Frith, S. M., Garny, H., Gettelman, A., Kubin, A., Langematz, U., Mancini, E., Marchand, M., Nakamura, T., Oman, L. D., Pawson, S., Pitari, G., Plummer, D. A., Rozanov, E., Shepherd, T. G., Shibata, K., Tian, W., Braesicke, P., Hardiman, S. C., Lamarque, J. F., Morgenstern, O., Pyle, J. A., Smale, D., Yamashita, Y.
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2010
Subjects:
article
Verlagsveröffentlichung
Antarctic
Arctic
The Antarctic
Antarc*
Antarctica
Climate change
Online Access:https://doi.org/10.5194/acp-10-9451-2010
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collection Niedersächsisches Online-Archiv NOA
op_collection_id ftnonlinearchiv
language English
topic article
Verlagsveröffentlichung
spellingShingle article
Verlagsveröffentlichung
Eyring, V.
Cionni, I.
Bodeker, G. E.
Charlton-Perez, A. J.
Kinnison, D. E.
Scinocca, J. F.
Waugh, D. W.
Akiyoshi, H.
Bekki, S.
Chipperfield, M. P.
Dameris, M.
Dhomse, S.
Frith, S. M.
Garny, H.
Gettelman, A.
Kubin, A.
Langematz, U.
Mancini, E.
Marchand, M.
Nakamura, T.
Oman, L. D.
Pawson, S.
Pitari, G.
Plummer, D. A.
Rozanov, E.
Shepherd, T. G.
Shibata, K.
Tian, W.
Braesicke, P.
Hardiman, S. C.
Lamarque, J. F.
Morgenstern, O.
Pyle, J. A.
Smale, D.
Yamashita, Y.
Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models
topic_facet article
Verlagsveröffentlichung
description Projections of stratospheric ozone from a suite of chemistry-climate models (CCMs) have been analyzed. In addition to a reference simulation where anthropogenic halogenated ozone depleting substances (ODSs) and greenhouse gases (GHGs) vary with time, sensitivity simulations with either ODS or GHG concentrations fixed at 1960 levels were performed to disaggregate the drivers of projected ozone changes. These simulations were also used to assess the two distinct milestones of ozone returning to historical values (ozone return dates) and ozone no longer being influenced by ODSs (full ozone recovery). The date of ozone returning to historical values does not indicate complete recovery from ODSs in most cases, because GHG-induced changes accelerate or decelerate ozone changes in many regions. In the upper stratosphere where CO2-induced stratospheric cooling increases ozone, full ozone recovery is projected to not likely have occurred by 2100 even though ozone returns to its 1980 or even 1960 levels well before (~2025 and 2040, respectively). In contrast, in the tropical lower stratosphere ozone decreases continuously from 1960 to 2100 due to projected increases in tropical upwelling, while by around 2040 it is already very likely that full recovery from the effects of ODSs has occurred, although ODS concentrations are still elevated by this date. In the midlatitude lower stratosphere the evolution differs from that in the tropics, and rather than a steady decrease in ozone, first a decrease in ozone is simulated from 1960 to 2000, which is then followed by a steady increase through the 21st century. Ozone in the midlatitude lower stratosphere returns to 1980 levels by ~2045 in the Northern Hemisphere (NH) and by ~2055 in the Southern Hemisphere (SH), and full ozone recovery is likely reached by 2100 in both hemispheres. Overall, in all regions except the tropical lower stratosphere, full ozone recovery from ODSs occurs significantly later than the return of total column ozone to its 1980 level. The latest return of total column ozone is projected to occur over Antarctica (~2045–2060) whereas it is not likely that full ozone recovery is reached by the end of the 21st century in this region. Arctic total column ozone is projected to return to 1980 levels well before polar stratospheric halogen loading does so (~2025–2030 for total column ozone, cf. 2050–2070 for Cly+60×Bry) and it is likely that full recovery of total column ozone from the effects of ODSs has occurred by ~2035. In contrast to the Antarctic, by 2100 Arctic total column ozone is projected to be above 1960 levels, but not in the fixed GHG simulation, indicating that climate change plays a significant role.
format Article in Journal/Newspaper
author Eyring, V.
Cionni, I.
Bodeker, G. E.
Charlton-Perez, A. J.
Kinnison, D. E.
Scinocca, J. F.
Waugh, D. W.
Akiyoshi, H.
Bekki, S.
Chipperfield, M. P.
Dameris, M.
Dhomse, S.
Frith, S. M.
Garny, H.
Gettelman, A.
Kubin, A.
Langematz, U.
Mancini, E.
Marchand, M.
Nakamura, T.
Oman, L. D.
Pawson, S.
Pitari, G.
Plummer, D. A.
Rozanov, E.
Shepherd, T. G.
Shibata, K.
Tian, W.
Braesicke, P.
Hardiman, S. C.
Lamarque, J. F.
Morgenstern, O.
Pyle, J. A.
Smale, D.
Yamashita, Y.
author_facet Eyring, V.
Cionni, I.
Bodeker, G. E.
Charlton-Perez, A. J.
Kinnison, D. E.
Scinocca, J. F.
Waugh, D. W.
Akiyoshi, H.
Bekki, S.
Chipperfield, M. P.
Dameris, M.
Dhomse, S.
Frith, S. M.
Garny, H.
Gettelman, A.
Kubin, A.
Langematz, U.
Mancini, E.
Marchand, M.
Nakamura, T.
Oman, L. D.
Pawson, S.
Pitari, G.
Plummer, D. A.
Rozanov, E.
Shepherd, T. G.
Shibata, K.
Tian, W.
Braesicke, P.
Hardiman, S. C.
Lamarque, J. F.
Morgenstern, O.
Pyle, J. A.
Smale, D.
Yamashita, Y.
author_sort Eyring, V.
title Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models
title_short Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models
title_full Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models
title_fullStr Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models
title_full_unstemmed Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models
title_sort multi-model assessment of stratospheric ozone return dates and ozone recovery in ccmval-2 models
publisher Copernicus Publications
publishDate 2010
url https://doi.org/10.5194/acp-10-9451-2010
https://noa.gwlb.de/receive/cop_mods_00046984
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00046604/acp-10-9451-2010.pdf
https://acp.copernicus.org/articles/10/9451/2010/acp-10-9451-2010.pdf
geographic Antarctic
Arctic
The Antarctic
geographic_facet Antarctic
Arctic
The Antarctic
genre Antarc*
Antarctic
Antarctica
Arctic
Climate change
genre_facet Antarc*
Antarctic
Antarctica
Arctic
Climate change
op_relation Atmospheric Chemistry and Physics -- http://www.atmos-chem-phys.net/volumes_and_issues.html -- http://www.bibliothek.uni-regensburg.de/ezeit/?2069847 -- 1680-7324
https://doi.org/10.5194/acp-10-9451-2010
https://noa.gwlb.de/receive/cop_mods_00046984
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https://acp.copernicus.org/articles/10/9451/2010/acp-10-9451-2010.pdf
op_rights uneingeschränkt
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container_title Atmospheric Chemistry and Physics
container_volume 10
container_issue 19
container_start_page 9451
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spelling ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00046984 2023-05-15T13:55:41+02:00 Multi-model assessment of stratospheric ozone return dates and ozone recovery in CCMVal-2 models Eyring, V. Cionni, I. Bodeker, G. E. Charlton-Perez, A. J. Kinnison, D. E. Scinocca, J. F. Waugh, D. W. Akiyoshi, H. Bekki, S. Chipperfield, M. P. Dameris, M. Dhomse, S. Frith, S. M. Garny, H. Gettelman, A. Kubin, A. Langematz, U. Mancini, E. Marchand, M. Nakamura, T. Oman, L. D. Pawson, S. Pitari, G. Plummer, D. A. Rozanov, E. Shepherd, T. G. Shibata, K. Tian, W. Braesicke, P. Hardiman, S. C. Lamarque, J. F. Morgenstern, O. Pyle, J. A. Smale, D. Yamashita, Y. 2010-10 electronic https://doi.org/10.5194/acp-10-9451-2010 https://noa.gwlb.de/receive/cop_mods_00046984 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00046604/acp-10-9451-2010.pdf https://acp.copernicus.org/articles/10/9451/2010/acp-10-9451-2010.pdf eng eng Copernicus Publications Atmospheric Chemistry and Physics -- http://www.atmos-chem-phys.net/volumes_and_issues.html -- http://www.bibliothek.uni-regensburg.de/ezeit/?2069847 -- 1680-7324 https://doi.org/10.5194/acp-10-9451-2010 https://noa.gwlb.de/receive/cop_mods_00046984 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00046604/acp-10-9451-2010.pdf https://acp.copernicus.org/articles/10/9451/2010/acp-10-9451-2010.pdf uneingeschränkt info:eu-repo/semantics/openAccess article Verlagsveröffentlichung article Text doc-type:article 2010 ftnonlinearchiv https://doi.org/10.5194/acp-10-9451-2010 2022-02-08T22:38:42Z Projections of stratospheric ozone from a suite of chemistry-climate models (CCMs) have been analyzed. In addition to a reference simulation where anthropogenic halogenated ozone depleting substances (ODSs) and greenhouse gases (GHGs) vary with time, sensitivity simulations with either ODS or GHG concentrations fixed at 1960 levels were performed to disaggregate the drivers of projected ozone changes. These simulations were also used to assess the two distinct milestones of ozone returning to historical values (ozone return dates) and ozone no longer being influenced by ODSs (full ozone recovery). The date of ozone returning to historical values does not indicate complete recovery from ODSs in most cases, because GHG-induced changes accelerate or decelerate ozone changes in many regions. In the upper stratosphere where CO2-induced stratospheric cooling increases ozone, full ozone recovery is projected to not likely have occurred by 2100 even though ozone returns to its 1980 or even 1960 levels well before (~2025 and 2040, respectively). In contrast, in the tropical lower stratosphere ozone decreases continuously from 1960 to 2100 due to projected increases in tropical upwelling, while by around 2040 it is already very likely that full recovery from the effects of ODSs has occurred, although ODS concentrations are still elevated by this date. In the midlatitude lower stratosphere the evolution differs from that in the tropics, and rather than a steady decrease in ozone, first a decrease in ozone is simulated from 1960 to 2000, which is then followed by a steady increase through the 21st century. Ozone in the midlatitude lower stratosphere returns to 1980 levels by ~2045 in the Northern Hemisphere (NH) and by ~2055 in the Southern Hemisphere (SH), and full ozone recovery is likely reached by 2100 in both hemispheres. Overall, in all regions except the tropical lower stratosphere, full ozone recovery from ODSs occurs significantly later than the return of total column ozone to its 1980 level. The latest return of total column ozone is projected to occur over Antarctica (~2045–2060) whereas it is not likely that full ozone recovery is reached by the end of the 21st century in this region. Arctic total column ozone is projected to return to 1980 levels well before polar stratospheric halogen loading does so (~2025–2030 for total column ozone, cf. 2050–2070 for Cly+60×Bry) and it is likely that full recovery of total column ozone from the effects of ODSs has occurred by ~2035. In contrast to the Antarctic, by 2100 Arctic total column ozone is projected to be above 1960 levels, but not in the fixed GHG simulation, indicating that climate change plays a significant role. Article in Journal/Newspaper Antarc* Antarctic Antarctica Arctic Climate change Niedersächsisches Online-Archiv NOA Antarctic Arctic The Antarctic Atmospheric Chemistry and Physics 10 19 9451 9472

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