Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings?

During September 2019 a minor sudden stratospheric warming took place over the Southern Hemisphere (SH), bringing disruption to the usually stable winter vortex. The mesospheric winds reversed and temperatures in the stratosphere rose by over 50 K. Whilst sudden stratospheric warmings (SSWs) in the...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Nordström, Viktoria J., Seppälä, Annika
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2021
Subjects:
article
Verlagsveröffentlichung
Antarctic
Merra
Antarc*
Online Access:https://doi.org/10.5194/acp-21-12835-2021
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https://acp.copernicus.org/articles/21/12835/2021/acp-21-12835-2021.pdf
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author Nordström, Viktoria J.
Seppälä, Annika
author_facet Nordström, Viktoria J.
Seppälä, Annika
author_sort Nordström, Viktoria J.
collection Niedersächsisches Online-Archiv NOA
container_issue 17
container_start_page 12835
container_title Atmospheric Chemistry and Physics
container_volume 21
description During September 2019 a minor sudden stratospheric warming took place over the Southern Hemisphere (SH), bringing disruption to the usually stable winter vortex. The mesospheric winds reversed and temperatures in the stratosphere rose by over 50 K. Whilst sudden stratospheric warmings (SSWs) in the SH are rare, with the only major SSW having occurred in 2002, the Northern Hemisphere experiences about six per decade. Amplification of atmospheric waves during winter is thought to be one of the possible triggers for SSWs, although other mechanisms are also possible. Our understanding, however, remains incomplete, especially with regards to SSW occurrence in the SH. Here, we investigate the effect of two equatorial atmospheric modes, the quasi-biennial oscillation (QBO) at 10 hPa and the semiannual oscillation (SAO) at 1 hPa during the SH winters of 2019 and 2002. Using MERRA-2 reanalysis data we find that the easterly wind patterns resembling the two modes merge at low latitudes in the early winter, forming a zero-wind line that stretches from the lower stratosphere into the mesosphere. This influences the meridional wave guide, resulting in easterly momentum being deposited in the polar atmosphere throughout the polar winter, decelerating the westerly winds in the equatorward side of the polar vortex. As the winter progresses, the momentum deposition and wind anomalies descend further down into the stratosphere. We find similar behaviour in other years with early onset SH vortex weakening events. The magnitude of the SAO and the timing of the upper stratospheric (10 hPa) easterly QBO signal was found to be unique in these years when compared to the years with a similar QBO phase. We were able to identify the SSW and weak vortex years from the early winter location of the zero-wind line at 1 hPa together with Eliassen–Palm flux divergence in the upper stratosphere at 40–50∘ S. We propose that this early winter behaviour resulting in deceleration of the polar winds may precondition the southern atmosphere for a ...
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Antarctic
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https://doi.org/10.5194/acp-21-12835-2021
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spelling ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00057990 2025-01-16T19:17:37+00:00 Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings? Nordström, Viktoria J. Seppälä, Annika 2021-08 electronic https://doi.org/10.5194/acp-21-12835-2021 https://noa.gwlb.de/receive/cop_mods_00057990 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00057640/acp-21-12835-2021.pdf https://acp.copernicus.org/articles/21/12835/2021/acp-21-12835-2021.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-21-12835-2021 https://noa.gwlb.de/receive/cop_mods_00057990 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00057640/acp-21-12835-2021.pdf https://acp.copernicus.org/articles/21/12835/2021/acp-21-12835-2021.pdf https://creativecommons.org/licenses/by/4.0/ uneingeschränkt info:eu-repo/semantics/openAccess article Verlagsveröffentlichung article Text doc-type:article 2021 ftnonlinearchiv https://doi.org/10.5194/acp-21-12835-2021 2024-06-26T04:38:21Z During September 2019 a minor sudden stratospheric warming took place over the Southern Hemisphere (SH), bringing disruption to the usually stable winter vortex. The mesospheric winds reversed and temperatures in the stratosphere rose by over 50 K. Whilst sudden stratospheric warmings (SSWs) in the SH are rare, with the only major SSW having occurred in 2002, the Northern Hemisphere experiences about six per decade. Amplification of atmospheric waves during winter is thought to be one of the possible triggers for SSWs, although other mechanisms are also possible. Our understanding, however, remains incomplete, especially with regards to SSW occurrence in the SH. Here, we investigate the effect of two equatorial atmospheric modes, the quasi-biennial oscillation (QBO) at 10 hPa and the semiannual oscillation (SAO) at 1 hPa during the SH winters of 2019 and 2002. Using MERRA-2 reanalysis data we find that the easterly wind patterns resembling the two modes merge at low latitudes in the early winter, forming a zero-wind line that stretches from the lower stratosphere into the mesosphere. This influences the meridional wave guide, resulting in easterly momentum being deposited in the polar atmosphere throughout the polar winter, decelerating the westerly winds in the equatorward side of the polar vortex. As the winter progresses, the momentum deposition and wind anomalies descend further down into the stratosphere. We find similar behaviour in other years with early onset SH vortex weakening events. The magnitude of the SAO and the timing of the upper stratospheric (10 hPa) easterly QBO signal was found to be unique in these years when compared to the years with a similar QBO phase. We were able to identify the SSW and weak vortex years from the early winter location of the zero-wind line at 1 hPa together with Eliassen–Palm flux divergence in the upper stratosphere at 40–50∘ S. We propose that this early winter behaviour resulting in deceleration of the polar winds may precondition the southern atmosphere for a ... Article in Journal/Newspaper Antarc* Antarctic Niedersächsisches Online-Archiv NOA Antarctic Merra ENVELOPE(12.615,12.615,65.816,65.816) Atmospheric Chemistry and Physics 21 17 12835 12853
spellingShingle article
Verlagsveröffentlichung
Nordström, Viktoria J.
Seppälä, Annika
Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings?
title Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings?
title_full Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings?
title_fullStr Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings?
title_full_unstemmed Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings?
title_short Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings?
title_sort does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of antarctic sudden stratospheric warmings?
topic article
Verlagsveröffentlichung
topic_facet article
Verlagsveröffentlichung
url https://doi.org/10.5194/acp-21-12835-2021
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https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00057640/acp-21-12835-2021.pdf
https://acp.copernicus.org/articles/21/12835/2021/acp-21-12835-2021.pdf

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