2013
DOI: 10.5194/angeo-31-1397-2013
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The impact of planetary waves on the latitudinal displacement of sudden stratospheric warmings

Abstract: The Northern Hemispheric winter is disturbed by large scale variability mainly caused by Planetary Waves (PWs), which interact with the mean flow and thus result in Sudden Stratospheric Warmings (SSWs). The effects of a SSW on the middle atmosphere are an increase of stratospheric and a simultaneous decrease of mesospheric temperature as well as a wind reversal to westward wind from the mesosphere to the stratosphere. In most cases these disturbances are strongest at polar latitudes, get weaker toward the sout… Show more

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Cited by 31 publications
(36 citation statements)
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“…Further, the observed mean characteristics of the MLT dynamics agree reasonably well with the zonal-mean behavior as for instance discussed in Hoffmann et al (2010). In contrast, the winter season is mainly dominated by the presence of planetary waves, which disturb the propagation of GWs (see, e.g., Pancheva and Mitchell, 2004;Matthias et al, 2013). This additional influence of the planetary waves on the momentum balance is not considered by the SMF radar observations in this study.…”
Section: Mean Annual Variationsupporting
confidence: 83%
“…Further, the observed mean characteristics of the MLT dynamics agree reasonably well with the zonal-mean behavior as for instance discussed in Hoffmann et al (2010). In contrast, the winter season is mainly dominated by the presence of planetary waves, which disturb the propagation of GWs (see, e.g., Pancheva and Mitchell, 2004;Matthias et al, 2013). This additional influence of the planetary waves on the momentum balance is not considered by the SMF radar observations in this study.…”
Section: Mean Annual Variationsupporting
confidence: 83%
“…Matthias et al (2013) used observations as well as reanalysis data to study the latitudinal displacement of SSWs throughout the Northern Hemisphere middle atmosphere. Although in most cases disturbances related to SSWs are strongest over the polar region, these disturbances have been observed to shift to mid-latitudes, which has been linked to increased mid-latitude PW activity (Matthias et al, 2013).…”
Section: Published By Copernicus Publications On Behalf Of the Europementioning
confidence: 99%
“…Matthias et al (2013) used observations as well as reanalysis data to study the latitudinal displacement of SSWs throughout the Northern Hemisphere middle atmosphere. Although in most cases disturbances related to SSWs are strongest over the polar region, these disturbances have been observed to shift to mid-latitudes, which has been linked to increased mid-latitude PW activity (Matthias et al, 2013). Fritz and Soules (1970) were the first to show, using satellite radiance observations, that SSWs are accompanied by a simultaneous cooling over the equatorial region as well as the summer hemisphere at stratospheric levels.…”
Section: Published By Copernicus Publications On Behalf Of the Europementioning
confidence: 99%
See 1 more Smart Citation
“…Comparison of these results to the average behaviour of major SSWs show that both coupling processes are characterised by a wind weakening/reversal in the middle atmosphere (e.g. Limpasuvan et al, 2004;Matthias et al, 2013). However, while the hiccup seems to propagate upward, studies of Matthias et al (2012) show an ∼ 4 days earlier onset of the wind reversal in the mesosphere than in the stratosphere in composite analysis of major SSWs implying a downward propagation.…”
Section: Resultsmentioning
confidence: 82%