Vol. 27, issue 01, article # 8

Marichev V. N., Matvienko G. G., Lisenko A. A., Bochkovskii D. A., Kulikov Yu. Yu., Krasilnikov A. A., Ryskin V. G., Demkin V. M. Microwave and optical observation of ozone and temperature of the middle atmosphere during stratospheric warming at Western Siberia. // Optika Atmosfery i Okeana. 2014. V. 27. No. 01. P. [in Russian].
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Abstract:

Results of joint ground-based measurements of vertical structures of ozone and temperatures with the use microwave and lidar technical equipment during stratospheric warming are presented. During winter warming (December 2012 – January 2013) appreciable variations of ozone concentration and temperature in the middle atmosphere are registered. Changes of ozone concentration at height levels from 25 to 60 km increased by 1.5–2 times, the amplitude of their oscillations thus has considerably increased. The peak of a positive deviation of temperature from its monthly average value reached 70°K at a height of 30 km. Daily ozone oscillations at a height of 60 km, connected with sunset and sunrise, were about 30%.

Keywords:

stratosphere, mesosphere, microwave radiometry, lidar, ozone, temperature, stratospheric warming

References:

1. Waters J.W., Froidevaux L., Harwood R.S., Jarnot R.F. et al. The earth observing system microwave limb sounder (EOS MLS) on the Aura satellite // IEEE Trans. Geosci. Remote Sens. 2006. V. 44, N 5. P. 1075–1092.
2. Kulikov Ju.Ju., Krasil'nikov A.A., Ryskin V.G. Rezul'taty mikrovolnovyh issledovanij struktury ozonovogo sloja poljarnyh shirot vo vremja zimnih anomal'nyh poteplenij stratosfery // Izv. RAN. Fiz. atmosf. i okeana. 2002. V. 38, N2. P. 182–191.
3. Barnett J.J., Corney M. Middle atmosphere reference model derived from satellite data // Handbook for MAP. 1985. V.16. P. 47–85.
4. Marichev V.N. Lidarnye issledovanija projavlenija stratosfernyh poteplenij nad Tomskom v 2008–2010 years. // Optika atmosf. i okeana. 2011. V. 24, N5. P. 386–391.
5. URL: http://acd-ext.gsfc.nasa.gov/Data_services/met/ ann_data.html
6. Krasil'nikov A.A., Kulikov Ju.Ju., Ryskin V.G., Shhitov A.M. Mikrovolnovye priemniki dlja diagnostiki malyh gazovyh sostavljajushhih zemnoj atmosfery // Izv. RAN. Ser. fiz. 2003. V. 67, N12. P. 1788–1792.
7. Krasil'nikov A.A., Kulikov Ju.Ju., Ryskin V.G., Demkin V.M., Kukin L.M., Mihajlovskij V.L., Shanin V.N., Shejner M.Z., Shumilov V.A., Shhitov A.M. Novyj malogabaritnyj mikrovolnovyj spektroradiometr – ozonometr // Pribory i tehn. jeksperim. 2011. N1. P. 127–133.
8. Marichev V.N., Matvienko G.G., Lisenko A.A., Iljushik V.Ju., Kulikov Ju.Ju., Krasil'nikov A.A., Ryskin V.G. Pervye rezul'taty kompleksnogo jeksperimenta po zondirovaniju srednej atmosfery v opticheskom i millimetrovom diapazonah voln (nad Tomskom) // Optika atmosf. i okeana. 2012. V. 25, N12. P. 1091–1095.
9. URL: http://weather.uwyo.edu/upperair/sounding.html
10. URL: http://gdata1.sci.gsfc.nasa.gov/daac-bin/G3/gui. cgi? instance_id=omi
11. URL: http://mirador.gsfc.nasa.gov/cgi-bin/mirador/presentNavigation.pl?tree=project&project=MLS
12. El'nikov A.V., Krekov G.M., Marichev V.N. Lidarnye nabljudenija stratosfernogo sloja ajerozolja nad Zapadnoj Sibir'ju // Fizika atmosf. 1988. V. 24, N8. P. 818–823.
13. Hauchecorne A., Chanin M.-L. Density and temperature profiles obtained by lidar between 35 and 75 km // Geophys. Res. Lett. 1980. V. 7, N 8. P. 565–568.
14. Bras'e G., Solomon S. Ajeronomija srednej atmosfery. L.: Gidrometeoizdat, 1987. 415 p.
15. Kulikov Ju.Ju., Ryskin V.G., Krasil'nikov A.A., Kukin L.M. Mikrovolnovye nabljudenija izmenchivosti ozona v stratosfere vysokih shirot zimoj 2002–2003 years. // Izv. vuzov. Radiofiz. 2005. V. 48, N2. P. 134–141.
16. Marichev V.N. Lidarnye issledovanija osobennosti zimnih stratosfernyh poteplenij nad Tomskom 2010/11, 2011/12 i 2012/13 years. // Fundamental'nye i prikladnye problemy nauki. V. 6: Materialy VIII Mezhdunar. simpoz. M.: RAN, 2013. P. 73–78.