Sun activity and repetition of atmospheric circulation of meridional southern type

Authors

  • Александр Вадимович Холопцев Sevastopol Maritime Academy,
  • Мария Павловна Никифорова Sevastopol Maritime Academy st. Rybakov, 7, g Sevastopol, 99055,

DOI:

https://doi.org/10.15587/2313-8416.2015.40444

Keywords:

sun activity, atmospheric circulation, sea surface temperature, total ozone amount

Abstract

Sun activity variations have the strongest statistical connection with interannual changes of repetition in Northern hemisphere of elementary circulation mechanisms associated to Meridional southern group in June, is shown. During 1955–2012 years connection strength between these processes stably increased. This allows to assume, that possibility of its sharp decrease within the next few years is low

Author Biographies

Александр Вадимович Холопцев, Sevastopol Maritime Academy

Professor, Doctor of Geographical Sciences

member of the Crimean Academy of Sciences and the Polish Academy of Sciences (Committee on Meteorology and Agroclimatology)

Navigation faculty

 

Scopus profile: link

GoogleScholar profile: link

ID ORCID: http://orcid.org/0000-0002-8293-0062

Professional (scientific) interests: physical geography, climatology

 

Selected Publications:

1. Kholopcev, A. V., Bol'shih, A. V. (2014). Tendencii izmenenij srednemesjachnyh znachenij poverhnostnyh temperatur atlanticheskogo okeana v nachale HHI veka. Ljudina ta dovkіllja. Problemi neoekologіi,1-2, 62‑69.

2. Kholopcev, A. V., Parubec, O. V. (2014). Prognozirovanie klimaticheskih norm srednegodovyh temperatur prizemnogo sloja atmosfery na Juzhnom beregu Kryma s ispol'zovaniem metoda mnozhestvennoj regressii. Issledovanija v oblasti estestvennyh nauk, 8.

3. Kholopcev, A. V., Bol'shih, A. V. (2014). Mezhgodovye izmenenija sostojanij arkticheskogo i severoatlanticheskogo kolebanij kak faktory variacij oso v zemnoj atmosphere. Vіsnik HNU іmenі V. N. Karazіna, Serіja «Ekologіja», 1104 (10), 46‑54.

4. Kholopcev, A. V., Nikiforova, M. P. (2012). Izmenenija raspredelenija srednegodovyh temperatur poverhnosti Atlanticheskogo okeana pri sovremennom poteplenii klimata. Ljudina ta dovkіllja. Problemi neoekologіi, 3-4, 36‑48.

5. Kholopcev, A. V., Burakova, A. V., Sevrikov, V. V. (2008). O vozmozhnostjah ispol'zovanija metoda trianguljacii Delone pri jekstrapoljacii znachenij srednemesjachnyh temperatur prizemnogo sloja atmosfery nad razlichnymi punktami na territorii Ukrainy. Kul'tura narodov Prichernomor'ja, 155‑159.

6. Kholopcev, A. V., Shilovskaja, Ju. E. (2013). Svjazi prostranstvenno-vremennoj izmenchivosti poverhnostnyh temperatur okeanicheskih akvatorij, a takzhe temperatur vozduha i modulja skorosti vetra v prizemnom sloe atmosfery, nad zonami ih vlijanija. Vіsnik ONU. Ser.: Geografіchnі ta geologіchnі nauki, 18/2(18), 61 72.

7. Kholopcev, A. V.The approximate forecast of winter temperatures in Crimean mountains with accounting the suboptimal set of factors. ScienceRise, . 4/1 (4), 37‑46. doi: 10.15587/2313-8416.2014.28595

 

Мария Павловна Никифорова, Sevastopol Maritime Academy st. Rybakov, 7, g Sevastopol, 99055

Candidate of geographical sciences, senior lecturer

Navigation and Maritime Safety department

References

Chizjevskiy, A. L. (1974). Earth echo of sun storms. Moscow: Science, 323.

Miroshnichenko, L. I. (1984). Sun activity and Earth. Moscow: Science, 276.

Ivanov-Holodnyi, G. S., Cusinov, A. A. (1987). Shortwave radiation of Sun and its action on upper atmosphere and ionosphere. Studying of outer space. Results of science and technics. VINITI: Collection of science proceedings, 26, 80–154.

Kholoptsev, A. V., Nikiforova, M. P. (2014). The role of sun activity and ozonosphere states in global darkening of Earth atmosphere. ScienceRise, 5/1(5), 23–35. doi: 10.15587/2313-8416.2014.29735

Kalmykov, N. N., Kulikov, G. V., Roganova, T. M. Galactic cosmic rays. Available at: http://www.kosmofizika.ru/abmn/kalmikov/cosrays.htm

Fedorov, E. E. (1921). The impact of sun spots on air temperature and pressure. Proceedings of Main physical observatory, 3, 64–72.

Vanheim, G. Ya. (1946). About atmospheric circulation fluctuations over Northern hemisphere. Proceedings of AN SSSR. Ser. Geography and Geophysics, 5, 405–416

Dzerdievskiy, B. L., Kurganskaya, V. M., Vitvickaya, Z. M. (1946). Typification of circulation mechanisms in Northern hemisphere and characteristics of synoptical seasons. Proc. Sc. found. Of Hydro-met. Serv. Under Min.Sov. SSSR. Ser.2 Synoptical meteorology; Vol. 21. Central institution of forecasts. M., L. Hydrometeoizdat, 80.

Girs, A. A. (1974). Macrocirculation method of longterm meteorological forecasts. Lviv: Hydrometeoizdat, 488.

Kononova, N. K. (2014). Atmosphere circulation in European sector of Northern hemisphere in XXI c. and temperature variations in Crimea. Geopolitics and ecogeodynamics of regions, 10 (1), 633–640.

Matveev, L. A. (1991). Theory of atmospheric circulation and Earth climate. Lviv: Hydrometeoizdat, 291.

Sidorenkov, N. S., Svirenko, P. I. (1991). Longstanding changes of atmospheric circulation and climate variations in first natural synoptical district. HydrometeoService Proceedings SSSR, 316, 93–105.

Martazinova, V. F., Sverdlik, T. A. (1998). Largescale atmosphere circulation in XX cen., its changes and modern condition. Science works of Ukrainian science-studying hydrometeorological institute, 246, 21–27.

Kamenkovich, V. M., Monin, A. S. (Eds.) (1978). Oceanology. Vol. 1. Hydrophysics of ocean. Moscow: Science, 456.

Database of changes of SST anomalies of World ocean different areas. Available at: http://wxweb.meteostar.com/SST/index.shtml?point=730

Database of changes during 1899–2011 yrs. Of elementary circulation mechanisms repetitions in Northern hemisphere. Available at: http://atmospheric-circulation.ru/

Database of Wolf numbers. Available at: http://www.gao.spb.ru/database/esai.html

Database of ozonosphere conditions Available at: http://woudc.org

Skvorcov, A. V. (2002). Delone Triangulation method and its use. Tomsk: Tomsk State University, 128.

Database on changes in the 1899–2011 gg. The total duration of the periods during which the ECM different groups prevailed in the northern hemisphere. Available at: http://atmospheric-circulation.ru/

Published

2015-04-24

Issue

Section

Geological and geographical sciences