Vol. 31, issue 11, article # 6

Sklyadneva T. K., Belan B. D., Rasskazchikova T. M., Arshinova V. G. Change in the synoptic regime of Tomsk in the late XX – early XXI centuries. // Optika Atmosfery i Okeana. 2018. V. 31. No. 11. P. 895–901. DOI: 10.15372/AOO20181106 [in Russian].
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Abstract:

Synoptic processes observed in Tomsk region between 1993 and 2016 are analyzed. A significant decrease in the difference in the frequency of cyclones and anticyclones over the past decade is revealed. There is a tendency to decline in the frequency of Arctic air mass invasion and growth of subtropical and tropical ones.

Keywords:

synoptic process, cyclone, anticyclone, air mass

References:

   1. Burke M., Davis W.M., Diffenbaugh N.S. Large potential reduction in economic damages under UN mitigation targets // Nature. 2018. V. 557, N 7706. P. 549–553.
   2. IPCC, Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change / S. Solomon, D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M. Tignor, H.L. Miller (eds.). Cambridge, United Kingdom; New York, USA: Cambridge University Press, 2007. 996 p.
   3. IPCC, Climate change 2013: The Physical Science basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change / T.F. Stocker, D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex, P.M. Midgley (eds.). Cambridge, United Kingdom; New York, USA: Cambridge University Press, 2013. 1535 p.
   4. Liu C. Severe weather in a warming climate // Nature. 2017. V. 544, N 7651. P. 422–423.
   5. Siepielski A.M., Morrissey M.B., Buoro M., Carlson S.M., Caruso C.M., Clegg S.M., Coulson T., DiBattista J., Gotanda K.M., Francis C.D., Hereford J., Kingsolver J.G., Augustine K.E., Kruuk L.E.B., Martin R.A., Sheldon B.C., Sletvold N., Svensson E.I., Wade M.J., MacColl A.D.C. Precipitation drives global variation in natural selection // Science. 2017. V. 355, N 6328. P. 959–962.
   6. Vtoroj otsenochnyj doklad Rosgidrometa ob izmeneniyakh klimata i ikh posledstviyakh na territorii Rossijskoj Federatsii. M.: Rosgidromet, 2014. 235 p.
   7. Coumou D., Lehmann J., Beckmann J. The weakening summer circulation in the Northern Hemisphere mid-latitudes // Science. 2015. V. 348, N 6232. P. 324–327.
   8. Popova V.V. Sovremennye izmeneniya klimata na severe Evrazii kak proyavlenie variatsij krupnomasshtabnoj atmosfernoj tsirkulyatsii // Fundam. i prikl. klimatol. 2018. N 1. P. 84–111.
   9. Kononova N.K. Izmeneniya tsirkulyatsij atmosfery Severnogo polushariya v XX–XXI stoletiyakh i ikh posledstviya dlya klimata // Fundam. i prikl. klimatol. 2015. N 1. P. 133–162.
10. Antokhina O.Yu., Antokhin P.N., Devyatova E.V., Zorkal'tseva O.S. Atmosfernye blokingi v Zapadnoj Sibiri. Part I: Osobennosti obnaruzheniya, ob"ektivnye kriterii i ikh sravnenie // Meteorol. i gidrol. 2017. N 10. P. 29–39.
11. Antokhin P.N., Antokhina O.Yu., Devyatova E.V., Martynova Yu.V. Atmosfernye blokingi v Zapadnoj Sibiri. Part II: Dolgovremennye variatsii i ikh svyaz' s klimaticheskoj izmenchivost'yu v Azii // Meteorol. i gidrol. 2018. N 3. P. 16–27.
12. Rennert K.J., Wallace J.M. Cross-frequency coupling, skewness and blocking in the Northern Hemisphere winter circulation // J. Clim. 2009. V. 22. P. 5650–5666.
13. Mokhov I.I. Osobennosti formirovaniya letnej zhary 2010 year na evropejskoj territorii Rossii v kontekste obshchikh izmenenij klimata i ego anomalij // Izv. RAN. Fiz. atmosf. i okeana. 2011. V. 47, N 6. P. 709–716.
14. Cheung H.N., Zhou W., Mok H.Y., Wu M.C., Shao Y. Revisiting the climatology of atmospheric blocking in the Northern Hemisphere // Adv. Atmos. Sci. 2013. V. 30, N 2. P. 397–410.
15. Barriopedro D., García-Herrera R., Lupo A.R., Hernández E. A climatology of Northern Hemisphere blocking // J. Clim. 2006. V. 19. P. 1042–1063.
16. Bardin M.Yu., Platova T.V., Samokhina O.F. Osobennosti izmenchivosti tsiklonicheskoj aktivnosti v umerennykh shirotakh Severnogo polushariya, svyazannye s vedushchimi modami atmosfernoj tsirkulyatsii v Atlantiko-Evropejskom sektore // Fundam. i prikl. klimatol. 2015. N 2. P. 14–40.
17. King M.P., Kucharski F., Molteni F. The roles of external forcings and internal variabilities in the Northern Hemisphere atmospheric circulation change from the 1960s to the 1990s // J. Clim. 2010. V. 23. P. 6200–6220.
18. Gorbatenko V.P., Ippolitov I.I., Loginov S.V., Podnebesnykh N.V. Issledovanie tsiklonicheskoj i antitsiklonicheskoj aktivnosti na territorii Zapadnoj Sibiri po dannym reanaliza NCEP/DOE AMIP-II i sinopticheskikh kart // Optika atmosf. i okeana. 2009. V. 22, N 1. P. 38–41.
19. Podnebesnykh N.V., Ippolitov I.I. Kharakteristiki tsiklonov i antitsiklonov nad Sibir'yu v kontse XX v. – nachale XXI v. // Meteorol. i gidrol. 2017. N 4. P. 27–37.
20. Arshinova V.G., Belan B.D., Rasskazchikova T.M. Rezul'taty klimato-ekologicheskogo monitoringa na TOR-stantsii. Part 1. Sinopticheskij rezhim i meteorologicheskie parametry // Optika atmosf. i okeana. 1995. V. 8, N 5. P. 732–738.
21. Belan B.D., Rasskazchikova T.M., Sklyadneva T.K. Sinopticheskij rezhim Tomska za 1993–2004 years. // Optika atmosf. i okeana. 2005. V. 18, N 10. P. 887–892.
22. Sklyadneva T.K., Rasskazchikova T.M., Arshinova V.G. Sinopticheskaya baza Tomska // Svidetel'stvo o gosudarstvennoj registratsii bazy dannykh N 2013620769 ot 1 july 2013 year. Pravoobladatel': IOA SO RAN (RU).
23. Prognoz i kontrol' optiko-meteorologicheskogo sostoyaniya atmosfery / pod red. G.O. Zadde. Tomsk: TF SO AN SSSR, 1982. 153 p.
24. Rukovodstvo po kratkosrochnym prognozam pogody. Part. 2. Ural i Sibir'. L.: Gidrometeoizdat, 1986. 198 p.
25. Bordovskaya L.I., Tsybul'skij A.E. Povtoryaemost' i skorost' dvizheniya tsiklonov i antitsiklonov nad Zapadnoj Sibir'yu // Voprosy geografii Sibiri. 1974. Iss. 7. P. 64–98.