Extreme temperature anomalies in the Black Sea region associated with different El Niño and La Niña types

O.Yu. Kovalenko, E.N. Voskresenskaya

Institute of Natural and Technical Systems, Russian Federation, Sevastopol, Lenin St., 28

E-mail: kovalenko_olga89@mail.ru, elena_voskr@mail.ru

DOI: 10.33075/2220-5861-2017-3-89-94

UDC 551.583.13

Abstract:

   Features of manifestation of different El Niño and La Niña types on the temperature anomalies and number of extreme cold days in the Black sea region are investigated in the paper. Composite analysis have done and it is found differences between types events for temperature characteristics during year of the onset El Niño / La Niña event and the next year after its decay.

Keywords: temperature anomaly, number of days with extreme cold temperature, percentile, El Niño, La Niña, the Black Sea region.

Full text in PDF (RUS)

LIST OF REFERENCES

  1. Brönnimann S. An extreme anomaly in stratospheric ozone over Europe in 1940–1942. S. Brönnimann, J. Luterbache, J. Staehelin [et al.]. Geophysical Research. 2004. Letters 31. doi: 10.1029/2004GL019611.
  2. El Niño and La Niña [Jelektronnyj resurs]. Available: https://www.climate.gov/enso (data obrashhenija: 03.07.2017).
  3. O svjazi klimaticheskih anomalij na territorii Rossii s javleniem Jel’Nin’o – Juzhnoe kolebanie / G.V. Gruza, Je.Ja. Ran’kova, L.K. Kleshhenko [i dr.]. Meteorologija i gidrologija. 1999. No 5. pp. 32–51.
  4. Mohov I.I., Timazhev A.V. Klimaticheskie anomalii v regionah Evrazii: jeffekty javlenij Jel’-Nin’o/La-Nin’ja. Doklady akademii nauk. 2013. Vol. 453. No 2. pp. 211–214.
  5. Voskresenskaja E.N., Mihajlova N.V. Osobennosti izmenchivosti gidrometeoharakteristik Chernomorskogo regiona pod vlijaniem raznyh tipov Jel’Nin’o. Sistemy kontrolja okruzhajushhej sredy. Sevastopol’: MGI, 2005. pp. 262-267.
  6. Voskresenskaja E.N., Mihajlova N.V. Klassifikacija sobytij Jel’-Nin’o i pogodno-klimaticheskie anomalii v Chernomorskom regione. Dopovidi nacіonal’noї akademії nauk Ukraїni. 2010. No 3. pp. 124–130.
  7. El Nino Modoki and its possible teleconnection. K. Ashok, S.K. Behera, S.A. Rao [et al.] .Geophysical research letters. 2007. 112. C11007.
  8. Weng H., Behera S.K., Yamagata T. Anomalous winter climate conditions in the Pacific Rim during recent El Nino Modoki and El Nino events. Climate Dynamics. 2009. Vol. 32. pp. 663–674.
  9. Voskresenskaja E.N., Marchukova O.V. Prostranstvennaja klassifikacija La-Nin’ja. Izvestija RAN. Fizika atmosfery i okeana. 2017. Vol. 53. No 1. pp. 125–134. doi: 7868/S0002351517010138.
  10. Zheleznova I.V., Gushhina D.Ju. Otklik global’noj cirkuljacii atmosfery na dva tipa Jel’-Nin’o // Meteorologija i gidrologija. 2015. No 3. pp. 36–50.
  11. European Climate Assessment & Dataset project [Jelektronnyj resurs]. Available: http://eca.knmi.nl. (data obrashhenija: 03.07.2017).
  12.  Lubkov A.S., Voskresenskaja E.N., Marchukova O.V. Ob#ektivnaja klassifikacija javlenij Jel’-Nin’o. spol’zovanie i ohrana prirodnyh resursov v Rossii. 2017. No 1(149). pp. 41–44.

Loading