RCIN and OZwRCIN projects

Object

Title: Zmienność czasowo-przestrzenna występowania trąb powietrznych w Europie i w Polsce w latach 1998-2013 = The temporal and spatial variability of the occurrence of tornadoes in Europe and in Poland in the years 1998-2013

Creator:

Wieczorek, Luiza

Date issued/created:

2016

Resource type:

Text

Subtitle:

Przegląd Geograficzny T. 88 z. 3 (2016)

Publisher:

IGiPZ PAN

Place of publishing:

Warszawa

Description:

24 cm

Type of object:

Journal/Article

Abstract:

The aim of the work detailed in this article was to describe instances of tornadoes being reported in Europe and in Poland in the years 1998-2013. According to the relevant ESSWD reports (as confirmed and fully verified), 1772 tornadoes occurred in Europe, while 102 were reported for Poland. The largest number of reports concerned Germany, while numerous cases were also observed for the south-eastern part of the British Isles. These results are consistent with previous studies. Antonescu (2016) reports that most tornado reports in European relate to the continent’s northern and central parts. In Poland, it is possible to distinguish a characteristic belt of land along which tornadoes arise most commonly. This runs north-south from the western part of Podkarpacie, through the Silesian-Cracow Upland, the Małopolska Upland and the central part of the Central Polish Lowland, to the eastern part of the South Baltic Lake District. Lorenc (2012) takes a different position over this matter, stating that tornadoes in Poland occur most frequently from the Opole area through the Małopolska region, Central Poland, The Kutno Upland and the region extending from Mazowsze through to the Suwalki region. In the analysed period, tornado reports in Europe and Poland arose most frequently in the summer months (from May through to August). This is in line with the conclusions of Taszarek and Brooks (2015). In turn, Przybylak (2007) states that the period with most tornadoes starts in June and lasts through until August. In Europe, tornadoes are seen to form most often in the afternoon, as is the case in the USA. This common trait stems from the fact that convection only starts developing in the afternoon hours, when the ground is warm enough. This warms the near-ground layer of air and upward movements are initiated. There are exceptions to this rule – morning tornadoes, or even ones occurring at night (Przybylak, 2007; Lorenc, 2012). The average number of tornado reports in Europe amounts to 118 per year, a result in line with the assumptions of Wegener from the early 20th century. However, the present figure is well below the average of some 169 per year given by Dotzek (2003). Where force is concerned, it is weak and moderate tornadoes that dominate in Europe and in Poland, i.e. those of strengths F0, F1 and F2 (on the Fujita scale). A similar situation applies to the Torro scale, with the tornadoes observed most frequently being at the beginning of the scale, i.e. T0, T1 and T2. Poland and Europe experience tornadoes of strength T3 (in 11% of cases in Europe as whole, and 10% where Poland is concerned). In Europe there is a prevalence of tornadoes of path width not exceeding 100m, while the situates observed most frequently are ones in which tornadoes make their landfall and then trek south-west or west (in Poland mostly the south-west direction). Lowlands represent the form of topography most favourable to the occurrence of tornadoes.

References:

1. Ahrens C. D., 2001, Essentials of Meteorology an Invitation to the Atmosphere, Thomson Brooks/Cole, Chapter 10, Australia.
2. American Glossary of Meteorology, 2013, http://glossary.ametsoc.org/wiki/Main_Page (25.11.2015).
3. Antonescu B., Schultz D.M., Lomas F., Kühne T., 2016, Tornadoes in Europe: Synthesis of the observational datasets, Monthly Weather Review, 144, s. 2445-2480.
4. Chmielewski T., Nowak N., Walkowiak I.K., 2013, Tornado in Poland of August 15, 2008: Results of post-disaster investigation, Journal of Wind Engineering and Industrial Aerodynamics, 118, s. 54-60.
5. Davidson K., 1996, Twister: The Science of Tornadoes and the Making of a Natural Disaster Movie, Simon and Schuster, New York.
6. Doswell III C.A., Brooks H.E., Dotzek N., 2009, On the implementation of the enhanced Fujita scale in the USA, Atmospheric Research, 93, s. 554-563.
7. Dotzek N., 2003, An updated estimate of tornado occurrence in Europe, Atmospheric Research, 67-68, s. 153-161.
8. Edwards R., LaDue J.G., Ferree J.T., Scharfenberg K., Maier C., Coulbourne W.L., 2013, Tornado Intensity Estimation: Past, Present, and Future, Bulletin of the American Meteorological Society, 94, s. 641-653.
9. Fujita T. T., 1971, Proposed characterization of tornadoes and hurricanes by area and intensity, SMRP Research Paper, 91, University of Chicago.
10. Grazulis T.P., 2003, The Tornado – Nature's Ultimate Windstorm, University of Oklahoma Press Norman, St. Johnsbury.
11. Groenemeijer P.H., Kühne T., 2014, A climatology of tornadoes in Europe: Results from the European Severe Weather Database, Monthly Weather Review, 142, s. 4775-4790.
12. Gumiński R., 1936, Trąba powietrzna pod Lublinem w dniu 20 lipca 1931 r., Wiadomości Meteorologiczne i Hydrologiczne, 16, s. 7-9.
13. Hubrig M., 2004, Analyse von Tornado- und Downburst-Windschäden an Bäumen, Forst und Holz, 59, s. 78-84.
14. Kondracki J., 2013, Geografia regionalna Polski, Wydawnictwo Naukowe PWN, Warszawa.
15. Kosin K., 2011, Skutki przejścia trąby powietrznej przez obszar Parku Krajobrazowego Lasy nad Górną Liswartą" w dniu 15 sierpnia 2008 roku, Acta Geographica Silesiana, 9, WNoZ UŚ-ZPKWŚ, Sosnowiec-Będzin, s. 23-30.
16. Lorenc H., 2012, Maksymalne prędkości wiatru w Polsce, Instytut Meteorologii i Gospodarki Wodnej, Państwowy Instytut Badawczy, Warszawa.
17. Markowski P., Richardson Y., 2009, Tornadogenesis: Our current understanding, forecasting considerations, and questions to guide future research, Atmospheric Research, 93, s. 3-10.
18. Meaden G. T., 1976, Tornadoes in Britain: Their intensities and distribution in space and time, Journal of Meteorology, 1, 8, s. 242-251.
19. Muller R.A., 2013, The Truth About Tornadoes, The New York Times page A35, http://www.nytimes.com/2013/11/21/opinion/the-truth-about-tornadoes.html?_r=1 (29.11.2015).
20. Niedźwiedź T., German K., Sadowski P., 2003, Synoptic conditions of the tornado occurrence in the Podhale region on 29 May 2001 and its natural and economic impacts, Prace Geograficzne, UJ, 112, s. 55-67.
21. Parfiniewicz J., 2009, Tornado w rejonie Częstochowy – 20 lipca 2007 roku. Część I: Analiza synoptyczna, Przegląd Geofizyczny, 54, 3-4, s. 147-159.
22. Parfiniewicz J., 2009, Tornado w rejonie Częstochowy – 20 lipca 2007 roku. Część II: Symulacje komputerowe i analiza 3D, Przegląd Geofizyczny, 54, 3-4, s. 161-182.
23. Popławska J., 2014, Tornada superkomórkowe w Polsce – studium przypadku z 15 sierpnia 2008, Prace i Studia Geograficzne, 56, s. 205-229.
24. Przybylak R., 2007, Trąby powietrzne w Polsce, Nowa Era, Biuletyn Internetowy dla Nauczycieli Geografii, 4, s. 1-3.
25. Słownik meteorologiczny, 2003, red. T. Niedźwiedź, Polskie Towarzystwo Geofizyczne, IMGW, Warszawa.
26. Taszarek M., 2013, Możliwość prognozowania trąb powietrznych w Polsce, Przegląd Geograficzny, 85, 3, s. 353-371.
27. Taszarek M., Brooks H.E., 2015, Tornado climatology of Poland, Monthly Weather Review, 143, s. 702-717.
28. Taszarek M., Kolendowicz L., 2013, Sounding-derived parameters associated with tornado occurrence in Poland and Universal Tornadic Index, Atmospheric Research, 134, s. 186-197.
29. Walczakiewicz S., Ostrowski K., Surowiecki A., 2011, Warunki synoptyczne występowania trąb powietrznych w Polsce w latach 2001-2010, Prace Wydziału Nauk o Ziemi Uniwersytetu Śląskiego, 70, Sosnowiec, s. 43-52.

Relation:

Przegląd Geograficzny

Volume:

88

Issue:

3

Start page:

353

End page:

368

Detailed Resource Type:

Article

Format:

File size 1,5 MB ; application/pdf

Resource Identifier:

oai:rcin.org.pl:59907 ; 0033-2143 (print) ; 2300-8466 (on-line) ; 10.7163/PrzG.2016.3.4

Source:

CBGiOS. IGiPZ PAN, sygn.: Cz.181, Cz.3136, Cz.4187 ; click here to follow the link

Language:

pol

Language of abstract:

eng

Rights:

Creative Commons Attribution BY 3.0 PL license

Terms of use:

Copyright-protected material. [CC BY 3.0 PL] May be used within the scope specified in Creative Commons Attribution BY 3.0 PL license, full text available at: ; -

Digitizing institution:

Institute of Geography and Spatial Organization of the Polish Academy of Sciences

Original in:

Central Library of Geography and Environmental Protection. Institute of Geography and Spatial Organization PAS

Projects co-financed by:

Programme Innovative Economy, 2010-2014, Priority Axis 2. R&D infrastructure ; European Union. European Regional Development Fund

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