Object

Title: Możliwości prognozowania trąb powietrznych w Polsce = Forecasting the possible emergence of tornadoes in Poland

Creator:

Taszarek, Mateusz

Date issued/created:

2013

Resource Type:

Article

Subtitle:

Przegląd Geograficzny T. 85 z. 3 (2013)

Publisher:

IGiPZ PAN

Place of publishing:

Warszawa

Description:

24 cm

References:

1. Baumgardt D.A., Cook K., 2006, Preliminary evaluation of a parameter to forecast environments conducive to non-mesocyclone tornadogenesis, [w:] 23rd Conference on Severe Local Storms, St. Louis, paper 12.1 https://ams.confex.com/ams/23SLS/webprogram/Paper115294.html (1.09.13) ; 2. Bebłot G., Hołda I., Rorbek K., 2008, Trąba powietrzna w rejonie Częstochowy 20 lipca 2007 roku, Ekstrema pogodowe w Polsce, obserwacje, pomiary, prognozy, IMGW, Warszawa. ; 3. Bebłot G., Dubiel G., Konarski J., Tuszyńska I., 2010, Groźne zjawiska atmosferyczne na terenie Polski w dniu 15 sierpnia 2008 r., Ryzyko w problemach zagrożeń środowiska, IMGW, Warszawa. ; 4. Bluestein H.B., 1985, The formation of a "landspout" in a "broken-line" squall line in Oklahoma, [w:] 14th Conference on Severe Local Storms, Indianapolis, American Meteorological Society, s. 267–270. ; 5. Browning K.A., 1964, Airflow and precipitation trajectories within severe local storms which travel to the right of the winds, Journal of Atmospheric Science, 22, s. 664–668. ; 6. Brooks H. E., Doswell III C. A., 2001, Some aspects of the international climatology of tornadoes by damage classification, Atmospheric Research, 56, s. 191–201. ; 7. Concannon P.R., Brooks H.E., Doswell III C. A., 2000, Climatological risk of strong and violent tornadoes in the United States, [w:] Preprints. 2nd Conference on Environmental Applications, American Meteorological Society, Long Beach, s. 212–219. ; 8. Carbone R.E., 1982, A severe frontal rainband. Part I: stormwide hydrodynamic structure. Journal of Atmospheric Science, 39, s. 258–279. ; 9. Craven J.P., Brooks H.E., 2004, Baseline climatology of sounding derived parameters associated with deep moist convection, National Weather, 28, s. 13–24. ; 10. Davies J.M., 1993, Some wind and instability parameter associated with strong and violent tornadoes. Part I: Wind shear and helicity, [w:] H. Church (red.), The Tornado: Its Structure, Dynamics, Prediction and Hazards, American Geophysical Union, Geophysical Monograph, 79, s. 573–582. ; 11. Davies-Jones R.P, Trapp R.J., Bluestein H.B., 2001, Tornadoes and tornadic storms, [w:] Severe Convective Storms, American Meteorological Society Monograph, 28, 50, s. 167–254. ; 12. Doswell III C.A., 2001, Severe convective storms—an overview, [w:] Severe Convective Storms, American Meteorological Society Monograph, 28, 50, s. 1–26. ; 13. Doswell III C.A., Burgess D.W., 1993, Tornadoes and tornadic storms: a review of conceptual models, [w:] H. Church (red.), The Tornado: Its Structure, Dynamics, Prediction, and Hazards, American Geophysical Union, Geophysical Monograph, 79, s. 161–172. ; 14. Droegemeier K.K., Lazarus S.M., Davies-Jones R., 1993, The influence of helicity on numerically simulated convective storms, Monthly Weather Review, 121, 7, s. 2005–2029. ; 15. Edwards R., Thompson R., Crosbie C., Hart J.A., Doswell III C.A, 2004, Proposals for modernizing definitions of tornado and severe thunderstorm outbreaks, [w:] Preprints. 22nd Conference on Severe Local Storms, American Meteorological Society, Hyannis, MA. ; 16. Forbes G., 1981, One the reliability of hook echoes as tornado indicators, Monthly Weather Review, 109, 7, s. 1457–1466. ; 17. Fujita T.T., 1971, Proposed Characterization of Tornadoes and Hurricanes by Area and Intensity, SMRP Research Paper, 91, University of Chicago. ; 18. Groenemeijer P.H., van Delden A., 2007, Sounding-derived parameters associated with large hail and tornadoes in the Netherlands, Atmospheric Research, 83, s. 473–487. ; 19. Grünwald S., Brooks H.E., 2011, Relationship between sounding derived parameters and the strength of tornadoes in Europe and the USA from reanalysis data, Atmospheric Research, 100, s. 479–488. ; 20. Gumiński R., 1936, Trąba powietrzna pod Lublinem w dniu 20 lipca 1931 r., Wiadomości Meteorologiczne i Hydrologiczne 16, s. 7–9. ; 21. Haklander A., van Delden A., 2003, Thunderstorm predictors and their forecast skill for the Netherlands, Atmospheric Research, 67–68, s. 273–299. ; 22. Keul A.P., Sioutas M.V., Szilagyi W., 2009, Prognosis of Central-Eastern Mediterranean waterspouts, Atmospheric Research, 93, s. 426–436. ; 23. Lorenc H. i inni, 2008, Trąby powietrzne i burze w Polsce w dniach 15 i 16 sierpnia 2008 r., Instytut Meteorologii i Gospodarki Wodnej, Państwowy Instytut Badawczy, www.imgw.pl (10.05.2013). ; 24. Lorenc H., 2012, Maksymalne prędkości wiatru w Polsce, Instytut Meteorologii i Gospodarki Wodnej, Państwowy Instytut Badawczy, Warszawa. ; 25. Markowski P.M., Richardson Y.P., 2009, Tornadogenesis: Our current understanding, forecasting considerations, and questions to guide future research, Atmospheric Research, 93, s. 3–10. ; 26. Meaden G.T., Kolendowicz L., Kosa-Kiss A., Marcinonien I., Sioutas M., Tooming H., Tyrrell J., 2007, Comparing the theoretical versions of the Beaufort scale, the T-Scale and the Fujita scale, Atmospheric Research, 83, s. 446–449. ; 27. Miller R.C., 1967, Notes on analysis and severe storm forecasting procedures of the Military Weather Warning Center, Technical Report, 200, AWS, USAF. ; 28. Parfiniewicz J.W., 2009, Tornado w rejonie Częstochowy – 20 lipca 2007. Część I: Analiza synoptyczna, Część II: Symulacje komputerowe i analiza 3D, Przegląd Geofizyczny, 3-4. ; 29. Rasmussen E.N., Blanchard, D.O., 1998, A baseline climatology of sounding-derived supercell and tornado forecast parameters, Weather Forecasting, 13, s. 1148–1164. ; 30. Rasmussen E.N., 2003, Refined supercell and tornado forecast parameters, Weather Forecasting, 18, s. 530–535. ; 31. Stensrud D.J., Gao J., 2010, Importance of horizontally inhomogeneous environmental initial conditions to ensemble storm-scale radar data assimilation and very short range forecasts, Monthly Weather Review, 138, 4, s. 1250–1272. ; 32. Stensrud D.J., Xue M., Wicker L.J., Kelleher K. E., Foster M.P., Schaefer J.T., Schneider R.S., Benjamin S.G., Weygandt S.S., Ferree J.T., Tuell J.P., 2009, Convective-scale warn on forecast: A vision for 2020, Bulletin of American Meteorological Society, 90, s. 1487–1499. ; 33. Stout G.E., Huff F.A., 1953, Radar records Illionis tornadogenesis, Bulletin of American Meteorological Society, 34, s. 281–284. ; 34. Taszarek M., 2012, Sounding-derived parameters associated with tornado occurrence in Poland and Universal Tornadic Index, Instytut Geografii Fizycznej i Kształtowania Środowiska Przyrodniczego UAM, Poznań, maszynopis. ; 35. Taszarek M., Kolendowicz L., 2013, Sounding-derived parameters associated with tornado occurrence in Poland and Universal Tornadic Index, Atmospheric Research, w druku: http://dx.doi.org/10.1016/j.atmosres.2013.07.016. ; - ; 36. Thompson R.L., Edwards R., Hart J.A., 2002, Evaluation and interpretation of the supercell composite and significant tornado parameters at the storm prediction center, [w:] 21st Conference on Severe Local Storms, San Antonio. ; 37. Thompson R.L., Edwards R., Mead C.M., 2004, An update to the Supercell Composite and Significant Tornado Parameters, [w:] 22nd Conference on Severe Local Storms, American Meteorological Society, Hyannis, MA http://www.spc.noaa.gov/publications/allpapers.html#. ; 38. Tuszyńska I., 2012, Niestandardowe metody analizy zdarzeń ekstremalnych, prezentacja na: XII Ogólnopolska Szkoła Nadzwyczajnych Zagrożeń 9–11.09.2012, Kraków, materiały pokonferencyjne. ; 39. Yussouf N., Stensrud D.J., 2010, Impact of high temporal frequency phased array radar data to storm-scale ensemble data assimilation using observation system simulation experiments, Monthly Weather Review, 138, 2, s. 517–538. ; 40. Wakimoto R., Wilson J.W., 1989, Non-supercell tornadoes, Monthly Weather Review, 117, 6, s. 1113–1140. ; 41. Wilczak J.M., Oncley S.P., Bedard Jr. A.J., 1992, Turbulent Pressure Fluctuations in the Atmospheric Surface Layer. Preprints, 10th Symposium on Turbulence and Diffusion, Portland, Sep. 29–Oct. 2, American Meteorological Society, Boston, s. 167–170. ; 42. Walczakiewicz S., Ostrowski K., Surowiecki A., 2011, Warunki synoptyczne występowania trąb powietrznych w Polsce w latach 2001–2010, [w:] Współczesne trendy w naukach o Ziemi. Geo-Sympozjum Młodych Badaczy Silesia, Cieszyn, 19–21.10.2011, s. 43–52; http://www.geosymp.wnoz.us.edu.pl/2012/images/4Geo–sympozjum.pdf.

Relation:

Przegląd Geograficzny

Volume:

85

Issue:

3

Start page:

353

End page:

371

Format:

File size 2,6 MB ; application/pdf

Resource Identifier:

oai:rcin.org.pl:35475 ; 0033-2143 ; 10.7163/PrzG.2013.3.2

Source:

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

Language:

pol

Language of abstract:

eng

Rights:

Rights Reserved - Free Access

Terms of use:

Copyright-protected material. May be used within the limits of statutory user freedoms

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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