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2015 | 34 | 1 |

Tytuł artykułu

Large hail in Poland in 2012

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Języki publikacji

EN

Abstrakty

EN

Słowa kluczowe

Wydawca

-

Rocznik

Tom

34

Numer

1

Opis fizyczny

p.75-84,fig.,ref.

Twórcy

autor
  • Institute of Physical Geography and Environmental Planning, Adam Mickiewicz University in Poznan, Poland
autor
  • Institute of Physical Geography and Environmental Planning, Adam Mickiewicz University in Poznan, Poland

Bibliografia

  • Bielec-Bąkowska Z., 2002. Zróżnicowanie przestrzenne i zmienność wieloletnia występowania burz w Polsce 1949-1998, Wydawnictwo Uniwersytetu Śląskiego.
  • Bielec-Bąkowska Z., 2010. Występowanie gradu w Polsce w świetle cyrkulacji atmosfery w latach 1966-2006. In: T. Ciupa, R. Suligowski (eds), Woda w badaniach geograficznych. Kielce: 359-374.
  • Browning K.A., 1964. Airflow and precipitation trajectories within severe local storms which travel to the right of the winds. Journal of the Atmospheric Sciences 22: 664-668.
  • Changnon S.A., Changnon D., Hilberg S.D., 2009. Hailstorms across the nation. An atlas about hail and its damages, Illinois State Water Survey.
  • Cotton W.R., van den Heever S., Jirak I., 2003. Conceptual Models of Mesoscale Convective Systems: Part 9. Colorado State University.
  • Craven J.P., Brooks H.E., 2004. Baseline climatology of sounding derived parameters associated with deep moist convection. National Weather Digest 28: 13-24.
  • Dessens H., 1960. Severe hailstorms are associated with very strong winds between 6000 and 12,000 meters. Physics of Precipitation, Geophysical Monograph, Washington, D.C., American Geophysical 5: 333-338. Doswell III C.A., Burgess D.W., 1993. Tornadoes and torna-dic storms: a review of conceptual models. In: H. Church et al. (ed.), The Tornado: Its Structure, Dynamics, Prediction, and Hazards. American Geophysical. Union 79: 161-172.
  • Dotzek N., Groenemeijer P.H., Feuerstein B., Holzer A.M., 2009. Overview of ESSL's severe convective storms research using the European Severe Weather Database ESWD. Atmospheric Research 93: 575-586.
  • Folland C.K., T.R. Karl, J.R. Christy, R.A. Clarke, G.V. Gruza, J. Jouzel, M.E. Mann, J. Oerlemans, M.J. Salinger and S.-W. Wang, 2001. Observed Climate Variability and Change. In: Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.
  • Galway J.G., 1956. The lifted index as a predictor of latent instability, Bulletin of American Meteorological Society 37: 528-529.
  • Groenemeijer P.H., Dotzek N., Stel F., Brooks H.E., Doswell C.A., Elsom D.M., Giaiotti D.B., Gilbert A., Holzer A.M., Meaden G.T., Salek M., Teittinen J., 2004. A data format for severe weather events to be used in Europe. 3rd European Conference on Severe Storms, León, Spain, 9-12 Nov.
  • Groenemeijer P.H., van Delden A., 2007. Sounding-derived parameters associated with large hail and tornadoes in the Netherlands. Atmospheric Research 83: 473-487.
  • Hart J.A., Korotky W., 1991. The SHARP workstation v1.50 users guide. National Weather Service, NOAA, U.S. Departmentof Commerce: 30 pp. [Available from NWS Eastern Region Headquarters, 630 Johnson Ave., Bohemia, NY 11716].
  • Knight C. A., Knight N.C., 2001. Hailstorms. In Severe Con-vective Storms. In: American Meteorological Society Doswell III (ed.), AMS Monograph 28(50): 223-254.
  • Kolendowicz L., 2006. The influence of synoptic situations on the occurrence of days with 294 thunderstorms during a year in the territory of Poland. International Journal of Climatology 26: 1803-1820.
  • Koźmiński Cz., 1964. Geograficzne rozmieszczenie większych burz gradowych zanotowanych na obszarze Polski w latach 1946-1956. Przegląd Geograficzny 36: 87-102.
  • Kunz M., Sander J., Kottmeier Ch., 2009. Recent trends of thunderstorm and hailstorm frequency and their relation to atmospheric characteristics in southwest Germany, International Journal 29: 2283-2297.
  • Miller R.C, 1967. Notes on analysis and severe storm forecasting procedures of the Military Weather Warning Center. Technical Report 200, AWS, USAF.
  • Morel C., Senesi S., 2002. A climatology of mesoscale convec-tive systems over Europe using satellite infrared imagery. II: Characteristics of European mesoscale convective systems, Quarterly Journal of the Royal Meteorological Society 128(584): 1973-1995.
  • Sioutas M.V., Flocas H.A., 2003. Hailstorms in Northern Greece: synoptic patterns and thermodynamic environment. Theoretical and Applied Climatology 75: 189-202.
  • Sioutas M.V., Meaden T., Webb J.D.C., 2009. Hail frequency and intensity in northern Greece. Atmospheric Research 93: 526-533.
  • Suwala K., 2012. The influence of atmospheric circulation on the occurrence of hail in the North German Lowlands. Theoretical and Applied Climatology. 112(3-4): 363-373.
  • Taszarek M., Kolendowicz L., 2013. Sounding-derived parameters associated with tornado occurrence in Poland and Universal Tornadic Index. Atmospheric Research 134: 186-197.
  • Tuovinen J.-P., Punkka A.-J., Rauhala J. Hohti H., Schultz D.M., 2009. Climatology of Severe Hail in Finland: 19302006, Monthly Weather Review 137(7): 2238-2249.
  • Zinkiewicz W., Michna E., 1955. Częstość występowania gradu w woj. lubelskim w zależności od warunków fizjograficznych. Annales UMCS, Sectio B, 10(5): 224-267.

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