Preliminary reflectivity analysis of severe convective events in in the proximity of Goczałkowice-Zdrój, Poland

Bielec-Bąkowska Z. 2003. Long-term variability of thunderstorm occurrence in Poland in the 20th century. Atmospheric Research, 67–68: 35–52.10.1016/S0169-8095(03)00082-6Search in Google Scholar

Chisholm A.J., Renick J.H. 1972. The kinematics of multicell and supercell Alberta hailstorms. Alberta Hail Studies 1972. Research Council of Alberta Hail Studies Reports., 72-2: 24–31.Search in Google Scholar

Davies J.M., Johns R.H. 1993. Some wind and instability parameters associated with strong and violent tornadoes. 1: Wind shear and helicity. [in:] Church C., Burgess D., Doswell., Davies-Jone R. (ed.) The Tornado: Its Structure, Dynamics, Prediction and Hazards. Geophysical Monograph Series, American Geophysical Union, 79: 573–582.10.1029/GM079p0573Search in Google Scholar

Doswell C.A. (ed.), 2001. Severe Convective Storms. American Meteorological Society, Boston.10.1007/978-1-935704-06-5Search in Google Scholar

Dotzek N., Groenemeijer P., Feuerstein B., Holzer A.M. 2009. Overview of ESSL's severe convective storms research using the European Severe Weather Database ESWD. Atmospheric Research, 93: 575–586.10.1016/j.atmosres.2008.10.020Search in Google Scholar

Kłokowska K., Lorenc H. 2012. Ryzyko występowania gradu w Polsce. [in:] Lorenc H. (ed.) Klęski żywiołowe a bezpieczeństwo wewnętrzne kraju. Instytut Meteorologii i Gospodarki Wodnej – Państwowy Instytut Badawczy, Warszawa: 80–97.Search in Google Scholar

Lemon L.R. 1980. Severe thunderstorms radar identification techniques and warning criteria: A preliminary report. NOAA Technical Memorandum.Search in Google Scholar

Lemon L.R. 1998. The Radar “Three-Body Scatter Spike”: An Operational Large-Hail Signature. Weather and Forecasting, 13: 327–340.10.1175/1520-0434(1998)013<0327:TRTBSS>2.0.CO;2Search in Google Scholar

Setvak M., Lindsey D.T., Novak P., Wang P.K., Radova M., Kerkmann J., Grasso L., Su S.-H., R.M. Rabin R.M., Staska J., Charvat Z. 2010. Satellite-observed cold-ring-shaped features atop deep convective clouds, Atmospheric Research, 97: 80–96.10.1016/j.atmosres.2010.03.009Search in Google Scholar

Tuszyńska I. 2011. Charakterystyka produktów radarowych. Instytut Meteorologii i Gospodarki Wodnej – Państwowy Instytut Badawczy, Warszawa.Search in Google Scholar

Waldvogel A., Federer B., Grimm P. 1979. Criteria for the Detection of Hail Cells, Journal of Applied Meteorology, 18: 1521–1525.10.1175/1520-0450(1979)018<1521:CFTDOH>2.0.CO;2Search in Google Scholar

Weisman M.L., Klemp J.B. 1984. The structure and classification of numerically simulated convective storms in directionally-varying wind shears. Monthly Weather Review, 112: 2479–2498.10.1175/1520-0493(1984)112<2479:TSACON>2.0.CO;2Search in Google Scholar

Wilson J.W., Reum D. 1986. „The hail spike”: a reflectivity and velocity signature. 23rd Conference on Radar Meteorology, American Meteorological Society, Snowmass, CO.Search in Google Scholar

Wilson J.W., Reum D. 1988. The flare echo: Reflectivity and velocity signature. Journal of Atmospheric and Oceanic Technology, 5: 197–205.10.1175/1520-0426(1988)005<0197:TFERAV>2.0.CO;2Search in Google Scholar

Witt A. 1996. The relationship between low-elevation WSR-88D reflectivity and hail at the ground using precipitation observations from the VORTEX project. 18 Conference on Severe Local Storms, American Meteorological Society, San Francisco, CA: 183–185.Search in Google Scholar

Zrnić D.S. 1987. Three-body scattering produces precipitation signature of special diagnostics signature. Radio Science, 22: 76–86.10.1029/RS022i001p00076Search in Google Scholar