Abstract
The results of the analysis of long-term radar research of the hailstorms over the central part of the Northern Caucasus are presented. Radar observations which formed the basis of experimental material were carried out continuously from the moment of the first radar echo registration until complete dissipation of the hailstorm. The computerized system of collecting, processing and the analysis of the radar information was used. Time discretization of the radar parameters of the full spatial observation averaged 3 min. Statistical sampling of radar data included 392 hail cells, for each of which the time distributions of the radar parameters both measured and calculated using the computerized system were compiled. Distribution of the hailstorms first radar echo formation zones over the observation region was compiled. Areas with the maximum frequency of the hailstorms first radar echo formation were defined. The hailstorm trajectories were analyzed. Four main types of hail cell trajectories were selected, which included 86 % of the supercells and 64 % of the long-lived multicells. The dynamic parameters of the hail core formation and development were analyzed. The hail storm characteristics of the Northern Caucasus are compared to the hail storms of Mendoza, Argentina, and Alberta, Canada. The bases of the organization of regional hail suppression services which use the rocket technology of cloud seeding are presented. The results of the cloud seeding operations during recent years are shown.
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References
Abshaev MT, Malkarova AM (2006) Hail prevention efficiency evaluation. Hidrometeoizdat, St. Petersburg
Abshaev MT et al (1980) Application guide of radars MRL-4, MRL-5 and MRL-6 in hail suppression system. Hidrometeoizdat, Leningrad
Abshaev MT, Tapaskhanov VO, Iniukhin VS (1994) Computerized system of hail suppression. In: Sixth WMO scientific conference on weather modification, Paestum, Italy, vol I, pp 99–100
Abshaev AM, Abshaev MT, Barekova MV, Malkarova AM (2014) Manual of hail prevention. Publishing yard, Nalchik
Barekova MV, Gazaeva ZA, Makitov VS (1999) Typical supercell hailstorms trajectories on Northern Caucasus. Trans High Mt Geophys Inst 90:80–95
Browning KA, Foote GB (1976) Airflow and hail growth in supercell storms and some implications for hail suppression. Quart J Roy Met Soc 102:499–534
Bunkers MJ, Johnson JS, Czepyha LJ, Grzywacz JM, Klimowski BA, Hjelmfelt MR (2006) An observational examination of long-lived supercells. Part II: environmental conditions and forecasting. Weather Forecast 21:689–714
Dixon M, Wiener G (1993) TITAN: thunderstorm identification, tracking, analysis, and nowcasting—a radar-based methodology. J Atmos Oceanic Technol 10:785–797
Gazaeva ZA, Makitov VS (1991) Radar structure of multicell hail clouds and their dynamics on North Caucasus. Trans High Mt Geophys Inst 80:93–99
Heymsfield AJ, Jameson AR, Frank HW (1980) Hail growth mechanisms in a Colorado storm: Part II: hail formation processes. J Atmos Sci 37:1779–1807
Imamdzhanov HA, Usmanov IU, Atabiyev MD, Kapitannikov AV (2001) The concept of a regional meteorological radar network MERCOM. Trans. of scientific seminar of State and prospects of weather modification in interests of production development in the Republic of Uzbekistan, Questions of weather modification 31–47
Kalov HM, Kalov RH (2010) Principal physics, methods and equipment of the thunderstorms and fogs modification. Polygrafservice, Nalchik
Krauss TW, Makitov VS (2001) An overview of the Mendoza hail suppression program. In: 15-th Conference on planned and inadvertent weather modification. Albuquerque, New Mexico, 14–18 Jan 2001
Krauss TW, Marwitz JD (1984) Precipitation processes within an Alberta supercell hailstorm. J Atmos Sci 41:1025–1034
Krauss TW, Renick J (1997) The new Alberta hail suppression project. J Weather Modif 29:100–105
Makitov VS (1999) Organization and main results of the hail suppression program in the Northern area of the province of Mendoza, Argentina. J Weather Modif 31:76–86
Makitov VS (2007) Radar measurements of integral parameters of hailstorms used on hail suppression projects. Atmos Res 83:380–388
Makitov VS, Barekova MV (2007) Analysis of synoptic conditions of hail clouds development and some possibilities of nowcasting of storm’s tracks. In: 4th European conference on severe storms, Trieste, Italy, 10–14 Sept 2007
Makitov VS, Stasenko VN (1999) An automated rocket hail suppression system. In: 7-th WMO Scientific conference on weather modification, Chiang Mai, Thailand, 17–22 Feb 1999
Schlatter PT, Schlatter TW, Knight CA (2008) An unusual hailstorm on 24 June 2006 in Boulder, Colorado. Part I: mesoscale setting and radar features. Mon Weather Rev 136:2813–2832
Sulakvelidze GK (1967) Rainstorms and hail. Hidrometeoizdat, Leningrad (NTIS # TT-68-50466)
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Makitov, V.S., Inyukhin, V.S., Kalov, H.M. et al. Radar research of hailstorm formation and development over the central part of Northern Caucasus (Russia). Organization and main results of the regional hail suppression projects. Nat Hazards 88 (Suppl 1), 253–272 (2017). https://doi.org/10.1007/s11069-016-2433-7
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DOI: https://doi.org/10.1007/s11069-016-2433-7