1984 Soviet Union tornado outbreak

The 1984 Soviet Union tornado outbreak, also known as the 1984 Ivanovo tornado outbreak, was one of only three disastrous tornado outbreaks in modern Russian history (one of the others being the 1904 Moscow tornado) and the third-deadliest tornado outbreak in European history. Occurring on June 9, 1984, the outbreak struck the Ivanovo and Yaroslavl regions north of Moscow, an area over 400,000 km2. At least two of the eleven known tornadoes were violent events, equal to F4 or higher in intensity on the Fujita scale,[2] based upon observed damages. The main tornado, an F5,[3][4][5][6][7][8] which was up to 500 metres (0.31 mi) wide,[5][7][9] caused extreme damage, throwing heavy objects of 320,000 kilograms (710,000 lb) for distances up to 200 metres (0.12 mi). Another tornado, assessed to have been at least F4, occurred at Kostroma. Severe thunderstorms also produced hail up to 1 kilogram (2.2 lb) in weight, among the heaviest hailstones confirmed worldwide. In all, the entire tornado outbreak killed at least 69 people (though the exact death toll is unknown) and injured 804.[1]

1984 Soviet Union tornado outbreak
Tornadoes confirmedat least 11
Max. rating1F5 tornado
Highest winds
  • 418 kmh
Casualties69-400+ fatalities, 804 injuries[1]
1Most severe tornado damage; see Fujita scale

Meteorological synopsis

On June 8, 1984, a negatively tilted trough caused an extratropical low pressure area to form over the coast of the Socialist Republic of Romania (now non-Communist Romania). Surface moisture moved north from the Black Sea and caused nearby dew points to rise to 20 °C (68 °F); though at that time these were restricted to Romania and the Ukrainian SSR, dew points were higher than average elsewhere.[10] By 1800 UTC, developing thunderstorms over the Ukrainian SSR spread overnight into the Russian SFSR. Between 00 and 12 UTC on June 9, the strengthening low pressure area moved north-northeast over the northwestern Russian SFSR before undergoing occlusion. In the meantime, a strong cold front rapidly advanced along a line extending south from the surface low, then south of Minsk in the Byelorussian SSR (now Belarus), to near Bucharest. This front separated the drier air mass to the north from the warm, moist air mass near the Black Sea, and strong wind speeds near ground level caused vertical mixing. Therefore, dew points actually dropped before the first tornadoes formed, but nevertheless several factors overcame the lower dew points to produce tornadoes. Among these were a strong upper-level jet stream, clear skies causing daytime heating and instability, strong synoptic-scale lifting leading to ascension of updrafts, and high adiabatic lapse rates promoting thunderstorm development. All these factors combined to produce severe weather near Moscow. The tornadoes occurred in this region because an unstable and moist air mass, supported by warm sea surface temperatures over the Black Sea, had been in place four days before the outbreak began. The unusually strong intensity of the trough in the region on June 8–9, with a 500-millibar geopotential height measured at about 2.7 standard deviations below normal, also favored an intense tornado outbreak.[10]

Tornadoes

Confirmed tornadoes by Fujita rating
FU F0 F1 F2 F3 F4 F5 Total
3 1 1 3 1 1 1 11
  • Three of the tornadoes were never rated

June 9 event

List of confirmed tornadoes — June 9, 1984
F#
Location
County
Time (UTC)
Path length
Damage
Soviet Union
F2 Alatyr Volga Federal District ~0900[11] unknown Details unknown
F2 Kanash Volga Federal District ~0900[11] unknown Details unknown
F1 Sheremetyevo International Airport Central Federal District 0909[11] 10 km (6.2 mi) Tornado heavily damaged hangars at the airport and downed trees.[12]
F3 Golubkovo[10] to Bolshoe Sartovo[13] Central Federal District ~1100[14] 100 kilometres (62 mi) 3 deaths[15] - Tornado damaged or destroyed 31 homes, and heavily damaged 260 other buildings.
F2 Volosovo[10] Volosovsky District ~1100[14] 10.9 kilometres (6.8 mi) ESWD mentions that the tornado damaged roofs, chimneys and partly destroyed walls.
F5 S of Ivanovo to Lunevo (SE of Kostroma) Central Federal District 1130[10] 160 kilometres (99 mi) 92+ deaths - See section on this tornado
F4 Kostroma to Lyubim[10] Central Federal District ~1230[11] 30 kilometres (19 mi) See section on this tornado
F0 Unknown unknown unknown unknown ESWD mentions that the outbreak produced an F0 tornado, though there is no information beyond this.
F? Sormovo[10] Sormovsky City District unknown unknown Unrated tornado produced a swath of tree damage.
F? E of Sharya[10] Central Federal District unknown unknown Unrated tornado produced a swath of tree damage.
F2 Unknown unknown unknown unknown ESWD mentions that the outbreak produced three F2 tornadoes, though there is no information beyond this.

Ivanovo/Lunevo

Ivanovo/Lunevo
F5 tornado
Max. rating1F5 tornado
Highest winds
  • ~260 mph
Casualties69-400
Areas affectedIvanovo/Lunevo
1Most severe tornado damage; see Fujita scale

A large, long-tracked, and devastating tornado, considered one of the worst in Russian history, destroyed numerous towns and villages along its path. Rated F5 on the Fujita scale,[3][4][5][6][7][8] the 500 metres[5][16][9] tornado killed at least 69 people and injured more than 130 others. About 1,180 homes were also damaged, destroyed or leveled by the tornado.[17] Some estimates indicate up to 95 deaths[11] or even more, with some sources suggesting 400 deaths in the outbreak were all related to the Ivanovo tornado.[10]

At 1130 UTC[10]—other sources say 1205 UTC[17]—this powerful multiple vortex tornado touched down 15 mi (24 km) south of Ivanovo.[12] Near Ivanovo, the tornado snapped or bent pine, spruce, and birch trees about 1 m (3.3 ft)3 m (9.8 ft) from ground level.[12] In the town itself, the tornado picked up and cast aside a crane, weighing 320,000 kilograms (710,000 lb), and threw a water tank, weighing 50,000 kilograms (110,000 lb), over a distance of 200 metres (0.12 mi).[10][18] ESWD mentions that the tornado destroyed factory areas.

Near the Volga River, the tornado ripped up trees by their roots and destroyed many small huts. It also carried a water tank weighing 50 tonnes (110,000 lb) for 200 yd (0.11 mi).[18] Steel water containers capable of holding 150 cubic metres (40,000 US gal) of water were carried 100 metres (330 ft) in the air and transported 1 km (0.62 mi) from their original site. Hail in association with the parent thunderstorm weighed up to 1 kilogram (2.2 lb), among the heaviest hailstones measured anywhere in the world;[10] though the measurement came with few details, it is comparable to the world record, a hailstone also measuring 1 kg (2.2 lb) in Bangladesh on April 15, 1986.[19] The F5 tornado tracked for 99 miles (160 km)—though some sources suggest only 80 kilometres (50 mi)[10]—before dissipating near Lunevo in Yaroslavl Oblast. It caused at least 92 deaths, though many others likely went unreported.[20]

Kostroma/Lyubim

Kostroma/Lyubim
F4 tornado
Max. rating1F4 tornado
1Most severe tornado damage; see Fujita scale

According to Russian researchers writing in the 1980s, this tornado was either the same as the Ivanovo tornado or a member of the Ivanovo tornado family; if the latter, it may indicate that the Ivanovo tornado was in fact two separate tornadoes spawned by the same thunderstorm.[20] However, recent research indicates that the Ivanovo storm was not the same as the one that produced the Kostroma tornado.[10] Numerous trees were thrown long distances by the tornado. A crane weighing 350 t (770,000 lb) was knocked over, and numerous other structures were damaged. The severity of the damage was rated F4; however, there are indications that the tornado may have attained F5 intensity.[20]

See also

References

  1. "Ивановский смерч 9 июня 1984 года: торнадо по-советски" (in Russian). Русская семерка. 2017-01-31. Retrieved 2019-03-04.
  2. "Ивановский смерч 9 июня 1984 года: что это было". Рамблер/субботний (in Russian). Retrieved 2019-10-22.
  3. "☂ Смерчи на территории СССР. Журнал «Метеорология и гидрология», №2, 1987". meteo.ua (in Russian). Retrieved 2020-02-03.
  4. "Ивановский смерч 9 июня 1984 года: что это было". Fishki.net - Сайт хорошего настроения (in Russian). Retrieved 2020-02-03.
  5. Нафари (9 June 2014). "Ураган и смерч в центральной России 9 июня 1984 года - Нафари". Ураган и смерч в центральной России 9 июня 1984 года - Нафари. Retrieved 2020-02-03.
  6. "Обзор ураганов в Центральной части России. Какова наша реакция на оповещения МЧС?". geocenter.info (in Russian). Retrieved 2020-02-03.
  7. "Чем нам грозит пыльный дьявол". www.province.ru. Retrieved 2020-02-03.
  8. "Новые данные о трагедии 1984 года в Иванове: смерч был не один, а не менее 8". www.ivanovonews.ru. Retrieved 2020-02-03.
  9. Нехамкин, Сергей (2005-06-15). "Смерч прошел". Известия (in Russian). Retrieved 2020-02-03.
  10. Finch, J.; D. Bikos (2012). "Russian tornado outbreak of 9 June 1984". Electronic Journal of Severe Storms Meteorology. 7 (4): 1–28.
  11. "Tornado Outbreak in Russia on June 9th, 1984" (in French). Kéraunos Observatoire Français des Tornades et des Orages Violents. 2008.
  12. Vasiliev, A. A.; B. E. Peskov; A. I. Snitkovskii (1985a). "Tornadoes on 9th of June 1984". Gidrometizdat. Russian: 8–15.
  13. "Сартово: жизнь после смерча". www.sevkray.ru. Retrieved 2020-03-24.
  14. 11:00 UTC (+/- 15 min.) - European Severe Weather Database
  15. "Tornado destroyed a village; houses badly damaged, houses destroyed; Bus damaged; Three people killed." - European Severe Weather Database
  16. "Чем нам грозит пыльный дьявол". www.province.ru. Retrieved 2020-02-03.
  17. Alimov, G.; A. Illesh; V. Kozlov; V. Korneyev (June 1984). "120 Minutes of a Tornado". Izvestia (in Russian).
  18. Lyakhov, M. Y. (1986). "Tornadoes in the midland belt of Russia". Soviet Geography (in Russian). 6: 562–570.
  19. "none". Bangladesh Observer. 15 April 1986.
  20. Snitkovskii, A. L. (1987). "Tornadoes in the USSR". Meteorologiya I Gidrologiya (in Russian). 9: 12–25.
  • Chernokulsky, Alexander; A. Shikhov (2018). "1984 Ivanovo tornado outbreak: Determination of actual tornado tracks with satellite data". Atmos. Res. 207: 111–121. doi:10.1016/j.atmosres.2018.02.011.
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