1903 Gainesville tornado
Meteorological history | |
---|---|
Formed | June 1, 1903, 12:45 p.m. EST (UTC−05:00) |
Duration | ≤2 minutes |
F4 tornado | |
on the Fujita scale | |
Path length | 4 mi (6.4 km) |
Overall effects | |
Fatalities | 98+ |
Injuries | 180+ |
Damage | $1,000,000 (1903 USD) $33.9 million (2024 USD) |
Areas affected | Gainesville, Georgia, United States |
On Monday, June 1, 1903, a catastrophic tornado struck the city of Gainesville, Georgia, killing at least 98 people and injuring 180 or more.[1][2][3] The tornado is retrospectively estimated to have been an F4 on the modern-day Fujita scale.[4][nb 1] The tornado, which was of very brief duration relative to its intensity, lasted approximately two minutes, and struck a trail roughly 4 mi (6.4 km) long. According to tornado researcher Thomas P. Grazulis, the Gainesville tornado was one of the shortest-tracked F4 tornadoes on record.[10] It skirted the south of the city, starting in the southwest and proceeding northeast, passing through a natural depression roughly 100 ft (30 m) lower than the city itself. The area, which included cotton mills, reported about 50 deaths and incurred the worst damage; in this area the intensity of the damage was equivalent to low-end F4 status.[4][11] Unlike a similar event in 1936, the 1903 tornado missed downtown Gainesville.[12]
The tornado, initially appearing along the train track, was at first thought to be smoke from a train. It struck a cotton mill at 12:45 p.m. local standard time, ripping off the top floor where a number of children were working, many of them numbering among the fatalities. The power of the tornado ripped an iron cupola from an approximately 40-foot-wide (12 m) standpipe, crushing a number of people when it fell down.[11] The tornado also damaged the Gainesville Iron Works and track, signals and freight cars of the Southern Railway Company, before destroying approximately 70 of the 120 workers' cottages at the Pacolet Mills in New Holland, where young children and elderly were located at the time. In total, at least 98—and possibly as many as 104—people were killed and at least 180 injured, with some reports indicating up to 190 injuries. The number of people harmed was reduced due to many workers attending picnics away from the site when the tornado struck.[4][11]
Almost 33 years later, on April 6, 1936, another violent tornado struck Gainesville, claiming at least 203 lives. Gainesville is the only town of its size to be so devastated twice by tornadoes in its history.[13]
See also
[edit]- 1936 Tupelo–Gainesville tornado outbreak — Produced another catastrophic F4 tornado in the same city
- 1998 Gainesville–Stoneville tornado outbreak
Notes
[edit]- ^ The Fujita scale was devised under the aegis of scientist T. Theodore Fujita in the early 1970s. Prior to the advent of the scale in 1971, tornadoes in the United States were officially unrated.[5][6] While the Fujita scale has been superseded by the Enhanced Fujita scale in the U.S. since February 1, 2007,[7] Canada used the old scale until April 1, 2013;[8] nations elsewhere, like the United Kingdom, apply other classifications such as the TORRO scale.[9]
References
[edit]- ^ Johnny Vardeman (March 21, 2016). "Johnny Vardeman: 113 years ago, another tornado took deadly toll on Gainesville". Gainesville Times. Retrieved 22 March 2023.
- ^ "85 ARE KILLED BY GEORGIA TORNADO; City of Gainesville Wrecked Within Two Minutes. FIRE AMONG THE RUINS Cotton Mill Operatives Buried Under Machines – Majority of Victims Women and Children – 200 Houses Demolished". The New York Times. 1903-06-02. ISSN 0362-4331. Retrieved 2023-03-22.
- ^ "25 Deadliest U.S. Tornadoes". www.spc.noaa.gov. Retrieved 2023-03-22.
- ^ a b c Multiple sources:
- Grazulis 1984, p. A-19
- Grazulis 1993, p. 700
- ^ Grazulis 1993, p. 141.
- ^ Grazulis 2001a, p. 131.
- ^ Edwards, Roger (March 5, 2015). "Enhanced F Scale for Tornado Damage". The Online Tornado FAQ (by Roger Edwards, SPC). Storm Prediction Center. Retrieved February 25, 2016.
- ^ "Enhanced Fujita Scale (EF-Scale)". Environment and Climate Change Canada. June 6, 2013. Archived from the original on March 3, 2016. Retrieved February 25, 2016.
- ^ "The International Tornado Intensity Scale". Tornado and Storm Research Organisation. 2016. Archived from the original on March 5, 2016. Retrieved February 25, 2016.
- ^ Grazulis 1984, p. A-19.
- ^ a b c Marbury, J. B. (June 1903). "Tornado at Gainesville, Ga., June 1, 1903". Monthly Weather Review. 31 (6): 268–269. doi:10.1175/1520-0493(1903)31[268b:TAGGJ]2.0.CO;2. ISSN 0027-0644. Retrieved 2023-03-30.
- ^ Grazulis 1993, p. 700.
- ^ Grazulis 2001a, p. 26.
Sources
[edit]- Grazulis, Thomas P. (May 1984). Violent Tornado Climatography, 1880–1982. OSTI (Technical report). NUREG. Washington, D.C.: Nuclear Regulatory Commission. OSTI 7099491. CR-3670.
- Grazulis, Thomas P. (November 1990). Significant Tornadoes 1880–1989. Vol. 2. St. Johnsbury, Vermont: The Tornado Project of Environmental Films. ISBN 1-879362-02-3.
- Grazulis, Thomas P. (July 1993). Significant Tornadoes 1680–1991: A Chronology and Analysis of Events. St. Johnsbury, Vermont: The Tornado Project of Environmental Films. ISBN 1-879362-03-1.
- Grazulis, Thomas P. (2001a). The Tornado: Nature's Ultimate Windstorm. Norman: University of Oklahoma Press. ISBN 978-0-8061-3538-0.
- Grazulis, Thomas P. (2001b). F5-F6 Tornadoes. St. Johnsbury, Vermont: The Tornado Project of Environmental Films.