List of case studies on tornadoes (2020–present)
This is a list of government or academic case studies on individual tornadoes or tornado outbreaks which occurred during the 2020s. A case study is an in-depth analysis which focuses on a single event, several events, and/or a specific aspect of an event.[1][2]
List
[edit]Case studies published by academia are included in this list. As part of the United States National Weather Service's (NWS) and Environment and Climate Change Canada's (ECCC) official duties, they are required to conduct a damage survey on every tornado in the United States and Canada. For this reason, only publications by the NWS and ECCC beyond a standard damage survey are included as, on average, over 1,200 tornadoes occur annually in the two countries together. Tornado records in Europe are kept by the European Severe Storms Laboratory (ESSL) in the European Severe Weather Database. For this reason, only publications by ESSL outside of the database are included.
Tornado(es) | Max rating | Summary |
---|---|---|
2019 Lawrence–Kansas City tornado | EF4 | A 2020 study focused on the debris fallout caused by this tornado as it moved over Kansas City International Airport.[3] |
2020 Nashville tornado outbreak | N/A | Researchers with Mississippi State University and Indiana University–Purdue University Indianapolis published a case study on how TV stations covered the outbreak.[4] |
2020 Nashville tornado | EF3 | Researchers with the University of Oklahoma’s CIWRO, the National Severe Storms Laboratory, the University of Maryland, College Park published a case study on the short-term forecasting of this nocturnal tornado.[5] |
2020 Cookeville tornado | EF4 | Researchers with the University of Oklahoma’s CIWRO, the National Severe Storms Laboratory, the University of Maryland, College Park published a case study on the short-term forecasting of this nocturnal tornado.[5] |
Researchers from the University of Oklahoma, Auburn University, and University of Illinois Urbana-Champaign conducted a case study on survivors of the tornado can help future forensic engineering.[6] | ||
2020 Easter tornado outbreak | N/A | Researchers with the University of Oklahoma’s CIWRO, the National Severe Storms Laboratory, and National Weather Service forecasting office in Columbia, South Carolina, published a case study on the forecasting of and the aftermath of the second day of the 2020 Easter tornado outbreak, more commonly known as the Central Savannah River outbreak.[7] |
Researchers with Mississippi State University and Indiana University–Purdue University Indianapolis published a case study on how TV stations covered the outbreak.[4] | ||
2020 Scarth tornado | CEF3 | Researchers with the University of Western Ontario's Northern Tornado Project conducted a case study on this tornado, in which, they estimated the tornado had winds of at least 110–119 metres per second (250–270 mph; 400–430 km/h) based on an analysis of an SUV and a truck thrown by the tornado 50 metres (55 yd) and 100 metres (110 yd) respectively.[8] |
2021 South Moravia tornado | IF4 | Researchers with the European Severe Storms Laboratory, Czech Hydrometeorological Institute, Slovak Hydrometeorological Institute, Meteopress, Comenius University, and Charles University published a detailed damage survey of the tornado using the brand new International Fujita scale (IF-scale).[9] |
A case study by Simona Hoskovcová, Martina Wolf Čapková, and Štěpán Vymětalon on the "phycological crisis" created by the tornado.[10] | ||
Researchers with Palacký University Olomouc and the Police Academy of the Czech Republic in Prague published a case study on the tornado.[11] | ||
Researchers with the Brno University of Technology published a case study on the damage caused by the tornado.[12] | ||
Researchers with the European Severe Storms Laboratory, Czech Hydrometeorological Institute, Charles University , Meteopress, Slovak Hydrometeorological Institute, Commenius University, Geosphere, Austrocontrol, and Brno University of Technology, published a detailed damage survey of the tornado through the American Meteorological Society using a new version of the International Fujita scale.[13] | ||
Tornado outbreak of July 11–13, 2021 | N/A | Researchers with Peking University, China Meteorological Administration Tornado Key Laboratory, Foshan Tornado Research Center, Southern Marine Science and Engineering Guangdong Laboratory, and the China Meteorological Administration published a case study on the tornado outbreak, which was the second-ever record tornado outbreak in Chinese history.[14] |
2021 Quad-State Supercell | N/A | Researchers with the University of Nebraska–Lincoln published a detailed case study on the polarimetric radar observations obtained on the 2021 Quad-State Supercell, which produced 11 tornadoes, including two long-track, violent EF4 tornadoes.[15] |
2021 Western Kentucky tornado | EF4 | A case study by Rebecca Freihaut with the University of Central Florida on how the residents of Mayfield, Kentucky recovered after the tornado.[16] |
A case study by researchers from Pennsylvania State University on how historic masonry structures in Mayfield, Kentucky performed during the tornado.[17] | ||
A detailed damage survey and analysis of part of the tornado's track, focusing mainly on Mayfield, Kentucky published by Timothy Marshall, a meteorologist, structural and forensic engineer; Zachary B. Wienhoff, with Haag Engineering Company; Christine L. Wielgos, a meteorologist at the National Weather Service of Paducah; and Brian E. Smith, a meteorologist at the National Weather Service of Omaha. In their conclusion, the researchers state, “the tornado damage rating might have been higher had more wind resistant structures been encountered. Also, the fast forward speed of the tornado had little ‘dwell’ time of strong winds over a building and thus, the damage likely would have been more severe if the tornado were slower.”[18] | ||
2022 Arabi–New Orleans tornado | EF3 | Researchers with Auburn University, Florida International University, Pennsylvania State University, Louisiana State University, University of South Alabama, University of Illinois Urbana-Champaign, University of Kentucky, and CoreLogic, published an academic case study on how hurricane-resistant houses performed during the tornado.[19] |
2023 Rolling Fork–Silver City tornado | EF4 | The National Weather Service offices in Jackson, Mississippi and Nashville, Tennessee, along with the National Severe Storms Laboratory and the University of Oklahoma's CIWRO publish a joint damage survey and analysis on the tornado.[20] |
A case study from researchers with Nanyang Technological University and the University of California on how soil moisture observations led to discrepancies being discovered on the tornado’s track vs spotter confirmations vs official damage assessments from the National Weather Service.[21] | ||
A case study by researchers from the Microsoft AI for Good Research Lab, Microsoft Philanthropies, and the American Red Cross on how rapid building damage assessment was conducted following the tornado.[22] | ||
A case study by researchers with the University of Oklahoma's CIWRO, the National Severe Storms Laboratory, and the Mississippi/Alabama Sea Grant on the tornado.[23] | ||
2023 Black Hawk–Winona tornado | EF3 | The National Weather Service offices in Jackson, Mississippi and Nashville, Tennessee, along with the National Severe Storms Laboratory and the University of Oklahoma's CIWRO publish a joint damage survey and analysis on the tornado.[20] |
A case study by researchers with the University of Oklahoma's CIWRO, the National Severe Storms Laboratory, and the Mississippi/Alabama Sea Grant on the tornado.[23] | ||
2023 New Wren–Amory tornado | EF3 | The National Weather Service offices in Jackson, Mississippi and Nashville, Tennessee, along with the National Severe Storms Laboratory and the University of Oklahoma's CIWRO publish a joint damage survey and analysis on the tornado.[20] |
Researchers with the Oak Ridge National Laboratory conducted a case study and detailed damage survey of the tornado.[24] | ||
A case study by researchers with the University of Oklahoma's CIWRO, the National Severe Storms Laboratory, and the Mississippi/Alabama Sea Grant on the tornado.[23] | ||
Tornado outbreak of April 19–20, 2023 | N/A | The National Weather Service office in Norman, Oklahoma published a detailed damage survey and analysis for tornadoes during the outbreak.[25] |
2023 Didsbury tornado | CEF4 | Researchers with the University of Western Ontario's Northern Tornado Project conducted a case study on this tornado, in which, they estimated the tornado had winds at least 119 metres per second (270 mph; 430 km/h) based on an analysis of a New Holland TR86 combine harvester that was thrown 100 metres (110 yd) by the tornado.[8] |
2023 Jersey tornado | IF3 | Researchers with the Tornado and Storm Research Organisation (TORRO), Met Office, and Jersey Met, published a case study on the storm which produced an intense tornado and a hailstorm on the island nation of Jersey.[26] |
2024 oThongathi tornado | EF3 | The South African Weather Service conducted a nine-day damage survey and case study on the rare tornado.[27] |
See also
[edit]- History of tornado research
- Meteorology in the 21st century
- Tornadoes of 2020
- Tornadoes of 2021
- Tornadoes of 2022
- Tornadoes of 2023
- Tornadoes of 2024
References
[edit]- ^ Bromley, D. B. (1986). The case-study method in psychology and related disciplines. Chichester: Wiley. ISBN 0-471-90853-3. OCLC 12235475.
- ^ Feagin, Joe R.; Orum, Anthony M.; Sjoberg, Gideon (1991). A Case for the case study. Chapel Hill: University of North Carolina Press. ISBN 0-8078-1973-5. OCLC 22909879.
- ^ Wang, Erik Y.; Bodine, David J.; Kurdzo, James M.; Barham, James; Bowman, Chris; Pietrycha, Pamela. Polarimetric Characteristics of Tornado Debris Fallout During the May 28 2019 Lawrence/Kansas City, KS Tornado (PDF). 100th Annual Meeting Severe Local Storms Symposium.
- ^ a b Sherman-Morris, Kathleen; Ali, S. M. Asger (January 2024). "An Exploratory Content Analysis of Two Local Television Stations' Tornado Warning Broadcasts". Weather, Climate, and Society. 16 (1). American Meteorological Society: 155–170. doi:10.1175/WCAS-D-23-0011.1. Retrieved 29 May 2024.
- ^ a b Galarneau, Thomas J.; Wicker, Louis J.; Knopfmeier, Kent H.; Miller, William J. S.; Skinner, Patrick S.; Wilson, Katie A. (June 2022). "Short-Term Prediction of a Nocturnal Significant Tornado Outbreak Using a Convection-Allowing Ensemble". Weather and Forecasting. 37 (6). American Meteorological Society: 1027–1047. doi:10.1175/WAF-D-21-0160.1. Retrieved 29 May 2024.
- ^ LaDue, Daphne S.; Roueche, David; Lombardo, Frank; Mayeux, Lara (23 May 2024). "Linking Survivor Stories to Forensic Engineering: How an Interscience Approach Reveals Opportunities for Reducing Tornado Vulnerability in Residential Structures". Bulletin of the American Meteorological Society. American Meteorological Society. doi:10.1175/BAMS-D-23-0036.1. Retrieved 29 May 2024.
- ^ Kerr, Christopher A.; Alsheimer, Frank (June 2022). "Storm-Scale Predictability and Analysis of the 13 April 2020 Central Savannah River Area Tornado Outbreak". Weather and Forecasting. 37 (6). American Meteorological Society: 901–913. doi:10.1175/WAF-D-21-0185.1. Retrieved 29 May 2024.
- ^ a b Miller, Connell S.; Kopp, Gregory A.; Sills, David M.L.; Butt, Daniel G. (20 May 2024). "Estimating wind speeds in tornadoes using debris trajectories of large compact objects". Monthly Weather Review. American Meteorological Society. doi:10.1175/MWR-D-23-0251.1. Retrieved 29 May 2024.
- ^ Pucik, Tomas; Ryva, David; Singer, Miroslav; Stanek, Miloslav; Gorenemeijer, Pieter (23 June 2022). "Damage Survey of the Violent Tornado in Southeast Czechia on 24 June 2021" (PDF). Europe: European Severe Storms Laboratory. Archived from the original (PDF) on 27 January 2024. Retrieved 29 May 2024.
- ^ Hoskovcová, Simona; Vymětal, Štěpán; Wolf Čapková, Martina (30 December 2021). "Tornádo 2021 v České republice – psychosociální pomoc IZS v zasažených oblastech". E-psychologie. 15 (4): 60–68. doi:10.29364/epsy.421. Retrieved 30 May 2024.
- ^ Mika, Otakar Jiri; Otrisal, Pavel (15 September 2022). "A Devastating Tornado in Moravia 2021" (PDF). Challenges to National Defence in Contemporary Geopolitical Situation. 3rd International Conference. Vilnius, Lithuania. Retrieved 30 May 2024.
- ^ Mikulík, Michal; Hanák, Tomáš; Sokol, Patrik; Výskala, Miloslav (4 April 2023). "Determination of the extent of damage and calculation of the indemnity in case of natural disaster – tornado in South Moravia". Archives of Civil Engineering. Warsaw University of Technology. doi:10.24425/ace.2023.144193. Retrieved 30 May 2024.
- ^ Púčik, Tomáš; Rýva, David; Staněk, Miloslav; Šinger, Miroslav; Groenemeijer, Pieter; Pistotnik, Georg; Kaltenberger, Rainer; Zich, Miloš; Koláček, Jan; Holzer, Alois (10 April 2024). "The violent tornado on 24 June 2021 in Czechia: damage survey, societal impacts and lessons learned" (Academic publication). Weather, Climate, and Society. -1 (aop). European Severe Storms Laboratory (ESSL), Czech Hydrometeorological Institute (CHMI), Charles University (CU), Meteopress, Slovak Hydrometeorological Institute (SHMÚ), Commenius University, Geosphere, Austrocontrol, and Brno University of Technology (BUT) via the American Meteorological Society. doi:10.1175/WCAS-D-23-0080.1. Retrieved 2 May 2024.
- ^ Wen, Jingyi; Meng, Zhiyong; Bai, Lanqiang; Zhou, Ruilin (April 2024). "A Comparison between the Only Two Documented Tornado Outbreak Events in China: Tropical Cyclone versus Extratropical Cyclone Environments". Weather and Forecasting. 39 (4). American Meteorological Society: 613–638. doi:10.1175/WAF-D-23-0083.1. Retrieved 29 May 2024.
- ^ Van Den Broeke, Matthew S.; Wilson, Matthew B.; Van Den Broeke, Cynthia A.; Healey, Devon J.; Wood, Michaela J.; Nelson, Raychel E. (September 2023). "Polarimetric Radar Observations of a Long-Lived Supercell and Associated Tornadoes on 10–11 December 2021". Monthly Weather Review. 151 (9). American Meteorological Society: 2501–2520. doi:10.1175/MWR-D-22-0330.1. Retrieved 29 May 2024.
- ^ Freihaut, Rebecca (2023). "The Study of Crisis Narratives Over Time: Mayfield, KY in the Aftermath of the 2021 Tornadoes". Graduate Thesis and Dissertation 2023-2024. University of Central Florida. Retrieved 14 May 2024.
- ^ Kaushal, Saanchi S.; Gutierrez Soto, Mariantonieta; Napolitano, Rebecca (September 2023). "Understanding the Performance of Historic Masonry Structures in Mayfield, KY after the 2021 Tornadoes". Journal of Cultural Heritage. 63: 120–134. doi:10.1016/j.culher.2023.07.002. Retrieved 14 May 2024.
- ^ Timothy P. Marshall (Haag Engineering Company); Zachary B. Wienhoff (Haag Engineering Company); Brian E. Smith (NOAA/NWS); Christine L. Wielgos (NOAA/NWS) (January 2022). "Damage Survey of the Mayfield, KY Tornado: 10 December 2021". Academia.edu: 1–13. Retrieved 19 January 2023.
- ^ Roueche, David B.; Chen, Guangzhao; Soto, Mariantonieta Gutierrez; Kameshwar, Sabarethinam; Safiey, Amir; Do, Trung; Lombardo, Franklin T.; Nakayama, Jordan O.; Rittelmeyer, Brandon M.; Palacio-Betancur, Alejandro; Demaree, Garrett (May 2024). "Performance of Hurricane-Resistant Housing during the 2022 Arabi, Louisiana, Tornado". Journal of Structural Engineering. 150 (5). American Society of Civil Engineers. doi:10.1061/JSENDH.STENG-12986. Retrieved 7 May 2024.
- ^ a b c National Weather Service in Jackson, Mississippi (22 September 2023). "The Intense Mississippi Tornadoes of March 24, 2023" (StoryMap). ArcGIS StoryMaps. National Oceanic and Atmospheric Administration. Archived from the original on 23 September 2023. Retrieved 23 September 2023.
- ^ Wang, Jingyu; Wang, Xianfeng; Park, Edward; Lin, Yun (31 July 2023). "Brief communication: Soil moisture observations reconcile the discrepancy in detecting tornado early-stage track during the 24–25 March 2023 Mississippi outbreak". Natural Hazards and Earth System Sciences Discussions: 1–10. doi:10.5194/nhess-2023-100. Retrieved 15 May 2024.
- ^ Robinson, Caleb; Nsutezo, Simone Fobi; Ortiz, Anthony; Sederholm, Tina; Dodhia, Rahul; Birge, Cameron; Richards, Kasie; Pitcher, Kris; Duarte, Paulo; Ferres, Juan M. Lavista (2023). "Rapid Building Damage Assessment Workflow: An Implementation for the 2023 Rolling Fork, Mississippi Tornado Event". Proceedings of the IEEE/CVF International Conference on Computer Vision (ICCV) Workshops: 3760–3764. arXiv:2306.12589. Retrieved 15 May 2024.
- ^ a b c Berry, Kodi L. (13 June 2024). "Coordinating physical and social science data collections for the 24 March 2023 Rolling Fork–Winona–Amory, MS, tornado event". 51st Conference on Broadcast Meteorology / Seventh Conference on Weather Warnings and Communication. Myrtle Beach, South Carolina: American Meteorological Society. Retrieved 30 May 2024.
- ^ Hines, Jairus; Haldeman, Dakota (May 2023). "Trip Report - Amory, MS Tornado Damage Survey" (PDF). ORNL/SPR-2023/2931. Oak Ridge National Laboratory. Archived (PDF) from the original on 29 May 2024. Retrieved 29 May 2024.
- ^ National Weather Service (21 April 2023). "April 19, 2023 Large Hail & Tornado Event" (StoryMap). ArcGIS StoryMaps. Norman, Oklahoma: National Oceanic and Atmospheric Administration. Archived from the original on 29 May 2024. Retrieved 29 May 2024.
- ^ Knightley, Paul; Horton, Sarah; Clark, Matthew; Winter, Matthew (March 2024). "The Jersey tornado and hailstorm of 1–2 November 2023". Weather. 79 (3). Royal Meteorological Society: 81–84. doi:10.1002/wea.4530. Retrieved 6 June 2024.
- ^ "oThongathi tornado rated EF3 on the Enhanced Fujita scale" (PDF). Pretoria: South African Weather Service. 12 June 2024. Archived (PDF) from the original on 13 June 2024. Retrieved 13 June 2024.