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Research on tornadoes in 2024

From EverybodyWiki Bios & Wiki

A National Severe Storms Laboratory’s vehicle chasing and researching a tornado near Duke, Oklahoma on May 25, 2024

During 2024, tornadoes and tornado outbreaks were extensively researched by meteorologists and engineers across the world. Some research and publications included: the effects of "Tornado Brain", the detection of tornadic infrasound, several mobile radar observations of tornadoes, including the measurement of tornadic winds over 300 mph (480 km/h), the idea of tornado alley shifting eastward, and many other things.

Timeline[edit]

January[edit]

In January 2024, researchers with Colorado State University’s Department of Atmospheric Science, published an analysis and database of 74 tornadoes which occurred in South America. According to the researchers, this was the first time tornadic environments was studied across South America.[1]

February[edit]

President Obama greets a tornado survivor of the 2011 Joplin tornado

In February 2024, researchers with the University of Tennessee and University of Missouri published an academic study about how survivors from the 2011 Joplin tornado recover from "Tornado Brain", a new term for the PTSD of tornado survivors.[2]

During the same month, researchers with Auburn University (AU), Florida International University (FIU), Pennsylvania State University (Penn State), Louisiana State University (LSU), University of South Alabama, University of Illinois Urbana-Champaign (UIUC), University of Kentucky, and CoreLogic, published an academic case study on how hurricane-resistant houses performed during the 2022 Arabi–New Orleans EF3 tornado.[3] Researchers with the Tornado and Storm Research Organisation (TORRO), Met Office, and Jersey Met, also published a case study on the storm which produced an intense tornado and a hailstorm on the island nation of Jersey in November 2023.[4]

On February 8, meteorologist and storm chaser Reed Timmer, along with Mark Simpson, Sean Schofer, Curtis Brooks, published a paper about the design of and information about a new meteorological rocket probe which can be launched into tornadoes. The researchers launched one of these rocket probes into the 2019 Lawrence–Linwood EF4 tornado. The probe recorded winds of 85.1 m/s (190 mph; 306 km/h) during its first rotation around the tornado and also recorded a pressure drop of 113.5 hPa (113.5 mb) inside the tornado. The probe also recorded that the tornado's updraft was 65.0 m/s (145 mph; 234 km/h). The tornado threw the probe 32 mi (51 km), where the researchers were able to recover it.[5][6]

March[edit]

An illustration of where traditional and mobile radars usually scan a tornado or its parent circulation relative to where damage occurs, superimposed on the Custer City, Oklahoma tornado of May 19, 2024.

In March 2024, Anthony W. Lyza, Matthew D. Flournoy, and A. Addison Alford, researchers with the National Severe Storms Laboratory, Storm Prediction Center, CIWRO, and the University of Oklahoma's School of Meteorology, published a paper where they stated, ">20% of supercell tornadoes may be capable of producing EF4–EF5 damage" and that "the legacy F-scale wind speed ranges may ultimately provide a better estimate of peak tornado wind speeds at 10–15 m AGL for strong–violent tornadoes and a better damage-based intensity rating for all tornadoes". In their conclusion, the researchers also posed the question: "Does a 0–5 ranking scale make sense given the current state of understanding of the low-level tornado wind profile and engineering of structures?"[7]

April[edit]

Evolution of the Minden–Harlan tornado on April 26

In April 2024, the European Severe Storms Laboratory and the Czech Hydrometeorological Institute, along with seven other European organizations, published a detailed damage survey and analysis on the 2021 South Moravia tornado using the International Fujita scale.[8] Also in April, Timothy A. Coleman, with the University of Alabama in Huntsville (UAH), Richard L. Thompson with the NOAA Storm Prediction Center, and Dr. Gregory S. Forbes, a retired meteorologist from The Weather Channel published an article to the Journal of Applied Meteorology and Climatology stating, "it is apparent that the perceived shift in tornado activity from the traditional tornado alley in the Great Plains to the eastern U.S. is indeed real".[9][10] On April 26, a Doppler on Wheels (DOW) mobile radar truck measured 1-second wind speeds of approximately 224 mph (360 km/h) at a height of ~282 yards (258 m) as a tornado passed near Harlan, Iowa, causing widespread destruction.[11][12] On April 30, strong tornado near Hollister, Oklahoma passed close to a NEXRAD radar. The radar measured a tornado vortex signature with a gate-to-gate of 260 miles per hour (420 km/h) about 600 feet (200 yd; 180 m) above the surface.[13][14]

In mid-April, the National Severe Storms Laboratory along with Texas Tech University begin the Low-Level Internal Flows in Tornadoes (LIFT) Project, with the goal to collect data from the “damage layer” of tornadoes; from ground level to 20 m (22 yd) above the surface. The LIFT project deployed 11 times between April-June, gathering data from “numerous successful intercepts”.[15]

On April 30, the 118th United States House of Representatives passed the Weather Research and Forecasting Innovation Reauthorization Act of 2023, also known as the Weather Act Reauthorization Act of 2023, sending it to the United States Senate. The bill is set to provide authority for the Verification of the Origins of Rotation in Tornadoes Experiment (VORTEX-USA) by the National Oceanic and Atmospheric Administration.[16]

May[edit]

In May 2024, researchers with the University of Western Ontario's Northern Tornado Project and engineering department conducted a case study on the 2018 Alonsa EF4 tornado, the 2020 Scarth EF3 tornado, and the 2023 Didsbury EF4 tornado. In their case study, the researchers assessed extreme damage caused by the tornado which is ineligible for ratings on the Canadian Enhanced Fujita scale or the American Enhanced Fujita scale (EF-scale). In their analysis, it was determined all three tornadoes caused damage well-beyond their assigned EF-scale ratings, with all three tornadoes having EF5-intensity winds; Alonsa with 127 metres per second (280 mph; 460 km/h), Scarth with 110–119 metres per second (250–270 mph; 400–430 km/h), and Didsbury with 119 metres per second (270 mph; 430 km/h). At the end of the analysis, the researchers stated, "the lofting wind speeds given by this model are much higher than the rating based on the ground survey EF-scale assessment. This may be due to the current tendency to bias strong EF5 tornadoes lower than reality, or limitations in conventional EF-scale assessments".[17] Also during May, Timothy J. Dolney with Pennsylvania State University, published a new analysis of the 1985 United States–Canada tornado outbreak, specifically focusing on the state of Pennsylvania and Tornado Watch #211 issued by the National Weather Service for the tornado outbreak.[18]

Also in May, Doctor Bin Liang with the University of Mississippi published a paper on the results of a field research project on tornadoes. During the project, Liang was able to determine “that tornadoes emit dominant low-frequency infrasound between 0.5−1.2 Hertz”, after examining tornadic and non-tornadic supercells.[19]

On May 23, a Doppler on Wheels observed and recorded data of a large and long-lived EF2 tornado near Duke, Oklahoma.[20]

Greenfield tornado[edit]

High-resolution radar data of the EF4 tornado caught by DOW6

On May 21, a violent EF4 tornado struck the town of Greenfield, Iowa. As the tornado moved through the town, a Doppler on Wheels measured winds of at least >250 mph (400 km/h), "possibly as high as 290 mph (470 km/h)" at 48 yards (44 m) above the surface.[21] Pieter Groenemeijer, the director of the European Severe Storms Laboratory, noted that "on the IF-scale, 250 mph measured below 60 m above ground level is IF4 on the IF-scale, 290 mph is IF5."[22] The peak wind speed estimate was revised to between 309 mph (497 km/h) and 318 mph (512 km/h), a figure "among the highest wind speeds ever determined using DOW data", on June 22, 2024.[23]

A few weeks after the tornado, the National Oceanic and Atmospheric Administration released details about an experimental warning system which was tested before and during the tornado. This new warning system, named Warn-on-Forecast System (WoFS), was created by the Hazardous Weather Testbed housed in the National Weather Center in Norman, Oklahoma. During the experiment and test, the WoFS gave a high indication of “near-ground rotation” in and around the area of Greenfield, Iowa between 2-4 p.m. According to the press release, 75-minutes later, the violent EF4 tornado touched down. Scientists with the National Severe Storms Laboratory were able to give local National Weather Service forecasters a 75-minute lead time for the tornado.[24]

June[edit]

In June 2024, the first part of research from the PERiLS Project was published through the American Meteorological Society.[25] Also in June, researchers with the University of Miami’s CIMAS’s, the Atlantic Oceanographic and Meteorological Laboratory, the University of California, the Jet Propulsion Laboratory, and Mississippi State University published a paper regarding how a prolonged and unusual Pacific–North American pattern contributed to the formation of the tornado outbreak of December 10–11, 2021 and the infamous Quad-State Supercell.[26] Researchers with the University of Illinois also published a paper on various regional and seasonal trends of tornadoes across the United States.[27]

On June 3, a rare and intense EF3 tornado struck the town of oThongathi (Tongaat), in South Africa. The South African Weather Service conducted a nine-day case study on the tornado.[28]

July[edit]

In July 2024, scientists and historians from the University of Maryland, College Park, Storm Prediction Center, National Weather Service Norman, Oklahoma, Stanford University, and the University of Oklahoma's School of Meteorology, Center for Analysis and Prediction of Storms, and Advanced Radar Research Center, published information on a new database, called Tornado Archive, which contains information on more than 100,000 tornadoes.[29] Also in July, Jennifer M. First with the University of Missouri, published a paper examining the aftermath of the 2020 Nashville tornado, focusing on the mental health issues of survivors and the gender-based recovery difference.[30]

Later in the month, Engineers with Pennsylvania State University published a paper in the Journal of Structural Engineering to document how historic buildings in downtown Mayfield, Kentucky survived the 2021 Western Kentucky tornado, which caused EF4 damage throughout the city.[31]

On July 11, Independent United States Senator Kyrsten Sinema, along with other Democratic and Republican Senators, introduced the Border Weather Resiliency Act of 2024 to the United States Senate.[32] On July 22, United States Congressman Randy Feenstra along with three other congressman introduced a bill (H.R.9081) to the United States House of Representatives to provide tax relief to people affected by severe storms, flooding, and tornadoes.[33]

On July 19, the hit disaster-film Twisters released, which included accurate scientific theories on ways to potentially disrupt tornadoes.[34]

On July 30, Andrew Mercer, Kenneth Swan, and Adonte Knight with Mississippi State University published the first quantitative definition for how to define a tornado outbreak. The researchers also analyzed intensity and frequency trends of tornado outbreaks between 1960 and 2021. In their analysis, it was determined that between 1960-2021, the United States experienced 6,723 individual tornado outbreaks and that there is also a downward trend of 0.25 tornado outbreaks per year.[35]

August[edit]

In August 2024, Jordan Tweedie with the University of Oklahoma, published a paper on how the lower atmospheric boundary layer affected the supercell which produced the violent 2023 Rolling Fork–Silver City EF4 tornado. Tweedie stated the data collection for the research came from the PERiLS Project.[36] Later in the month, researchers with Central Michigan University, the University of Nebraska–Lincoln, the National Weather Service and the Polish Adam Mickiewicz University published an investigation into "230 significant tornadoes, 246 significant hail events, and 191 null cases across the United States" and how cell mergers, boundaries, other supercells, along with other meteorological phenomenon interact and what impacts do they have on tornadoes and significant hail.[37] On August 27, Sarah L. Horton with the Tornado and Storm Research Organisation published a case study on tornadoes which occurred during Storm Ciarán in 2023.[38] On August 30, meteorologist Trey Greenwood published a meteorological analysis on the 2024 Hollister, Oklahoma tornado.[39] Researchers with the University of Alabama also published a paper on how tornadoes devastated the tsuga canadensis, commonly known as eastern hemlock, in part of Alabama.[40]

On August 14, researchers with the Pressure Acoustics Research Inside Tornadoes EXperiment (PACRITEX) published research on some of the first pressure measurements and video observations inside three EF2 tornadoes taken by in-situ tornado probes.[41][42]

  • The first deployment of the probe was inside the 2016 Tulsa, Oklahoma tornado. Within two minutes, the pressure dropped from a reading of 985 hPa outside of the tornado to 929 hPa inside the tornado. During those two minutes, the probe recorded three individual spikes, indicating it most likely sampled suction vorticies.[41]
  • The second deployment of the probe was the 2019 Burnsville, Mississippi tornado. The probe captured video from inside the tornado, which allowed the researchers to carefully study the inflow and bowl feature of the tornado. During probe deployment, the researchers were directly struck by the tornado. The probe recorded a pressure drop from 990 hPa to 950 hPa and a wind speed measurement of 54.6 metres per second (122 mph; 197 km/h) from ground level inside the tornado.[41]
  • The third deployment of the probe was the 2019 McCook, Nebraska tornado. The probe was deployed directly inside the tornado. While inside the tornado, the probe captured 3 separate pressure drop spikes, with over 65 seconds between the second spike and third spike. During the third spike, the probe recorded a pressure of 890 hPa and a wind speed of up to 55 metres per second (120 mph; 200 km/h).[41]

September[edit]

In September 2024, researchers published a study with the American Meteorological Society regarding the various environmental conditions associated with long-track tornadoes (defined as a path length of at least 30 mi (48 km)), including, but not only, the 2021 Tri-State EF4 tornado, the 2021 Western Kentucky EF4 tornado, the 2021 Kenton–Dresden, Tennessee/Pembroke, Kentucky EF3 tornado, and the Barneveld–Black Earth F5 tornado.[43]

Later in the month, researchers with the ERATOSTHENES Centre of Excellence, the Cyprus University of Technology, the Harz University of Applied Studies, the Leibniz-Institut für Troposphärenforschung [de], and the Cyprus Department of Meteorology, published a case study on the 2024 Cyprus IF1.5 tornado on February 14, 2024. In their study, the researchers published about how the Atmospheric Remote Sensing Observatory (CARO), located 10 km (6.2 mi) away from the tornado in the city of Limassol, recorded a vertical wind speed of 10 m/s (22 mph) as well as an instantaneous rate of rain from the storm of 90 millimetres per hour (3.5 in/h).[44]

Mobile radar observations[edit]

See also[edit]

References[edit]

  1. Veloso-Aguila, Daniel; Rasmussen, Kristen L.; Maloney, Eric D. (January 2024). "Tornadoes in Southeast South America: Mesoscale to Planetary-Scale Environments". Monthly Weather Review. American Meteorological Society. 152 (1): 295–318. Bibcode:2024MWRv..152..295V. doi:10.1175/MWR-D-22-0248.1. Retrieved 21 July 2024.
  2. First, Jennifer M.; Carnahan, Megan; Yu, Mansoo; Lee, Sangwon; Houston, J. Brian (19 February 2024). "'Recovering from Tornado Brain': A Qualitative Analysis of Long-Term Needs after One of the Deadliest Tornadoes in U.S. History". Clinical Social Work Journal. The University of Tennessee and University of Missouri via Springer Science+Business Media: 1–11. doi:10.1007/s10615-024-00926-1. ISSN 1573-3343. Retrieved 5 April 2024.
  3. 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. American Society of Civil Engineers. 150 (5). doi:10.1061/JSENDH.STENG-12986. Retrieved 7 May 2024.
  4. Knightley, Paul; Horton, Sarah; Clark, Matthew; Winter, Matthew (March 2024). "The Jersey tornado and hailstorm of 1–2 November 2023". Weather. Royal Meteorological Society. 79 (3): 81–84. Bibcode:2024Wthr...79...81K. doi:10.1002/wea.4530. Retrieved 6 June 2024.
  5. Timmer, Reed; Simpson, Mark; Schofer, Sean; Brooks, Curtis (8 February 2024). "Design and rocket deployment of a trackable pseudo-Lagrangian drifter-based meteorological probe into the Lawrence/Linwood EF4 tornado and mesocyclone on 28 May 2019". Atmospheric Measurement Techniques. Copernicus Publications. 17 (3): 943–960. Bibcode:2024AMT....17..943T. doi:10.5194/amt-17-943-2024. Retrieved 22 July 2024.
  6. Cappucci, Matthew (6 June 2019). "Storm chaser Reed Timmer successfully shot a rocket into a wedge tornado. The data, he says, is 'incredible.'". The Washington Post. Washington, D.C. Archived from the original on 22 July 2024. Retrieved 22 July 2024. Unknown parameter |url-status= ignored (help)
  7. Lyza, Anthony W.; Flournoy, Matthew D.; Alford, A. Addison (19 March 2024). "Comparison of Tornado Damage Characteristics to Low-Altitude WSR-88D Radar Observations and Implications for Tornado Intensity Estimation" (Academic publication). Monthly Weather Review. National Oceanic and Atmospheric Administration and University of Oklahoma via the American Meteorological Society. -1 (aop): 1689–1710. Bibcode:2024MWRv..152.1689L. doi:10.1175/MWR-D-23-0242.1. Retrieved 19 March 2024.
  8. 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. 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. -1 (aop): 411–429. Bibcode:2024WCS....16..411P. doi:10.1175/WCAS-D-23-0080.1. Retrieved 2 May 2024.
  9. Coleman, Timothy A.; Thompson, Richard L.; Forbes, Gregory S. (29 April 2024). "A Comprehensive Analysis of the Spatial and Seasonal Shifts in Tornado Activity in the United States" (Academic publication). Journal of Applied Meteorology and Climatology. University of Alabama in Huntsville, Storm Prediction Center, The Weather Channel via the American Meteorological Society. -1 (aop): 717–730. doi:10.1175/JAMC-D-23-0143.1. Retrieved 3 May 2024.
  10. Erdman, Jonathan (5 June 2024). "'Tornado Alley' Has Shifted East From The Plains, A New Study Says". The Weather Channel. Archived from the original (News article) on 6 June 2024. Retrieved 6 June 2024. Unknown parameter |url-status= ignored (help)
  11. "Preliminary Wind Summary Measurements and Analysis from Harlan, IA tornado on Friday (26 April 2024)" (Post on 𝕏). 𝕏 (Formerly Twitter). University of Illinois: Doppler on Wheels. 28 April 2024. Retrieved 28 April 2024. Winds of ~224 mph and diameter of max winds of ~2966 ft. Observations were taken as part of the @NSF -sponsored #BEST project led by @karen_kosiba and @JoshuaWurman
  12. Kosiba, Karen (28 April 2024). "@DOWFacility research RE many peoples' questions" (Post on 𝕏). 𝕏 (Formerly Twitter). @karen_kosiba. Retrieved 29 April 2024. These data: Height ~258 m ARL (see 2) Gate 12m/beam 122m, gusts ~1sec
  13. Patterson, Kaley (2 May 2024). "Did Oklahoma Really See the Most Powerful Tornado Ever?". Lawton, Oklahoma: KLAW 101. Archived from the original (News article) on 17 May 2024. Retrieved 17 May 2024. The gate velocities were over 260 miles per hour, a vortex hole like the eye of a hurricane and the swirl could be seen from 18,000 feet. Unknown parameter |url-status= ignored (help)
  14. Antico, Tucker (30 April 2024). "In this 45 minute loop from SW OK, we've witnessed... 1) RFD surge initiate a strong tornado 2) TVS with GTG shear of 260+ MPH (600 FT beam height) 3) Tornado retrograde as it occluded 4) "Hurricane eye" BWER 5) Strong anticyclonic tornado emerge to the south #OKwx" (Post on 𝕏). 𝕏 (Formerly Twitter). Boston, Massachusetts: Boston25. Retrieved 1 May 2024.
  15. National Severe Storms Laboratory (3 July 2024). "GROUND LEVEL SCIENCE: LIFT CHASES TORNADO INSIGHT". NSSL News. National Oceanic and Atmospheric Administration. Retrieved 16 July 2024.
  16. 118th United States Congress. "H.R.6093 - Weather Research and Forecasting Innovation Reauthorization Act of 2023". United States federal government. Archived from the original on 22 July 2024. Retrieved 22 July 2024. Unknown parameter |url-status= ignored (help)
  17. 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. -1 (aop): 1859–1881. Bibcode:2024MWRv..152.1859M. doi:10.1175/MWR-D-23-0251.1. Retrieved 29 May 2024.
  18. Dolney, Timothy J. (14 May 2024). "Revisiting tornado watch #211 - a spatial analysis of the May 31, 1985 tornadoes using present-day data for the state of Pennsylvania". Papers in Applied Geography. Applied Geography & Elsevier. 10 (3): 232–258. Bibcode:2024PAGeo..10..232D. doi:10.1080/23754931.2024.2348597.
  19. Liang, Bin (May 2024). "Infrasound from Tornadoes: Theory and Experiment". The University of Mississippi ProQuest Dissertations & Theses. University of Mississippi. 2024 (31236883): 1–121. Bibcode:2024PhDT........17L. ProQuest 3074972855. Retrieved 29 July 2024.
  20. Doppler on Wheels (24 May 2024). "Reflectivity loop from DOW8 (the slacker DOW for uploading data) from the Olustee/Duke, OK tornado on Thursday, May 23, 2024 as part of the ⁦⁦@NSF #BEST project. #okwx". 𝕏 (Formerly Twitter). University of Illinois. Archived from the original (Post on 𝕏) on 13 June 2024. Retrieved 13 June 2024. Unknown parameter |url-status= ignored (help)
  21. Wurman, Joshua; Kosiba, Karen (22 May 2024). "Very prelim analysis of DOW data show >250 mph peak winds, possibly high as 290, at 44 m (144 ft) above ground in Greenfield, IA. Tornado very intense & also very small, so worst winds were in narrow swath. Raw data from DOW7 (L); Prelim DOW-measured center path. POD blue dot (R)". 𝕏 (Formerly Twitter). University of Illinois: Doppler on Wheels. Archived from the original (Post on 𝕏) on 22 May 2024. Retrieved 22 May 2024. Unknown parameter |url-status= ignored (help)
  22. Groenemeijer, Pieter (22 May 2024). "Impressive measurement! On the IF-scale, 250 mph measured below 60 m above ground level is IF4 on the IF-scale, 290 mph is IF5". 𝕏 (Formerly Twitter). European Severe Storms Laboratory. Archived from the original (Post on 𝕏) on 22 May 2024. Retrieved 22 May 2024. Unknown parameter |url-status= ignored (help)
  23. "As the 2024 #BEST field season ends, a glimpse into the data collection during the Greenfield, IA tornado. Peak wind speeds as high as 309-318 mph were calculated in a narrow region 100-160 feet ARL. These are among the highest wind speeds ever determined using DOW data". x.com. University of Illinois. 22 June 2024. Retrieved 22 June 2024.
  24. Moody, Wes. "SCIENCE IMPACT: Experimental Warn-on-Forecast System yields 75-minute lead time on violent tornado – NSSL News". National Severe Storms Laboratory. National Oceanic and Atmospheric Administration. Retrieved 21 July 2024.
  25. Kosiba, Karen A.; Lyza, Anthony W.; Trapp, Robert J.; Rasmussen, Erik N.; Parker, Matthew; Biggerstaff, Michael I.; Nesbitt, Stephen W.; Weiss, Christopher C.; Wurman, Joshua; Knupp, Kevin R.; Coffer, Brice; Chmielewski, Vanna C.; Dawson, Daniel T.; Bruning, Eric; Bell, Tyler M.; Coniglio, Michael C.; Murphy, Todd A.; French, Michael; Blind-Doskocil, Leanne; Reinhart, Anthony E.; Wolff, dward; Schneider, Morgan E.; Silcott, Miranda; Smith, Elizabeth; Aikins, oshua; Wagner, Melissa; Robinson, Paul; Wilczak, James M.; White, Trevor; Bodine, David; Kumjian, Matthew R.; Waugh, Sean M.; Alford, A. Addison; Elmore, Kim; Kollias, Pavlos; Turner, David D. (12 June 2024). "The Propagation, Evolution, and Rotation in Linear Storms (PERiLS) Project". Bulletin of the American Meteorological Society. American Meteorological Society. -1 (aop). doi:10.1175/BAMS-D-22-0064.1.
  26. Kim, Dongmin; Lee, Sang-Ki; Lopez, Hosmay; Jeong, Jong-Hoon; Hong, Jin-Sil (15 June 2024). "An unusually prolonged Pacific-North American pattern promoted the 2021 winter Quad-State Tornado Outbreaks". npj Climate and Atmospheric Science. Nature Partner Journals. 7 (1): 133. Bibcode:2024npCAS...7..133K. doi:10.1038/s41612-024-00688-0. Retrieved 23 July 2024.
  27. Graber, Matthew; Trapp, Robert J.; Wang, Zhuo (21 June 2024). "The regionality and seasonality of tornado trends in the United States". npj Climate and Atmospheric Science. Nature Partner Journals. 7 (1): 144. Bibcode:2024npCAS...7..144G. doi:10.1038/s41612-024-00698-y.
  28. "oThongathi tornado rated EF3 on the Enhanced Fujita scale" (PDF). Pretoria: South African Weather Service. 12 June 2024. Archived from the original (PDF) on 13 June 2024. Retrieved 13 June 2024. Unknown parameter |url-status= ignored (help)
  29. Maas, Malcolm; Supinie, Timothy; Berrington, Andrew; Emmerson, Samuel; Aidala, Ava; Gavan, Michael (July 2024). "The Tornado Archive: Compiling and Visualizing a Worldwide, Digitized Tornado Database". Bulletin of the American Meteorological Society. American Meteorological Society. 105 (7): E1137–E1152. Bibcode:2024BAMS..105E1137M. doi:10.1175/BAMS-D-23-0123.1.
  30. First, Jennifer M. (18 July 2024). "Examining tornado exposure, post-tornado distress, and gender following the March 2020 tornado in Nashville, Tennessee". Environmental Hazards. Taylor & Francis: 1–14. doi:10.1080/17477891.2024.2379895. Retrieved 24 July 2024.
  31. Kaushal, Saanchi S.; Gutierrez Soto, Mariantonieta; Napolitano, Rebecca (October 2024). "Three-Dimensional Digital Documentation of Tornado-Damaged Heritage Buildings". Journal of Structural Engineering. American Society of Civil Engineers. 150 (10). doi:10.1061/JSENDH.STENG-13594. Retrieved 29 July 2024.
  32. Sinema, Kyrsten; Cornyn, John; Peters, Gary; Cramer, Kevin (11 July 2024). "S.4672 - Border Weather Resiliency Act of 2024". United States Congress. Archived from the original on 23 July 2024. Retrieved 23 July 2024. Unknown parameter |url-status= ignored (help)
  33. Feenstra, Randy; Nunn, Zachary; Hinson, Ashley; Miller-Meeks, Mariannette (22 July 2024). "H.R.9081 - To provide for emergency tax relief for taxpayers affected by the severe storms, flooding, straight-line winds, and tornadoes in certain Iowa counties". United States Congress. Archived from the original on 23 July 2024. Retrieved 23 July 2024. Unknown parameter |url-status= ignored (help)
  34. Cava, Marco della. "Fact-checking 'Twisters': Can tornadoes really be stopped with science?". USA Today. Retrieved 21 July 2024.
  35. Mercer, Andrew; Swan, Kenneth; Knight, Adonte (30 July 2024). "Quantifying Tornado Outbreak Intensity and Frequency Relationships with Interannual and Monthly Variability". Atmosphere. Mississippi State University / MDPI. 15 (8): 909. Bibcode:2024Atmos..15..909M. doi:10.3390/atmos15080909.
  36. Tweedie, Jordan Lee (1 August 2024). Yussouf, Nusrat; Xue, Ming; Klein, Petra, eds. "Impact of Assimilating Lower Atmospheric Boundary Layer Observations from Uncrewed Aerial Systems on Short-Term Probabilistic Predictions of a Tornadic Supercell Event". OU Graduate School of Meteorology Thesis. University of Oklahoma. hdl:11244/340549.
  37. Nixon, Cameron J.; Allen, John T.; Wilson, Matthew B.; Bunkers, Matthew J.; Taszarek, Mateusz (7 August 2024). "Cell Mergers, Boundary Interactions, and Convective Systems in Cases of Significant Tornadoes and Hail". Weather and Forecasting. American Meteorological Society. -1 (aop). doi:10.1175/WAF-D-23-0117.1. Retrieved 18 August 2024.
  38. Horton, Sarah L. (27 August 2024). "Findings of tornado site investigations undertaken following damage during Storm Ciarán on 1–2 November 2023". Weather. Royal Meteorological Society. doi:10.1002/wea.7616. Retrieved 30 August 2024.
  39. Greenwood, Trey (30 August 2024). "Meteorological Breakdown: The Hollister, OK, Tornadic Supercell - April 30, 2024". YouTube. Convective Chronicles. Archived from the original (Video) on 30 August 2024. Retrieved 30 August 2024. Unknown parameter |url-status= ignored (help)
  40. Phillips, David L.; Hart, Justin L. (27 August 2024). "Twenty Years of Structural Change, Including Tornado Damage, in Southern Disjunct Eastern Hemlock Stands" (PDF). Castanea. Southern Appalachian Botanical Society. 89 (2): 169–181. Retrieved 24 September 2024.
  41. 41.0 41.1 41.2 41.3 Dean, Lanny E.; Moran, David R.; Hicks, Randy D.; Winn, Pat T. (14 August 2024). "Pressure Measurements and Video Observations near and inside Three EF2 Tornadoes" (PDF). Electronic Journal of Severe Storms Meteorology. 19 (2). Retrieved 18 August 2024.
  42. "PACRITEX". Live Storm Chasers.
  43. Straka, Jerry M.; Gensini, Vittorio A.; Kanak, Katharine M.; Garner, Jonanthan M. (9 September 2024). "Environmental Conditions Associated with Long-Track Tornadoes". Weather and Forecasting. American Meteorological Society. -1 (aop). doi:10.1175/WAF-D-24-0021.1.
  44. Loulli, Eleni; Michaelides, Silas; Bühl, Johannes; Mamouri, Rodanthi-Elisavet; Nisantzi, Argyro; Ene, Dragoş; Seifert, Patric; Charalambous, Demetris; Tymvios, Filippos; Hadjimitsis, Diofantos G. (13 September 2024). "Understanding the 14 February 2024 tornado in Cyprus". In Michaelides, Silas C.; Hadjimitsis, Diofantos G.; Danezis, Chris; Kyriakides, Nicholas; Christofe, Andreas; Themistocleous, Kyriacos; Schreier, Gunter. Tenth International Conference on Remote Sensing and Geoinformation of the Environment (RSCy2024). Paphos, Cyprus: Eratosthenes Centre of Excellence with the Cyprus University of Technology. p. 51. doi:10.1117/12.3037327. ISBN 978-1-5106-8149-1. Retrieved 17 September 2024. Search this book on


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