Tornado outbreak sequence of May 19–27, 2024

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Tornado outbreak sequence of May 19–27, 2024
A map of the United States plotting tornado warnings and confirmed tornadoes during the May 19-27 period
Map of tornado warnings and confirmed tornadoes from the outbreak sequence
Meteorological history
DurationMay 19–27, 2024
Tornado outbreak
Tornadoes215
Maximum ratingEF4 tornado
Duration6 days, 9 hours, 40 minutes
Highest windsTornadic – 175–185 mph (282–298 km/h) (Greenfield, IA EF4 tornado on May 21)*
*Wind gusts of up to 250–290 mph (400–470 km/h) were measured in this tornado by Doppler on Wheels (DOW)
Highest gustsNon-tornadic – 110 mph (180 km/h) (Ansted, West Virginia, May 26)[1]
Overall effects
Fatalities21 (+10 non-tornadic)[2][3][4][5][6][7][8]
Injuries238+[9][10]
Areas affectedMidwestern, Southern and Eastern United States, Canada
Part of the Tornadoes of 2024

A multi-day period of significant tornado activity occurred across the Midwestern United States and the Mississippi Valley as well as an additional tornado in the Canadian province of Quebec. From May 19–27, 2024, tornadoes were reported across large portions of the Central United States, with multiple Particularly Dangerous Situation (PDS) watches issued across the sequence.[11][12][13][14] Five fatalities were confirmed with a large, violent EF4 tornado that went through Greenfield, Iowa on May 21. Tornadic activity continued over the next several days, including a nocturnal outbreak that occurred during the overnight hours of May 25 into May 26. Seven fatalities were confirmed from a destructive tornado that struck Valley View, Texas while two more fatalities were confirmed from an EF3 tornado that struck Claremore and Pryor, Oklahoma. Another fatality was confirmed from a tornado in Olvey, Arkansas and an additional tornadic death also occurred in Arkansas. Many other tornadoes occurred on the afternoon and evening of May 26, including a very destructive, intense EF3 tornado, which prompted the issuance of 4 tornado emergencies across western Kentucky.[15]

Meteorological synopsis[edit]

May 19[edit]

On May 19, the Storm Prediction Center (SPC) outlined a level 4/Moderate risk of severe weather across southwest to central Kansas, encompassed by a level 3/Enhanced risk that extended into northwestern Oklahoma as well. Across the highest risk area, forecasters warned of the potential for a developing derecho capable of producing damaging winds upwards of 100 mph (160 km/h).[16] By the early afternoon hours, a northwest-to-southeast-oriented dryline extended from eastern Colorado into the Texas Panhandle, while a cold front laid across northern and central Kansas. Between these boundaries, dewpoints rose into the lower 60s °F and effective wind shear reached 50 kn (60 mph; 90 km/h), supportive of supercell thunderstorms that would likely evolve into a line of storms as a shortwave trough approached from the west.[17] Given the environment, the SPC issued a particularly dangerous situation severe thunderstorm watch across much of Kansas, northwestern Oklahoma, and the far northeastern Texas Panhandle.[18] An intense supercell developed in north-central Kansas, producing large hail in excess of 2 in (51 mm), tornadoes, and a wind gust to 71 kn (82 mph; 131 km/h) near Russell,[19] eventually growing upscale as additional convective clusters formed to the southwest.[20] In Oklahoma, an isolated intense supercell developed and tracked eastward toward the Oklahoma City metropolitan area as low-level wind shear began to increase.[21] Meanwhile, dual mesoscale convective vortices tracked across eastern Kansas,[22] contributing to widespread damaging wind reports—including multiple high wind gusts in excess of 65 kn (75 mph; 120 km/h)—as well as several tornadoes.[23] As the complexes continued into Missouri, they encountered more stable air, causing the severe threat to gradually diminish.[24]

The Storm Prediction Center's Day 1 convective outlook for May 21, 2024, issued at 1300Z, indicating a moderate risk for severe weather over much of Iowa and nearby parts of Wisconsin, Illinois, Missouri, and southeastern Minnesota.

May 20–21[edit]

The severe threat shifted northward on May 20 as the SPC issued a level 3/Enhanced risk across northeastern Colorado and southwestern Nebraska. Here, forecasters expected a mixture of supercells and clusters of storms to originate near the Palmer Divide. Although rich moisture waned with westward extent,[25] dewpoints in the upper 50s to lower 60s °F were expected to spread northwestward from Kansas and into Colorado.[26] Thunderstorms developed in this area by the late afternoon hours, though their growth was stunted by marginal instability.[27] Several discrete supercells eventually evolved across northeastern Colorado and began to grow upscale while encountering a more moist and unstable environment to the east across western Nebraska.[28] The bowing line of storms traversed Nebraska and eventually Iowa through the pre-dawn and early morning hours of May 21, resulting in continued damaging wind gusts.[29][30]

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On May 21, the SPC issued another Moderate risk for severe weather in the states of Iowa, Missouri, Minnesota, Wisconsin, and Illinois, including a 15% risk for significant tornadoes.[31] Upper-air soundings observed steep lapse rates in the middle troposphere over parts of Kansas and Missouri on the morning of May 21. The SPC predicted that these conditions would spread into the primary severe weather risk area, overlapping with a moist airmass with dew points approaching 70 °F (21 °C) and leading to strong potential atmospheric instability.[32] That morning, an organized cluster of thunderstorms moved into Iowa after having produced severe wind gusts in central and eastern Nebraska. This line of storms continued across central and eastern Iowa just north of a warm front, presenting a continued threat for damaging wind gusts.[33] Additional storms began to develop along the border between Kansas and Nebraska ahead of an approaching trough. The SPC anticipated that the atmospheric environment over eastern Nebraska and western Iowa would become increasingly conducive for further organization of these storms into supercells.[34] A tornado watch was issued by the SPC for areas near and along the Nebraska–Iowa border region at 11:10 a.m. CDT in anticipation of these changes.[35] At 1:10 p.m. CDT, the SPC issued a tornado watch flagged as a particularly dangerous situation for much of Iowa and parts of surrounding states, including an 80% likelihood of a significant tornado occurring within the watch area.[36] Supercells were active over southwestern Iowa by the mid-afternoon, approaching an environment favorable for tornadogenesis leading into the Des Moines area.[37]

Multiple tornadoes were reported in Iowa, including a damaging tornado near Corning and in Greenfield, where multiple fatalities were reported.[38][10] Tornadoes were also reported in Minnesota and Wisconsin.[38]

May 22[edit]

On May 22, the SPC outlined an Enhanced risk extending from central Texas across southeastern Oklahoma, extreme northwestern Louisiana, and southwestern Arkansas.[39] In Texas, a cold front stretched from the Red River southwestward into the Permian Basin, with a surface trough just ahead of that front. Supercells were expected to evolve within a sheared and deeply unstable environment given effective wind shear of 60 kn (70 mph; 110 km/h) and mixed-layer CAPE of 3,000 J/kg. As such, very large hail was anticipated to be the main threat, although isolated tornadoes were possible too before storms grew upscale into one or more convective lines.[40] To the northeast, lines of storms tracked across Oklahoma, Arkansas, and Tennessee, with a primary risk of damaging winds and large hail.[41][42] Meanwhile, intense supercells developed across central Texas in a very unstable and deeply sheared environment, riding along outflow boundaries that enhanced the tornado threat.[43] A particularly intense tornado developed southwest of Sterling City. Ongoing storms across Texas eventually evolved into an intense mesoscale convective system moving across eastern portions of the state and into Louisiana through the late evening.[44]

May 23–24[edit]

On May 23, the SPC issued an Enhanced risk over central Nebraska to Western Iowa for the threat of damaging winds. Conditions weren't quite as favorable this day compared to others with dew points only expected to reach the upper 50s °F, creating conditions for high-base supercells, lowering the tornado potential. However, CAPE values were still able to reach 1000-3000 J/kg. Combined with shear reaching 45-55 kts, conditions were favorable for severe weather.[45] Storms initiated along a front over northwest Nebraska around 4pm CDT, though the line quickly dissipated with only a supercell able to maintain itself as it went around the corner of Colorado as it produced several tornadoes.[46] Eventually the line reformed over Southern Nebraska and began to produce damaging winds, growing to the height of the state at 1am CDT. Despite nighttime cooling, the line maintained itself and swept across all of Iowa bringing damaging winds up to 85 mph to the entire state and producing brief, weak tornadoes.[47]

Meanwhile, in Texas and Oklahoma, a Slight Risk for all hazards was issued, though the tornado threat was seen as secondary to the more likely hail threat, with dew points in the low 70s °F and CAPE values around 3000 J/kg, but a supercellular storm mode.[45] Supercells initially developed over western Texas, though failed to sustain themselves, except for a cluster that sustained themselves on the TX/OK border.[46]

For May 24, the SPC initially issued a large Slight Risk from Southern Wisconsin to Central Texas, but in the 1300z Outlook upgraded northeast Illinois (for damaging winds) and a thin area of western/southern Oklahoma and northern Texas (for large hail) to an Enhanced Risk.[48] The line MCS from the previous night in Iowa continued into the late morning and produced a couple tornadoes over that area of Illinois. Following this, little tornado activity occurred during the day.[49] However, due to its long-lived hazard of damaging winds and long track length, the MCS was officially declared as a derecho by the Storm Prediction Center.[50]

May 25–27[edit]

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EF3 damage to a house north of Dawson Springs, Kentucky.

On May 25, the SPC warned of an outbreak of severe thunderstorms across a level 4/Moderate risk area that encompassed much of Oklahoma and Kansas, as well as southwestern Missouri. In this region, forecasters expected the development of a few discrete supercells that would be capable of producing giant hail and strong to violent tornadoes. Across the northern portion of the risk, these supercells were forecast to evolve into a mesoscale convective system with swaths of damaging winds into the overnight hours.[51] The potential for a level 5/High risk was discussed by forecasters in the preceding 24 hours given "a rare combination of instability and shear" that was depicted by model guidance.[52] However, multiple uncertainties precluded a categorical upgrade, particularly questions about the influence of storms in Texas on the risk area farther north. A broad upper-level trough existed over the Western United States, with several embedded shortwaves, one of which was expected to translate across the risk area during the afternoon. A stationary boundary lifted northward as a warm front while a dryline sharpened from western Kansas into western Texas. In the warm sector between these boundaries, dewpoints rose into the upper 60s to even mid-70s °F, aiding in the development of extreme mixed-layer instability of 4,000–5,000 J/kg.[53][54] A particularly dangerous situation tornado watch was subsequently issued for portions of extreme northern Texas, much of Oklahoma, and south-central Kansas.[55]

Shortly thereafter, multiple supercells evolved over time across Texas and Oklahoma, but the convective evolution quickly became messy as splitting storms developed in close proximity.[56] Additional supercells evolved across northern Oklahoma and southern Kansas, but those too underwent negative interaction with left-split storms and their accompanying outflow approaching from the south.[57][58] To the north, a southeast-propagating mesoscale convective system developed across northern Kansas.[59] To the south, a discrete supercell developed within an extremely sheared environment north of the Dallas–Fort Worth metropolitan area, resulting in a fatal strong tornado.[60] Additional supercells across eastern Oklahoma, southern Missouri, and northern Arkansas continued into the pre-dawn hours,[61] resulting in multiple intense and fatal tornadoes. A bowing mesoscale convective system evolved across the mid-Mississippi River Valley by sunrise.[62]

A tornado pictured in a grainy, nighttime image in southwest Indiana on May 26, 2024.
An EF2 tornado near Washington, Indiana on May 26

As the convective line with a history of damaging wind gusts spread eastward across the Mississippi and Ohio river valleys through the morning hours, it encountered a warming and destabilizing airmass, further increasing the severe threat.[63] This initial line moved toward portions of West Virginia, Virginia, and North Carolina and was subsequently trailed by a secondary line of convection across western portions Kentucky and Tennessee.[64][65] Cumulatively, this resulted in hundreds of damaging wind reports.[66] Meanwhile, farther to the south and west, forecasters became increasingly concerned about a corridor from southeastern Missouri eastward into western Kentucky and adjacent areas. Here, the influx of warm and dry air aloft allowed for the rapid destabilization of the atmosphere previously impacted by morning storms. An outflow boundary from that convection was expected to become the focal point for enhanced tornadic activity. As such, the SPC outlined a level 4/Moderate risk across portions of the Tennessee and Ohio river valleys due to increased confidence in an outbreak of damaging winds and strong tornadoes. Supercells began to develop across southwestern Missouri during the early afternoon.[67] As they continued eastward, they encountered an increasingly favorable environment, with MLCAPE over 3,500 J/kg and effective wind shear around 50 kn (60 mph; 90 km/h).[68] Additional storms began to develop in the open warm sector across Missouri, Illinois, Indiana, and Kentucky as well.[69] As these supercells interacted with the remnant outflow boundary, they resulted in the formation of several strong tornadoes.[70] By the evening hours, these storms were quickly trailed by a well-organized and intense line of convection moving toward the southeast.[71] This line maintained vigorous for several hours even as it encountered a more stable airmass but finally began to lose strength as it approached the Appalachian Mountains region, resulting in a gradually diminishing severe threat through the morning of May 27.[72][73] While severe storms formed across the eastern part of the continent on May 27 only a few weak tornadoes touched down in multiple areas in Georgia, Pennsylvania as well as an EF1 tornado near the Ontario-Quebec border in Rigaud, Quebec.

Confirmed tornadoes[edit]

See also: List of tornadoes in the tornado outbreak sequence of May 19–27, 2024
Confirmed tornadoes by Enhanced Fujita rating
EFU EF0 EF1 EF2 EF3 EF4 EF5 Total
16 64 102 20 12 1 0 215

Nodaway–Corning–Greenfield, Iowa[edit]

Nodaway–Corning–Greenfield, Iowa
The EF4 tornado approaching Greenfield, Iowa
Meteorological history
FormedMay 21, 2024, 2:57 p.m. CDT (UTC−05:00)
DissipatedMay 21, 2024, 3:43 p.m. CDT (UTC−05:00)
Duration46 minutes
EF4 tornado
on the Enhanced Fujita scale
Highest winds175–185 mph (282–298 km/h)*
*Wind gusts of up to 250–290 mph (400–470 km/h) were measured in this tornado by Doppler on Wheels (DOW)[74][75][76]
Overall effects
Fatalities5
Injuries35+
Grain bin destroyed near Corning.

This large, violent, multi-vortex tornado first touched down near the town of Villisca in Page County and moved northeastward at EF1 intensity, destroying all but one wall of an outbuilding and damaging the roof of a home. It then clipped the far northwestern tip of Taylor County before moving into Adams County, inflicting EF0 damage to trees. Continuing northeastward, the tornado reached EF1 intensity again as it approached and passed southeast of Nodaway, snapping wooden power poles, heavily damaging or destroying outbuildings, causing minor damage to homes, and snapping trees.[77] Continuing northeastward, the tornado passed just west of Brooks, destroying and throwing a grain bin before and damaging trees. Crossing US 34 west of Corning and continuing northeastward, the tornado heavily damaged or destroyed outbuildings, inflicted roof damage to homes, and snapped trees. The first area of severe damage occurred north of Corning as the tornado crossed Iowa 148. An outbuilding was obliterated and swept away and part of a home collapsed. This damage was rated low-end EF2.[77] A woman driving on Iowa 148 died when she was ejected from her car after it was lofted by the tornado.[78] The tornado continued northeastward over rural, open terrain, with the only damage being EF0-EF1 damage to the roofs of an outbuilding and a home. The next area of concentrated damage was at the intersection of 150th Street and Notchwood Avenue. The tornado was at high-end EF3 intensity here and a cinderblock home was completely leveled with the debris collapsing into the basement. Outbuildings on the property were destroyed, a loaded grain bin had its top ripped off, a tractor-trailer was lofted and turned 360°, and trees were snapped. To the northeast of here, the tornado continued over open terrain. EF2 damage was inflicted to a large metal outbuilding that lost its roof with EF1 roof damage to a home along with a destroyed outbuilding. It also toppled at least five wind turbines along this portion of the track, including one turbine that caught on fire, but no rating was given to this damage.[77] The tornado exhibited violent motion and multiple vortices along this segment of the path as well.

The tornado then crossed into Adair County, where it initially uprooted trees at EF1 intensity. A home further to the northeast suffered roof and siding damage and had a snapped tree fall on it. A silo was toppled and an outbuilding was damaged as well.[77] After toppling another wind turbine, the tornado began to cause EF2 damage, knocking down a metal transmission tower, and destroying an outbuilding. The tornado then quickly became violent and reached low-end EF4 intensity for the first time, leveling an outbuilding and a home each along Fontanelle Road and 310th Street. The tornado then moved back over open terrain with damage limited to an outbuilding, which was rated EF1. Low-end EF4 damage was observed again as the tornado crossed Jordan Avenue, where another home was leveled. A nearby home was also mostly destroyed at EF3 intensity and trees were snapped, including some that had partial debarking. As the tornado approached Greenfield from the southwest, it inflicted EF1 roof damage to a home, destroyed an outbuilding at EF2 intensity, and destroyed two homes at high-end EF3 intensity with the first one being leveled.[77]

Home destroyed by an EF4 tornado in Greenfield

The tornado then turned east-northeastward and entered the southwest part of Greenfield, initially causing heavy EF2-EF3 damage to homes. It then reached its peak intensity of mid-range EF4 as it moved near the center of town, leveling and partially sweeping away multiple homes. On the eastern side of town near the intersection of Iowa 92 and Iowa 25, the tornado inflicted severe EF2-EF3 damage to more homes, including some that were leveled or shifted off their foundations, and heavily damaged or destroyed outbuildings.[77] Along with the destroyed homes, vehicles were destroyed, trees were stubbed, and wooden power poles were snapped throughout the town as well.[10] Four fatalities and 35 injuries were reported in the town.[9][79][10] 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.[75] 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."[76] After exiting Greenfield, the tornado moved east-northeastward and dissipated over open terrain.[77]

The tornado was on the ground for 46 minutes, traveled 43.04 mi (69.27 km), and had a peak width of 1,300 yd (1.2 km). Five people were killed and at least 35 others were injured.[77]

Forestburg–Era–Valley View–Pilot Point, Texas[edit]

Forestburg–Era–Valley View–Pilot Point, Texas
Meteorological history
FormedMay 25, 2024, 9:42 p.m. CDT (UTC−05:00)
DissipatedMay 25, 2024, 11:15 p.m. CDT (UTC−05:00)
Duration1 hour, 33 minutes
EF3 tornado
on the Enhanced Fujita scale
Highest winds140 mph (230 km/h)
Overall effects
Fatalities7
Injuries100

This intense, deadly, long-tracked tornado initially touched down southeast of Bowie in Montague County at 9:42 PM CDT. It initially caused EF0-EF1 damage to trees and outbuildings as it moved through rural areas. Moving eastward, the tornado intensified to EF2 strength, causing severe damage to two rural residence, with lesser damage being inflicted to other nearby residences. The tornado then weakened slightly as it continued eastward and passed south of Forestburg. Widespread EF0 to high-end EF1 damage to trees and outbuildings, along with minor damage to homes, was observed along this segment of the path. The tornado further weakened as it turned east-southeastward, crossed into Cooke County, and passed through Rosston, causing widespread EF0 tree damage. As the tornado approached and crossed FM 51 south of Era, the tornado strengthened again, with trees and structures suffering EF1 damage. Further strengthening occurred as the tornado continued eastward southeast of Era and west of Valley View, inflicting EF2 damage to three residences. After causing some additional EF1 damage, the tornado reached its peak intensity of low-end EF3 along County Road 200.[77] Several newly constructed homes were heavily damaged or destroyed with roofs removed and exterior walls knocked down. To the east, the tornado struck a neighborhood along West Lone Oak Rd at EF2 intensity heavily damaging manufactured and mobile homes, including some that were demolished. A few fatalities occurred at this location.[80]

The tornado maintained high-end EF2 intensity as it crossed I-35 at the Lone Oak Road/FM 3002 interchange south of Valley View, tossing multiple cars and tractor-trailers off the interstate. On the east side of the interstate, a Shell gas station, where dozens of people had taken shelter in, a metal building shop, and an RV and boat storage units were heavily damaged or destroyed. Continuing eastward along FM 3002 towards Ray Roberts Lake causing more roof damage to structures along with tree damage. The tornado then weakened to EF1 strength, crossed the lake, and struck a mobile home and RV park at the Ray Roberts Lake State Park Johnson Branch on the Cooke County-Denton County border, tossing and rolling multiple mobile homes and RVs, including some that were thrown in the lake, and causing additional tree damage.[77] Multiple fatalities were reported in this area. The tornado then began to occlude near Pilot Point and crossed back into Cooke County. Some tree damage was observed at the end Anderson Road before the tornado dissipated over the lake at 11:15 PM CDT.[80][3]

The tornado was on the ground for just over an hour and a half, reaching a peak width of 1,200 yd (1,100 m) along its 47.99-mile (77.23 km) journey. It killed seven people, making it the deadliest tornado of the outbreak sequence, and injured 100 others.[80][3][81]

Keetonville–Claremore–Pryor, Oklahoma[edit]

Keetonville–Claremore–Pryor, Oklahoma
Meteorological history
FormedMay 25, 2024, 11:19 p.m. CDT (UTC−05:00)
DissipatedMay 25, 2024, 11:59 p.m. CDT (UTC−05:00)
Duration40 minutes
EF3 tornado
on the Enhanced Fujita scale
Highest winds155 mph (249 km/h)
Overall effects
Fatalities2
Injuries23+

This very large, intense tornado touched down between Limestone and Valley Park in Rogers County at 11:19 pm CDT. The tornado then moved eastward passing through Keetonville, and moving along SH-20 before becoming strong and moving directly into Claremore. Widespread EF2 damage was inflicted to numerous structures throughout the city. The tornado reached EF3 intensity on the east side of Claremore with more intense widespread damage noted. The tornado then continued eastward, and crossed I-44, producing widespread tree damage. The tornado continued to produce EF2 tree damage as it moved into Mayes County. A mobile home just east of the county line was destroyed, killing two people and injuring four others. Northwest of Pryor, the tornado inflicted EF3 damage to homes before quickly weakening and dissipating just beyond that point at 11:59 pm CDT. At least 23 people were injured. The tornado was accompanied by extensive straight-line winds associated with the rear flank downdraft outside of the tornado track to the south, which caused additional damage. Preliminary information.[81][82][83][84]

Bellefonte–Olvey–Pyatt–Summit, Arkansas[edit]

Bellefonte–Olvey–Pyatt–Summit, Arkansas
EF3 damage to a home southwest of Olvey
Meteorological history
FormedMay 26, 2024, 3:27 a.m. CDT (UTC−05:00)
DissipatedMay 26, 2024, 4:04 a.m. CDT (UTC−05:00)
Duration37 minutes
EF3 tornado
on the Enhanced Fujita scale
Highest winds140–145 mph (225–233 km/h)
Overall effects
Fatalities4
Injuries1

This large, strong, early-morning tornado initially touched down at 3:27 a.m. CDT (08:27 UTC) south of Bellefonte, and quickly strengthened to low-end EF2 intensity as it moved east, destroying a hay barn. It also damaged trees, snapped power poles, and caused roof and exterior wall damage to houses; this damage was rated mid-range to high-end EF1. The tornado then weakened slightly to EF1 intensity as it continued to snap trees in an open field before crossing US 65. After crossing the highway, it caused minor damage to the roofs and light poles of the Boone County Sheriff's Department and an Arkansas State Police troop center, damaged a storage unit complex, overturned an RV, and caused a large metal building to collapse as it continued to move east. To the east of there, the tornado grew in width and continued to snap trees and power poles. It then quickly intensified to low end EF3 intensity, throwing and destroying two unanchored homes along Penny Lane, injuring one person. A nearby mobile home was lofted, rolled, and destroyed, and trees were snapped, including some that were stubbed.[77] The tornado then turned northeastward and passed southeast of Olvey, continuing to cause damage to trees, and killing a woman inside of a mobile home which was destroyed.[85] Extensive EF1 tree damage continued as the tornado continued east-northeastward and crossed into Marion County. It then passed south of Pyatt, where more homes suffered moderate to heavy roof damage, mobile homes were heavily damaged, including one that was rolled and destroyed, and more trees were snapped. Three people were killed as it moved south of, and eventually crossed, US 62 where it briefly strengthened to EF2 strength. A home was heavily damaged and power poles were left leaning. After continuing northeast and snapping trees at EF1 intensity as it crossed AR 125, the tornado again briefly reached EF2 intensity. A mobile home was completely obliterated with no sign of any part of the structure being left behind and more trees were snapped. The tornado continued to cause significant tree damage until it dissipated north-northwest of Summit at 4:04 a.m. CDT (09:04 UTC).[77]

The tornado was on the ground for approximately 37 minutes, traveling a total path length of 21.10 miles (33.96 km), and reaching a peak width of 1,500 yards (1,400 m). A total of four people were killed by this tornado and one other person was injured.[86]

Morehouse–Sikeston–Diehlstadt, Missouri[edit]

Morehouse–Sikeston–Diehlstadt, Missouri
Meteorological history
FormedMay 26, 2024, 7:15 a.m. CDT (UTC−05:00)
DissipatedMay 26, 2024, 7:31 a.m. CDT (UTC−05:00)
Duration16 minutes
EF3 tornado
on the Enhanced Fujita scale
Highest winds140 mph (230 km/h)
Overall effects
Fatalities1
Injuries0

This intense, fast-moving tornado occurred along the northern edge of a much larger area of damaging straight-line winds. It first touched down at EF1 intensity northeast of Baker in Stoddard County at 7:15 am CDT, snapping a power pole along County Road 293. Moving northeastward, the tornado steadily strengthened as it crossed into New Madrid County, damaging and snapping more trees and inflicting roof damage to a home. An area of EF2 damage occurred just beyond this point where at least five consecutive wooden power poles were snapped to the south of Morehouse. After snapping more trees at high-end EF1 strength, the tornado abruptly reached low-end EF3 intensity along County Road 824. A well-built brick home had its roof removed and most of its exterior walls knocked down and wooden power poles were snapped. The tornado quickly weakened back to high-end EF1 intensity as it crossed US 60. More trees were snapped, a mobile home suffered roof damage and an outbuilding was heavily damaged. Another small area of EF2 damage occurred along Route FF south of Browns where several wooden power poles were snapped. After flipping a center pivot irrigation system, the tornado entered Sikeston while straddling the New Madrid-Scott County at EF1 intensity, snapping and uprooting trees, and inflicting roof, siding, and exterior wall damage to homes. The tornado then moved solidly into Scott County and through the south side Sikeston. A widespread area of snapped and uprooted trees and roof damage to homes and outbuildings occurred. Along South Main Street (US 61/US 62), a strip mall and several businesses had their roofs partially or completely removed. The tornado continued to snap power poles and trees and damage homes as it moved northeastward until it reached US 62 again east of Sikeston, where it restrengthened to EF2 intensity. A school and a business had part of their roofs removed and large cinderblock walls knocked down, another business suffered roof damage, a tall wooden light pole at a ball field was knocked down, a home lost most of its roof, and more trees and power poles were snapped. The tornado then exited Sikeston as it continued northeastward as it approached and then crossed I-55 north of Miner, damaging outbuildings, inflicting roof damage to homes, and snapping trees at EF1 strength. Similar damage occurred after the tornado crossed the interstate and into more rural areas with center pivot irrigation systems also being damaged. The tornado then clipped the northwestern part of Diehlstadt, damaging trees before dissipating north of the town.[77]

The tornado traveled 19.58 mi (31.51 km) over a span of 16 minutes, reaching a peak width 300 yd (270 m).[87] One person was killed by a fallen tree limb in New Madrid County.[88]

Eddyville–Crider–Charleston–Barnsley, Kentucky[edit]

Eddyville–Crider–Charleston–Barnsley, Kentucky
EF3 damage to a house northwest of St. Charles, Kentucky. One person inside was killed and another was injured.
Meteorological history
FormedMay 26, 2024, 8:01 p.m. CDT (UTC−05:00)
DissipatedMay 26, 2024, 9:15 p.m. CDT (UTC−05:00)
Duration1 hour, 14 minutes
EF3 tornado
on the Enhanced Fujita scale
Highest winds160 mph (260 km/h)
Overall effects
Fatalities1
Injuries21

This long-tracked, high-end EF3 tornado paralleled I-69 along its path, striking some of the same areas affected by the 2021 Western Kentucky tornado.[89] It touched down at 8:01 PM (00:01 UTC) in Lyon County, Kentucky just northeast of Eddyville and moved eastward across US 641 at high-end EF1 intensity, snapping trees, damaging a home, and collapsing the roof of an outbuilding. Turning northeastward, the tornado snapped or uprooted more trees, before reaching low-end EF2 intensity as it crossed KY 3169. A home suffered heavy damage and had an exterior wall knocked down. The home's poorly built attached garage was destroyed with the debris wrapping around the back of the structure, which left a trench in the ground. Two outbuildings were destroyed and many trees were snapped.[77] As the tornado crossed into Caldwell County, the first of four tornado emergencies was issued as a debris ball was evident on radar and law enforcement reported that a large tornado was in progress.[90][91][92][93] Upon entering Caldwell County, the tornado weakened to high-end EF1 intensity, snapping dozens of trees and damaging power poles. Southeast of Crider, a barn along KY 91 was mostly destroyed. The tornado then turned due east, snapping and uprooting more trees north of Princeton before briefly strengthening to high-end EF2 intensity, along KY 293. A mobile home was destroyed, a home was completely unroofed and trees were snapped. Another home suffered minor roof damage as well.[77]

The tornado then briefly moved erratically eastward at EF1 intensity, heavily damaging an outbuilding and inflicting roof damage to homes, and snapping more trees. Another area of high-end EF2 damage occurred along Princeton Olney Road, where wooden power poles and large trees were snapped. The tornado then turned east-northeastward and began to grow in size as it approached Charleston, causing widespread tree damage. As the tornado crossed into Hopkins County it reintensified to high-end EF2 intensity and reached its peak width of 700 yards (640 m). Several homes were severely damaged with roofs ripped off and exterior walls knocked down, outbuildings were destroyed, and many trees were snapped. The tornado then narrowed but rapidly reached high-end EF3 strength southwest of Charleston where a home was flattened. South of Charleston along KY 109, more homes were leveled, including one poorly-anchored home that was removed from its foundation, other homes were heavily damaged or shifted off their foundations, outbuildings were destroyed and more trees were snapped. Turning eastward at high-end EF2 intensity, the tornado snapped dozens of trees and obliterated two mobile homes before reaching low-end EF3 intensity along Daylight Road, flattening two poorly-anchored homes. Another home was destroyed at EF3 intensity northwest of St. Charles, killing one person and injuring another before the tornado rapidly weakened to high-end EF1 strength. It snapped trees along KY 112 and moved through heavily forested areas before rapidly reaching high-end EF3 intensity as it moved directly through Barnsley and crossed US 41. A home was flattened, two double-wide mobile homes were obliterated, and trees were snapped. Immediately after leaving the town, the tornado abruptly dissipated north of Mortons Gap just before crossing I-69 at 9:15 PM (02:15 UTC).[77]

The tornado was on the ground for 74 minutes, traveling 35.05 miles (56.41 km), and reaching a peak width of 700 yards (640 m). One person was killed and 21 others were injured.[77][94]

Non-tornadic effects[edit]

The start of the 2024 Indianapolis 500 was delayed on May 26th due to thunderstorms near the event.[95] On May 27, a New York Mets game against the Los Angeles Dodgers was postponed for a day due to the severe storms,[96] with severe storms also resulting in ground stops at both LaGuardia Airport and John F. Kennedy International Airport.[97] One person was killed in Colorado due to a lightning strike.[8]

Impact[edit]

Iowa[edit]

Several people were killed and dozens injured in Greenfield, Iowa. Hospitals in the Adair County Health System were evacuated.[citation needed] Multiple fatalities and at least a dozen injuries have been confirmed. There is also a curfew in effect indefinitely, and authorities have limited traffic in and out of town.[98]

Southern United States[edit]

The May 25–26 severe weather outbreak killed at least 26 people in total, including seven in Texas, two in Oklahoma, eight in Arkansas, five in Kentucky, one in Alabama,[5][6] two in Missouri,[7] and one in Colorado.[8] At least 16 of these deaths were due to tornadoes.

See also[edit]

Wikimedia Commons has media related to Tornado outbreak sequence of May 19–27, 2024.

References[edit]

  1. ^ National Weather Service (28 May 2024). "Rich Creek Road/Fayette County Microburst". Iowa Environmental Mesonet. Charleston, West Virginia: National Oceanic and Atmospheric Administration. Retrieved 29 May 2024.
  2. ^ Harris, Tim; Wesner Childs, Jan. "5 Dead, At Least 35 Hurt Following Iowa Tornadoes". The Weather Channel. Retrieved May 23, 2024.
  3. ^ a b c Freedman, Pete; Solomon, Richard (26 May 2024). "Dozens injured and at least two confirmed dead -- so far -- following reported tornado Saturday night, Cooke County Sheriff says". wfaa.com. Retrieved 26 May 2024.
  4. ^ Straker, Renee; Childs, Jan Wesner (May 26, 2024). "Texas Tornado Kills At Least 5; Two Die In Oklahoma Twister | Weather.com". The Weather Channel. Retrieved May 26, 2024.
  5. ^ a b Faheid, Dalia; Afshar, Paradise; Williams, Ashley; Raffa, Elisa; Sutton, Joe (May 26, 2024). "At least 18 people are dead after tornado-spawning storms strike the central US on Memorial Day weekend". CNN. Retrieved May 27, 2024.
  6. ^ a b Magramo, Kathleen; Mascarenhas, Lauren; Chowdhury, Maureen; Hammond, Elise; Zerkel, Eric; Gilbert, Mary (May 27, 2024). "At least 23 killed in tornado-spawning storms sweeping central US". CNN. Retrieved May 27, 2024.
  7. ^ a b Straker, Renee; Childs, Jan Wesner; Bonaccorso, Nicole (May 28, 2024). "Tornadoes Strike Texas, Oklahoma, Arkansas, Kentucky". The Weather Channel. Retrieved May 28, 2024.
  8. ^ a b c Honderich, Holly (May 28, 2024). "Thousands of Americans without power due to severe weather". BBC. Retrieved May 28, 2024.
  9. ^ a b Reyna-Rodriguez, Victoria; Kealey, Kate; Sitter, Phillip; Rood, Lee; Lathers, Addison. "Updates: Tornado, storm damage still being felt in Iowa as clean up begins". The Des Moines Register. Retrieved 23 May 2024.
  10. ^ a b c d Sutton, Joe; Tucker, Emma; Gilbert, Mary; Shackelford, Robert; Wolfe, Elizabeth (2024-05-21). "Multiple fatalities after tornado rips through rural Iowa city, official says, as severe storms rake the Midwest". CNN. Archived from the original on 2024-05-22. Retrieved 2024-05-22.
  11. ^ "Particularly Dangerous Situation (PDS) Severe Thunderstorm Watch 260". Storm Prediction Center. 19 May 2024.
  12. ^ "Particularly Dangerous Situation (PDS) Tornado Watch 277". Storm Prediction Center. 21 May 2024.
  13. ^ "Particularly Dangerous Situation (PDS) Tornado Watch 308". Storm Prediction Center. 25 May 2024.
  14. ^ "Particularly Dangerous Situation (PDS) Tornado Watch 320". Storm Prediction Center. 26 May 2024.
  15. ^ "PAH Tornado Warning #105". mesonet.agron.iastate.edu. Retrieved 2024-05-26.
  16. ^ Roger Edwards; Steve Goss (May 19, 2024). "May 19, 2024 1300 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved May 26, 2024.
  17. ^ Nathan Wendt; John Hart (May 19, 2024). "Mesoscale Discussion 832". Storm Prediction Center. Retrieved May 26, 2024.
  18. ^ John Hart (May 19, 2024). "Particularly Dangerous Situation (PDS) Severe Thunderstorm Watch 260". Storm Prediction Center. Retrieved May 26, 2024.
  19. ^ Nathan Wendt (May 19, 2024). "Mesoscale Discussion 836". Storm Prediction Center. Retrieved May 26, 2024.
  20. ^ Brynn Kerr; Brian Smith (May 19, 2024). "Mesoscale Discussion 842". Storm Prediction Center. Retrieved May 26, 2024.
  21. ^ Brynn Kerr; Brian Smith (May 19, 2024). "Mesoscale Discussion 844". Storm Prediction Center. Retrieved May 26, 2024.
  22. ^ Brynn Kerr (May 19, 2024). "Mesoscale Discussion 845". Storm Prediction Center. Retrieved May 26, 2024.
  23. ^ "SPC Storm Reports for 05/19/24". Storm Prediction Center. May 19, 2024. Retrieved May 26, 2024.
  24. ^ Brynn Kerr (May 19, 2024). "Mesoscale Discussion 847". Storm Prediction Center. Retrieved May 26, 2024.
  25. ^ Roger Edwards; Steve Goss (May 20, 2024). "May 20, 2024 1300 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved May 26, 2024.
  26. ^ Nathan Wendt; John Hart (May 20, 2024). "Mesoscale Discussion 854". Storm Prediction Center. Retrieved May 26, 2024.
  27. ^ Brynn Kerr (May 20, 2024). "Mesoscale Discussion 858". Storm Prediction Center. Retrieved May 26, 2024.
  28. ^ Brynn Kerr (May 20, 2024). "Mesoscale Discussion 862". Storm Prediction Center. Retrieved May 26, 2024.
  29. ^ Steve Goss (May 20, 2024). "Mesoscale Discussion 867". Storm Prediction Center. Retrieved May 26, 2024.
  30. ^ Steve Goss (May 20, 2024). "Mesoscale Discussion 868". Storm Prediction Center. Retrieved May 26, 2024.
  31. ^ Edwards, Roger; Goss, Steve (May 21, 2024). "May 21, 2024 1300 UTC Day 1 Convective Outlook" (Convective Outlook). Norman, Oklahoma: Storm Prediction Center. Retrieved May 22, 2024.
  32. ^ Guyer, Matt; Wendt, Nathan (May 21, 2024). "May 21, 2024 1630 UTC Day 1 Convective Outlook" (Convective Outlook). Norman, Oklahoma: Storm Prediction Center. Retrieved May 22, 2024.
  33. ^ Mosier, Matt (May 21, 2024). "Mesoscale Discussion 868". Norman, Oklahoma: Storm Prediction Center. Retrieved May 22, 2024.
  34. ^ Mosier, Matt; Guyer, Jared (May 21, 2024). "Mesoscale Discussion 869". Norman, Oklahoma: Storm Prediction Center. Retrieved May 22, 2024.
  35. ^ Guyer, Jared (May 21, 2024). "Tornado Watch 276". Norman, Oklahoma: Storm Prediction Center. Retrieved May 22, 2024.
  36. ^ Guyer, Jared (May 21, 2024). "Tornado Watch 277". Norman, Oklahoma: Storm Prediction Center. Retrieved May 22, 2024.
  37. ^ Mosier, Matt (May 21, 2024). "Mesoscale Discussion 875". Norman, Oklahoma: Storm Prediction Center. Retrieved May 22, 2024.
  38. ^ a b "May 21, 2024 Storm Reports". spc.noaa.gov. Storm Prediction Center. Retrieved 2024-05-22.
  39. ^ Chris Broyles; Barnes (May 22, 2024). "May 22, 2024 1300 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved May 26, 2024.
  40. ^ Matt Mosier; John Hart (May 22, 2024). "Mesoscale Discussion 892". Storm Prediction Center. Retrieved May 26, 2024.
  41. ^ Matt Mosier (May 22, 2024). "Mesoscale Discussion 894". Storm Prediction Center. Retrieved May 26, 2024.
  42. ^ Matt Mosier (May 22, 2024). "Mesoscale Discussion 895". Storm Prediction Center. Retrieved May 26, 2024.
  43. ^ Matt Mosier (May 22, 2024). "Mesoscale Discussion 897". Storm Prediction Center. Retrieved May 26, 2024.
  44. ^ Chris Broyles (May 22, 2024). "Mesoscale Discussion 905". Storm Prediction Center. Retrieved May 26, 2024.
  45. ^ a b "Storm Prediction Center May 23, 2024 1300 UTC Day 1 Convective Outlook". www.spc.noaa.gov. Retrieved 2024-05-26.
  46. ^ a b "Obs and Mesoanalysis Loop". www.spc.noaa.gov. Retrieved 2024-05-26.
  47. ^ "Storm Prediction Center 20240523's Storm Reports". www.spc.noaa.gov. Retrieved 2024-05-26.
  48. ^ "Storm Prediction Center May 24, 2024 1300 UTC Day 1 Convective Outlook". www.spc.noaa.gov. Retrieved 2024-05-26.
  49. ^ "Storm Prediction Center 20240524's Storm Reports". www.spc.noaa.gov. Retrieved 2024-05-26.
  50. ^ "May 24, 2024 Derecho Summary And Severe Weather Outbreak". National Weather Service Quad Cities, Iowa/Illinois. Retrieved 26 May 2024.
  51. ^ Jeremy Grams; Andrew Moore (May 25, 2024). "May 25, 2024 1200 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved May 27, 2024.
  52. ^ Ryan Jewell (May 24, 2024). "May 24, 2024 1730 UTC Day 2 Convective Outlook". Storm Prediction Center. Retrieved May 27, 2024.
  53. ^ Roger Edwards (May 25, 2024). "May 25, 2024 1300 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved May 27, 2024.
  54. ^ Ryan Jewell; Bill Bunting (May 25, 2024). "Mesoscale Discussion 954". Storm Prediction Center. Retrieved May 27, 2024.
  55. ^ Bill Bunting (May 25, 2024). "Particularly Dangerous Situation (PDS) Tornado Watch 308". Storm Prediction Center. Retrieved May 27, 2024.
  56. ^ Matt Mosier (May 25, 2024). "Mesoscale Discussion 957". Storm Prediction Center. Retrieved May 27, 2024.
  57. ^ Matt Mosier; Andrew Moore (May 25, 2024). "Mesoscale Discussion 958". Storm Prediction Center. Retrieved May 27, 2024.
  58. ^ Matt Mosier; Bryan Smith (May 25, 2024). "Mesoscale Discussion 960". Storm Prediction Center. Retrieved May 27, 2024.
  59. ^ Andrew Moore (May 25, 2024). "Mesoscale Discussion 962". Storm Prediction Center. Retrieved May 27, 2024.
  60. ^ Matt Mosier (May 25, 2024). "Mesoscale Discussion 963". Storm Prediction Center. Retrieved May 27, 2024.
  61. ^ Roger Edwards (May 26, 2024). "Mesoscale Discussion 968". Storm Prediction Center. Retrieved May 27, 2024.
  62. ^ Roger Edwards (May 26, 2024). "Mesoscale Discussion 971". Storm Prediction Center. Retrieved May 27, 2024.
  63. ^ Brian Squitieri; Bill Bunting (May 26, 2024). "Mesoscale Discussion 973". Storm Prediction Center. Retrieved May 27, 2024.
  64. ^ Brian Squitieri (May 26, 2024). "Mesoscale Discussion 974". Storm Prediction Center. Retrieved May 27, 2024.
  65. ^ Brian Squitieri; Bill Bunting (May 26, 2024). "Mesoscale Discussion 975". Storm Prediction Center. Retrieved May 27, 2024.
  66. ^ "SPC Storm Reports for 05/26/24". Storm Prediction Center. May 26, 2024. Retrieved May 28, 2024.
  67. ^ Evan Bentley (May 26, 2024). "May 26, 2024 2000 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved May 28, 2024.
  68. ^ Matt Mosier (May 26, 2024). "Mesoscale Discussion 990". Storm Prediction Center. Retrieved May 27, 2024.
  69. ^ Matt Mosier; Bryan Smith (May 26, 2024). "Mesoscale Discussion 992". Storm Prediction Center. Retrieved May 27, 2024.
  70. ^ Andrew Lyons; Matt Mosier (May 26, 2024). "Mesoscale Discussion 994". Storm Prediction Center. Retrieved May 27, 2024.
  71. ^ Matt Mosier (May 26, 2024). "Mesoscale Discussion 997". Storm Prediction Center. Retrieved May 27, 2024.
  72. ^ Matt Mosier (May 26, 2024). "Mesoscale Discussion 1007". Storm Prediction Center. Retrieved May 27, 2024.
  73. ^ Steve Goss (May 26, 2024). "Mesoscale Discussion 1009". Storm Prediction Center. Retrieved May 27, 2024.
  74. ^ Cappucci, Matthew (24 May 2024). "Why the Greenfield tornado was so powerful" (News article). The Washington Post. Greenfield, Iowa. Retrieved 27 May 2024.
  75. ^ a b 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)" (Post on 𝕏). 𝕏 (Formerly Twitter). University of Illinois: Doppler on Wheels. Archived from the original on 22 May 2024. Retrieved 22 May 2024.
  76. ^ a b 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" (Post on 𝕏). 𝕏 (Formerly Twitter). European Severe Storms Laboratory. Archived from the original on 22 May 2024. Retrieved 22 May 2024.
  77. ^ a b c d e f g h i j k l m n o p q Branches of the National Oceanic and Atmospheric Administration; National Weather Service; National Severe Storms Laboratory (2024). "Damage Assessment Toolkit". DAT. United States Department of Commerce.
  78. ^ Kealey, Kate (2024-05-23). "Police identify woman killed in Adams County when tornado blew her out of a car". Des Moines Register. Retrieved 2024-05-23.
  79. ^ "Greenfield tornado: Authorities confirm multiple fatalities in southwest Iowa". KCCI. May 22, 2024. Archived from the original on May 22, 2024. Retrieved May 22, 2024.
  80. ^ a b c National Weather Service in Fort Worth, Texas (May 29, 2024). ...NWS Damage Survey for May 25th Tornado Event - Update # 2... (Report). Iowa Environmental Mesonet. Retrieved May 30, 2024.
  81. ^ a b "Storm Prediction Center Today's Storm Reports". www.spc.noaa.gov. Retrieved 26 May 2024.
  82. ^ "2024 Tornado Events in Eastern Oklahoma Northwest Arkansas". ArcGIS StoryMaps. National Weather Service Tulsa OK. 1 May 2024. Retrieved 1 May 2024.
  83. ^ Kliewer, Addison (May 26, 2024). "2 confirmed dead this weekend in northeast Oklahoma tornadoes: What we know". KOCO. Retrieved May 26, 2024.
  84. ^ National Weather Service in Tulsa, Oklahoma (May 28, 2024). NWS Damage Survey for 05/25-26/2024 Tornado Event (Report). Iowa Environmental Mesonet. Retrieved May 28, 2024.
  85. ^ Brinkley, Rhett (May 26, 2024). "Storms kill at least 5 in north Arkansas overnight, more in Texas and Oklahoma". Arkansas Times. Retrieved May 26, 2024.
  86. ^ National Weather Service in Little Rock, Arkansas (May 27, 2024). NWS Damage Survey for 05/26/2024 Tornado Event Boone-Marion County (Report). Iowa Environmental Mesonet. Retrieved May 27, 2024.
  87. ^ National Weather Service in Paducah, Kentucky (May 29, 2024). NWS Damage Survey for 05/26/24 Tornado Event in SE Missouri (Report). Iowa Environmental Mesonet. Retrieved May 29, 2024.
  88. ^ Tock, Olivia (27 May 2024). "NWS: Preliminary EF3 tornado damage near Sikeston; 1 storm-related death reported". KFVS 12. Retrieved 3 June 2024.
  89. ^ Schreiner, Bruce. "Kentucky family left homeless for second time by a tornado that hit the same location". ABC News. Retrieved 29 May 2024.
  90. ^ "PAH Tornado Warning #96". Iowa Environment Mesonet. National Weather Service Paducah, Kentucky. Retrieved 26 May 2024.
  91. ^ "PAH Tornado Warning #100". Iowa Environment Mesonet. National Weather Service Paducah, Kentucky. Retrieved 26 May 2024.
  92. ^ "PAH Tornado Warning #102". Iowa Environment Mesonet. National Weather Service Paducah, Kentucky. Retrieved 26 May 2024.
  93. ^ "PAH Tornado Warning #105". Iowa Environment Mesonet. National Weather Service Paducah, Kentucky. Retrieved 26 May 2024.
  94. ^ National Weather Service in Paducah, Kentucky (May 28, 2024). NWS Damage Survey for 05/26/24 Tornado Event (Report). Iowa Environmental Mesonet. Retrieved May 28, 2024.
  95. ^ Brown, Nathan (26 May 2024). "IMS delays start of Indy 500, vacates grandstands, Snake Pit for 3 hours". The Indianapolis Star. Archived from the original on 2024-05-28. Retrieved 2024-05-30.
  96. ^ "Dodgers-Mets postponed, doubleheader scheduled for Tuesday". ESPN. May 27, 2024. Retrieved May 27, 2024.
  97. ^ "Flight delays continue at JFK Airport on Memorial Day". WPIX New York City, NY. Yahoo News. May 27, 2024. Retrieved May 30, 2024.
  98. ^ Rood, Kyle Werner and Lee. "Deaths, extensive damage in Greenfield after a powerful tornado rips through town". The Des Moines Register. Retrieved 2024-05-22.

External links[edit]

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