2013 El Reno Tornado Damage Survey

Image of vegetation damage near the location where the highest doppler velocities were recorded more than 400ft above the ground. The tornado was given an EF5 rating less than 36 hours after dissipating solely due to mobile doppler radar velocities between 290 and 336mph, possibly the strongest ever recorded (AMS, 2013). The tornado was later downgraded to an EF3 due to a lack of EF5 damage indicators.

□ On May 31, 2013, a train of violent supercell thunderstorms erupted in the sky to the west of Oklahoma City. In the city suburb of Moore, rain began to fall over the tangled remains of homes and businesses obliterated less than two weeks earlier by a catastrophic EF5 tornado. Meteorologists at the National Weather Service recognized the tell-tale signs of a rotating mesocyclone on radar, and reports from storm chasers near the community of El Reno quickly verified the presence of a large, nebulous mass of clouds that had spun down to the ground. A rare tornado emergency was issued for the area a second time.

An unusually large number of storm chasers, both amateur and seasoned, drove down the perfect grid of county roads to the south of El Reno to film the ensuing storm. Like many large tornadoes, the El Reno storm began with a series of transient funnels beneath a rapidly rotating mesocyclone. Heavy rain left few good angles to film the storm, so most chasers concentrated near Highway 81 just northeast of the tornado. As the storm progressed slowly to the east-southeast it underwent a period of explosive strengthening. The already large tornado suddenly doubled in size in less than one minute (many say less than 30 seconds) to over two miles in width. Footage from multiple storm chasers showed a sudden increase in surface winds well away from the visible funnel. Near the intersection of Choctaw Avenue and SW 15th Street, two vehicles were engulfed by the storm, killing both drivers. One of the men killed, Richard Henderson, became the first amateur storm chaser fatality in history.

Storm chaser Richard Henderson sent this photograph to a friend several minutes before he was killed by the tornado on SW 15th Street. The same friend was on the phone with Henderson when debris began to strike the chaser’s car. Moments later, the line went dead (Kelly, 2013).

Trees along SW 29th Street were damaged and a piece of timber pierced 11 inches (measured) into the ground. The distance of visible damage along Highway 81 was 2.5 miles, although extreme straight line winds blurred the distinction. All of the damage visible from Highway 81 was in the EF0 to EF2 range, although wide spacing between buildings and trees left few reliable damage indicators.

A Weather Channel vehicle driving on Highway 81 was impacted by a violent wind feature, causing it to tumble through an adjacent field (initial reports stated the car travelled 200ft while later broadcasts reported 200 yards). All of the vehicle’s passengers were injured to some degree but most were able to walk away from the wreckage. Around this time, the tornado was completing an unexpected turn to the northeast. Highly knowledgable storm chasers were caught off guard by the storm’s size and unpredictability. A motorist due east of the Weather Channel crew was killed by the tornado at the intersection of Alfadale Road and Reno Street. Along SW 10th Street, a white car carrying three professional storm chasers was swept off the road west of Radio Road. Unlike the Weather Channel vehicle, the car driven by Tim Samaras was hurled 650 yards through the air at a high rate of speed (AMS, 2013). The three chasers, likely with cameras in hand, were all killed in the “unsurvivable” wreck. Several minutes later, the tornado swept across the I-40, killing a young mother and her infant son in a car hurled from the freeway. Forty minutes after first forming, the tornado weakened and dissipated.

I surveyed the damage from the El Reno tornado and interviewed local residents on June 4th and 5th. Photographs from my survey are shown below, and my final analysis can be found at bottom.

*In August of 2013, the El Reno tornado was officially downgraded to an EF3 by the National Weather Service (Querry/NWS, 2013).

A home just south of SW 15th Street along Highway 81 experienced EF1 damage despite being near the geographic center of the storm. The tornado’s multi-vortex nature meant that most of the damage swath encountered winds in the EF1 and EF2 range. The tornado’s first two fatalities occurred in two vehicles a mile west of Highway 81 along SW 15th Street (KFOR, 2013).

Wheat crop was blown to the ground in swaths approximately 50ft wide a half mile east of Highway 81 on SW 15th Street.

Fence posts adjacent to homes that experienced EF1 and EF2 damage were generally only lightly damaged. In other areas they were bent to the ground or removed entirely. In some instances, metal stakes were twisted due to bursts of winds from various directions.

A home on Alfadale Road suffered severe internal damage but was left largely standing, like most of the homes in the area. One survivor who was staying with a relative on SW 29th Street said that the tornado “lasted about five minutes, but the worst of it happened in the first 30 seconds when every window shattered at the same time.”

A home on Alfadale Road experienced EF2 damage. A motorist in a vehicle at this intersection became the storm’s third fatality.

A blizzard of dry plant materials was caught by standing fences along Radio Road.

View northeast at the intersection of Radio Road and 10th Street, where the most intense winds were recorded by mobile doppler radar. While analysis is ongoing, velocities between 290 and 336mph were recorded as a single, exceptionally powerful sub-vortex slingshotted around the south side of the tornado at 177mph. The peak winds occurred on the eastern edge of the vortex where all of the rotational velocities combined. While of record intensity, the peak winds were found 110 yards above the surface and would have impacted a standing structure for only half a second (AMS, 2013).

10th and Radio Road was marked by a sign placed after the tornado to direct local traffic.

The only tree near the intersection of 10th and Radio Road was stripped of leaves and damaged in a fashion consistent with past EF4 tornadoes.

Vegetation was blown to the ground and strewn with small pieces of debris, including fragments from destroyed vehicles. Metal fence posts were bent to the east-northeast or absent entirely from the ground. The gravel along 10th Street was blown almost completely away in areas affected by sub vortices. This is where a vehicle driven by Tim Samaras was recovered.

A fence was ripped from its posts and left in a tangled mass a half mile northeast of 10th and Radio Road.

A vehicle carrying storm chasers Tim Samaras, Paul Samaras and Carl Young was swept off 10th Street approximately 545 yards west of Radio Road. The car was thrown more than 650 yards, killing the three occupants (AMS, 2013). According to ABC News, Tim Samaras was found in the front seat whereas the other two passengers were ejected from the vehicle and found up to a half mile away. DOW observations at the time indicated that an intense sub-vortice with a forward speed of 177mph impacted the vehicle unexpectedly from the north (AMS, 2013). (Image by Jason Morris)

Area near 10th Street where the chase vehicle was swept off the road.

Flattened wheat crop just south of 10th Street.

Tree damage near where the chase vehicle was overtaken by the storm. Trees 100ft to the north on the other side of 10th Street were damaged but not defoliated. Flooding carved deep ditches into areas that were previously flat fields.

A quarter mile south of the I-40, an RV company was severely damaged in the tornado. A vehicle from the facility was thrown several hundred yards. Most of the powerlines along N2880 Road were snapped just above ground level.

Some of the most severe vegetation damage appeared to be along the I-40, north of where the peak doppler velocities purportedly occurred.

A livestock trailer was blown over 300 yards to the south from a complex across the freeway and left tangled in the remains of a fence.

View of the destroyed OKC West Livestock Market where the trailer originated.

Debris in a wind-damaged field just south of the I-40.

Tree damage just south of the I-40 near the OKC West Livestock complex. The tornado’s massive size and slow movement would have exposed many areas to tornadic winds for greater than five minutes, though peak velocities occurred only in suction spots.

Extremely heavy rainfall on the day of the tornado led to widespread flooding in the affected areas. Visible here is the OKC West Livestock Market and a pool of water that trapped large pieces of debris, including sections of broken powerlines.

Closer view of the destroyed livestock complex. Dozens of large animals were killed throughout the tornado’s path, leaving the smell of rotting flesh several days later.

Heavy tree damage just north of OKC West.

Deep impact mark on a hillside adjacent to the I-40. Several vehicles were swept from the freeway in this area, resulting in two fatalities.

Personal Damage Survey Conclusions:

Due to my belief that the Enhanced Fujita Scale grossly underestimates winds in violent tornadoes, the wind ranges I utilize are based on my research, discussions with wind engineers and comparisons between known surface readings and adjacent damage indicators in past tornadoes. My wind estimates are significantly higher than those employed by the National Weather Service.

Peak Intensity: EF4 (≈220mph)

□ The most intense damage occurred to vegetation in a swath of varying width from an area commencing just west of the intersection of 10th Street and Radio Road and ending at the I-40. Steel fence posts were bent to the ground by winds alone and not debris impacts. Powerlines were sheared just above ground level, vehicles were thrown over 200 yards and surface crops were severely damaged and bent to the east-northeast. The most intense structural damage likely occurred to the OKC West Livestock Market just north of the I-40 and several homes west of Highway 81. The most intense structural damage was consistent with winds in the EF3 range. The scarcity of trees and buildings left few reliable damage indicators, but no EF5-level vegetation damage was noted.

□ While the tornado has been deemed the “second strongest” in recorded history due to extreme doppler velocities, this claim is completely unfounded. Few violent tornadoes are ever tracked by mobile doppler radar, so the available readings are not an objective method of classification.

□ While the tornado is being called the “widest” in history, this claim is also unfounded. The 1999 Mulhall tornado likely left a significantly wider damage path. In terms of violent tornado damage, the damage swath from the 2013 El Reno tornado was narrower than many documented tornadoes, including the 2011 Joplin tornado.

The width of EF0+ damage along Highway 81 was 2.55 miles in width, as measured by the distance between the northernmost and southernmost instances of missing shingles and downed tree branches. The southern margin was 300 yards south of SW 29th Street and northern margin was just north of 10th Street. Straight line wind damage was found in areas unaffected by the tornado, so the exact damage contours were impossible to ascertain.

The vegetation damage from the El Reno tornado was noticeably less intense than the damage caused by the 2013 Moore tornado. Few trees were debarked in El Reno, whereas all of the trees in the core damage path of the Moore tornado near County Edge Drive were completely stripped of bark and branches.

Fascinating and Accurate Tornado Records – the Deadliest, the Fastest, the Rarest

Several EF5 tornadoes have thrown industrial equipment weighing in excess of 15,000 lbs long distances. At top left, the 2011 El Reno tornado hurled an oil tanker weighing approximately 25,000 lbs a mile without leaving any noticeable ground impacts. At top right, the 1970 Lubbock tornado tossed a 26,000 lb fertilizer tank 3/4 of a mile over a freeway and several undamaged fences. At bottom left, the 2011 Tuscaloosa tornado hurled a train car weighing 71,600lbs 130 yards in one throw, according to witnesses. At bottom right, the 1995 Pampa tornado lifted a 35,000 lb lathe.

□ Accurate tornado statistics can be difficult to find. Recording techniques were not standardized before the weather radar age, so information on tornadoes that occurred before 1970 is often unreliable. Furthermore, lists of the deadliest and longest tracked tornadoes in world history are easy to find and dominated by 19th and early-20th century events.

To level the playing field and promote the dissemination of credible information, all of the following records cover tornadoes that occurred after 1970. Click each link in the index below to jump to a specific section. This page will undoubtably go through several edits and expand as more notable tornado records are uncovered. 

I. The Deadliest Tornadoes on Record

II. The Longest Tornado Damage Paths

III. The Fastest Tornadoes Ever Recorded

IV. Violent or Unusual Tornado Records

-IVa. The Highest Altitude Violent Tornado

-IVb. The Deadliest and Most Intense Anticyclonic Tornado Ever Recorded

-IVc. The Deadliest Hurricane Spawned Tornado

-IVd. The Highest Tornado Fatality Rate

-IVe. The Most Fatalities in a Single Building

-IVf. The Most Fatalities in a Single Mobile Home Park

-IVg. The Fastest Tornado Movement Ever Recorded Using Photogrammetry

-IVh. The Heaviest Object Ever Lifted by a Tornado

V. Graphs

Va. Graph of Tornadoes Causing 10+ and 20+ Fatalities by Decade

Vb. Graph of the Deadliest Tornadoes by Decade

_______________

I.
□ The Deadliest Tornadoes on Record

The 2011 Joplin tornado was by far the deadliest tornado of the past 50 years. Considering the storm’s incredible intensity and size, it is remarkable the number of deaths did not surpass 200. All three of the deadliest tornadoes since 1970 occurred during the 2011 tornado season, the worst in modern history.

1. 158 fatalities – Joplin, Missouri – May 22, 2011

□ A violent EF5 tornado rapidly intensified as it entered heavily populated sections of Joplin. The storm holds the post-1970 record for the most fatalities in frame homes (approximately 70) and the most fatalities in commercial buildings (approximately 20). The commercial deaths do not include the large number of fatalities at medical facilities, churches and private organizations.

2. 72 fatalities – Hackleburg/Phil Campbell, Alabama – April 27, 2011

□ One of the most impressive tornadic events in history carved a 132-mile path of devastation through largely rural areas of northern Alabama. The EF5 tornado had an exceptionally high fatality to injury ratio. The storm holds the post-1970 record for the longest swath of EF5 damage (including approximately 40 consecutive miles at EF5 intensity).

3. 64 fatalities – Tuscaloosa/Concord, Alabama – April 27, 2011

□ Borderline EF5 tornado caused more than 40 deaths in Tuscaloosa. Extremely well-covered by local news agencies and photographers. Caused high-end EF4 damage from Tuscaloosa to the suburbs of Birmingham.

4. ≈47 fatalities – Pugh City, Mississippi – February 21, 1971

□ A fast-moving F4 tornado nearly wiped out the town of Pugh City, killing 22 residents. Dozens of small homes were swept completely away. Official death toll of 58 is likely the result of a tornado family.

5. 42 fatalities – Wichita Falls, Texas – April 10, 1979

□ A large tornado left a wide swath of marginal F4 damage in Wichita Falls. The historic storm holds the post-1970 record for the greatest number of fatalities in vehicles (25). The majority of the deaths in automobiles were people attempting to flee the storm.

6. ≈41 fatalities – Inverness, Mississippi – February 21, 1971

□ A fast-moving F5 tornado passed directly through the town of Inverness, killing approximately 20 residents. Most of the deaths were in poorly built homes that were obliterated.

7. 36 fatalities – Bridge Creek/Moore, Oklahoma – May 3, 1999

□ Violent F5 tornado killed 13 people in rural areas while at maximum intensity. The storm then caused another 23 deaths as it tracked through the Oklahoma City suburbs. Holds record for the highest doppler velocity ever measured – approximately 302mph.

8a. 32 fatalities – Oak Grove, Alabama – April 8, 1998

□ Marginal F5 tornado caused a high number of fatalities as it chewed through small towns near Birmingham after dark. The worst damage was confined to several small streaks of intense devastation.

8b. 32 fatalities – Xenia, Ohio – April 3, 1974

□ Infamous multi-vortex tornado became the deadliest and most damaging single storm in the 1974 Super Outbreak. Brief film of the tornado captured by a high school student was broadcast on news networks across the world.

9. 31 fatalities – Brandenburg, Kentucky – April 3, 1974

□ Violent F5 tornado swept away well-constructed houses in the town of Brandenburg. The storm struck far fewer homes than the Xenia tornado yet caused a similar death toll due to its extreme intensity.

10. 30 fatalities – Saragosa, Texas – May 22, 1987

□ Short lived multi-vortex tornado touched down and rapidly intensified as it passed over a small town in southwest Texas. Most of the fatalities occurred in the destruction of a crowded church.

_______________

II.
□ The Longest Tornado Damage Paths

-Due to the high number of tornado families that have been officially recorded as a single storm, an accurate list is difficult to compile. Tornadoes thought to have been two or more separate storms are not included. This list will undoubtably go through various edits.

The longest tracked tornadoes generally occur in the South in the spring and fall when upper-level winds are more conductive to rapid forward movement. At left, one of the longest tracked tornadoes in history caused EF5 damage in Hackleburg. At right, an extremely long-lived nighttime tornado killed four people in the obliterated home at bottom near Jackson, Mississippi, in 1992. The body of one of the occupants was found in a tree a quarter mile from the foundation (Grazulis, 1997).

1. 149 miles – Yazoo City, Mississippi – April 24, 2010

□ A large, often obscured tornado sped through central Mississippi, killing 10 people in and near Yazoo City. The majority of the damage path was through sparsely populated forestland.

2. 132 miles – Hackleburg/Phil Campbell, Alabama to TN – April 27, 2011

□ Violent EF5 tornado travelled across nearly all of northern Alabama, causing 72 deaths before crossing the Tennessee border and continuing for an additional ten miles through Franklin County. The storm left strong tornado damage (EF3+) over more than 110 miles (NWS Survey).

3a. 128 miles – Brandon, Mississippi – November 21, 1992

□ Violent, rain-wrapped tornado killed 12 near Jackson around midnight. Four of the deaths occurred when a large, two-story brick home in the Easthaven subdivision was completely destroyed.

3b. 128 miles – Cordova, Alabama – April 27, 2011

□ Fast-moving tornado killed 13 people in Alabama. While officially rated an EF4, the tornado left severe ground scouring in unpopulated areas and hurled a vehicle nearly one mile.

4. 124 miles – Raleigh, Mississippi to AL – April 27, 2011

□ A Lesser know violent tornado during the 2011 Super Outbreak killed 7 in Mississippi and Alabama. Formed farther south than most of the tornadoes on April 27 and left a quarter-mile wide swath of fallen trees through a forest reserve.

5. 122 miles – Clinton, Arkansas – February 5, 2008

□ A fast-moving and long duration EF4 tornado ripped through largely rural areas of Arkansas. The 13 fatalities were spread out over a 30 mile area beginning in Pope County.

_______________

III.
□ The Fastest Tornadoes Ever Recorded

-Due to their rapidly shifting nature, it is difficult to ascertain the forward speed of a tornado over a specified time period. Decaying tornadoes can momentarily exceed 90mph, but these great speeds are never maintained. Most of the fastest tornadoes occur in the South from late-November through April, but similar conditions can cause extremely fast moving tornadoes from Tennessee to Michigan.

In 2012, an extremely violent and fast-moving tornado was filmed as it sped through the town of Henryville, Indiana, at more than 60mph (Video contains strong language). The multi-vortex tornado was powerful enough to loft vehicles more than 200 yards, scour a highway of pavement and completely sweep away several large, two-story brick homes. While rated an EF4 by the NWS, the tornado probably had instantaneous gusts capable of causing EF5 damage in areas east of Henryville. (Video by Rhett Adams)

1a. 70mph+ – April 27, 2011

Many of the tornadoes in the 2011 Super Outbreak reached speeds of 70mph at some point in their development. Examples include the Hackleburg/Phil Campbell tornado as it ripped through Marion and Franklin Counties and the Smithville, Mississippi, tornado as it caused some of the most intense EF5 damage ever photographed in Monroe County.

1b. 70mph+ – March 2, 2012

The deadliest tornado outbreak of 2012 brought violent and fast-moving tornadoes to the states of Indiana and Kentucky. The deadliest two tornadoes in the outbreak – the Henryville, Indiana, tornado and the West Liberty, Kentucky, tornado – may have approached 75mph in periods of their development.

1c. 70mph+ – April 3, 1974

During the 1974 Super Outbreak, nearly every supercell was moving in excess of 50mph. The violent tornadoes that occurred in the state of Alabama – including the infamous Guin tornado – may have reached or momentarily surpassed 75mph.

_______________

IV.
□ Violent or Unusual Tornado Records

IVa. The Highest Altitude Violent Tornado

One of the most unusual tornadoes in recorded history touched down high in the mountains near Yellowstone National Park on July 21, 1987. The rain-wrapped tornado, which travelled at nearly 60mph, was imbedded within an exceptionally violent mesocyclone that contained large hail and frequent microbursts. Fujita toured the 1.5 mile wide damage swath and noted bursts of extreme tree damage consistent with violent (F4/F5) tornadic winds more than 9,000ft above sea level (the worst damage is visible as the lighter area on the hillside just above center). Some mountain peaks affected by the storm were at an altitude of nearly 11,000ft (Fujita, 1989). The rare storm, which was likely capable of causing a wide swath of EF2, EF3 and EF4 damage early in its life, proved that potentially catastrophic tornadoes can occur well-outside “tornado alley.” Had the storm impacted a large population center, it could have caused damage and loss of life comparable to the 2011 Joplin tornado.

IVb. The Deadliest and Most Intense Anticyclonic Tornado Ever Recorded

In April of 1981, a thunderstorm developed over Washington County, Wisconsin. The storm resembled a typical nighttime thunderstorm on weather radar, so no tornado watch was issued. Despite the storm’s modest size and low cloud tops, it spawned an unusual anticyclonic tornado just after midnight. The short-lived tornado touched down at the edge of a neighborhood in the town of West Bend (visible above) and immediately began causing F4 damage (Wakimoto, 1983). Several two-story houses were leveled to the ground and three people were killed, including one man who was thrown more than 50 yards from his destroyed home. The rapidly intensifying tornado was exceptionally narrow, often less than 50 yards in width, and dissipated after traveling less than two miles. The event remains a meteorological oddity and the only violent anticyclonic tornado ever recorded. (Images by Patrick Golembiewski)

IVc. The Deadliest Hurricane Spawned Tornado 

In October of 1964, Hurricane Hilda made landfall in Louisiana as a weakening Category 3 storm. Before the hurricane’s eye reached the coast, a violent tornado was spawned 30 miles south of New Orleans in a marshy area near the Gulf of Mexico. The F4 tornado travelled westward over a narrow strip of homes and buildings that lined a waterway in the town of Larose, killing 22 residents. Some homes were swept completely away and many of the bodies were carried more than 100 yards and later recovered in a nearby bayou. The storm remains the deadliest hurricane spawned tornado in US history and one of the strongest such storms ever recorded.

IVd. The Highest Above-Ground Tornado Fatality Rate

On May 27, 1997, perhaps the most violent tornado in modern history passed over two clusters of homes just outside Jarrell, Texas. The slow-moving F5 tornado completely swept away two dozen homes and ground the debris into tiny pieces. Within the streak of worst damage, which expanded over a quarter-mile in width, there were no survivors above ground. All of the vegetation in the worst affected areas was scoured from the ground, leaving nothing but empty foundations and fields of mud.

IVe. The Most Fatalities in a Single Building (post-1970)

At left, the 1987 Saragosa, Texas, tornado killed 22 people in the Guadelupe Church during a graduation ceremony for young students. At center, the 1994 Piedmont, Alabama, tornado killed 20 parishioners at the Goshen United Methodist Church during Palm Sunday services (Survey Report). At right, the 2011 Joplin tornado leveled and partially swept away the Greenbriar Nursing Home. Of the approximately 90 residents and nurses in the building, 21 died.

IVf. The Most Fatalities in a Single Mobile Home Park

In November of 2005, a fast-moving nighttime tornado touched down near Evasnville, Indiana. Around 2am, the multi-vortex tornado struck the Eastbrook Mobile Home Park while most of the area’s residents were asleep. A total of 20 people were killed as the F3 tornado swept away mobile homes along the southern edge of the park. The event remains the deadliest tornado disaster in a mobile home park. In July of 1987, one of Canada’s deadliest tornadoes killed 15 people in the Evergreen Mobile Home Park in Edmonton, Alberta.

IVg. The Fastest Tornado Movement Ever Recorded Using Photogrammetry

Photogrammetry is a technique that allows for the measurement of debris movement in the visible portions of tornadoes. The highest officially calculated velocity using Fujita’s meticulous techniques was 284mph in the 1974 Parker City, Indiana, tornado (Forbes, Bluestein, 2001). The official analysis program ended in the 80’s, but rough calculations by Tom Grazulis indicated particle motions of 300mph just above ground-level in the 1995 Pampa, Texas, tornado (two vehicles are visible mid-air left of the funnel). Basic photogrammetry techniques indicate the 2007 Elie, Manitoba, tornado was of similar intensity (a van being thrown 200 yards from the tornado is visible at right).

IVh. The Heaviest Object Ever Lifted by a Tornado

In June of 1990, an exceptionally violent tornado formed in the desert-land of southwest Texas. Near the end of the tornado’s path in Bakersfield Valley, a production facility was destroyed (at left) and three oil tanks weighing 180,000lbs were moved three miles to the east. Two of the tanks were found 600ft up a hillside with a 40 degree incline. This is one of the most impresive instances of tornado damage ever recorded and perhaps the only documented instance of an object over 100,000 lbs being moved a long distance. (Images by Wayne Greene)

_______________

V.
□ Va. Graph of Tornadoes Causing 10+ Deaths by Decade

Since the the 70’s, the average amount of lead-time preceding a tornado has not changed significantly. As a result, the trend towards fewer fatalities has bottomed out. Urban sprawl and the increasing population in many severe weather-prone states will likely lead to an upturn in tornadoes causing 10 or more fatalities in the coming decades. Due to the random nature of all weather disasters, there is extreme variance in the number of deaths per year. Using a statistical bell curve of all tornado fatalities from 1980 to 2010, the 2011 tornado season’s death toll would have been expected less than once in a million years. In reality, a deadlier season is likely in the next century.

□ Vb. Graph of the Deadliest Tornadoes by Decade

No single tornado caused more than 50 deaths between 1955 and 2011. After several widely visible and well-covered tornadoes (Xenia ’74, Wichita Falls ’79, Bridge Creek ’99) failed to cause more than 100 fatalities, it was considered by some an “impossibility” in the weather-radar age. In truth, major cities and crowded freeways open the possibility to a single storm causing more than 1,000 deaths.