On October 5–6, 2010, a destructive series of thunderstorms struck Arizona, resulting in the state's largest tornado outbreak and its costliest weather disaster on record. Spawned by a nearby cold-core low, successive hailstorms in Phoenix and surrounding locations on October 5 caused damage to thousands of homes, businesses, and vehicles. The following day, a record 12 tornadoes were recorded, multiple strong/EF2 or greater on the Enhanced Fujita scale and many in close proximity to one another; this included two tornadoes rated EF3. Thunderstorms on both days caused significant flash flooding which inundated businesses, stranded vehicles, and closed roadways. Damage throughout the state reached $4.9 billion, including $2.7 billion in insured loss from just hail damage, the costliest weather event on record in Arizona. Some impacts occurred in California, Nevada, and Utah as well as the cold-core remained stationary over several days.
Meteorological history | |
---|---|
Duration | October 5–6, 2010 |
Tornado outbreak | |
Tornadoes | 12 |
Maximum rating | EF3 tornado |
Duration | 8 hours[1] |
Largest hail | 3.0 in (7.6 cm) in diameter in Glendale, Arizona |
Overall effects | |
Fatalities | 0 |
Injuries | 11 injuries (7 tornadic) |
Damage | $4.9 billion[2] |
Areas affected | Southwest United States |
Part of the tornado outbreaks of 2010 |
Meteorological synopsis
editIn 2008, researchers examined the overlap between large-scale environments responsible for producing tornadoes in Northern Arizona. They utilized 38 days between 1950 and 2006 that involved the formation of classic supercell thunderstorms and confirmed tornadoes across the state. Of those 38 days, researchers found a similar meteorological progression in half of them. The overlapping setup involved the approach of a cold-core low and a favorable placement of the warm sector across Arizona. The approach of these mid- to upper-level lows, detached from the jet stream, allowed for southerly wind vectors to overspread the state. This not only afforded the wind shear necessary for tornadic development, but also provided a supply of warm, moist subtropical air. Compared to previously analyzed tornado environments across the United States, researchers found that Northern Arizona events typically featured marginal instability, averaging around 450 J/kg.[3]
On October 5, 2010, the dominant pattern across the United States bore resemblance to the setups described in previous research. An omega block existed across the country, so named for its uncharacteristically persistent weather conditions across the country on the scale of days to weeks. This omega block was characterized by a high-pressure area over the Central United States and two separate cold-core lows, one over California and the other off the coast of New Jersey.[4] As the western low remained nearly stationary, an unstable atmosphere began to develop across Arizona, prompting the Storm Prediction Center (SPC) to outline a Slight risk across the state.[5] Southeasterly winds at the surface intersected the dryline, providing the impetus for thunderstorm development. Surface dewpoints rose to around 60 °F (16 °C), while instability levels resided near 1,000 J/kg, and strong wind shear values were likewise favorable.[6] A cluster of strong thunderstorms developed across the Phoenix, Arizona, metropolitan area, contributing to a severe hail event there.[7] While this activity also produced sporadic straight-line wind damage,[8] a more robust event into the evening hours was hindered by the loss of daytime heating and the departure of favorable dynamics for severe storm development.[9]
By the morning of October 6, forecasters anticipated only a marginal risk of severe weather across Arizona. While instability was expected to climb around 500–1,000 J/kg throughout the afternoon hours, favorable dynamics were expected to shift away from the state and instead be replaced by sinking air aloft.[10] However, as the pre-dawn hours progressed, the overarching cold-core low over California began to retrograde toward the west-northwest. This prolonged the duration of an unstable environment across Arizona,[11] and the SPC once again issued a Slight risk across Arizona accordingly. While large hail and damaging winds were expected to be the primary threats, an isolated tornado risk was also outlined.[12] However, as a well-defined piece of energy rotated around the base of the cold-core low,[13] a more significant tornado event than expected materialized. Rounds of supercells developed across Northern Arizona,[14] producing 11 confirmed tornadoes, the most on record in one day in Arizona and, along with an additional tornado in Utah, the highest number of tornadoes on record in a single event west of the Continental Divide.[15] Many of these tornadoes were strong, EF2 or higher on the Enhanced Fujita scale. One noteworthy aspect of the event is that every tornadic supercell began to show signs of rotation south of the Mogollon Rim, but none of them produced confirmed tornadoes until after they tracked over that geological feature. This strongly suggests that the mountainous terrain had a significant influence on the development of tornadoes that day.[16] Since these supercells moved along a north–south orientation, they not only produced tornadoes in very close proximity to one another, but also contributed to flash flooding throughout the region.[17] Additional severe thunderstorms overspread Utah, Colorado, and Wyoming into afternoon hours before the event subsided.[18][19]
Confirmed tornadoes
editEFU | EF0 | EF1 | EF2 | EF3 | EF4 | EF5 | Total |
---|---|---|---|---|---|---|---|
0 | 4 | 2 | 4 | 2 | 0 | 0 | 12 |
October 6 event
editEF# | Location | County / Parish | State | Start Coord. | Time (UTC) | Path length | Max width | Summary |
---|---|---|---|---|---|---|---|---|
EF2 | NW of Washington Park to NE of Lost Eden | Coconino | AZ | 34°26′N 111°18′W / 34.44°N 111.3°W | 08:50–09:12 | 14.8 mi (23.8 km) | 400 yd (370 m) | Hundreds of ponderosa pine trees were snapped or blown down along the path. An alligator juniper tree that was 2.5 feet (0.76 m) in diameter was snapped. Trees were blown down across SR 87 for 2 miles (3.2 km).[20] |
EF2 | NW of Sedona | Coconino | AZ | 34°59′46″N 111°52′41″W / 34.996°N 111.878°W | 11:55–12:02 | 4.9 mi (7.9 km) | 400 yd (370 m) | Many trees were snapped or blown down. Two forest roads were completely blocked by fallen trees.[21] |
EF2 | W of Kachina Village to Bellemont to NNW of Fort Valley | Coconino | AZ | 35°06′22″N 111°50′20″W / 35.106°N 111.839°W | 12:07–12:44 | 26 mi (42 km) | 500 yd (460 m) | Over 100 houses and several businesses were damaged, including at least 21 houses that were significantly damaged or destroyed. Massive tree damage was also reported with thousands of trees snapped, and campers isolated as a result. An RV dealership was impacted, with over 30 RVs demolished and thrown onto I-40. 75 power poles were knocked down. The tornado passed only 2⁄3 mile (1.1 km) east of the National Weather Service office in Bellemont. Seven people were injured. An anemometer placed by the Northern Arizona University School of Forestry measured an instantaneous wind gust of 185 miles per hour (298 km/h), a 1-second wind gust of 161 miles per hour (259 km/h), and a 3-second wind speed of 115 miles per hour (185 km/h).[22][23] |
EF3 | WSW of Kachina Village to Bellemont to NNW of Fort Valley | Coconino | AZ | 35°03′00″N 111°51′54″W / 35.05°N 111.865°W | 12:54–13:50 | 30.06 mi (48.38 km) | 800 yd (730 m) | A long track, wedge tornado paralleled the track of the previous EF2 tornado 1 mile (1.6 km) to the west. The tornado was sighted by NWS employees as this tornado passed only 1⁄3 mile (0.54 km) west of the National Weather Service office in Bellemont. Multiple semi-trucks and trailers were flipped on I-40, and 28 rail cars were derailed. Forest damage was severe, and many roads were blocked, and thousands of trees were downed in a circular pattern in a large swath. A few trees in the worst affected areas sustained debarking, and power poles were also snapped. Some structures were damaged.[24] This is currently the longest tracked tornado in Arizona.[25] |
EF2 | SW of Kachina Village to Western Bellemont | Coconino | AZ | 34°58′55″N 111°55′37″W / 34.982°N 111.927°W | 13:50–14:14 | 18.6 mi (29.9 km) | 600 yd (550 m) | Extensive forest damage occurred, with more forest roads being blocked due to fallen trees. This tornado passed 2 miles (3.2 km) west of the National Weather Service office in Bellemont as it was dissipating. The path of this tornado may have been made up of three different tornadoes instead of one longer-tracked tornado due to some evidence of extensive cycling.[26] |
EF1 | SSE of Chalender | Coconino | AZ | 35°06′29″N 111°57′54″W / 35.108°N 111.965°W | 15:29-15:33 | 0.7 mi (1.1 km) | 100 yd (91 m) | A tornado was determined via aerial photography and surveys.[27] |
EF1 | NNW of Sedona | Coconino | AZ | 34°58′52″N 111°52′34″W / 34.981°N 111.876°W | 16:10–16:15 | 1.1 mi (1.8 km) | 100 yd (91 m) | A tornado along a short path was determined via damage surveys and aerial imagery.[28] |
EF0 | ENE of Bumble Bee | Yavapai | AZ | 34°14′10″N 111°58′23″W / 34.236°N 111.973°W | 17:30–17:35 | 4 mi (6.4 km) | 50 yd (46 m) | Tornado was observed as it remained over grasslands east of I-17.[29] |
EF3 | SE of Tuba City | Coconino | AZ | 35°54′32″N 111°00′18″W / 35.909°N 111.005°W | 18:15–18:20 | ≥4 mi (6.4 km) | 1,100 yd (1,000 m) | A large tornado tracked over an unpopulated region. Three metal truss transmission towers were destroyed – one of which was flattened – on the Navajo Nation. The total path length of the tornado is unknown since it passed over a very rural area.[30] |
EF0 | Munds Park | Coconino | AZ | 34°54′29″N 111°39′18″W / 34.908°N 111.655°W | 19:10–19:20 | 3.8 mi (6.1 km) | 200 yd (180 m) | A tornado was visually observed as it crossed I-17. Minimal damage occurred.[31] |
EF0 | Eastern Flagstaff | Coconino | AZ | 35°09′32″N 111°32′53″W / 35.159°N 111.548°W | 19:20–19:25 | 1.7 mi (2.7 km) | 100 yd (91 m) | A tornado was observed on the eastern side of Flagstaff. Little damage occurred.[32] |
EF0 | WSW of Canyonlands National Park | Wayne | UT | 38°17′N 110°17′W / 38.28°N 110.28°W | 20:00–20:05 | 1.24 mi (2.00 km) | 10 yd (9.1 m) | About 30 juniper trees were snapped or uprooted in a remote forested area.[33] |
Non-tornadic effects
editDuring the afternoon hours of October 5, a series of severe hailstorms affected Maricopa County, Arizona. One storm produced hail up to 1.5 in (38 mm) in diameter across Phoenix and into Carefree, damaging roofs and cars and breaking hundreds of skylights.[34] Another storm produced hail up to 2.5 in (64 mm) as it tracked from south of Chandler into Scottsdale. These tennis ball sized hail stones damaged hundreds of roofs and vehicles, in addition to damaging dozens of aircraft at the Scottsdale Airport.[35] The most substantial event of the day occurred with a storm that moved from Firebird Lake to south of Chandler into northern Glendale and finally across southern Peoria. Widespread golf ball to baseball sized hail, up to 3 in (76 mm) in diameter, damaged thousands of roofs and vehicles. In northwestern Phoenix and Glendale, this hailstorm compounded the effects of the earlier event. One person was injured by large hail on a football practice field. Thirty-four skylights at the St. Mary's Food Bank in Phoenix were punctured, allowing heavy rainfall to flow into the structure. Approximately 20 percent of the food inventory was ruined, equating to about 1.4 million meals.[36] In total, more than 150,000 homes were damaged throughout Maricopa County, forcing thousands of insurance claims.[37] The estimated size of the hail that struck the county was the third largest in Arizona history, and its estimated cost reached $2.7 billion in insured damages, the costliest weather disaster on record in the state.[38]
The stalled cold-core low produced heavy rainfall across the broader Nevada, Utah, Arizona, and California region. Over the course of five days, up to 5 in (130 mm) of rain fell across Southern Utah. The Western Regional Climate Center in Reno, Nevada, received 0.92 in (23 mm) in just one hour, one of the greatest hourly rainfall rates on record at that location.[39] Flash flooding converged into the Hualapai Canyon and moved toward the village of Supai, Arizona. In advance of the flood, 143 campers were airlifted to safety. Three tribal pack animals were killed in the village. The canyon was indefinitely closed to tourists following damage to the trail and campground. President Barack Obama declared the Havasupai Canyon a major disaster area and offered federal aid to assist in local recovery efforts. The cost to replace the affected instructure reached $1.63 million.[40] Heavy rains caused the roof of a structure to collapse in southwestern Phoenix.[41] In Clark County, Nevada, an 8–10 ft (2.4–3.0 m) wall of water pushed into the Callville Bay Marina, destroying most of that structure, rendering many roads impassable, and destroying multiple power poles and cross arms.[42] In numerous cases throughout the region, multiple feet of water washed over roadways, disrupting travel, washing away routes, or stranding vehicles.[43][44] Additional roads were closed by fallen rocks.[45] In Kern County, California, debris flows flowed into several businesses, forcing their closure for many hours.[46] Two 17-year-old boys were struck by lightning in St. George, Utah, and taken to the hospital in critical condition; they were later expected to make a full recovery.[47] Lightning in Tolleson, Arizona, caused a residential structure fire as well.[48] The totality of severe weather in Arizona on October 5–6 reached $4.9 billion.[49] At elevations greater than 7,500 ft (2,300 m) throughout the Southern Sierra Nevada, early season snowfall up to 8 in (200 mm) was also recorded.[50]
See also
editNotes
edit- ^ All dates are based on the local time zone where the tornado touched down; however, all times are in Coordinated Universal Time for consistency.
References
edit- ^ "Northern AZ Tornado Outbreak". National Weather Service. NWS Flagstaff. Retrieved 1 December 2023.
- ^ "November 2013 Global Catastrophe Recap" (PDF). Impact Forecasting. AON Benefield. Archived from the original (PDF) on December 11, 2013. Retrieved 29 December 2013.
- ^ David Blanchard (October 30, 2008). "Synoptic environments associated with tornadoes in northern Arizona". American Meteorological Society. Retrieved January 12, 2022.
- ^ Greg Dial; John Stoppkotte (October 5, 2010). "Oct 5, 2010 1200 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Stephen Corfidi; Melissa Hurlbut (October 5, 2010). "Oct 5, 2010 1300 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Ryan Jewell (October 5, 2010). "Mesoscale Discussion 1925". Storm Prediction Center. Retrieved January 12, 2022.
- ^ "October 5th Hailstorms in Phoenix". National Weather Service. National Weather Service Weather Forecast Office in Phoenix, Arizona. Retrieved January 12, 2022.
- ^ "SPC Storm Reports for 10/05/10". Storm Prediction Center. October 5, 2010. Retrieved January 12, 2022.
- ^ Corey Mead (October 5, 2010). "Mesoscale Discussion 1927". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Greg Dial; Jaret Rogers (October 6, 2010). "Oct 6, 2010 1200 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Brynn Kerr (October 6, 2010). "Mesoscale Discussion 1929". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Jack Hales; Melissa Hurlbut (October 6, 2010). "Oct 6, 2010 1300 UTC Day 1 Convective Outlook". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Ryan Jewell (October 6, 2010). "Mesoscale Discussion 1930". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Ryan Jewell (October 6, 2010). "Mesoscale Discussion 1932". Storm Prediction Center. Retrieved January 12, 2022.
- ^ "Northern AZ Tornado Outbreak: October 6, 2010". National Weather Service. National Weather Service Weather Forecast Office in Flagstaff, Arizona. Retrieved January 12, 2022.
- ^ Paige Swenson (April 13, 2019). "October 6th 2010 Tornado Outbreak". Arizona Space Grant. Retrieved January 12, 2022.
- ^ Bryan Smith (October 6, 2010). "Mesoscale Discussion 1931". Storm Prediction Center. Retrieved January 12, 2022.
- ^ John Racy (October 6, 2010). "Mesoscale Discussion 1937". Storm Prediction Center. Retrieved January 12, 2022.
- ^ Jared Guyer (October 6, 2010). "Mesoscale Discussion 1938". Storm Prediction Center. Retrieved January 12, 2022.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved February 4, 2021.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved February 4, 2021.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved February 4, 2021.
- ^ Franklin Lombardo (December 14, 2017). "Engineering Analysis of a Full-Scale High-Resolution Tornado Wind Speed Record". Journal of Structural Engineering. 144 (2). doi:10.1061/(ASCE)ST.1943-541X.0001942. Retrieved January 12, 2022.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved February 4, 2021.
- ^ Severe weather facts about Arizona tornadoes, 12News, May 6, 2015
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved January 12, 2022.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved February 4, 2021.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved February 4, 2021.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved January 12, 2022.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved January 12, 2022.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved February 4, 2021.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved January 12, 2022.
- ^ "Storm Events Database October 6, 2010". National Centers for Environmental Information. National Centers for Environmental Information. Retrieved January 12, 2022.
- ^ "Arizona Event Report: Hail". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Phoenix, Arizona. 2010. Retrieved January 16, 2022.
- ^ "Arizona Event Report: Hail". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Phoenix, Arizona. 2010. Retrieved January 16, 2022.
- ^ "Arizona Event Report: Hail". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Phoenix, Arizona. 2010. Retrieved January 16, 2022.
- ^ Ian Schwartz (November 22, 2019). "This was the worst hail storm Phoenix has ever seen". KTVK. Retrieved January 16, 2022.
- ^ Emily Powers (October 5, 2021). "What in the hail? 11 years ago today, Arizona experienced a hail storm of epic proportions". KPNX. Retrieved January 16, 2022.
- ^ "State of the Climate: National Climate Report for October 2010". National Centers for Environmental Information. November 2010. Retrieved January 12, 2022.
- ^ "Arizona Event Report: Heavy Rain". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Flagstaff, Arizona. 2010. Retrieved January 16, 2022.
- ^ "Arizona Event Report: Heavy Rain". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Phoenix, Arizona. 2010. Retrieved January 16, 2022.
- ^ "Nevada Event Report: Heavy Rain". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Las Vegas, Nevada. 2010. Retrieved January 16, 2022.
- ^ "Nevada Event Report: Flash Flood". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Las Vegas, Nevada. 2010. Retrieved January 16, 2022.
- ^ "Nevada Event Report: Flash Flood". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Las Vegas, Nevada. 2010. Retrieved January 16, 2022.
- ^ "California Event Report: Flood". National Centers for Environmental Information. National Weather Service Weather Forecast Office in San Joaquin Valley, California. 2010. Retrieved January 16, 2022.
- ^ "California Event Report: Flash Flood". National Centers for Environmental Information. National Weather Service Weather Forecast Office in San Joaquin Valley, California. 2010. Retrieved January 16, 2022.
- ^ "Utah Event Report: Lightning". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Salt Lake City, Utah. 2010. Retrieved January 16, 2022.
- ^ "Arizona Event Report: Lightning". National Centers for Environmental Information. National Weather Service Weather Forecast Office in Phoenix, Arizona. 2010. Retrieved January 16, 2022.
- ^ "Billion-Dollar Weather and Climate Disasters". National Centers for Environmental Information. Retrieved January 16, 2022.
- ^ "California Event Report: Flash Flood". National Centers for Environmental Information. National Weather Service Weather Forecast Office in San Joaquin Valley, California. 2010. Retrieved January 16, 2022.