Date(s) | June 29, 1998 |
---|---|
Duration | ~10 hours (12:00 PM-10:00 PM) |
Track length | 600 mi (966 km) |
Peak wind gust (measured) | 123 mph (198 km/h; 55.0 m/s)(Washington, Iowa) |
Largest hail | 2.5 in (6.3 cm)(Des Moines, Iowa) |
Tornado count | 20(Crawford County, Iowa) |
Strongest tornado1 | F2 tornado |
Fatalities | None (at least 85 injured) |
Damage costs | $125 million |
Areas affected | Midwestern United States |
1Most severe tornado damage; see Fujita scale |
The Corn Belt derecho was a progressive derecho which affected a large area of the central United States on June 29, 1998. In the morning, thunderstorms, including a supercell, developed over South Dakota and tracked into central Iowa. As the thunderstorms reached central Iowa, a strong rear-inflow jet developed which caused the thunderstorm to take on a different characteristic, becoming a derecho. It traveled more than 600 miles in about ten hours, causing more than $125 million worth of widespread damage destruction, especially to crops, and was responsible for power outages to nearly a half a million people. [1]
At 1200 UTC (7:00 am. CDT), a stationary front extended from South Dakota to Southern Michigan, bringing warm and humid to its South. Temperature was around 25 °C (77 °F) at this early hour and the dew point was at 23 °C (73 °F). At 850 mb, the southwesterly flow was maintaining this situation while at higher levels the flow was turning to the northwest, bringing drier and colder air. Daytime heating would increase the instability of the airmass and the CAPE was expected to reach a strong 3689 J/kg. [2] At the same time, there was relatively weak synoptic-scale forcing, the surface flow being a barometric col. [3]
Along the front in South Dakota, an unorganized area of thunderstorms formed by 9:00 a.m. CDT. They rapidly organized and spread along the front, moving east-southeast into northeast Nebraska. [3] By midday, the storms reached northwestern and north central Iowa, supercells among them, while forming a west–east band and assuming a bow echo shape. [1] [3]
In the early afternoon, a second area of thunderstorms formed west of Des Moines and merged with the original bow echo line which accelerating east-southeast into Illinois by 4:00 p.m. The line evolved into a classic large scale bow echo, showing a "book end vortex" on its northern end, [1] becoming a progressive derecho. [2] Damage, especially to crops and trees, became continuous from the Iowa border into Indiana as most of the damage was produced by strong straight-line winds on the leading edge of the gust front. Some embedded supercells, showing smaller-scale vortices on radars, produced narrower corridors of more intense damage, with measured wind gusts up to at least 110 miles per hour (180 km/h). [1] [2]
The derecho crossed central and southern Indiana during the early to mid evening while its highest wind gusts decreased somewhat compared with those observed earlier in the day. The system became a roughly west–east arc and turned more southward as it moved into Kentucky by late evening, dissipating gradually [1]
By the end of the morning, the thunderstorms produced hail up to the size of hen's eggs and locally damaging wind in Nebraska. By mid-day, supercells along the bow echo in Iowa began to produce very strong winds, up to tennis ball-sized hail, and several mostly short-lived tornadoes. [1] On Doppler weather radar, a large fast-moving mesocyclone associated of the track of a supercell was nearly in contact with the ground as it moved from southwest Boone County east-southeast across the northern and eastern parts of the Des Moines metro area. [1]
Over the Davenport, Iowa NWS Weather Office area of responsibility, numerous reports of wind gusts ranging from 80 to 100 mph were received. The highest measured wind gust of 123 mph (198 km/h) was reported in Washington, Iowa near coordinates 41°18′N91°42′W / 41.3°N 91.7°W . This was the highest unofficial recorded wind gust in the history of the state of Iowa until the August 2020 Midwest derecho. [4] [5] At the same moment, the area of green in the radar display to the right shows the velocities toward the weather radar. The lighter shade, beneath the orange arrow, represented Doppler-estimated mean wind speeds in excess of 64 knots (119 km/h) all along the gust front, and the yellow circle are mesocyclone detections.
In Illinois, railroad cars were toppled, steel power transmission towers were bent, and many buildings were seriously damaged during the afternoon. [1] By the evening into Indiana, hundreds of trees were uprooted in the Bedford and Indianapolis areas, two semi-trailer trucks were blown off Interstate 65 near Columbus. [1] By late evening, damage into Kentucky was minimal, mostly limited to toppled trees and several blown off roofs. [1]
Along with the long-lived derecho, 20 tornadoes were reported, one of which was an F2 tornado, injuring 85 people in central Iowa. Over eight states, the derecho and associated tornadoes killed one person and injured 174. [6] [7]
A tornado is a violently rotating column of air that is in contact with both the surface of the Earth and a cumulonimbus cloud or, in rare cases, the base of a cumulus cloud. It is often referred to as a twister, whirlwind or cyclone, although the word cyclone is used in meteorology to name a weather system with a low-pressure area in the center around which, from an observer looking down toward the surface of the Earth, winds blow counterclockwise in the Northern Hemisphere and clockwise in the Southern. Tornadoes come in many shapes and sizes, and they are often visible in the form of a condensation funnel originating from the base of a cumulonimbus cloud, with a cloud of rotating debris and dust beneath it. Most tornadoes have wind speeds less than 180 km/h (110 mph), are about 80 m across, and travel several kilometers before dissipating. The most extreme tornadoes can attain wind speeds of more than 480 km/h (300 mph), are more than 3 km in diameter, and stay on the ground for more than 100 km.
A thunderstorm, also known as an electrical storm or a lightning storm, is a storm characterized by the presence of lightning and its acoustic effect on the Earth's atmosphere, known as thunder. Relatively weak thunderstorms are sometimes called thundershowers. Thunderstorms occur in a type of cloud known as a cumulonimbus. They are usually accompanied by strong winds and often produce heavy rain and sometimes snow, sleet, or hail, but some thunderstorms produce little precipitation or no precipitation at all. Thunderstorms may line up in a series or become a rainband, known as a squall line. Strong or severe thunderstorms include some of the most dangerous weather phenomena, including large hail, strong winds, and tornadoes. Some of the most persistent severe thunderstorms, known as supercells, rotate as do cyclones. While most thunderstorms move with the mean wind flow through the layer of the troposphere that they occupy, vertical wind shear sometimes causes a deviation in their course at a right angle to the wind shear direction.
A supercell is a thunderstorm characterized by the presence of a mesocyclone: a deep, persistently rotating updraft. Due to this, these storms are sometimes referred to as rotating thunderstorms. Of the four classifications of thunderstorms, supercells are the overall least common and have the potential to be the most severe. Supercells are often isolated from other thunderstorms, and can dominate the local weather up to 32 kilometres (20 mi) away. They tend to last 2–4 hours.
A mesocyclone is a meso-gamma mesoscale region of rotation (vortex), typically around 2 to 6 mi in diameter, most often noticed on radar within thunderstorms. In the northern hemisphere it is usually located in the right rear flank of a supercell, or often on the eastern, or leading, flank of a high-precipitation variety of supercell. The area overlaid by a mesocyclone’s circulation may be several miles (km) wide, but substantially larger than any tornado that may develop within it, and it is within mesocyclones that intense tornadoes form.
A severe thunderstorm watch is a severe weather watch product issued by regional offices of weather forecasting agencies throughout the world when meteorological conditions are favorable for the development of severe thunderstorms as defined by regional criteria that may contain large hail, straight-line winds, lightning, intense hydrological phenomena and/or tornadoes. A severe thunderstorm watch does not necessarily mean that severe weather is actually occurring, only that conditions present a credible risk for thunderstorms producing severe weather phenomena to affect portions of the watch area. A watch must not be confused with a severe thunderstorm warning.
A severe thunderstorm warning is a severe weather warning product issued by regional offices of weather forecasting agencies throughout the world to alert the public that severe thunderstorms are imminent or occurring. A severe thunderstorm warning is issued when Doppler weather radar, trained storm spotters or local emergency management personnel indicate that a thunderstorm is producing large hail and high winds capable of causing significant damage, and is expected to continue producing severe weather along the storm's projected track. Flooding is also sometimes caused by torrential rainfall produced by a thunderstorm.
A squall line, or more accurately a quasi-linear convective system (QLCS), is a line of thunderstorms, often forming along or ahead of a cold front. In the early 20th century, the term was used as a synonym for cold front. Linear thunderstorm structures often contain heavy precipitation, hail, frequent lightning, strong straight-line winds, and occasionally tornadoes or waterspouts. Particularly strong straight-line winds can occur where the linear structure forms into the shape of a bow echo. Tornadoes can occur along waves within a line echo wave pattern (LEWP), where mesoscale low-pressure areas are present. Some bow echoes can grow to become derechos as they move swiftly across a large area. On the back edge of the rainband associated with mature squall lines, a wake low can be present, on very rare occasions associated with a heat burst.
A derecho is a widespread, long-lived, straight-line wind storm that is associated with a fast-moving group of severe thunderstorms known as a mesoscale convective system.
The New York State Labor Day Derechos were two derecho events that occurred on Labor Day, September 7, 1998. One derecho moved through northern and central New York state, and the other would start in southeastern Michigan and move through northeastern Ohio, Pennsylvania, New Jersey, and Long Island. A spokesman for the New York State Emergency Management Office, estimated that 300,000 residences had lost electricity, 7 persons died and 80 were injured.
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Copy from the above referenced website.