Squall
A squall is a sudden, sharp increase in wind speed lasting minutes, as opposed to a wind gust, which lasts for only seconds.[1] They are usually associated with active weather, such as rain showers, thunderstorms, or heavy snow.[2] Squalls refer to the increase of the sustained winds over that time interval, as there may be higher gusts during a squall event.[3] They usually occur in a region of strong sinking air or cooling in the mid-atmosphere. These force strong localized upward motions at the leading edge of the region of cooling, which then enhances local downward motions just in its wake.
Etymology
There are different versions of the word's origins:
- By one version, the word appears to be Nordic in origin, but its etymology is considered obscure. It probably has its roots in the word skvala[4] an Old Norse word meaning literally to squeal.[5]
- By another version, it is an alteration of squeal influenced by bawl.[6]
Character of the wind
The term "squall" is used to refer to a sudden wind-speed increase lasting minutes. In 1962 the World Meteorological Organization (WMO) defined that to be classified as a "squall", the wind must increase at least 8 m/s and must attain a top speed of at least 11 m/s, lasting at least one minute in duration.[1][7] In Australia, a squall is defined to last for several minutes before the wind returns to the long-term mean value.[3] In either case, a squall is defined to last about half as long as the definition of sustained wind in its respective country. Usually, this sudden violent wind is associated with briefly heavy precipitation as squall line.[1]
Regional terms
Argentina
Known locally as pamperos, these are characterized as strong downsloped winds that move across the pampas, eventually making it to the Atlantic Ocean.[8][verification needed]
Australia
In southeastern Australia, the colloquial name for a squall is
Central America
Offshore Central America, a gully squall is characterized by strong increases of the wind forced through sharp mountain valleys on the Pacific Ocean side of the isthmus.
Cuba
A bayamo is a squall emanating from tropical thunderstorms near the Bight of Bayamo.[10]
East Indies
In the East Indies, brubu is a name for a squall[11]
Pacific Northwest (North America)
In the Pacific Northwest, a squall is a short but furious rainstorm with strong winds, often small in area and moving at high speed, especially as a maritime term. A strong Katabatic outflow occurring in fjords and inlets is referred to by mariners as a squamish.
South Africa
Bull's Eye Squall is a term used offshore South Africa for a squall forming in fair weather. It is named for the appearance of the small isolated cloud marking the top of the squall.[12]
Philippines (West Pacific)
In most parts of the country, squalls are called subasko and are characterized by heavy rains driven by blustery winds. Local fishermen at sea are often on the lookout for signs of impending squalls on the open water and rush to shore at its early signs.
South-East Asia
"Barat" is a term for a northwest squall in Manado Bay in Sulawesi.[12]
"
Severe weather
A
Squall line life cycle
There are several forms of mesoscale meteorology, including simplistic isolated thunderstorms unrelated to advancing cold fronts, to the more complex daytime/nocturnal mesoscale convective system (MCS) and mesoscale convective complex (MCC), to squall line thunderstorms.
Formation
The main driving force behind squall line creation is attributed to the process of in-filling of multiple thunderstorms and/or a single area of thunderstorms expanding outward within the leading space of an advancing cold front.
Pressure perturbations
Pressure perturbations within an extent of a thunderstorm are noteworthy. With buoyancy rapid within the lower and mid-levels of a mature thunderstorm, one might believe that low pressure dominates in the mesoscale environment. However, this is not the case. With downdrafts ushering colder air from mid-levels, hitting ground and propagating away in all directions, high pressure is to be found widely at surface levels, usually indicative of strong (potentially damaging) winds.
Wind shear
Wind shear is an important aspect to measuring the potential of squall line severity and duration. In low to medium shear environments, mature thunderstorms will contribute modest amounts of downdrafts, enough to turn will aid in create a leading edge lifting mechanism – the gust front. In high shear environments created by opposing low level jet winds and synoptic winds, updrafts and consequential downdrafts can be much more intense (common in supercell mesocyclones). The cold air outflow leaves the trailing area of the squall line to the mid-level jet, which aids in downdraft processes.
Evolution
Updrafts
The leading area of a squall line is composed primarily of multiple updrafts, or singular regions of an
As thunderstorms fill into a distinct line, strong leading-edge updrafts – occasionally visible to a ground observer in the form of a
Beyond the strong winds because of updraft/downdraft behavior, heavy rain (and hail) is another sign of a squall line. In the winter, squall lines can occur albeit less frequently – bringing heavy snow and/or thunder and lightning – usually over inland lakes (i.e. Great Lakes region).
Bow echoes
Following the initial passage of a squall line, light to moderate stratiform precipitation is also common. A bow echo is frequently seen on the northern and southernmost reaches of squall line thunderstorms (via satellite imagery). This is where the northern and southern ends curl backwards towards the middle portions of the squall line, making a "bow" shape. Bow echoes are frequently featured within supercell mesoscale systems.
Mesolow
The poleward end of the squall line is commonly referred to as the cyclonic end, with the equatorward side rotating anticyclonically. Because of the coriolis force, the poleward end may evolve further, creating a "comma shaped" mesolow, or may continue in a squall-like pattern.
A wake low is another kind of mesoscale low-pressure area to the rear of a squall line near the back edge of the stratiform rain area.[18] Due to the subsiding warm air associated with the system's formation, clearing skies are associated with the wake low. Severe weather, in the form of high winds, can be generated by the wake low when the pressure difference between the mesohigh preceding it and the wake low is intense enough.[19] When the squall line is in the process of decay, heat bursts can be generated near the wake low. Once new thunderstorm activity along the squall line concludes, the wake low associated with it weakens in tandem.
Dissipation
As supercells and multi-cell thunderstorms dissipate due to a weak shear force or poor lifting mechanisms, (e.g. considerable
From here, a general thinning of a squall line will occur: with winds decaying over time, outflow boundaries weakening updrafts substantially and clouds losing their thickness.
Signs in the sky
Shelf clouds and roll clouds are usually seen above the leading edge of a squall, also known as a thunderstorm's gust front.[20] From the time these low cloud features appear in the sky, one can expect a sudden increase in the wind in less than 15 minutes.
Tropical cyclones
Winter weather
See also
References
- ^ a b c "Squall". Glossary. American Meteorological Society. Retrieved November 15, 2018.
- ^ "Weather Glossary: S." The Weather Channel. Archived from the original on August 1, 2008. Retrieved November 15, 2018.
- ^ a b "Weather Words". Australian Bureau of Meteorology. Retrieved November 15, 2018.
- ^ squall: Definition and Much More from Answers.com
- ^ Georoots News. Georoots News V.1#5: Changes in the Wind. Retrieved on 2006-12-30.
- ISBN 978-0-19-960108-0. Retrieved 2014-12-30.
- ^ WMO. "Squall". Eumetcal. Archived from the original on March 3, 2016. Retrieved November 15, 2018.
- ^ Oxford English Dictionary. Oxford University Press. 10Rev Ed edition (7 April 2005)
- ^ "SOUTHERLY BUSTER". Wellington Times. National Library of Australia. 23 December 1901. p. 2. Retrieved 27 March 2015.
- ^ "Weather Words – B". WGN-TV. Archived from the original on 2007-03-18. Retrieved 2006-11-19.
- ^ Wind Names
- ^ a b Golden Gate Weather Services. Names of Winds.
- ^ National Environment Agency Guide To Singapore's Weather, archived by archive.org on November 1, 2013.
- ^ Weatherquestions.com. What is a Squall Line? Retrieved on 2006-11-19.
- ^ Wilfried Jacobs. EUMeTrain: Case Study on Squall Line. Archived 2006-10-19 at the Wayback Machine Retrieved on 2006-11-19.
- ^ Thinkquest. Meteorology Online: Squall. Archived 2007-02-05 at the Wayback Machine Retrieved on 2006-11-19.
- ^ Robert H. Johns and Jeffry S. Evans. Storm Prediction Center. Derecho Facts. Archived 2010-05-27 at the Wayback Machine Retrieved on 2006-11-19.
- ^ "Wake Low". Glossary of Meteorology. American Meteorological Society. 2009. Retrieved March 21, 2018..
- ..
- ^ National Weather Service Forecast Office, Springfield, Missouri. Storm Spotter Online Training. Retrieved on 2006-11-19.