Thunderstorm

Information about Thunderstorm

A shelf cloud associated with a heavy or severe thunderstorm over Enschede, The Netherlands.

A thunderstorm, also called an electrical storm or lightning storm, is a form of weather characterized by the presence of lightning and its attendant thunder produced from a cumulonimbus cloud.^[1] The lightning is caused by an electrical charge that builds up inside the storm due to the movement of water droplets or crystals carried by the wind. Thunderstorms are usually accompanied by heavy rainfall (heavy downpours), strong winds, hail, and sometimes tornadoes. During winter months, snowfall occasionally takes place in a thunderstorm, an occurrence sometimes termed thundersnow.

Formation

Thunderstorms form when significant condensation— resulting in the production of a wide range of water droplets and ice crystals— occurs in an atmosphere that is unstable and supports deep, rapid upward motion. This often occurs in the presence of three conditions: sufficient moisture accumulated in the lower atmosphere, reflected by high temperatures; a significant fall in air temperature with increasing height, known as a steep adiabatic lapse rate; and a force such as mechanical convergence along a cold front to focus the lift.^[2] The process to initiate vertical lifting can be caused by:

unequal warming of the surface of the Earth
orographic lifting due to topographic obstruction of air flow, and
dynamic lifting because of the presence of a frontal zone.^[3]

Life cycle

Airflow diagrams showing three stages of a thunderstorm life cycle.

As the air begins to lift, it eventually starts to cool and condensation takes place. When the moisture condenses, heat is released which further aids in the lifting process. If enough instability is present in the atmosphere, this process will continue long enough for cumulonimbus clouds to form, which supports lightning and thunder.

All thunderstorms, regardless of type, go through three stages: the cumulus stage, the mature stage, and the dissipation stage. Depending on the conditions present in the atmosphere, these three stages can take anywhere from 20 minutes to several hours to occur.

Cumulus stage

The first stage of thunderstorm is the cumulus stage, or developing stage. In this stage, masses of moisture are lifted upwards into the atmosphere. The trigger for this lift can be insolation heating the ground producing thermals, areas where two winds converge forcing air upwards, or where winds blow over terrain of increasing elevation. The moisture rapidly cools into liquid drops of water, which appears as cumulus clouds. As the water vapor condenses into liquid, latent heat is released which warms the air, causing it to become less dense than the surrounding dry air, and so the air will tend to rise in an updraft due to the process of convection (hence the term convective precipitation). This creates a low-pressure zone beneath the forming thunderstorm. In a typical thunderstorm, some 5×10⁸ kg of water vapour are lifted and the amount of energy released when this condenses is about equal to the energy used by a city (US-2002) of 100,000 during a month.

Mature stage

Anvil shaped thundercloud in the mature stage

In the mature stage of a thunderstorm, the warmed air continues to rise until it reaches existing air which is itself warmer, and the air can rise no further. Often this 'cap' is the tropopause. The air is instead forced to spread out, giving the storm a characteristic anvil shape. The resulting cloud is called cumulonimbus incus. The water droplets coalesce into heavy droplets and freeze to become ice particles. As these fall they melt, to become rain. If the updraft is strong enough, the droplets are held aloft long enough to be so large that they do not melt completely as they fall and fall as hail. While updrafts are still present, the falling rain creates downdrafts as well. The simultaneous presence of both an updraft and downdrafts marks the mature stage of the storm, and during this stage considerable internal turbulence can occur in the storm system, which sometimes manifests as strong winds, severe lightning, and even tornadoes.

Typically, if there is little wind shear, the storm will rapidly enter the dissipating stage and 'rain itself out', but if there is sufficient change in wind speed and/or direction the downdraft will be separated from the updraft, and the storm may become a supercell and the mature stage can sustain itself for several hours.

In certain cases however, even with little wind shear, if there is enough atmospheric support and instability in place for the thunderstorm to feed on, it may even maintain its mature stage a bit longer than most storms.

Dissipating stage

In the dissipation stage, the thunderstorm is dominated by the downdraft. If atmospheric conditions do not support super cellular development, this stage occurs rather quickly, some 20-30 minutes into the life of the thunderstorm. The downdraft will push down out of the thunderstorm, hit the ground and spread out. The cool air carried to the ground by the downdraft cuts off the inflow of the thunderstorm, the updraft disappears and the thunderstorm will dissipate.

Classification

A single cell thunderstorm.

There are four main types of thunderstorms: single cell, multicell, squall line (also called multicell line) and supercell. Which type forms depends on the instability and relative wind conditions at different layers of the atmosphere ("wind shear").

Single cell

This term technically applies to a single thunderstorm with one main updraft. Within a cluster of thunderstorms, the term "cell" refers to each separate principal updraft.

Thunderstorm cells can and do form in isolation to other cells. Such storms are rarely severe and are a result of local atmospheric instability; hence the term "air mass thunderstorm". These are the typical summer thunderstorm in many temperate locales. They also occur in the cool unstable air which often follows the passage of a cold front from the sea during winter.

While most single cell thunderstorms move, there are some unusual circumstances where they don't. When this happens, catastrophic flooding is possible. In Rapid City, South Dakota in 1972, an unusual alignment of winds at various levels of the atmosphere combined to produce a continuous, stationary cell which dropped an enormous quantity of rain, resulting in devastating flash flooding [1]. A similar event occurred in Boscastle, England on the 16th of August 2004 [2].

Multicell cluster

Multi cell storms form as clusters of storms but may then evolve into an organized line or lines of storms. They often arise from convective updrafts in or near mountain ranges and linear weather boundaries, usually strong cold fronts or troughs of low pressure.

Multicell lines

Main article: Squall line

Multicell line storms, commonly referred to as "squall lines", occur when multi cellular storms form in a line rather than clusters. They can be hundreds of miles long, move swiftly, and be preceded by a gust front. Heavy rain, hail, lightning, very strong winds and even isolated tornadoes can occur over a large area in a squall line.^[4] Bow echoes can form within squall lines, bringing with them even higher winds.

An unusually powerful type of squall line called a derecho occurs when an intense squall line travels for several hundred miles, often leaving widespread damage over thousands of square miles.

Occasionally, squall lines also form near the outer rain band of tropical cyclones. The squall line is propelled by its own outflow, which reinforces continuous development of updrafts along the leading edge.

This kind of storm is also known as "Wind of the Stony Lake" (Traditional Chinese:石湖風, Simplified Chinese: 石湖风) in southern China.^[5]

See also:

Supercell

Main article: Supercell

The setting sun illuminates the top of a classic anvil-shaped thunderstorm cloud in eastern Nebraska, United States.

Supercell storms are large, severe quasi-steady-state storms which feature wind speed and direction that vary with height ("wind shear"), separate downdrafts and updrafts (i.e., precipitation is not falling through the updraft) and a strong, rotating updraft (a "mesocyclone"). These storms normally have such powerful updrafts that the top of the cloud (or anvil) can reach miles into the air and can be 15 miles (24 km) wide. These storms produce destructive tornadoes, sometimes F3 or higher, extremely large hailstones (4 inch—10 cm—diameter), straight-line winds in excess of 80 mph (130 km/h), and flash floods. In fact, most tornadoes occur from this kind of thunderstorm.^[6]

Severe thunderstorm

A severe thunderstorm is a term designated to a thunderstorm that has reached a predetermined level of severity. Often this level is determined by the storm being strong enough to inflict wind or hail damage. In the United States, a storm is considered severe if winds reach over 50 knots (58 mph or 93 km/h), hail is ¾ inch (1.9 cm) diameter or larger, or if a funnel cloud or tornadoes are spotted.^[7] It should be noted that even though a funnel cloud or tornado indicate the presence of a severe thunderstorm, a tornado warning would then be issued in place of a severe thunderstorm warning.

In Canada, a severe thunderstorm is defined as either having tornadoes, wind gusts of 90 km/h or greater, hail of 2 centimeters in diameter or greater, a rainfall rate greater than 50 millimeters in 1 hour or less or 75 millimeters in 3 hours or less.^[8]

Severe thunderstorms can occur from any type of thunderstorm, however multicell and squall lines represent the most common forms.

Mesoscale Convective System

Multicell or squall line systems may form within a meteorologically important feature known as mesoscale convective system (MCS) stretching for hundreds of kilometres. The mesoscale convective complex is a closely related phenomenon. They are large enough to have a pronounced effect on the upper-level and surface weather pattern, and may influence forecasts over a large area. MCS systems are common in the Midwest region of the United States and the Canadian Prairies during the summer months and produce much of the region's important agricultural rainfall. [3] Prior to the discovery of the MCS phenomenon, the individual thunderstorms were thought of as independent entities, each being effectively impossible to predict. The MCS is amenable to forecasting, and a meteorologist can now predict with high accuracy the percentage of the MCS that will be affected by thunderstorms. However, the meteorologist still cannot predict exactly where each thunderstorm will occur within the MCS.

Energy

If the quantity of water that is condensed in and subsequently precipitated from a cloud is known, then the total energy of a thunderstorm can be calculated. In an average thunderstorm, the energy released amounts to about 10,000,000 kilowatt-hours (3.610¹³ joule), which is equivalent to a 20-kiloton nuclear warhead. A large, severe thunderstorm might be 10 to 100 times more energetic.^[9]

Where thunderstorms occur

Thunderstorms occur throughout the world, even in the polar regions, with the greatest frequency in tropical rainforest areas, where they may occur nearly daily. Kampala and Tororo in Uganda have each been mentioned as the most thunderous places on Earth,^[10] an accolade which has also been bestowed upon Bogor on Java, Indonesia or Singapore. Thunderstorms are associated with the various monsoon seasons around the globe, and they populate the rainbands of all tropical cyclones (typhoons, hurricanes, etc.) In temperate regions, they are most frequent in spring and summer, although they can occur along or ahead of cold fronts at any time of year. They may also occur within a cooler air mass following the passage of a cold front over a relatively warmer body of water. Thunderstorms are rare in polar regions due to cold surface temperatures.

The most powerful and dangerous severe thunderstorms also occur over the USA, particularly in the Midwest and the southern states. These storms can produce very large hail and powerful tornadoes. Thunderstorms are relatively uncommon along much of the West Coast of the United States,^[11] but they occur with greater frequency in the inland areas, particularly the Sacramento and San Joaquin Valleys of California. In the Northeast, storms take on similar characteristics and patterns as the midwest, only less frequently and severely. Probably the most thunderous region outside of the Tropics is Florida. During the summer, violent thunderstorms are an almost daily occurrence over central and southern parts of the state. In more contemporary times, thunderstorms have taken on the role of a curiosity. Every spring, storm chasers head to the Great Plains of the United States and the Canadian Prairies to explore the visual and scientific aspects of storms and tornadoes.

Lightning

Main article: Lightning

Cloud to ground lightning over Pentagon City in Arlington, Virginia

Fork lightning over Tamworth

Lightning is an electrical discharge that occurs in a thunderstorm. It can be seen in the form of a bright streak (or bolt) from the sky. Lightning occurs when a charge is built up within a cloud. When a large enough charge is built up, a large discharge will occur and can be seen as lightning. The temperature of a lightning bolt can be hotter than the surface of the sun. Although the lightning is extremely hot, the short duration makes it not necessarily fatal. Contrary to the popular idea that lightning doesn’t strike twice in the same spot, some people have been struck by lightning over three times and skyscrapers like the Empire State Building have been struck numerous times in the same storm.^[12] There are several kinds of lightning.

In-cloud lightning is the most common. It is lightning within a cloud. Sometimes called intra-cloud or sheet lightning.
Cloud to ground lightning is when a bolt of lightning from a cloud strikes the ground. This form poses the greatest threat to life and property.
Ground to cloud lightning is when a lightning bolt is induced from the ground to the cloud.
Cloud to cloud lightning is rarely seen and is when a bolt of lightning arches from one cloud to another.
Ball lightning is extremely rare and has no known scientific explanation. It is seen in the form of a 20 to 200 centimeter ball.
Cloud to air lightning is when lightning from a cloud hits air of a different charge.
Dry lightning a folk misnomer which refers to a thunderstorm whose precipitation does not reach the ground.

Thunderstorms in mythology

Thunderstorms have had a lasting and powerful influence on early civilizations. Romans thought them to be battles waged by Jupiter, who hurled lightning bolts forged by Vulcan. Thunderstorms were associated with the Thunderbirds, held by Native Americans to be a servant of the Great Spirit.^[13]

References

1. ^ Weather Glossary - T. National Weather Service (21 April 2005). Retrieved on 2006-08-23.
2. ^ Thunderstorms. Hong Kong Observatory. Retrieved on 2006-08-23.
3. ^ Thunderstorm. Encyclopedia of Earth. Retrieved on 2006-11-20.
4. ^ Components of Multicell Lines. Weather World 2010 Project. University of Illinois (October 4 1999). Retrieved on 2006-08-23.
5. ^ Squall lines and "Shi Hu Feng" - what you want to know about the violent squalls hitting Hong Kong on 9 May] 2005]. Hong Kong Observatory (17 June 2005). Retrieved on 2006-08-23.
6. ^ Supercell Thunderstorms. Weather World 2010 Project. University of Illinois (October 4 1999). Retrieved on 2006-08-23.
7. ^ Weather Glossary - S. National Weather Service (2005-04-21). Retrieved on 2007-06-17.
8. ^ [4]
9. ^ Encyclopedia Britannica article on thunderstorms
10. ^ How many thunderstorms occur each year?. Thunderstorms. Sky Fire Productions. Retrieved on 2006-08-23.
11. ^ National Severe Local Storms Operations Plan - Chapter 2 (PDF). Office of the Federal Coordinator for Meteorology. Retrieved on 2006-08-23.
12. ^ "Lightning really does hit more than twice,", NASA, January 14, 2003
13. ^ "A Haudenosaunee Pantheon "

Bibliography


Part of the Nature series on Weather
Seasons
Temperate
• Spring • Summer • • Autumn • Winter •
Tropical
• Dry season • • Wet season
Storms
• Thunderstorm • Tornado • • Tropical Cyclone (Hurricane) • • Winter storm • Blizzard
Precipitation
• Fog • Drizzle • Rain • • Freezing rain • Sleet • • Hail • Snow
Topics
• Meteorology • • Weather forecasting • • Climate • Air pollution •
Project • • [ e]

Burgess, D.W., R. J. Donaldson Jr., and P. R. Desrochers, 1993: Tornado detection and warning by radar. The Tornado: Its Structure, Dynamics, Prediction, and Hazards, Geophys. Monogr., No. 79, American Geophysical Union, 203–221.
Corfidi, S. F., 1998: Forecasting MCS mode and motion. Preprints 19th Conf. on Severe Local Storms, American Meteorological Society, Minneapolis, Minnesota, pp. 626-629.
Davies, J.M., 2004: Estimations of CIN and LFC associated with tornadic and nontornadic supercells. Wea. Forecasting, 19, 714-726.
_____, and R.H. Johns, 1993: Some wind and instability parameters associated with strong and violent tornadoes. Part I: Helicity and mean shear magnitudes. The Tornado: Its Structure, Dynamics, Prediction, and Hazards (C. Church et al., Eds.), Geophysical Monograph 79, American Geophysical Union, 573-582.
David, C.L. 1973: An objective of estimating the probability of severe thunderstorms. Preprint Eight conference of Severe Local Storms. Denver, Colorado, American Meteorological Society, 223-225.
Doswell, C.A., III, D. V. Baker, and C. A. Liles, 2002: Recognition of negative factors for severe weather potential: A case study. Wea. Forecasting, 17, 937–954.
______, S.J. Weiss and R.H. Johns (1993): Tornado forecasting: A review. The Tornado: Its Structure, Dynamics, Prediction, and Hazards (C. Church et al., Eds), Geophys. Monogr. No. 79, American Geophysical Union, 557-571.
Evans, Jeffry S.: Examination of Derecho Environments Using Proximity Soundings. http://www.spc.noaa.gov/publications/evans/bowpaper/bowpaper.htm
J.V. Iribarne and W.L. Godson, Atmospheric Thermodynamics, published by D. Reidel Publishing Company, Dordrecht, the Netherlands, 1973, 222 pages
Johns, R. H., J. M. Davies, and P. W. Leftwich, 1993: Some wind and instability parameters associated with strong and violent tornadoes. Part II: Variations in the combinations of wind and instability parameters. The Tornado: Its Structure, Dynamics, Prediction and Hazards, Geophys. Mongr., No. 79, American Geophysical Union, 583–590.
M K Yau and R.R. Rogers, Short Course in Cloud Physics, Third Edition, published by Butterworth-Heinemann, January 1, 1989, 304 pages. EAN 9780750632157 ISBN 0-7506-3215-1

External links

• • [ e] Meteorological data and variables
Atmospheric pressure Baroclinity Cloud Convection CAPE CIN Dew point Heat index Humidex Humidity Lifted index Lightning Pot T Precipitation Sea surface temperature Surface solar radiation Surface weather analysis Temperature Theta-e Visibility Vorticity Wind chill Water vapor Wind

storm is any disturbed state of an astronomical body's atmosphere, especially affecting its surface, and strongly implying severe weather. It may be marked by strong wind, thunder and lightning (a thunderstorm), heavy precipitation, such as ice (ice storm), or wind transporting
..... Click the link for more information.

Lightning is an atmospheric discharge of electricity, which typically occurs during thunderstorms, and sometimes during volcanic eruptions or dust storms.^[1] A bolt of lightning can travel at a speed of 100000 mph (0 km/h), and can reach temperatures
..... Click the link for more information.

Thunder is the sound made by lightning. Depending on the nature of the lightning and distance of the hearer, it can range from a sharp, loud crack to a long, low rumble. It is produced by a sonic shock wave caused by the rapid expansion of the air surrounding and within a bolt of
..... Click the link for more information.

Cumulonimbus (Cb) is a type of cloud that is tall, dense, and involved in thunderstorms and other intense weather. The clouds can form alone, in clusters, or along a cold front in a squall line.
..... Click the link for more information.

Hail is a form of precipitation which consists of balls or irregular lumps of ice (hailstones). Hailstones on Earth usually consist mostly of water ice and measure between 5 and 50 millimetres in diameter, with the larger stones coming from severe thunderstorms.
..... Click the link for more information.

tornado is a violently rotating column of air which is in contact with both a cumulonimbus cloud or, in rare cases, a cumulus cloud base and the surface of the earth. Tornadoes come in many sizes but are typically in the form of a visible condensation funnel, whose narrow end
..... Click the link for more information.

Thundersnow also known as a Winter Thunderstorm or a Thunder Snowstorm is a particularly rare meteorological phenomenon that includes the typical behavior of a thunderstorm, but with snow falling as the primary precipitation instead of rain.
..... Click the link for more information.

Earth's atmosphere is a layer of gases surrounding the planet Earth and retained by the Earth's gravity. It contains roughly (by molar content/volume) 78% nitrogen, 20.95% oxygen, 0.93% argon, 0.
..... Click the link for more information.

trillion fold).]]

Temperature is a physical property of a system that underlies the common notions of hot and cold; something that is hotter generally has the greater temperature. Temperature is one of the principal parameters of thermodynamics.
..... Click the link for more information.

The lapse rate is defined as the negative of the rate of change in an atmospheric variable, usually temperature, with height observed while moving upwards through an atmosphere.
..... Click the link for more information.

In the absence of a more specific context, convergence denotes the approach toward a definite value, as time goes on; or to a definite point, a common view or opinion, or toward a fixed or equilibrium state.
..... Click the link for more information.

Insolation (from INcoming SOLar radiATION) is a measure of solar energy received on a given surface area in a given time. It is commonly expressed in kilowatt-hours per square meter per day (kW•h/m²/day).
..... Click the link for more information.

thermal, see thermal (disambiguation).

A thermal column (or thermal) is a column of rising air in the lower altitudes of the Earth's atmosphere.
..... Click the link for more information.

In thermochemistry, latent heat is the amount of energy in the form of heat released or absorbed by a substance during a change of phase (i.e. solid, liquid, or gas), - also called a phase transition.
..... Click the link for more information.

Convection in the most general terms refers to the movement of currents within fluids (i.e. liquids, gases and rheids).

Convection is one of the major modes of heat and mass transfer.
..... Click the link for more information.

precipitation (also known as hydrometeor) is any product of the condensation of atmospheric water vapor that is deposited on the earth's surface. It occurs when the atmosphere (being a large gaseous solution) becomes saturated with water vapour and the water condenses and
..... Click the link for more information.

kilogram or kilogramme (symbol: kg) is the SI base unit of mass. The kilogram is defined as being equal to the mass of the International Prototype Kilogram (IPK), which is almost exactly equal to the mass of one liter of water.
..... Click the link for more information.

energy (from the Greek ενεργός, energos, "active, working")^[1] is a scalar physical quantity that is a property of objects and systems of objects which is conserved by nature.
..... Click the link for more information.

Motto
"In God We Trust" (since 1956)
"E Pluribus Unum" ("From Many, One"; Latin, traditional)
Anthem
..... Click the link for more information.

The tropopause is a boundary region in the atmosphere between the troposphere and the stratosphere. Here the air ceases to cool at -50°C, and the air becomes almost completely dry.
..... Click the link for more information.

For other uses, see Coalescence (disambiguation).

Coalescence is the process by which two or more droplets or particles merge during contact to form a single daughter droplet (or bubble).
..... Click the link for more information.

turbulence or turbulent flow is a flow regime characterized by chaotic, stochastic property changes. This includes low momentum diffusion, high momentum convection, and rapid variation of pressure and velocity in space and time.
..... Click the link for more information.

Wind shear, sometimes referred to as windshear or wind gradient, is a difference in wind speed and/or direction over a relatively short distance in the atmosphere. Wind shear can be broken down into vertical and horizontal components, with horizontal wind shear seen across
..... Click the link for more information.

Rapid City, South Dakota

Seal
Location in Pennington County and the state of South Dakota
Coordinates:
Country United States
State South Dakota
..... Click the link for more information.

Boscastle (Cornish: Kastell Boterel) is a village and fishing port on the north coast of Cornwall, England. The name of the village derives from Bottreaux Castle, a 12th century motte-and-bailey fortress, of which few remains survive.
..... Click the link for more information.

A squall line is a line of severe thunderstorms that can form along or ahead of a cold front. In the early 20th century, the term was used as a synonym for cold front. It contains heavy precipitation, hail, frequent lightning, strong straight line winds, and possibly tornadoes and
..... Click the link for more information.

This article is copied from an article on Wikipedia.org - the free encyclopedia created and edited by online user community. The text was not checked or edited by anyone on our staff. Although the vast majority of the wikipedia encyclopedia articles provide accurate and timely information please do not assume the accuracy of any particular article. This article is distributed under the terms of GNU Free Documentation License.

Herod_Archelaus