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Cumulonimbus cloud

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Cumulonimbus
Cumulonimbus incus
AbbreviationCb.
Symbol
GenusCumulonimbus (heap, rain)
Species
VarietyNone
Altitude500–16,000 m
(2,000–52,000 ft)
ClassificationFamily D (Vertically developed)
AppearanceDark-based storm cloud capable of impressive vertical growth.
PrecipitationVery common rain, snow, snow pellets, or hail, heavy at times

Cumulonimbus (from Latin cumulus 'swell' and nimbus 'cloud') is a dense, towering, vertical cloud,[1] typically forming from water vapor condensing in the lower troposphere that builds upward carried by powerful buoyant air currents. Above the lower portions of the cumulonimbus the water vapor becomes ice crystals, such as snow and graupel, the interaction of which can lead to hail and to lightning formation, respectively.

When causing thunderstorms, these clouds may be called thunderheads. Cumulonimbus can form alone, in clusters, or along squall lines. These clouds are capable of producing lightning and other dangerous severe weather, such as tornadoes, hazardous winds, and large hailstones. Cumulonimbus progress from overdeveloped cumulus congestus clouds and may further develop as part of a supercell. Cumulonimbus is abbreviated as Cb.

Appearance

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A view from space of a silhouette of a cumulonimbus in the afterglow of the troposphere at Earth's horizon, below the blue afterglow of the ozone layer at the lower stratosphere.
Cumulonimbus calvus cloud in Monterrey, Mexico.

Towering cumulonimbus clouds are typically accompanied by smaller cumulus clouds. The cumulonimbus base may extend several kilometres (miles) across, or be as small as several tens of metres (yards) across, and occupy low to upper altitudes within the troposphere - formed at altitude from approximately 200 to 4,000 m (700 to 10,000 ft). Normal peaks usually reach to as much as 12,000 m (39,000 ft), with unusually high ones typically topping out around 20,000 m (66,000 ft) [2] and extreme instances claimed to be as high as 21,000 m (69,000 ft) or more.[3] Well-developed cumulonimbus clouds are characterized by a flat, anvil shaped top (anvil dome), caused by wind shear or inversion at the equilibrium level near the tropopause. The shelf of the anvil may precede the main cloud's vertical component for many kilometres (miles), and be accompanied by lightning. Occasionally, rising air parcels surpass the equilibrium level (due to momentum) and form an overshooting top culminating at the maximum parcel level. When vertically developed, this largest of all clouds usually extends through all three cloud regions. Even the smallest cumulonimbus cloud dwarfs its neighbors in comparison.

Species

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  • Cumulonimbus calvus: cloud with puffy top, similar to cumulus congestus which it develops from; under the correct conditions it can become a cumulonimbus capillatus.
  • Cumulonimbus capillatus: cloud with cirrus-like, fibrous-edged top.[4]

Types

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Pyrocumulonimbus with pileus

Supplementary features

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Accessory clouds

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  • Arcus (including roll and shelf clouds): low, horizontal cloud formation associated with the leading edge of thunderstorm outflow.[5]
  • Pannus: accompanied by a lower layer of fractus species cloud forming in precipitation.[6]
  • Pileus (species calvus only): small cap-like cloud over parent cumulonimbus.
  • Velum: a thin horizontal sheet that forms around the middle of a cumulonimbus.[7]

Supplementary features

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  • Incus (species capillatus only): cumulonimbus with flat anvil-like cirriform top caused by wind shear where the rising air currents hit the inversion layer at the tropopause.[8]
A large incus cloud over Europe
  • Mamma or mammatus: consisting of bubble-like protrusions on the underside.
  • Tuba: column hanging from the cloud base which can develop into a funnel cloud or tornado. They are known to drop very low, sometimes just 6 metres (20 ft) above ground level.[7]
  • Flanking line is a line of small cumulonimbus or cumulus generally associated with severe thunderstorms.
  • An overshooting top is a dome that rises above the thunderstorm; it is associated with severe weather.

Precipitation-based supplementary features

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Effects

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Cumulonimbus storm cells can produce torrential rain of a convective nature (often in the form of a rain shaft) and flash flooding, as well as straight-line winds. Most storm cells die after about 20 minutes, when the precipitation causes more downdraft than updraft, causing the energy to dissipate. If there is sufficient instability and moisture in the atmosphere, however (on a hot summer day, for example), the outflowing moisture and gusts from one storm cell can lead to new cells forming just a few kilometres (miles) from the former one a few tens of minutes later or in some cases hundreds of kilometres (miles) away many hours later. This process cause thunderstorm formation (and decay) to last for several hours or even over multiple days. Cumulonimbus clouds can also occur as dangerous winter storms called "thundersnow" which are associated with particularly intense snowfall rates and with blizzard conditions when accompanied by strong winds that further reduce visibility. However, cumulonimbus clouds are most common in tropical regions and are also frequent in moist environments during the warm season in the middle latitudes.[10] A dust storm caused by a cumulonimbus downburst is a haboob.

Hazards to aviation

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Aerial view of a cumulonimbus with pileus, flying over Brazil
Cumulonimbus cloud as seen from an airplane

Cumulonimbus are a notable hazard to aviation due most importantly to potent wind currents but also reduced visibility and lightning, as well as icing and hail if flying inside the cloud. Within and in the vicinity of thunderstorms there is significant turbulence and clear-air turbulence (particularly downwind), respectively. Wind shear within and under a cumulonimbus is often intense with downbursts being responsible for many accidents in earlier decades before training and technological detection and nowcasting measures were implemented. A small form of downburst, the microburst, is the most often implicated in crashes because of their rapid onset and swift changes in wind and aerodynamic conditions over short distances. Most downbursts are associated with visible precipitation shafts, however, dry microbursts are generally invisible to the naked eye. At least one fatal commercial airline accident was associated with flying through a tornado.

Life cycle or stages

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Stages of a cumulonimbus cloud's life.
Transformation from a mature cumulus congestus cloud to a mature cumulonimbus incus

In general, cumulonimbus require moisture, an unstable air mass, and a lifting force in order to form. Cumulonimbus typically go through three stages: the developing stage, the mature stage (where the main cloud may reach supercell status in favorable conditions), and the dissipation stage.[11] The average thunderstorm has a 24 km (15 mi) diameter and a height of approximately 12.2 km (40,000 ft). Depending on the conditions present in the atmosphere, these three stages take an average of 30 minutes to go through.[12]

Cloud types

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Clouds form when the dew point temperature of water is reached in the presence of condensation nuclei in the troposphere. The atmosphere is a dynamic system, and the local conditions of turbulence, uplift, and other parameters give rise to many types of clouds. Various types of cloud occur frequently enough to have been categorized. Furthermore, some atmospheric processes can make the clouds organize in distinct patterns such as wave clouds or actinoform clouds. These are large-scale structures and are not always readily identifiable from a single point of view.

See also

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References

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  1. ^ World Meteorological Organization, ed. (1975). Cumulonimbus, International Cloud Atlas. Vol. I. pp. 48–50. ISBN 92-63-10407-7. Retrieved 28 November 2014.
  2. ^ Wild World of Clouds Cloudsat, NASA.com
  3. ^ Haby, Jeff. "Factors Influencing Thunderstorm Height". theweatherprediction.com. Archived from the original on 13 August 2020. Retrieved 15 July 2016.
  4. ^ World Meteorological Organization, ed. (1975). Species, International Cloud Atlas. Vol. I. pp. 17–20. ISBN 92-63-10407-7. Retrieved 26 August 2014.
  5. ^ Ludlum, David McWilliams (2000). National Audubon Society Field Guide to Weather. Alfred A. Knopf. p. 473. ISBN 0-679-40851-7. OCLC 56559729.
  6. ^ Allaby, Michael, ed. (2010). "Pannus". A Dictionary of Ecology (4 ed.). Oxford University Press. ISBN 9780199567669. Archived from the original on 2015-09-24. Retrieved 2014-08-10.
  7. ^ a b c World Meteorological Organization, ed. (1975). Features, International Cloud Atlas. Vol. I. pp. 22–24. ISBN 92-63-10407-7. Retrieved 26 August 2014.
  8. ^ "Cumulonimbus Incus". Universities Space Research Association. 5 August 2009. Archived from the original on 28 June 2012. Retrieved 23 October 2012.
  9. ^ Dunlop, Storm (2003). The Weather Identification Handbook. The Lyons Press. pp. 77–78. ISBN 1585748579.
  10. ^ "Flying through 'Thunderstorm Alley'". New Straits Times. 31 December 2014. Archived from the original on 18 June 2018.
  11. ^ Michael H. Mogil (2007). Extreme Weather. New York: Black Dog & Leventhal Publisher. pp. 210–211. ISBN 978-1-57912-743-5.
  12. ^ National Severe Storms Laboratory (15 October 2006). "A Severe Weather Primer: Questions and Answers about Thunderstorms". National Oceanic and Atmospheric Administration. Archived from the original on 25 August 2009. Retrieved 1 September 2009.
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