Altocumulus (from Latin altus 'high' and cumulus 'heaped')[1] is a middle-altitude cloud genus that belongs mainly to the stratocumuliform physical category, characterized by globular masses or rolls in layers or patches – the individual elements being larger and darker than those of cirrocumulus and smaller than those of stratocumulus.[2] However, if the layers become tufted in appearance due to increased airmass instability, then the altocumulus clouds become more purely cumuliform in structure. Like other cumuliform and stratocumuliform clouds, altocumulus signifies convection. A sheet of partially conjoined altocumulus perlucidus is sometimes found preceding a weakening warm front, where the altostratus is starting to fragment, resulting in patches of altocumulus perlucidus between the areas of altostratus. Altocumulus is also commonly found between the warm and cold fronts in a depression, although this is often hidden by lower clouds.

Altocumulus clouds
Altocumulus cloud formation
AbbreviationAc
Symbol
Genusalto-, meaning high, and cumulo-, meaning heap
Species
  • Castellanus
  • Floccus
  • Lenticularis
  • Stratiformis
  • Volutus
Variety
  • Duplicatus
  • Lacunosus
  • Opacus
  • Perlucidus
  • Radiatus
  • Translucidus
  • Undulatus
Altitude2,000–7,000 m
(7,000–23,000 ft)
ClassificationFamily B (Medium-level)
AppearanceMiddle-altitude Stratocumulus clouds arranged in groups or rolls. Has smaller clouds separate from each other
PrecipitationVirga only
Some Altocumulus floccus clouds in a gold tinge due to Rayleigh scattering in Norah Head.

Towering altocumulus, known as altocumulus castellanus, frequently signals the development of thunderstorms later in the day, as it shows instability and convection in the middle levels of the troposphere, the area where towering cumulus clouds can turn into cumulonimbus.[3] It is therefore one of three warning clouds often recorded by the aviation industry, the other two being towering cumulus and cumulonimbus.[3] Altocumulus generally forms at about 2,000 to 6,100 m (6,600 to 20,000 ft) above ground level, a similar level to altostratus formations, and satellite photography reveals that the two types of cloud can create formations that can stretch for thousands of square miles.[4] Extensive altocumulus formations, particularly if they take the form of undulatus, are often referred to as altocumulus mackerel sky.

Subtypes

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Middle cloud weather map symbols: Includes middle-étage and downward growing vertical.
  • Species: Altocumulus has four species. The stratiformis species (Ac str) is composed of sheets or relatively flat patches of stratocumuliform cloud. The synoptic coding is determined by the predominant variety or occasionally by the genitus mother cloud. Altocumulus lenticularis (Ac len lenticular cloud) is a lens-shaped middle cloud which can resemble flying saucers and may occasionally be mistaken for "unidentified flying objects". This is formed by uplift usually associated with mountains. but usually with at least some grey shading. It is coded CM4 on the SYNOP weather observation. Grey shading is also seen with altocumulus castellanus (Ac cas), a turreted middle cloud that can achieve significant vertical development and signals increasing air mass instability. It is nevertheless usually classified as middle rather than vertical and is coded CM8. The floccus species (Ac flo) is a tufted middle cloud which is also associated with greater instability. It shares the same code CM8. Chaotic altocumulus, which is typically poorly defined with multiple species or transitional forms arranged in several layers,[5] is coded CM9.
  • Opacity-based varieties: Altocumulus stratiformis has three opacity-based varieties; Translucidus (CM3), perlucidus (CM3 or 7 depending on predominant opacity), and opacus (CM7). Varieties based on opacity are not commonly associated with the species lenticularis, castellanus, or floccus.
  • Pattern-based varieties: Radiatus (arranged in parallel bands) is sometimes seen with the stratformis and castellanus species. Altocumulus stratiformis radiatus of any opacity is coded CM5 if it is increasing in amount. The duplicatus or undulatus varieties are occasionally seen with the stratiformis and lenticularis species.[6] Altocumulus stratiformis duplicatus is coded CM7 if it is not overridden by another coding of higher importance. Lacunosus is very occasionally associated with altocumulus of the species stratiformis, castellanus, or floccus.
  • Precipitation-based supplementary feature: Altocumulus often produces virga but usually not precipitation that reaches the ground.
  • Cloud-based supplementary feature: Mamma caused by localized downdrafts in the cloud layer are occasionally seen with altocumulus.[7] A newly recognized type is the asperitas feature that is characterized by chaotic undulations caused by severe wind shear.
  • Genitus Mother clouds: Altocumulus stratiformis cumulogenitus or cumulonimbogenitus can form when the middle or upper part of a towering free convective cloud begins to spread horizontally due to a loss of convective lift. It is coded CM6.
  • Mutatus mother clouds: Altocumulus can form due to the complete transformation of cirrocumulus, altostratus, nimbostratus, or stratocumulus.
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See also

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References

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  1. ^ "Weather Facts: Altocumulus". WeatherOnline. Retrieved 2015-02-03.
  2. ^ "Altocumulus, International Cloud Atlas". Manual on the Observation of Clouds and Other Meteors. Vol. I. World Meteorological Organization. 1975. pp. 31–35. ISBN 92-63-10407-7. Retrieved 2014-08-26.
  3. ^ a b "Altocumulus Castellanus". Clouds. TheAirlinePilots.com.
  4. ^ "Altocumulus". Clouds. TheAirlinePilots.com.
  5. ^ World Meteorological Organization, ed. (1975). Species, International Cloud Atlas. Vol. I. pp. 17–20. ISBN 92-63-10407-7. Retrieved 26 August 2014.
  6. ^ World Meteorological Organization, ed. (1975). Varieties, International Cloud Atlas (PDF). pp. 20–22. Archived from the original (PDF) on 25 July 2016. Retrieved 26 August 2014.
  7. ^ World Meteorological Organization, ed. (1975). Features, International Cloud Atlas. Vol. I. pp. 22–24. ISBN 92-63-10407-7. Retrieved 26 August 2014.
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