Nimbostratus cloud

A nimbostratus cloud is a multi-level, gray, often dark, amorphous, nearly uniform cloud that usually produces continuous rain, snow, or sleet but no lightning or thunder.[1][2][3]

Nimbostratus cloud
Nimbostratus with pannus
AbbreviationNs
Symbol
GenusNimbostratus (rain, layered)
Speciesnone
Varietynone
Altitude500-5,500 m
(2,000-18,000 ft)
ClassificationFamily B (Medium-level)
AppearanceDark, widespread, formless layer
Precipitation cloud?Yes, but may be virga

Although it is usually a low-based cloud, it actually forms most commonly in the middle level of the troposphere and then spreads vertically into the low and high levels. Nimbostratus usually produces precipitation over a wide area.

Nimbo- is from the Latin word nimbus, which denotes precipitation.

Downward-growing nimbostratus can have the same vertical extent as most large upward-growing cumulus, but its horizontal extent tends to be even greater.

Appearance

Nimbostratus has a diffuse cloud base generally found anywhere from near surface in the low levels to about 3,000 m (9,800 ft) in the middle level of the troposphere. Although usually dark at its base, it often appears illuminated from within to a surface observer.[4] Nimbostratus usually has a thickness of about 2000 to 4000 m. Though found worldwide, nimbostratus occurs more commonly in the middle latitudes.[5] It is coded CM2 on the SYNOP report.

Formation

Nimbostratus occurs along a warm front or occluded front where the slowly rising warm air mass creates nimbostratus along with shallower stratus clouds producing less rain, these clouds being preceded by higher-level clouds such as cirrostratus and altostratus.[6][7] Often, when an altostratus cloud thickens and descends into lower altitudes, it will become nimbostratus.[8]

Nimbostratus, unlike cumulonimbus, is not associated with thunderstorms, however at an unusually unstable warm front caused as a result of the advancing warm air being hot, humid and unstable, cumulonimbus clouds may be embedded within the usual nimbostratus. Lightning from an embedded cumulonimbus cloud may interact with the nimbostratus but only in the immediate area around it. In this situation with lightning and rain occurring it would be hard to tell which type of cloud was producing the rain from the ground, however cumulonimbus tend to produce larger droplets and more intense downpours. The occurrence of cumulonimbus and nimbostratus together is uncommon, and usually only nimbostratus is found at a warm front.

Forecast

Nimbostrati often have very few visual features.

Nimbostratus is generally a sign of an approaching warm or occluded front producing steady moderate precipitation, as opposed to the shorter period of typically heavier precipitation released by a cold-frontal cumulonimbus cloud.[5] Precipitation may last for several days, depending on the speed of the frontal system.[6] A nimbostratus virga cloud is the same as normal nimbostratus, but the rain or snow falls as virga which doesn't reach the ground. Stratus or stratocumulus usually replace the nimbostratus after the passage of the warm or occluded front.

Origin of name

Under Luke Howard's first systematized study of clouds, carried out in France in 1802, three general cloud forms were established based on appearance and characteristics of formation: cirriform, cumuliform and stratiform. These were further divided into upper and lower types depending on altitude. In addition to these three main types, Howard added two names to designate multiple cloud types joined together: cumulostratus, a blending of cumulus clouds and stratus layers, and nimbus, a complex blending of cirriform, cumuliform, and stratiform clouds with sufficient vertical development to produce significant precipitation.

Later, in the 20th century, an IMC commission for the study of clouds put forward a refined and more restricted definition of the genus nimbus, effectively reclassifying it as a stratiform cloud type. It was then renamed nimbostratus, and published with the new name in the 1932 edition of the International Atlas of Clouds and of States of the Sky. This left cumulonimbus as the only nimboform type as indicated by its root name.

Subtypes and derivative types

  • Species and varieties: Nimbostratus is very thick, opaque, and featureless, so this genus type is not subdivided into species or varieties.[9][10]
  • Precipitation-based supplementary features: Nimbostratus is a major precipitation cloud and produces the virga or praecipitatio features. The latter can achieve heavy intensity due to the cloud's vertical depth.
  • Accessory cloud: Nimbostratus pannus is an accessory cloud of nimbostratus that forms as a ragged layer in precipitation below the main cloud deck.[11] Pannus is coded CL7.
  • Genitus mother clouds: This genus type can form from cumulus and cumulonimbus.
  • Mutatus mother clouds: Nimbostratus can form due to the complete transformation of altocumulus, altostratus and stratocumulus.

Relation to other clouds

Multi-level nimbostratus is physically related to other stratiform genus-types by way of being non-convective in nature. However, the other sheet-like clouds usually each occupy only one or two levels at the same time. Stratus clouds are low-level and form from near ground level to 2,000 metres (6,600 ft) at all latitudes. In the middle level are the altostratus clouds that form from 2,000 metres (6,600 ft) to 7,000 metres (23,000 ft) in polar areas, 7,000 metres (23,000 ft) in temperate areas, and 7,600 metres (24,900 ft) in tropical areas. Although altostratus forms mostly in the middle level of the troposphere, strong frontal lift can push it into the lower part of the high-level. The main high-level stratiform cloud is cirrostratus which is composed of ice crystals that often produce halo effects around the sun. Cirrostratus forms at altitudes of 3,000 to 7,600 metres (9,800 to 24,900 ft) in high latitudes, 5,000 to 12,000 metres (16,000 to 39,000 ft) in temperate latitudes, and 6,100 to 18,000 metres (20,000 to 59,100 ft) in low, tropical latitudes. Of the non-stratiform clouds, cumulonimbus and cumulus congestus are the most closely related to nimbostratus because of their vertical extent and ability to produce moderate to heavy precipitation. The remaining cumuliform (cumulus) and stratocumuliform (stratocumulus, altocumulus, and cirrocumulus) clouds have the least in common with nimbus.

gollark: So yes, it pops that first value from the stack as an accumulator.
gollark: ```haskellfold : Opfold = partialFunction <| \stack ctx (op, captured, needs) -> Stack.pop stack |> Result.fromMaybe (StackUnderflow 1) |> Result.andThen (\(start, newStack) -> List.foldl (\x res -> Result.andThen (\accStack -> Eval.runOp ctx op (x::accStack)) res) (Ok [start]) newStack)```
gollark: YES, IN THAT SPECIFIC CASE.
gollark: https://osmarks.tk/git/osmarks/rpncalc
gollark: I THINK!

References

  1. Cloud in the Columbia Electronic Encyclopedia
  2. Nimbostratus in the American Heritage Dictionary
  3. Nimbostratus in the Oxford Dictionaries Online
  4. World Meteorological Organization, ed. (1975). Nimbostratus, International Cloud Atlas. I. pp. 37–39. ISBN 92-63-10407-7. Retrieved 26 August 2014.
  5. Pretor-Pinney, Gavin (2007). The Cloudspotter's Guide: The Science, History, and Culture of Clouds. Perigee. ISBN 0-399-53345-1.
  6. Dunlop, Storm (2003). Weather Identification Handbook: The Ultimate Guide for Weather Watchers. Guilford, Connecticut: Globe Pequot. ISBN 1-58574-857-9.
  7. Thompson, Graham; Turk, Jonathan (1993). Earth Science and the Environment. Fort Worth: Saunders College Publishing. ISBN 0-03-075446-1.
  8. Lankford, Terry (2000). Aviation Weather Handbook. McGraw-Hill Professional. ISBN 978-0-07-136103-3.
  9. World Meteorological Organization, ed. (1975). Species, International Cloud Atlas (PDF). pp. 18–20. Archived from the original (PDF) on 25 July 2016. Retrieved 26 August 2014.
  10. 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.
  11. World Meteorological Organization, ed. (1975). Features, International Cloud Atlas. I. pp. 22–24. ISBN 92-63-10407-7. Retrieved 26 August 2014.
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