Classifications of snow explained

Classifications of snow describe and categorize the attributes of snow-generating weather events, including the individual crystals both in the air and on the ground, and the deposited snow pack as it changes over time. Snow can be classified by describing the weather event that is producing it, the shape of its ice crystals or flakes, how it collects on the ground, and thereafter how it changes form and composition. Depending on the status of the snow in the air or on the ground, a different classification applies.

Snowfall arises from a variety of events that vary in intensity and cause, subject to classification by weather bureaus. Some snowstorms are part of a larger weather pattern. Other snowfall occurs from lake effects or atmospheric instability near mountains. Falling snow takes many different forms, depending on atmospheric conditions, especially vapor content and temperature, as it falls to the ground. Once on the ground, snow crystals metamorphose into different shapes, influenced by wind, freeze-thaw and sublimation. Snow on the ground forms a variety of shapes, formed by wind and thermal processes, all subject to formal classifications both by scientists and by ski resorts. Those who work and play in snowy landscapes have informal classifications, as well.

There is a long history of northern and alpine cultures describing snow in their different languages, including Inupiat, Russian and Finnish.[1] However, the lore about the multiplicity of Eskimo words for snow originates from controversial scholarship on a topic that is difficult to define, because of the structures of the languages involved.[2]

Classification of snow events

Snow events reflect the type of storm that generates them and the type of precipitation that results. Classification systems use rates of deposition, types of precipitation, visibility, duration and wind speed to characterize such events.

Snow-producing events

The following terms are consistent with the classifications of United States National Weather Service and the Meteorological Service of Canada:[3]

Precipitation

Precipitation may be characterized by type and intensity.

Type

Frozen precipitation includes snow, snow pellets, snow grains, ice crystals, ice pellets, and hail.[12] Falling snow comprises ice crystals, growing in a hexagonal pattern and combining as snowflakes.[13] Ice crystals may be "any one of a number of macroscopic, crystalline forms in which ice appears, including hexagonal columns, hexagonal platelets, dendritic crystals, ice needles, and combinations of these forms".[14] Terms that refer to falling snow particles include:

Intensity

In the US, the intensity of snowfall is characterized by visibility through the falling precipitation, as follows:

Snow crystal classification

Ice approximates hexagonal symmetry in most of its atmospheric manifestations of a crystal lattice as snow. Temperature and vapor pressure determine the growth of the hexagonal crystal lattice in different forms that include columnar growth in the axis perpendicular to the hexagonal plane to form snow crystals. Ukichiro Nakaya developed a crystal morphology diagram, relating crystal shape to the temperature and moisture conditions under which they formed.[20] Magono and Lee devised a classification of freshly formed snow crystals that includes 80 distinct shapes. They are summarized in the following principal snow crystal categories (with symbol):[21]

Classifications of snow on the ground

Classification of snow on the ground comes from two sources: the science community and the community of those who encounter it in their daily lives. Snow on the ground exists both as a material with varying properties and as a variety of structures, shaped by wind, sun, temperature, and precipitation.

Classification of snowpack material properties

The International Classification for Seasonal Snow on the Ground describes snow crystal classification, once it is deposited on the ground, that include grain shape and grain size. The system also characterizes the snowpack, as the individual crystals metamorphize and coalesce. It uses the following characteristics (with units) to describe deposited snow: microstructure, grain shape, grain size (mm), snow density (kg/m3), snow hardness, liquid water content, snow temperature (°C), impurities (mass fraction), and layer thickness (cm). The grain shape is further characterized, using the following categories (with code): precipitation particles (PP), machine-made snow (MM), decomposing and fragmented precipitation particles (DF), rounded grains (RG), faceted crystals (FC), depth hoar (DH), surface hoar (SH), melt forms (MF), and ice formations (IF). Other measurements and characteristics are used as well, including a snow profile of a vertical section of the snowpack. Some snowpack features include:

Classifications of snowpack surface and structure

In addition to having material properties, snowpacks have structure which can be characterized. These properties are primarily determined through the actions of wind, sun, and temperature. Such structures have been described by mountaineers and others encountering frozen landscapes, as follows:[24]

Wind-induced

Sun or temperature-induced

Ski resort classification

Ski resorts use standardized terminology to describe their snow conditions. In North America terms include:[36]

Informal classification

Skiers and others living with snow provide informal terms for snow conditions that they encounter.

In various cultures

See also: Eskimo words for snow.

Not surprisingly, in languages and cultures where snow is common, having different words for distinct weather conditions and types of snowfall is desirable for efficient communication.[42] Finnish,[43] Icelandic,[44] Norwegian,[45] Russian,[46] [47] and Swedish[48] have multiple words and phrases relating to snow and snowfall, in some cases dozens or even hundreds, depending upon how one counts.

Studies of the Sámi languages of Norway, Sweden and Finland, conclude that the languages have anywhere from 180 snow- and ice-related words and as many as 300 different words for types of snow, tracks in snow, and conditions of the use of snow.[49] [50]

The claim that Eskimo–Aleut languages (specifically, Yupik and Inuit) have an unusually large number of words for "snow", has been attributed to the work of anthropologist Franz Boas. Boas, who lived among Baffin islanders and learnt their language, reportedly included "only words representing meaningful distinctions" in his account. A 2010 study follows the sometimes questionable scholarship regarding the question whether these languages have many more root words for "snow" than the English language.[51] [52]

See also

Further reading

Notes and References

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  2. Inuit Snow Terms: How Many and What Does It Mean?. Kaplan. Larry. 2003. Alaska Native Language Center. en. Montreal. 2 January 2019. Building Capacity in Arctic Societies: Dynamics and Shifting Perspectives. Proceedings from the 2nd IPSSAS Seminar. Nunavut, Canada: May 26-June 6, 2003.
  3. Web site: Skywatchers weather glossary. Environment. Canada. 10 March 2010. aem. 29 December 2018.
  4. Web site: Glossary: Blizzard. National Weather Service. NOAA. w1.weather.gov. EN-US. 29 December 2018.
  5. Book: Ahrens, C. Donald. Meteorology today : an introduction to weather, climate, and the environment. 2007. Thomson/Brooks/Cole. 978-0495011620. 8th. Belmont, Calif.. 298–300, 352. 66911677.
  6. Web site: Lake-effect snow - AMS Glossary. glossary.ametsoc.org. 29 December 2018.
  7. Web site: Glossary - Lake effect snow. National Weather Service. NOAA. w1.weather.gov. EN-US. 29 December 2018.
  8. Web site: Glossary - Snow flurry. National Weather Service. NOAA. w1.weather.gov. EN-US. 29 December 2018.
  9. Web site: Glossary - Snow squall. National Weather Service. NOAA. w1.weather.gov. EN-US. 29 December 2018.
  10. Web site: Thundersnow - AMS Glossary. glossary.ametsoc.org. 28 December 2018.
  11. Web site: National Weather Service Expanded Winter Weather Terminology. US Department of Commerce. NOAA. www.weather.gov. EN-US. 29 December 2018.
  12. Web site: Frozen precipitation - AMS Glossary. glossary.ametsoc.org. 28 December 2018.
  13. Web site: Snow - AMS Glossary. glossary.ametsoc.org. 28 December 2018.
  14. Web site: Ice crystal - AMS Glossary. glossary.ametsoc.org. 29 December 2018.
  15. Web site: Glossary - ice crystal. National Weather Service. NOAA. w1.weather.gov. EN-US. 29 December 2018.
  16. Web site: Ice pellets - AMS Glossary. glossary.ametsoc.org. 29 December 2018.
  17. Knight, C.; Knight, N. (1973). Snow crystals. Scientific American, vol. 228, no. 1, pp. 100–107.
  18. Web site: Snow grains - AMS Glossary. glossary.ametsoc.org. 29 December 2018.
  19. Web site: Snow pellets - AMS Glossary. glossary.ametsoc.org. 29 December 2018.
  20. Book: Michael P. . Bishop . Helgi . Björnsson . Wilfried . Haeberli . Johannes . Oerlemans . John F. . Shroder . Martyn . Tranter . Singh . Vijay P. . Singh . Pratap . Haritashya . Umesh K. . 2011 . 1253 . 978-90-481-2641-5 . Encyclopedia of Snow, Ice and Glaciers . Springer Science & Business Media .
  21. Magono . Choji . Lee . Chung Woo . Meteorological Classification of Natural Snow Crystals . Hokkaido . Journal of the Faculty of Science . 3 . 4 . 1966 . Geophysics . 7 . 321–335 . en . 2115/8672 .
  22. Web site: Snow crust - AMS Glossary. glossary.ametsoc.org. en. 2 September 2018.
  23. Book: Tejada-Flores, Lito. Become a backcountry expert. December 1982. Backpacker. 28–34. en.
  24. Book: The Mountaineers. Mountaineering: The Freedom of the Hills. 25 August 2010. Mountaineers Books. 9781594854088. Eng. Ronald C.. Seattle. 540–8. en.
  25. Book: Home Ground: Language for an American Landscape. Lopez. Barry. Gwartney. Debra. 14 April 2011. Trinity University Press. 9781595340887. 136. en.
  26. Book: Avery, Martin. Canada, I Love You: The Canadian Dream. 2 February 2016. Lulu.com. 9781329874862. en.
  27. Book: Hince, Bernadette. The Antarctic Dictionary: A Complete Guide to Antarctic English. 2000. Csiro Publishing. 9780957747111. 297. en.
  28. Leonard. K. C.. Tremblay. B.. Dec 2006. Depositional origin of snow sastrugi. AGU Fall Meeting Abstracts. 2006. C21C–1170. 2006AGUFM.C21C1170L.
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  29. Book: Snow Engineering V: Proceedings of the Fifth International Conference on Snow Engineering, 5-8 July 2004, Davos, Switzerland. Bartelt. P.. Adams. E.. Christen. M.. Sack. R.. Sato. A.. 15 June 2004. CRC Press. 9789058096340. 193–8. en.
  30. Book: Daffern, Tony. Backcountry Avalanche Safety: Skiers, Climbers, Boarders, Snowshoers. 14 September 2009. Rocky Mountain Books Ltd. 9781897522547. 138. en.
  31. Book: Paterson, W. S. B.. The Physics of Glaciers. 31 January 2017. Elsevier. 9781483293738. en.
  32. Web site: Geol 33 Environmental Geomorphology. Hofstra University. 19 December 2017. https://web.archive.org/web/20160303204533/http://people.hofstra.edu/j_b_bennington/33notes/glaciers.html. 3 March 2016. dead.
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  39. Book: High-performance Skiing. Yacenda. John. Ross. Tim. 1998. Human Kinetics. 9780880117135. 80–81. en.
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  41. William E. Williams. Holly L. Gorton. Thomas C. Vogelmann. amp. 21 January 2003. Surface gas-exchange processes of snow algae. Proceedings of the National Academy of Sciences of the United States of America. 100. 2. 562–566. 2003PNAS..100..562W. 10.1073/pnas.0235560100. 141035. 12518048. free.
  42. Languages Support Efficient Communication about the Environment: Words for Snow Revisited. Regier. Terry. Carstensen. Alexandra. Kemp. Charles. PLOS ONE. 11. 4. April 13, 2016. e0151138. 10.1371/journal.pone.0151138. 27073981. 4830456. 2016PLoSO..1151138R . free.
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  44. Web site: Icelandic oddities: 85 words for snow. Lella Erludóttir. September 13, 2020. Hey Iceland. January 31, 2021.
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