Pancake ice explained

Pancake ice is a form of sea ice that consists of round pieces of ice with diameters ranging from 30 centimetres (12 in) to 3 metres (9.8 ft) and thicknesses up to 10 centimetres (3.9 inches), depending on the local conditions. It forms as a result of wave action on slush or ice rind.[1]

Characteristics

Pancake ice features elevated rims formed by piling of frazil ice or slush onto the edges of pancakes when they collide, both due to random bumping into each other and because of periodic compressions at wave troughs. These rims are the first indication of the onset of the formation of the pancake ice from less consolidated forms of ice.[2]

Formation

Pancake ice forms in conditions of high wave activity, in contrast to other types of sea ice formed under calm conditions. Pancake ice can form in two processes: (1) on water covered to some degree in slush, shuga or grease ice, or (2) from breaking of ice rind, nilas or even gray ice in agitated conditions.[3] If the waves are strong enough, pancakes can raft over each other, creating an uneven top and bottom surface on the ice. At this point, the pancake ice will fuse together and amalgamate into an ice sheet. This ice sheet will continue to grow over the winter. This process increases pancake ice's resilience, resulting in characteristic length scales less than ocean wavelengths and causing waves passing through pancake ice not to scatter.

Examples

Arctic Ocean

A notable example of pancake ice occurs in the Arctic Ocean, where a new prevalence of pancake ice is occurring, particularly along the ice edge, as a result of increasing Arctic wave activity.[4]

References

  1. Web site: Sea Ice Glossary. Edge of the Arctic Shelf. Woods Hole Oceanographic Institution.
  2. Web site: March 3, 2005. Ice work. dead. https://web.archive.org/web/20080119000624/http://www.antarctica.ac.uk/living_and_working/diaries/rrs_james_clark_ross/antarctic2004_2005/14_21/index.php. 2008-01-19. 2007-12-26. Antarctic 2004-2005. British Antarctic Survey.
  3. Squire. Vernon A.. 2020. Ocean Wave Interactions with Sea Ice: A Reappraisal. Annual Review of Fluid Mechanics. 52. 1. 37–60. 2020AnRFM..52...37S. 10.1146/annurev-fluid-010719-060301. 198458049 . 0066-4189. free.
  4. Thomson. Jim. Ackley. Stephen. Girard‐Ardhuin. Fanny. Ardhuin. Fabrice. Babanin. Alex. Boutin. Guillaume. Brozena. John. Cheng. Sukun. Collins. Clarence. Doble. Martin. Fairall. Chris. 2018. Overview of the Arctic Sea State and Boundary Layer Physics Program. Journal of Geophysical Research: Oceans. en. 123. 12. 8674–8687. 10.1002/2018JC013766. 2018JGRC..123.8674T . 2169-9291. free. 11343/284912. free.

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