Moulin (geomorphology)

A moulin (or glacier mill) is a roughly circular, vertical (or nearly vertical) well-like shaft formed where a surface meltstream exploits a weakness in the ice. The term is derived from the French word for mill.[1][2]

A hiker peers into a massive moulin on Snowbird Glacier, in the Talkeetna Mountains of Alaska
Schematic drawing of glacial features illustrating how moulins transport surface water to the base of the glacier
Surface water entering a moulin on Athabasca Glacier

They can be up to 10 meters wide and are typically found on ice sheets and flat areas of a glacier in a region of transverse crevasses. Moulins can reach the bottom of the glacier, hundreds of meters deep,[3][4][5] or may only reach the depth of common crevasse formation (about 10–40 m) where the stream flows englacially.[6] They are the most typical cause for the formation of a glacier cave.

Moulins are parts of the internal structure of glaciers, that carry meltwater from the surface down to wherever it may go.[7] Water from a moulin often exits the glacier at base level, sometimes into the sea, and occasionally the lower end of a moulin may be exposed in the face of a glacier or at the edge of a stagnant block of ice.

Water from moulins may help lubricate the base of the glacier, affecting glacial motion. Given an appropriate relationship between an ice sheet and the terrain, the head of water in a moulin can provide the power and medium with which a tunnel valley may be formed. The role of this water in lubricating the base of ice sheets and glaciers is complex and it is implicated in accelerating the speed of glaciers and thus the rate of glacial calving.[8]

See also

References

  1. Neuendorf, K.K.E., J.P. Mehl, Jr., and J.A. Jackson, J.A., eds. (2005) Glossary of Geology (5th ed.). Alexandria, Virginia, American Geological Institute. 779 pp. ISBN 0-922152-76-4
  2. "SwissEduc - Glaciers online - Photoglossary". www.swisseduc.ch. Retrieved 2022-10-24.
  3. "Glacial moulin formation triggered by rapid lake drainage". phys.org. 2018.
  4. Glacial moulin formation triggered by rapid lake drainage (Video). Archived from the original on 2021-12-21.
  5. Phillips, T.; Leyk, S.; Rajaram, H.; Colgan, W.; Abdalati, W.; McGrath, D.; Steffen, K. (September 2011). "Modeling moulin distribution on Sermeq Avannarleq glacier using ASTER and WorldView imagery and fuzzy set theory" (PDF). Remote Sensing of Environment. 115 (9): 2292–2301. doi:10.1016/j.rse.2011.04.029.
  6. "Moulin 'Blanc': NASA Expedition Probes Deep Within a Greenland Glacier". Earth Observatory. NASA. Dec 11, 2006. Retrieved 2009-06-17.
  7. Amos, Jonathan (Dec 21, 2008). "Explorers dive under Greenland ice". BBC News. Retrieved 2009-06-17.
  8. Hoffman, Matthew J.; Perego, Mauro; Andrews, Lauren C.; Price, Stephen F.; Neumann, Thomas A.; Johnson, Jesse V.; Catania, Ginny; Lüthi, Martin P. (28 January 2018). "Widespread Moulin Formation During Supraglacial Lake Drainages in Greenland (Open Access)". Geophysical Research Letters. 45 (2): 778–788. doi:10.1002/2017GL075659.
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