Earth:Pyramidal peak

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Short description: Angular, sharply pointed mountainous peak
The Matterhorn, a classic example of a pyramidal peak.

A pyramidal peak, sometimes called a glacial horn in extreme cases, is an angular, sharply pointed mountain peak which results from the cirque erosion due to multiple glaciers diverging from a central point. Pyramidal peaks are often examples of nunataks.

Formation

Cross-section of cirque erosion over time
Kinnerly Peak in Glacier National Park in the United States state of Montana

Glaciers, typically forming in drainages on the sides of a mountain, develop bowl-shaped basins called cirques (sometimes called ‘corries’ - from Scottish Gaelic coire [kʰəɾə] (a bowl) - or cwms). Cirque glaciers have rotational sliding that abrades the floor of the basin more than walls and that causes the bowl shape to form. As cirques are formed by glaciation in an alpine environment, the headwall and ridges between parallel glaciers called arêtes become more steep and defined. This occurs due to freeze/thaw and mass wasting beneath the ice surface. It is widely held[by whom?] that a common cause for headwall steepening and extension headward is the crevasses known as bergschrund that occur between the moving ice and the headwall. Plucking and shattering can be seen here by those exploring the crevasses. A cirque is exposed when the glacier that created it recedes.[citation needed]

When three or more of these cirques converge on a central point, they create a pyramid-shaped peak with steep walls. These horns are a common shape for mountain tops in highly glaciated areas. The number of faces of a horn depends on the number of cirques involved in the formation of the peak: three to four is most common. Horns with more than four faces include the Weissmies and the Mönch.[1] A peak with four symmetrical faces is called a Matterhorn (after the Matterhorn, a mountain in the Alps).[2]

The peak of a glacial horn will often outlast the arêtes on its flanks.[1] As the rock around it erodes, the horn gains in prominence. Eventually, a glacial horn will have near vertical faces on all sides.[citation needed] In the Alps, "horn" is also the name of very exposed peaks with slope inclinations of 45-60° (e.g. Kitzbüheler Horn).[citation needed]

Examples

Alpamayo in Huascarán National Park, Peru
Artesonraju in Huascarán National Park, Peru
Muratov peak, Pirin Mountain, Bulgaria
  • Alpamayo in Ancash, Peru
  • Artesonraju in Ancash, Peru
  • Belalakaya, Greater Caucasus, Russia
  • Crowsnest Mountain in Alberta, Canada
  • Cuillin in Skye, Scotland
  • Errigal in County Donegal, Ireland
  • Fitz Roy in Patagonia, South America
  • Grand Teton in Grand Teton National Park, Wyoming, United States
  • K2 in China and Pakistan
  • Kamenitsa, Pirin Mountain, Bulgaria
  • Ketil in Greenland
  • Khan Tengri in Kazakhstan, Kyrgyzstan and China
  • Kinnerly Peak in Glacier National Park, Montana, United States
  • The Kitzsteinhorn in Salzburg, Austria
  • The Matterhorn in Italy and Switzerland
  • Momin Dvor, Pirin Mountain, Bulgaria
  • Mount Aspiring/Tititea in Otago, New Zealand
  • Mount Assiniboine in British Columbia, Canada
  • Mount Thielsen in Oregon, United States
  • Mount Wilbur in Glacier National Park, Montana, United States
  • Nevado Las Agujas in Los Ríos, Chile
  • Nevado Pirámide in Peru
  • Pilot Peak in Wyoming, United States
  • Puy Mary in Cantal, France
  • Pyramiden in Greenland
  • Reynolds Mountain in Glacier National Park, Montana, United States
  • Shivling in Uttarakhand, India
  • Stob Dearg in Glen Coe, Scotland
  • Store Skagastølstind in Sogn og Fjordane, Norway
  • The Horn in Victoria, Australia
  • The Pyramid in Antarctica
  • The Storr in Skye, Scotland
  • Snowdon in Snowdonia, Wales
  • Vihren, Pirin Mountain, Bulgaria

See also

  • Glacial landforms
  • Pyramid Peak (disambiguation)

References

  1. 1.0 1.1 Embleton, Clifford; King, Cuchlaine A. (1968). Glacial and Periglacial Geomorphology. New York: St. Martin's Press. p. 193. 
  2. "Glossary of Glacier Terminology". US Geological Survey. http://pubs.usgs.gov/of/2004/1216/text.html#h. 

Bibliography

  • Easterbrook, Don J. (1999). Surface Processes and Landforms (2nd ed.). Upper Saddle River, NJ: Prentice Hall. pp. 334–336. ISBN 978-0138609580. 

External links