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Cirque

January 01, 1970

For other uses, see Cirque (disambiguation).

A cirque (French: [siʁk]; from the Latin word circus) is an amphitheatre-like valley formed by glacial erosion. Alternative names for this landform are corrie (from Scottish Gaelic: coire, meaning a pot or cauldron)[1] and cwm (Welsh for 'valley'; pronounced [kʊm]). A cirque may also be a similarly shaped landform arising from fluvial erosion.

Two cirques with semi-permanent snowpatches near Abisko National Park, Sweden
Upper Thornton Lake Cirque in North Cascades National Park, U.S.

The concave shape of a glacial cirque is open on the downhill side, while the cupped section is generally steep. Cliff-like slopes, down which ice and glaciated debris combine and converge, form the three or more higher sides. The floor of the cirque ends up bowl-shaped, as it is the complex convergence zone of combining ice flows from multiple directions and their accompanying rock burdens. Hence, it experiences somewhat greater erosion forces and is most often overdeepened below the level of the cirque's low-side outlet (stage) and its down-slope (backstage) valley. If the cirque is subject to seasonal melting, the floor of the cirque most often forms a tarn (small lake) behind a dam, which marks the downstream limit of the glacial overdeepening. The dam itself can be composed of moraine, glacial till, or a lip of the underlying bedrock.[2]

The fluvial cirque or makhtesh, found in karst landscapes, is formed by intermittent river flow cutting through layers of limestone and chalk leaving sheer cliffs. A common feature for all fluvial-erosion cirques is a terrain which includes erosion resistant upper structures overlying materials which are more easily eroded.

Formation edit

 
Formation of cirque and resulting tarn
 
Maritsa cirque in Rila Mountain, Bulgaria

Glacial-erosion cirque formation edit

Glacial cirques are found amongst mountain ranges throughout the world; 'classic' cirques are typically about one kilometer long and one kilometer wide. Situated high on a mountainside near the firn line, they are typically partially surrounded on three sides by steep cliffs. The highest cliff is often called a headwall. The fourth side forms the lip, threshold or sill,[3] the side at which the glacier flowed away from the cirque. Many glacial cirques contain tarns dammed by either till (debris) or a bedrock threshold. When enough snow accumulates, it can flow out the opening of the bowl and form valley glaciers which may be several kilometers long.

Cirques form in conditions which are favorable; in the Northern Hemisphere the conditions include the north-east slope, where they are protected from the majority of the Sun's energy and from the prevailing winds. These areas are sheltered from heat, encouraging the accumulation of snow; if the accumulation of snow increases, the snow turns into glacial ice. The process of nivation follows, whereby a hollow in a slope may be enlarged by ice segregation weathering and glacial erosion. Ice segregation erodes the vertical rock face and causes it to disintegrate, which may result in an avalanche bringing down more snow and rock to add to the growing glacier.[4] Eventually, this hollow may become large enough that glacial erosion intensifies. The enlarging of this open ended concavity creates a larger leeward deposition zone, furthering the process of glaciation. Debris (or till) in the ice also may abrade the bed surface; should ice move down a slope it would have a 'sandpaper effect' on the bedrock beneath, on which it scrapes.

 
The Lower Curtis Glacier in North Cascades National Park is a well-developed cirque glacier; if the glacier continues to retreat and melt away, a lake may form in the basin

Eventually, the hollow may become a large bowl shape in the side of the mountain, with the headwall being weathered by ice segregation, and as well as being eroded by plucking. The basin will become deeper as it continues to be eroded by ice segregation and abrasion.[4][5] Should ice segregation, plucking and abrasion continue, the dimensions of the cirque will increase, but the proportion of the landform would remain roughly the same. A bergschrund forms when the movement of the glacier separates the moving ice from the stationary ice, forming a crevasse. The method of erosion of the headwall lying between the surface of the glacier and the cirque's floor has been attributed to freeze-thaw mechanisms. The temperature within the bergschrund changes very little, however, studies have shown that ice segregation (frost shattering) may happen with only small changes in temperature. Water that flows into the bergschrund can be cooled to freezing temperatures by the surrounding ice, allowing freeze-thaw mechanisms to occur.

 
Lake Seal, Mt. Field National Park, Tasmania – a cirque formed from a glacier is visible in the walls around Lake Seal[6]

If two adjacent cirques erode toward one another, an arête, or steep sided ridge, forms. When three or more cirques erode toward one another, a pyramidal peak is created. In some cases, this peak will be made accessible by one or more arêtes. The Matterhorn in the European Alps is an example of such a peak.

Where cirques form one behind the other, a cirque stairway results, as at the Zastler Loch in the Black Forest.

As glaciers can only originate above the snowline, studying the location of present-day cirques provides information on past glaciation patterns and on climate change.[7]

Fluvial-erosion cirque formation edit

Further information: Steephead valley and Makhtesh
 
The Cirque du Bout du Monde

Although a less common usage,[nb 1] the term cirque is also used for amphitheatre-shaped, fluvial-erosion features. For example, an approximately 200 square kilometres (77 sq mi) anticlinal erosion cirque is at 30°35′N 34°45′E / 30.583°N 34.750°E / 30.583; 34.750 (Negev anticlinal erosion cirque) on the southern boundary of the Negev highlands. This erosional cirque or makhtesh was formed by intermittent river flow in the Makhtesh Ramon cutting through layers of limestone and chalk, resulting in cirque walls with a sheer 200 metres (660 ft) drop.[8] The Cirque du Bout du Monde is another such feature, created in karst terraine in the Burgundy region of the department of Côte-d'Or in France.

Yet another type of fluvial erosion-formed cirque is found on Réunion island, which includes the tallest volcanic structure in the Indian Ocean. The island consists of an active shield-volcano (Piton de la Fournaise) and an extinct, deeply eroded volcano (Piton des Neiges). Three cirques have eroded there in a sequence of agglomerated, fragmented rock and volcanic breccia associated with pillow lavas overlain by more coherent, solid lavas.[9]

A common feature for all fluvial-erosion cirques is a terrain which includes erosion resistant upper structures overlying materials which are more easily eroded.

 
The Western Cwm with the Lhotse face of Mount Everest in the background

Notable cirques edit

 
Tuckerman Ravine cirque, headwall and spring skiers, New Hampshire
 
Cirque de Gavarnie, French Pyrenees

See also edit

References edit

Notes

  1. ^ This concern is not new, see Evans, I.S. & N. Cox, 1974: Geomorphometry and the operational definition of cirques, Area. Institute of British Geographers, 6: 150–53 regarding term usage.

Footnotes

  1. ^ Chisholm, Hugh, ed. (1911). "Corrie" . Encyclopædia Britannica. Vol. 7 (11th ed.). Cambridge University Press. p. 196.
  2. ^ Knight, Peter G. (2009). "Cirques". Encyclopedia of Earth Sciences Series: Encyclopedia of Paleoclimatology and Ancient Environments. Cirques. Vol. 1358. Springer Netherlands: . pp. 155–56. doi:10.1007/978-1-4020-4411-3_37. ISBN 978-1-4020-4551-6.
  3. ^ Evans, I.S. (1971). "8.11(i) The geomorphology and Morphometry of Glacial and Nival Areas". In Chorley R.J. & Carson M.A. (ed.). Introduction to fluvial processes. University paperbacks. Vol. 407. Routledge. p. 218. ISBN 978-0-416-68820-7. Retrieved 2010-01-24.
  4. ^ a b Johnny W. Sanders; Kurt M. Cuffey; Jeffrey R. Moore; Kelly R. MacGregor; Jeffrey L. Kavanaugh (2012). "Periglacial weathering and headwall erosion in cirque glacier bergschrunds". Geology. 40 (9): 779–782. Bibcode:2012Geo....40..779S. doi:10.1130/G33330.1. S2CID 128580365.
  5. ^ Rempel, A.W.; Wettlaufer, J.S.; Worster, M.G. (2001). "Interfacial Premelting and the Thermomolecular Force: Thermodynamic Buoyancy". Physical Review Letters. 87 (8): 088501. Bibcode:2001PhRvL..87h8501R. doi:10.1103/PhysRevLett.87.088501. PMID 11497990. S2CID 10308635.
  6. ^ . Parks and Wildlife Service Tasmania. Archived from the original on 2011-06-09. Retrieved 2009-05-12.
  7. ^ Barr, I.D.; Spagnolo, M. (2015). "Glacial cirques as palaeoenvironmental indicators: Their potential and limitations". Earth-Science Reviews. 151: 48. Bibcode:2015ESRv..151...48B. doi:10.1016/j.earscirev.2015.10.004. S2CID 54921081.
  8. ^ Distinguishing signal from noise: Long-term studies of vegetation in Makhtesh Ramon erosion cirque, Negev desert, Israel ; David Ward, David Saltz and Linda Olsvig-Whittaker; Plant Ecology, 2000, Volume 150, Numbers 1–2, pp. 27–36
  9. ^ Early volcanic rocks of réunion and their tectonic significance; B. G. J. Upton and W. J. Wadsworth; Bulletin of Volcanology, 1969, Volume 33, Number 4, pp. 1246–68
  10. ^ John O'Dwyer. "Go Walk: Coumshingaun, Co Waterford". The Irish Times.

External links edit

 
Wikimedia Commons has media related to:
Cirque (category)
  • Photographs and case study of corrie glaciers

January 01, 1970
cirque, other, uses, disambiguation, cirque, french, siʁk, from, latin, word, circus, amphitheatre, like, valley, formed, glacial, erosion, alternative, names, this, landform, corrie, from, scottish, gaelic, coire, meaning, cauldron, welsh, valley, pronounced,. For other uses see Cirque disambiguation A cirque French siʁk from the Latin word circus is an amphitheatre like valley formed by glacial erosion Alternative names for this landform are corrie from Scottish Gaelic coire meaning a pot or cauldron 1 and cwm Welsh for valley pronounced kʊm A cirque may also be a similarly shaped landform arising from fluvial erosion Two cirques with semi permanent snowpatches near Abisko National Park Sweden Upper Thornton Lake Cirque in North Cascades National Park U S The concave shape of a glacial cirque is open on the downhill side while the cupped section is generally steep Cliff like slopes down which ice and glaciated debris combine and converge form the three or more higher sides The floor of the cirque ends up bowl shaped as it is the complex convergence zone of combining ice flows from multiple directions and their accompanying rock burdens Hence it experiences somewhat greater erosion forces and is most often overdeepened below the level of the cirque s low side outlet stage and its down slope backstage valley If the cirque is subject to seasonal melting the floor of the cirque most often forms a tarn small lake behind a dam which marks the downstream limit of the glacial overdeepening The dam itself can be composed of moraine glacial till or a lip of the underlying bedrock 2 The fluvial cirque or makhtesh found in karst landscapes is formed by intermittent river flow cutting through layers of limestone and chalk leaving sheer cliffs A common feature for all fluvial erosion cirques is a terrain which includes erosion resistant upper structures overlying materials which are more easily eroded Contents 1 Formation 1 1 Glacial erosion cirque formation 1 2 Fluvial erosion cirque formation 2 Notable cirques 3 See also 4 References 5 External linksFormation edit nbsp Formation of cirque and resulting tarn nbsp Maritsa cirque in Rila Mountain Bulgaria Glacial erosion cirque formation edit Glacial cirques are found amongst mountain ranges throughout the world classic cirques are typically about one kilometer long and one kilometer wide Situated high on a mountainside near the firn line they are typically partially surrounded on three sides by steep cliffs The highest cliff is often called a headwall The fourth side forms the lip threshold or sill 3 the side at which the glacier flowed away from the cirque Many glacial cirques contain tarns dammed by either till debris or a bedrock threshold When enough snow accumulates it can flow out the opening of the bowl and form valley glaciers which may be several kilometers long Cirques form in conditions which are favorable in the Northern Hemisphere the conditions include the north east slope where they are protected from the majority of the Sun s energy and from the prevailing winds These areas are sheltered from heat encouraging the accumulation of snow if the accumulation of snow increases the snow turns into glacial ice The process of nivation follows whereby a hollow in a slope may be enlarged by ice segregation weathering and glacial erosion Ice segregation erodes the vertical rock face and causes it to disintegrate which may result in an avalanche bringing down more snow and rock to add to the growing glacier 4 Eventually this hollow may become large enough that glacial erosion intensifies The enlarging of this open ended concavity creates a larger leeward deposition zone furthering the process of glaciation Debris or till in the ice also may abrade the bed surface should ice move down a slope it would have a sandpaper effect on the bedrock beneath on which it scrapes nbsp The Lower Curtis Glacier in North Cascades National Park is a well developed cirque glacier if the glacier continues to retreat and melt away a lake may form in the basin Eventually the hollow may become a large bowl shape in the side of the mountain with the headwall being weathered by ice segregation and as well as being eroded by plucking The basin will become deeper as it continues to be eroded by ice segregation and abrasion 4 5 Should ice segregation plucking and abrasion continue the dimensions of the cirque will increase but the proportion of the landform would remain roughly the same A bergschrund forms when the movement of the glacier separates the moving ice from the stationary ice forming a crevasse The method of erosion of the headwall lying between the surface of the glacier and the cirque s floor has been attributed to freeze thaw mechanisms The temperature within the bergschrund changes very little however studies have shown that ice segregation frost shattering may happen with only small changes in temperature Water that flows into the bergschrund can be cooled to freezing temperatures by the surrounding ice allowing freeze thaw mechanisms to occur nbsp Lake Seal Mt Field National Park Tasmania a cirque formed from a glacier is visible in the walls around Lake Seal 6 If two adjacent cirques erode toward one another an arete or steep sided ridge forms When three or more cirques erode toward one another a pyramidal peak is created In some cases this peak will be made accessible by one or more aretes The Matterhorn in the European Alps is an example of such a peak Where cirques form one behind the other a cirque stairway results as at the Zastler Loch in the Black Forest As glaciers can only originate above the snowline studying the location of present day cirques provides information on past glaciation patterns and on climate change 7 Fluvial erosion cirque formation edit Further information Steephead valley and Makhtesh nbsp The Cirque du Bout du Monde Although a less common usage nb 1 the term cirque is also used for amphitheatre shaped fluvial erosion features For example an approximately 200 square kilometres 77 sq mi anticlinal erosion cirque is at 30 35 N 34 45 E 30 583 N 34 750 E 30 583 34 750 Negev anticlinal erosion cirque on the southern boundary of the Negev highlands This erosional cirque or makhtesh was formed by intermittent river flow in the Makhtesh Ramon cutting through layers of limestone and chalk resulting in cirque walls with a sheer 200 metres 660 ft drop 8 The Cirque du Bout du Monde is another such feature created in karst terraine in the Burgundy region of the department of Cote d Or in France Yet another type of fluvial erosion formed cirque is found on Reunion island which includes the tallest volcanic structure in the Indian Ocean The island consists of an active shield volcano Piton de la Fournaise and an extinct deeply eroded volcano Piton des Neiges Three cirques have eroded there in a sequence of agglomerated fragmented rock and volcanic breccia associated with pillow lavas overlain by more coherent solid lavas 9 A common feature for all fluvial erosion cirques is a terrain which includes erosion resistant upper structures overlying materials which are more easily eroded nbsp The Western Cwm with the Lhotse face of Mount Everest in the backgroundNotable cirques edit nbsp Tuckerman Ravine cirque headwall and spring skiers New Hampshire nbsp Cirque de Gavarnie French Pyrenees Australia Blue Lake Cirque New South Wales Australia Asia Chandra Taal Himachal Pradesh India Cirque Valley Hindu Kush Pakistan Makhtesh Ramon Negev desert Israel Western Cwm Khumbu Himal Nepal Europe glacial Cadair Idris Wales Circo de Gredos Sierra de Gredos Spain Cirque de Gavarnie Pyrenees France Cirque d Estaube Pyrenees France Maritsa cirque Rila Mountain Bulgaria Malyovitsa cirque Rila Mountain Bulgaria Seven Rila Lakes cirques Rila Mountain Bulgaria Banderishki cirque Pirin Mountain Bulgaria Coire an t Sneachda Grampian Mountains Scottish Highlands Sniezne Kotly Karkonosze Poland Coumshingaun Lake County Waterford Ireland 10 Europe fluvial Cirque de Navacelles Grands Causses France Cirque du Bout du Monde Grands Causses France Cirque du Bout du Monde Burgundy France North America Cirque of the Towers Wyoming United States Iceberg Cirque Montana US Summit Lake cirque and others on Mount Blue Sky Colorado US Great Basin and others on Mount Katahdin Maine US Great Gulf New Hampshire US Tuckerman Ravine New Hampshire USSee also editCirque stairway Stepped succession of glacially eroded rock basins Glacial landform Landform created by the action of glaciersReferences editNotes This concern is not new see Evans I S amp N Cox 1974 Geomorphometry and the operational definition of cirques Area Institute of British Geographers 6 150 53 regarding term usage Footnotes Chisholm Hugh ed 1911 Corrie Encyclopaedia Britannica Vol 7 11th ed Cambridge University Press p 196 Knight Peter G 2009 Cirques Encyclopedia of Earth Sciences Series Encyclopedia of Paleoclimatology and Ancient Environments Cirques Vol 1358 Springer Netherlands pp 155 56 doi 10 1007 978 1 4020 4411 3 37 ISBN 978 1 4020 4551 6 Evans I S 1971 8 11 i The geomorphology and Morphometry of Glacial and Nival Areas In Chorley R J amp Carson M A ed Introduction to fluvial processes University paperbacks Vol 407 Routledge p 218 ISBN 978 0 416 68820 7 Retrieved 2010 01 24 a b Johnny W Sanders Kurt M Cuffey Jeffrey R Moore Kelly R MacGregor Jeffrey L Kavanaugh 2012 Periglacial weathering and headwall erosion in cirque glacier bergschrunds Geology 40 9 779 782 Bibcode 2012Geo 40 779S doi 10 1130 G33330 1 S2CID 128580365 Rempel A W Wettlaufer J S Worster M G 2001 Interfacial Premelting and the Thermomolecular Force Thermodynamic Buoyancy Physical Review Letters 87 8 088501 Bibcode 2001PhRvL 87h8501R doi 10 1103 PhysRevLett 87 088501 PMID 11497990 S2CID 10308635 Mt Field National Park Landforms Flora and Fauna Parks and Wildlife Service Tasmania Archived from the original on 2011 06 09 Retrieved 2009 05 12 Barr I D Spagnolo M 2015 Glacial cirques as palaeoenvironmental indicators Their potential and limitations Earth Science Reviews 151 48 Bibcode 2015ESRv 151 48B doi 10 1016 j earscirev 2015 10 004 S2CID 54921081 Distinguishing signal from noise Long term studies of vegetation in Makhtesh Ramon erosion cirque Negev desert Israel David Ward David Saltz and Linda Olsvig Whittaker Plant Ecology 2000 Volume 150 Numbers 1 2 pp 27 36 Early volcanic rocks of reunion and their tectonic significance B G J Upton and W J Wadsworth Bulletin of Volcanology 1969 Volume 33 Number 4 pp 1246 68 John O Dwyer Go Walk Coumshingaun Co Waterford The Irish Times External links edit nbsp Wikimedia Commons has media related to Cirque category Photographs and case study of corrie glaciers Portal nbsp Mountains Retrieved from https en wikipedia org w index php title Cirque amp oldid 1187602969, wikipedia, wiki, book, books, library,

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