Ellsworth Mountains

The Ellsworth Mountains are the highest mountain ranges in Antarctica, forming a 360 km (224 mi) long and 48 km (30 mi) wide chain of mountains in a north to south configuration on the western margin of the Ronne Ice Shelf in Marie Byrd Land.[1] They are bisected by Minnesota Glacier to form the Sentinel Range to the north and the Heritage Range to the south. The former is by far the higher and more spectacular with Mount Vinson (4,892 m) constituting the highest point on the continent. Geologically, they are part of the Antarctandes which stretch from the Antarctic Peninsula to Cape Adare on the western shore of the Ross Sea. The Antarctandes form the southernmost arc of the Pacific 'Ring of Fire'. The mountains are located within the Chilean Antarctic territorial claim but outside of the Argentinian and British ones.

Ellsworth Mountains
The central part of Ellsworth Mountains with Mount Tyree, Mount Shinn and Mount Vinson; Nimitz Glacier in the foreground
Highest point
PeakMount Vinson
Elevation4,892 m (16,050 ft)
Coordinates78°31′31.74″S 85°37′01.73″W
Dimensions
Length360 km (220 mi) NNW-SSE
Width48 km (30 mi) WE
Geography
Location of Ellsworth Mountains in Antarctica
ContinentAntarctica
State/ProvinceEllsworth Land
Range coordinates78°45′S 85°00′W[1]

Discovery

The mountains were discovered on November 23, 1935, by Lincoln Ellsworth in the course of a trans-Antarctic flight from Dundee Island to the Ross Ice Shelf. He gave them the descriptive name Sentinel Range.[1]

The mountains were mapped in detail by the U.S. Geological Survey from ground surveys and U.S. Navy aerial photography, 1958–66. When it became evident that the mountains comprise two distinct ranges, the US-ACAN restricted the application of Sentinel Range to the high northern one and gave the name Heritage Range to the southern one; the Committee recommended the name of the discoverer for this entire group of mountains.[1]

Geology

The stratigraphic section consists of the 7,500 m thick Early Cambrian-Middle Cambrian Heritage Group, overlain by the 3000 m thick Late Cambrian-Devonian Crashsite Group, the 1000 m thick Permo-Carboniferous Whiteout Conglomerate black diamictite from Gondawanaland glaciation, and the 1000 m thick Permian Polarstar Formation consisting of black argillite, siltstone, sandstone, and coal. Within the Heritage Group is the Union Glacier Formation of ashflow tuff-lahar deposits, the Hyde Glacier Formation of graywacke-argillite-conglomerate, the Drake Icefall Formation of black shales and marble, the Conglomerate Ridge Formation, the Liberty Hills-Springer Peak-Frazier Ridge Formations of quartzite-argillite, and the Minaret Formation of marble. Within the Crashsite Group is the Howard Nunataks Formation of quartzites, the Mt. Liptak Formation of quartzites, and the Mount Wyatt Earp Formation of quartzites. Major deformation of the sedimentary rocks occurred during the Gondwanide orogeny, followed by later uplift.[2]

Climate

The temperatures in the Ellsworth Mountains average around -30 °C (-20 °F). The best time for expeditions are November through January, mid-summer in the Southern Hemisphere. However, arranging an outing here is a difficult task, requiring either official scientific sponsorship or considerable financial resources.

Maps

  • Newcomer Glacier. Scale 1:250 000 topographic map. Reston, Virginia: US Geological Survey, 1961.
  • Vinson Massif. Scale 1:250 000 topographic map. Reston, Virginia: US Geological Survey, 1988.
  • Union Glacier. Scale 1:250 000 topographic map. Reston, Virginia: US Geological Survey, 1966.
  • Liberty Hills. Scale 1:250 000 topographic map. Reston, Virginia: US Geological Survey, 1966.
  • Antarctic Digital Database (ADD). Scale 1:250000 topographic map of Antarctica. Scientific Committee on Antarctic Research (SCAR). Since 1993, regularly updated.

See also

References

  1. "Ellsworth Mountains". Geographic Names Information System. United States Geological Survey. Retrieved 2004-05-06.
  2. Webers, Gerald; Craddock, Campbell; Splettstoesser, John (1992). Webers, Gerald; Craddock, Campbell; Splettstoesser, John (eds.). Geologic history of the Ellsworth Mountains, West Antarctica, in Geology and Paleontology of the Ellsworth Mountains, West Antarctica. Boulder: Geological Society of America. pp. 1–8. ISBN 0813711703.
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