The Transantarctic Mountains (abbreviated TAM) comprise a mountain range of uplifted (primarily sedimentary) rock in Antarctica which extend, with some interruptions, across the continent from Cape Adare in northern Victoria Land to Coats Land. These mountains divide East Antarctica and West Antarctica. They include a number of separately named mountain groups, which are often again subdivided into smaller ranges.
|Elevation||4,528 m (14,856 ft)|
|Length||3,500 km (2,200 mi)|
|Age of rock||Cenozoic|
The mountain range stretches between the Ross Sea and the Weddell Sea the entire width of Antarctica, hence the name. With a total length of about 3,500 km, the Transantarctic Mountains are one of the longest mountain ranges on Earth. The Antarctandes are even longer, having in common with the Transantarctic Mountains the ranges from Cape Adare to the Queen Maud Mountains, but extending thence through the Whitmore Mountains and Ellsworth Mountains up the Antarctic Peninsula. The 100–300 km wide range forms the boundary between East Antarctica and West Antarctica. The East Antarctic Ice Sheet bounds the TAM along their entire length on the Eastern Hemisphere side, while the Western Hemisphere side of the range is bounded by the Ross Sea (C.Michael Hogan. 2011) in Victoria Land from Cape Adare to McMurdo Sound, the Ross Ice Shelf from McMurdo Sound to near the Scott Glacier, and the West Antarctic Ice Sheet beyond.
The summits and dry valleys of the TAM are some of the few places in Antarctica not covered by ice, the highest of which rise more than 4,500 metres (14,800 ft) above sea level. The McMurdo Dry Valleys lie near McMurdo Sound and represent a special Antarctic phenomenon: landscapes that are snow and ice free due to the extremely limited precipitation and ablation of ice in the valleys. The highest mountain of the TAM is 4,528 m high Mount Kirkpatrick in the Queen Alexandra Range. Isolated peaks surrounded by ice are referred to as nunataks.
Penguins, seals, and sea birds live along the Ross Sea coastline in Victoria Land, while life in the interior of the Transantarctic Range is limited to bacteria, lichens, algae, and fungi. Forests once covered Antarctica, including plentiful Wollemi Pine and Southern Beech. However, with the gradual cooling associated with the break-up of Gondwana, these forests gradually disappeared. It is believed that the last trees on the Antarctic continent were on Transantarctic Mountains.
The first crossing of the Transantarctic Mountains took place during the 1902-1904 British National Antarctic Expedition at the Ross Ice Shelf. A reconnaissance party under the command of Albert Armitage reached 2700 m altitude in 1902. The following year a party under expedition leader Robert Falcon Scott crossed into East Antarctica at a location now known as Ferrar Glacier, named after the geologist of the expedition. They explored part of Victoria Land on the Antarctic Plateau before returning via the same glacier. In 1908, Ernest Shackleton's party crossed the mountains through the Beardmore Glacier. Robert Scott returned to that same glacier in 1911, while Roald Amundsen crossed the range via the Axel Heiberg Glacier.
Much of the range remained unexplored until the late 1940s and 1950s, when missions such as Operation Highjump and the International Geophysical Year (IGY) made extensive use of aerial photography and concentrated on a thorough investigation of the entire continent. The name "Transantarctic Mountains" was first applied to this range in a 1960 paper by geologist Warren B. Hamilton, following his IGY fieldwork. It was subsequently recommended by the US-ACAN committee, a US authority for geographic names, in 1962. This purely descriptive label (in contrast to many other geographic names on Antarctica) is internationally accepted at present.
The Transantarctic Mountains are considerably older than other mountain ranges of the continent that are mainly volcanic in origin. The range was uplifted during the opening of the West Antarctic Rift to the east, beginning about 65 million years ago in the early Cenozoic.
The mountains consist of sedimentary layers lying upon a basement of granites and gneisses. The sedimentary layers include the Beacon Supergroup sandstones, siltstones, and coal deposited beginning in the Silurian period and continuing into the Jurassic. In many places the Beacon Supergroup has been intruded by dikes and sills of Jurassic age Ferrar Dolerite. Many of the fossils found in Antarctica are from locations within these sedimentary formations.
Ice from the East Antarctic ice sheet flows through the Transantarctic Mountains via a series of outlet glaciers into the Ross Sea, Ross Ice Shelf, and West Antarctic Ice Sheet. These glaciers generally flow perpendicular to the orientation of the range and define subranges and peak groups. It has been thought that many of these outlet glaciers follow the traces of large-scale geologic faults. However the ice flow theories will be reevaluated in light of new data from recent ice-penetrating radar surveys which revealed the presence of three previously unknown deep subglacial valleys affecting the "mountainous subglacial topography beneath the ice divide". These geographic features are likely to have a significant impact on models and calculations related to ice flow through the Transantarctic Mountain region.
- Lillie Glacier
- Concord Mountains
- Cape Adare
- Admiralty Mountains
- Cape Hallett
- Tucker Glacier
- Victory Mountains
- Mariner Glacier
- Aviator Glacier
- Terra Nova Bay
- Priestley Glacier
- Prince Albert Mountains
- Ferrar Glacier
- McMurdo Sound
Queen Maud MountainsEdit
- Shackleton Glacier
- Liv Glacier
- Amundsen Glacier
- Scott Glacier
- Bush Mountains
- Commonwealth Range
- Dominion Range
- Herbert Range
- Prince Olav Mountains
- Hughes Range
- Supporters Range
- Gunter Faure, Teresa M. Mensing, The Transantarctic Mountains: Rocks, Ice, Meteorites and Water, Springer
- Damien Gildea, Transantarctic Mountains - Mountaineering in Antarctica: Travel Guide
- Sokol, E. R., C. W. Herbold, C. K. Lee, S. C. Cary, and J. E. Barrett, Local and regional influences over soil microbial metacommunities in the Transantarctic Mountains, Ecosphere 4(11):136. https://dx.doi.org/10.1890/ ES13-00136.1 2013
- I.B. Campbell, G.G.C. Claridge, Antarctica: Soils, Weathering Processes and Environment, PP 30 – 32
- A.R. Lewis, D.R. Marchant, A.C. Ashworth, S.R. Hemming, M.L. Machlus, Major middle Miocene global climate change: Evidence from East Antarctica and the Transantarctic Mountains
- Sokol, Eric; Craig W. Herbold; Charles K. Lee; S. Craig Cary; J. E. Barrett (Nov 2013). "Local and regional influences over soil microbial metacommunities in the Transantarctic Mountains". Ecosphere. 4 (11): art136. doi:10.1890/es13-00136.1. hdl:10919/24807.
- Woodford, J. 2000. The Wollemi Pine. Melbourne: Text Publishing. pp. 85-104
- Hamilton, Warren B. (1960). "New interpretation of Antarctic tectonics." Geological Survey Research 1960 – Short Papers in the Geological Sciences, pp. B379–380. Washington DC: US Geological Survey. https://books.google.com/books?id=iGpXAAAAMAAJ&pg=SL2-PA379&lpg=SL2-PA379
- Winter, K.; Ross, N.; et al. (2018), "Topographic Steering of Enhanced Ice Flow at the Bottleneck Between East and West Antarctica", Geophysical Research Letters, 45 (10): 4899–4907, doi:10.1029/2018GL077504
- Winter, 2018
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