Mount Erebus

Mount Erebus in Antarctica is the southernmost historically active volcano on Earth.<ref name="gvp">

Mt. Erebus

Mount Erebus, 1972
Elevation 3,794 metres (12,448 ft)
Prominence 3,794 m (12,448 ft)Ranked 34th
Listing Ultra
Location
Location Ross Island, Antarctica
Coordinates 77°32′S 167°10′E / 77.53°S 167.17°E / -77.53; 167.17Coordinates: 77°32′S 167°10′E / 77.53°S 167.17°E / -77.53; 167.17
Topo map Ross Island C77190S1
Geology
Type Stratovolcano
Age of rock About 1,000,000 years
Last eruption 2009 (continuing)
Climbing
First ascent 1908 by Edgeworth David and party<ref> Шаблон:Cite web</ref>
Easiest route Basic snow & ice climb

Mount Erebus in Antarctica is the southernmost historically active volcano on Earth.<ref name="gvp"> Шаблон:Cite gvp</ref> With a summit elevation of 3,794 metres (12,448 ft), it is located on Ross Island, which is also home to three inactive volcanoes, notably Mount Terror. Mount Erebus is part of the Pacific Ring of Fire, which includes over 160 active volcanoes.

The volcano has been observed to be continuously active since 1972 and is the site of the Mount Erebus Volcano Observatory run by the New Mexico Institute of Mining and Technology.<ref> Шаблон:Cite web</ref>

Discovery and naming

Mount Erebus was discovered on January 27, 1841 (and observed to be in eruption)<ref>Ross, Voyage to the Southern Seas, vol. i, pp. 216–8.</ref> by polar explorer Sir James Clark Ross who named it and Mount Terror after his ships, Erebus and Terror (which were also used by Sir John Franklin on his disastrous Arctic expedition). Erebus was a primordial Greek god of darkness, the son of Chaos.

Climbing

Mount Erebus was first climbed (to the rim) by members of Sir Ernest Shackleton's party in 1908. Its first known solo ascent and the first winter ascent was accomplished by British mountaineer Roger Mear in March 1985, a member of Robert Swan's "In the Footsteps of Scott" expedition.<ref>Mear, Roger and Robert Swan, In the Footsteps of Scott, pp. 95–104.</ref> On January 19–20, 1991, Charles J. Blackmer, an iron-worker for many years at McMurdo Station and the South Pole, accomplished a solo ascent in approximately seventeen hours.

Geology and volcanology

in altitude. View from McMurdo Station.]]

Mount Erebus is currently the most active volcano in Antarctica. The summit contains a persistent convecting phonolitic lava lake, one of a very few long-lasting lava lakes on Earth. Characteristic eruptive activity consists of Strombolian eruptions from the lava lake or from one of several subsidiary vents, all lying within the volcano's inner crater.<ref>Kyle, P. R. (Ed.), Volcanological and Environmental Studies of Mount Erebus, Antarctica, Antarctic Research Series, American Geophysical Union, Washington DC, 1994.</ref><ref>Aster R., Mah, S., Kyle, P., McIntosh, W., Dunbar, N., and J. Johnson, Very long period oscillations of Mount Erebus volcano, J. Geophys. Res., 108, 2522, doi:10 .1029/2002JB002101, 2003.</ref> The volcano is scientifically remarkable in that its relatively low-level and unusually persistent eruptive activity enables long-term volcanological study of a Strombolian eruptive system very close (hundreds of metres) to the active vents, a characteristic shared with only a few volcanos planetarily, such as Stromboli in Italy. Scientific study of the volcano is also facilitated by their proximity to McMurdo Station (U.S.) and Scott Base (N.Z.), both sited on Ross Island approximately thirty-five kilometres away.

Mount Erebus is classified as a polygenetic stratovolcano. The bottom half of the volcano is a shield and the top half is a stratocone (Mount Etna is like this as well). The composition of the current eruptive products of Erebus is anorthoclase-porphyric tephritic phonolite and phonolite, which constitute the bulk of exposed lava flow on the volcano. The oldest eruptive products consist of relatively undifferentiated and non-viscous basanitic lavas that form the low, broad platform shield of the Erebus edifice. Slightly younger basanite and phonotephrite lavas crop out on Fang Ridge — an eroded remnant of an early Erebus volcano — and at other isolated locations on the flanks of the Erebus edifice.

Lava flows of more viscous phonotephrite, tephriphonolite and trachyte erupted after the basanite. The upper slopes of Mount Erebus are dominated by steeply dipping (−30°) tephritic phonolite lava flows with large scale flow levees. A conspicuous break in slope at approximately 3,200 metres calls attention to a summit plateau representing a caldera less than one hundred millennia old. The summit caldera itself is filled with small volume tephritic phonolite and phonolite lava flows. In the center of the summit caldera is a small, steep-sided cone composed primarily of decomposed lava bombs and a large deposit of anorthoclase crystals. It is within this summit cone that the active lava lake continuously degasses.

Air disaster

Main article: Air New Zealand Flight 901

Air New Zealand Flight 901 was a scheduled passenger transport service from Auckland Airport in New Zealand to Antarctica and return, without an intermediate stop. The Air New Zealand flyover service, for the purposes of Antarctic sightseeing, was operated with McDonnell Douglas DC-10-30 aircraft and began in February 1977. The flight crashed into Mount Erebus in sector whiteout conditions on November 28, 1979, killing all 257 people aboard. Air New Zealand discontinued the service after the crash.

During the Antarctic summer, snow melt on the flanks of Mount Erebus continually brings debris from the crash to the surface of the snow; it is plainly visible from the air.

Gallery

See also

  • List of volcanoes in Antarctica
  • Erebus Ice Tongue
  • Lower Erebus Hut - Home of MEVO
  • Nimrod Expedition - first ascent of Mount Erebus
  • Volcanic Seven Summits

References

Specific

References in literature

Mount Terror and Mount Erebus are mentioned in the novella "At the mountains of madness" by H.P.Lovecraft.

General
  • LeMasurier, W. E.; Thomson, J. W. (eds.) (1990). Volcanoes of the Antarctic Plate and Southern Oceans. American Geophysical Union. pp. 512 pp. ISBN . 
  • The Mount Erebus Volcano Observatory (includes live camera images of the volcano's lava lake, video clips of eruptions, and other information)

External links

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