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Snæfellsjökull

Coordinates: 64°48′N 23°47′W / 64.800°N 23.783°W / 64.800; -23.783
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Snæfellsjökull
Snæfellsjökull in the morning
Highest point
Elevation1,446 m (4,744 ft)
Prominence>1,200 m
Coordinates64°48′N 23°47′W / 64.800°N 23.783°W / 64.800; -23.783
Geography
Snæfellsjökull is located in Iceland
Snæfellsjökull
Snæfellsjökull
Snæfellsnes peninsula, western Iceland
Map
Approximate map of central volcanoes and their fissure fields (paler shading) in the Snæfellsnes volcanic belt:
  Snæfellsjökull
Mouse over is enabled on clicking the map which also shows the location of some features (yellow) mentioned in the article text.[1]
Geology
Mountain typeStratovolcano[2]
Last eruption200 CE[2][a]

Snæfellsjökull (Icelandic pronunciation: [ˈs(t)naiːˌfɛlsˌjœːkʏtl̥] , snow-fell glacier) is a 700,000-year-old glacier-capped stratovolcano in western Iceland.[3] It is situated on the westernmost part of the Snæfellsnes peninsula. Sometimes it may be seen from the city of Reykjavík over Faxa Bay, at a distance of 120 km (75 mi).

The mountain is one of the most famous sites of Iceland, primarily due to the novel Journey to the Center of the Earth (1864) by Jules Verne, in which the protagonists find the entrance to a passage leading to the center of the Earth on Snæfellsjökull.

The mountain is part of Snæfellsjökull National Park (Icelandic: Þjóðgarðurinn Snæfellsjökull).[4]

Snæfellsjökull was visible from an extreme distance due to an arctic mirage on 17 July 1939. Captain Robert Bartlett of the Effie M. Morrissey sighted Snæfellsjökull from a position some 536 to 560 kilometres (289–302 nmi) distant.[5]

In August 2012, the summit was ice-free for the first time in recorded history.[6] The icecap area had been 16 km2 (6.2 sq mi) in 1946,[7] 14 km2 (5.4 sq mi) in 1999 reducing to 10–11 km2 (3.9–4.2 sq mi) in 2008.[8][7]

Geology

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The stratovolcano, which is the only large central volcano in its part of Iceland, has many pyroclastic cones on its flanks. Upper-flank craters produced intermediate to felsic materials. Several holocene eruptions have originated from the summit crater and have produced felsic material,[2] with pumice from the two most recent major eruptions being alkaline trachyte trending in composition close to rhyolite.[9] Lower-flank craters have produced basaltic lava flows with classic basalt composition.[9] The latest flank eruption was of 0.11 km3 (0.0264 cu mi) of basaltic material in the 4.5 km2 (1.7 sq mi) Væjuhraun lava flow and occurred shortly after the last central volcano eruption.[1] This main eruption had been explosive and originated from the summit crater.[10][11] It is dated to about 200 CE,[2][a] and was also associated with the eruption of viscous lava that covered 30 km2 (12 sq mi).[1] In all three large, perhaps up to VEI 4 plinian rhyolitic[b] eruptions have occurred during the Holocene producing tephra.[1][c] These occurred about 1800, 4000 and 8500 years ago.[1][a]

Snæfellsjökull is also associated with a fissure field that last erupted to the west forming the Væjuhraun lava flow as already mentioned.[1] To the east of Snæfellsjökull this fissure field last erupted between 5 and 8 thousand years ago.[16] This eruption formed the 18 km2 (6.9 sq mi) Búðahraun lava field from the crater Búðaklettur, south-west of Búðir.[16] This is part of the Snæfellsjökull volcanic system which in turn is part of the Snæfellsnes volcanic belt (Snæfellsnes volcanic zone).[1] This is an area of renewed intra-plate volcanism in the North American Plate,[17] with rocks no older locally than 800,000 years,[1] that overlay an extinct rift zone that produced the more than 5 million years old crustal basement tholeiitic flood basalts of the Snæfellsnes peninsula.[16]

Hazards

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The Snæfellsjökull volcanic system has the potential for lava flows, explosive tephra eruptions (e.g. air traffic during a major rhyolitic eruption), tsunami generation (perhaps one flank collapse has occurred historically) and Jökulhlaups.[1]

Snæfellsjökull from the sea
Volcanic plugs at the summit
Snæfellsjökull Mountain
View from Snæfellsjökull on the summer solstice.
Snæfellsjökull aerial panorama, taken from its west side in June 2017

Climbing

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In summer, the saddle near the summit can be reached easily by walking, although the glacier's crevasses must be avoided. Several tour companies run regular guided walks during the season.[18] Reaching the true summit requires technical ice climbing.

In culture

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Literature

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Snæfellsjökull serves as the entrance to the subterranean journey in Jules Verne's classic science fiction novel, Journey to the Center of the Earth (1864). It is also featured in the 1960s Blind Birds trilogy by Czech SF writer Ludvík Souček, loosely inspired by Verne's work. While trying to discern whether Verne actually visited Iceland, a Czechoslovak-Icelandic science party discovers an ancient alien outpost in the cave system under Snæfellsjökull.

It also figures prominently in the novel Under the Glacier (1968) by Icelandic Nobel laureate Halldór Laxness.[19]

Radio and podcasting

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Snæfellsjökull is the setting and subject of "Lava and Ice" (episode 2) of Wireless Nights, Jarvis Cocker's BBC Radio 4 and podcast series.[20]

Presidential election

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The campaign "Snæfellsjökul fyrir forseta" proposed Snæfellsjökul as a candidate in the 2024 Icelandic presidential election, asserting that it met the requirements of being an Icelandic citizen, aged over 35, with no criminal record, and with a supporting petition.[21][22]

See also

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Notes

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  1. ^ a b c For the most recent major eruption the most accurate carbon dating uncorrected age is 1855±25 BP on tephra from a marine sediment core which is corrected to 1775±45 BP bracketing the about 1800 figure and the 200 CE figure used in the article, and implying an inaccuracy of about 50 years in these figures to the careful reader. The reasoning behind this is that corrected radiocarbon ages should be used where ever possible as these relate to actual dates. However there are other determinations on other samples from what might be an eruptive sequence in a volcanic system with wider error. Corrections to Icelandic radiocarbon ages published prior to 2002 are inaccurate.[12] With regard to another eruption date given the uncorrected radiocarbon date is 3960±100 BP corrected to 3960±130 BP.[13][15] Accordingly for the most recent eruption sequence a date of about 200 CE is used in the article without the error in the reference range or its original source stated and without a correction to 175 CE as would normally be done. The date of last eruption is slightly more recent than this and such dating could imply greater accuracy to last eruption time than is the case. The range of dates in the literature might also reflect some out of date sources. At least 20 Holocene eruptions have occurred,[1] and it was noted when this ambiguity became apparent that the source for date used for the original article noted only about half of these and its most recent source was 2002.[2]
  2. ^ The term rhyolite is used in multiple sources,[1][12][13] but is not always technically accurate, given the trachyte described in whole rock, and that analysis of 28 Sn-1 (1775±45 cor. BP eruption) tephra samples gives a range of SiO2 from 63% to 71% so that the majority of samples from this eruption are trachyte by the Le Bas et al. 1986 classification.[9][14] . It might be more accurate for the major eruption rocks of Sn-1 and Sn-2 to be termed as towards the alkaline rhyolite part of the tholeiitic magma series.
  3. ^ Other sources suggest unknown, or VEI 2 or less[2]

References

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  1. ^ a b c d e f g h i j k Jóhannesson, Haukur (2019). "Catalogue of Icelandic Volcanoes - Snæfellsjökull". Icelandic Meteorological Office, Institute of Earth Sciences at the University of Iceland, Civil Protection Department of the National Commissioner of the Iceland Police. Retrieved 25 February 2024.
  2. ^ a b c d e f "Snaefellsjökull: General Information". Global Volcanism Program. Smithsonian Institution. Retrieved 2010-02-16.
  3. ^ "Flash map of Snæfellsjökull". Þjóðgarðurinn Snæfellsjökull. Archived from the original on 2006-07-18.
  4. ^ "Snæfellsjökull National Park". 2004-02-18. Archived from the original on 2004-06-05. Retrieved 2004-05-24.
  5. ^ The Arctic Mirage: Aid To Discovery Visited 5 Aug 2021.
  6. ^ "Haraldur Sigurðsson: Þúfurnar á Snæfellsjökli". Archived from the original on 2016-03-04. Retrieved 2012-08-30.
  7. ^ a b Jóhannesson, T.; Björnsson, H.; Pálsson, F.; Sigurðsson, O.; Þorsteinsson, Þ. (2011). "LiDAR mapping of the Snæfellsjökull ice cap, western Iceland". Jökull. 61: 19–32. doi:10.33799/jokull2011.61.019. Retrieved 29 February 2024.: Table 1. 
  8. ^ Þórðardóttir, Sólrún (2020). Náttúrufar á Snæfellsnesi:Bachelor of Science-prófi í Náttúru (The Nature of the Snæfellsnes Peninsula:BSc dissertation) (PDF) (Thesis). Náttúra & skógur, Landbúnaðarháskóli Íslands, Hvanneyri. pp. 1–58. Retrieved 25 February 2024.: 4 
  9. ^ a b c Martin, E.; Sigmarsson, O. (2007). "Crustal thermal state and origin of silicic magma in Iceland: the case of Torfajökull, Ljósufjöll and Snæfellsjökull volcanoes". Contributions to Mineralogy and Petrology. 153 (5): 593–605. doi:10.1007/s00410-006-0165-5.
  10. ^ "Snaefellsjökull: Eruptive History". Global Volcanism Program. Smithsonian Institution. Retrieved 2010-02-16.
  11. ^ Rosi, Mauro; Luip, Luca; Papale, Paolo; Stoppato, Marco (2003). Volcanoes (A Firefly Guide). Firefly Books. pp. 130, 131. ISBN 978-1-55297-683-8.
  12. ^ a b Larsen, G.; Eiríksson, J.; Knudsen, K.L.; Heinemeier, J. (2002). "Correlation of late Holocene terrestrial and marine tephra markers, north Iceland: implications for reservoir age changes". Polar Research. 21 (2): 283–290. doi:10.3402/polar.v21i2.6489.
  13. ^ a b Óladóttir, B.A.; Larsen, G.; Sigmarsson, O. (2012). "Deciphering eruption history and magmatic processes from tephra in Iceland". Jökull. 62: 21–38. doi:10.33799/jokull2012.62.021. Retrieved 25 February 2024.: 24 
  14. ^ Gudmundsdóttir, E.R.; Larsen, G.; Björck, S.; Ingólfsson, Ó.; Striberger, J. (2016). "A new high-resolution Holocene tephra stratigraphy in eastern Iceland: Improving the Icelandic and North Atlantic tephrochronology". Quaternary Science Reviews. 150: 234–249. Bibcode:2016QSRv..150..234G. doi:10.1016/j.quascirev.2016.08.011. ISSN 0277-3791. Fig. 9
  15. ^ Tauber, Elisabeth Anna (2011). Magnetism of postglacial lavas from Snæfells volcano, Iceland:Field reconstruction and archeomagnetic dating MSc Thesis (PDF) (Thesis). University of Leoben, Austria. pp. 1–59. Retrieved 25 February 2024.: 34 
  16. ^ a b c Kahl, M; Bali, E.; Guðfinnsson, G.H.; Neave, D.A.; Ubide, T.; van der Meer, Q.H.A.; Matthews, S. (2021). "Conditions and Dynamics of Magma Storage in the Snæfellsnes Volcanic Zone, Western Iceland: Insights from the Búðahraun and Berserkjahraun Eruptions". Journal of Petrology. 62 (9). doi:10.1093/petrology/egab054.
  17. ^ Burney, D.; Peate, D.W.; Riishuus, M.S.; Ukstins, I.A. (2020). "Reconstructing the plumbing system of an off-rift primitive alkaline tuya (Vatnafell, Iceland) using geothermobarometry and CSDs". Journal of Volcanology and Geothermal Research. 399: 106914. Bibcode:2020JVGR..39906914B. doi:10.1016/j.jvolgeores.2020.106914.: Abstract,Introduction 
  18. ^ "traveleast.is". Archived from the original on 2016-12-03.
  19. ^ The Ultimate Guide to Snaefellsnes Peninsula
  20. ^ Cocker, Jarvis (October 27, 2014). "Lava and Ice". Wireless Nights with Jarvis Cocker. Archived from the original on February 13, 2015. Retrieved December 26, 2014.
  21. ^ "Can a Glacier Really Be President?". Kjósum jökul. Retrieved 18 March 2024.
  22. ^ Kassam, Ashifa (19 April 2024). "Bid to secure spot for glacier in Icelandic presidential race heats up". The Guardian. Retrieved 20 April 2024.

Additional sources

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  • Thordarson, Thor; Hoskuldsson, Armann (2002). Iceland (Classic Geology in Europe 3). Terra Publishing. pp. 208 pp. ISBN 1-903544-06-8.
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