PhotosLocation


Doña_Ines Latitude and Longitude:
26°04′40″S 69°11′06″W / 26.07778°S 69.18500°W / -26.07778; -69.18500 [1]
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Doña Ines
Doña Ines is located in Chile
Doña Ines
Doña Ines
Highest point
Elevation5,075 m (16,650 ft)
Coordinates 26°04′40″S 69°11′06″W / 26.07778°S 69.18500°W / -26.07778; -69.18500 [1]
Geology
Age of rock Miocene
Mountain type Stratovolcano
Volcanic arc/ beltMaricunga Belt

Doña Ines is a volcano in Chile. It is a Miocene age stratovolcano which is formed from lava domes that form its summit area and nuee ardente deposits which form the flanks of the volcano.

Located north of the Salar de Pedernales, Doña Ines is a 5,075 metres (16,650 ft) high cone with a diameter of 15 kilometres (9.3 mi). [2] Lava domes form the top of the volcano and pyroclastic flow deposits are found on its flanks, [3] generating a noticeable slope contrast between the steeper upper parts of the edifice and the more gentle lower slopes. The nuee ardente deposits contain blocks with sizes of up to 2 metres (6 ft 7 in). [4] Overall the volcano covers a surface area of about 200 square kilometres (77 sq mi). [3] Additional lava domes can be found on the eastern slopes of the volcano. [4] A subsidiary vent, active at the same time as the main volcano, has formed the Loma Dona Ines rocks south of the main volcano. [5] The Gemelas-Fortuna volcanic centres lie nearby. [2] The basement beneath the volcano on its northern side is formed by Triassic sedimentary and volcanic rocks. [4]

Doña Ines is part of the Maricunga Belt, a volcanic arc at the western edge of the Puna plateau. Doña Ines together with Cerros Bravos, La Coipa and the Maricunga volcanoes lies in the northern part of the belt, 50–60 kilometres (31–37 mi) west of the Central Volcanic Zone. Volcanic activity within this belt has generated a number of mineral deposits. [6] Doña Ines lies in the northern part of the belt. [2] It is considered part of a volcanic chain with the Pastillito and Volcan de la Sal cones, probably dependent on tectonic fractures, which lies in a 250 kilometres (160 mi) long north-south valley. [7] The volcano is the source of the Inez Chica ignimbrite, a rhyolitic ignimbrite erupted 16.2 million years ago which covers a surface area of 5.32 square kilometres (2.05 sq mi). [8]

The volcano has erupted andesite and dacite, both containing hornblende. [3] The rocks of the summit lava domes contain hornblende, plagioclase and smaller amounts of orthopyroxene. [4] The rocks of Doña Ines have a SiO
2 content between 56 and 64%. [9] Based on the composition of amphibole, the amphibole crystals formed in magmas with temperatures spanning 901–1,016 °C (1,654–1,861 °F), with the central vent magmas having higher temperatures at amphibole crystallization and also showing evidence of a more complex magma system. [10]

The stratovolcano was active approximately 15 million years ago, during the Miocene. [9] A date of 15.0 ± 0.3 million years ago has been obtained on one lava flow. [3]

See also

References

  1. ^ "Cerro Doña Inés". GEOnet Names Server.
  2. ^ a b c Kay et al. 1994, p. 1085.
  3. ^ a b c d Kay et al. 1994, p. 1087.
  4. ^ a b c d Mpodozis, Constantino; Cornejo, Paula; Kay, Suzanne M.; Tittler, Andrew (1995). "La Franja de Maricunga: sintesis de la evolucion del Frente Volcanico Oligoceno-Mioceno de la zona sur de los Andes Centrales". Andean Geology (in Spanish). 22 (2): 287–288. doi: 10.5027/andgeoV22n2-a10 (inactive 31 January 2024). Retrieved 24 August 2016.{{ cite journal}}: CS1 maint: DOI inactive as of January 2024 ( link)
  5. ^ Walker, James A.; Moulds, Tari N.; Zentilli, Marcos; Feigenson, Mark D. (1991). "Spatial and temporal variations in volcanics of the Andean Central Volcanic Zone (26 to 28°S)". Andean Magmatism and Its Tectonic Setting. Geological Society of America Special Papers. Vol. 265. p. 143. doi: 10.1130/SPE265-p139. ISBN  0-8137-2265-9. ISSN  0072-1077.
  6. ^ Kay et al. 1994, p. 1082.
  7. ^ Gonzalez-Ferran, O.; Baker, P.E.; Rex, D.C. (March 1985). "Tectonic-volcanic discontinuity at latitude 27° south Andean Range, associated with Nazca Plate Subduction". Tectonophysics. 112 (1–4): 431. Bibcode: 1985Tectp.112..423G. doi: 10.1016/0040-1951(85)90189-1.
  8. ^ Guzmán, Silvina; Grosse, Pablo; Montero-López, Carolina; Hongn, Fernando; Pilger, Rex; Petrinovic, Ivan; Seggiaro, Raúl; Aramayo, Alejandro (December 2014). "Spatial–temporal distribution of explosive volcanism in the 25–28°S segment of the Andean Central Volcanic Zone". Tectonophysics. 636: 174. Bibcode: 2014Tectp.636..170G. doi: 10.1016/j.tecto.2014.08.013. hdl: 11336/32061.
  9. ^ a b Kay et al. 1994, p. 1081.
  10. ^ Hines, R.A.; Walker, J.A. (December 2012). "Amphibole stability using new thermobarometric formulations on calc-alkaline magmas of Volcán Doña Inés, Chile". AGU Fall Meeting Abstracts. 2012. American Geophysical Union, Fall Meeting 2012. Bibcode: 2012AGUFM.T13G2720H.

Sources

  • Kay, Suzanne Mahlburg; Mpodozis, Constantino; Tittler, Andrew; Cornejo, Paula (December 1994). "Tertiary Magmatic Evolution of the Maricunga Mineral Belt in Chile". International Geology Review. 36 (12): 1079–1112. Bibcode: 1994IGRv...36.1079K. doi: 10.1080/00206819409465506.

External links

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