Palomo Explained

Palomo
Elevation M:4860
Elevation Ref:[1]
Location:Chile
Range:Andes
Coordinates:-34.608°N -70.295°W
Type:Stratovolcano

Palomo ("dove"; after the shape of its glaciers[2]) is a high Chilean stratovolcano located in the commune of Machali, Cachapoal province, Libertador General Bernardo O'Higgins Region, west of Caldera del Atuel. Together with Tinguiririca it is one of two volcanoes in the region with evidence of Holocene volcanism. The volcano is remote and knowledge on its geology and potential volcanic hazards is limited.[3]

The edifice of the volcano is irregular and various estimates of its volume exist, ranging 16.6-. The best estimate is considered to be . Palomo rises from an elevation of about, and it covers a surface area of .[4] Beneath the volcano lie two calderas with diameters of and ; the summit has a double crater as well, which may reflect a northeastward migration of volcanic activity. northeast of Palomo lies the high Andrès subsidiary vent.[5] This vent features a wide crater that opens to the south. Andrés is constructed on a granitoid basement that slopes into the valley of Rio Cortaderal, and its name relates to the son of Reynaldo Charrier, a geologist who described the subsidiary centre in 2010 and who hoped that his son would one day also know the mountain range. It and Palomo are located on the El Diablo fault; a number of other volcanoes and geothermal manifestations are located along its trace, which separates Mesozoic and Cenozoic geological formations.[6]

The volcano is flanked by glaciers.[7] Several of these sizeable glaciers form the Rio Blanco, Rio Cortaderal and Rio de los Cipreses on the northern flank, which drain into the Cachapoal River. A thermal event in the volcano in 1847 caused a meltwater flood on the Cachapoal River.[8] The southern slope features the Universidad Glacier, which forms the Rio San Andrés which drains into the Tinguiririrca River. With a snowline altitude of 3100-,[9] it was the second longest glacier in Central Chile in 1958, but since then glaciers in the region have shrunk.[10]

The edifice is mainly constructed by lava flows that bury parts of the calderas in the foot of the volcano. Palomo has erupted andesite and dacite,[11] as well as basaltic andesite. All rocks are calc-alkaline rocks of medium potassium content. The main edifice rocks contain abundant phenocrysts dominated by plagioclase; clinopyroxene, orthopyroxene and other minerals are less prevalent. The Andrés edifice has a distinct composition, with more amphibole and olivine and less plagioclase than the main edifice.

Argon–argon dating has been used to date the rocks erupted by Palomo. The main summit yielded dates of 100,000 ± 40,000 years ago, while postglacial lavas of Andrés are dated at 40,000 ± 30,000 years ago, but volcanic activity at Palomo may have continued into pre-Hispanic times. A flood in the Cachapoal Valley in 1847 may have been triggered by a geothermal event on the Palomo volcano.[12] Future activity at Palomo might generate lahars through the melting of ice, which could affect the valleys of the rivers draining the volcano.

See also

External links

Notes and References

  1. 357022. Palomo.
  2. Bobylyova . E. S. . Сергеевна . Бобылева Елена . Structural-and-Semantic Analysis of Oronyms of Chile, Структурно-семантический анализ оронимов Чили . RUDN Journal of Language Studies, Semiotics and Semantics, Вестник Российского университета дружбы народов. Серия: Теория языка. Семиотика. Семантика . 15 December 2016 . 2 . 124 . ru . 2411-1236.
  3. Bertin. Daniel. Orozco. Gabriel. October 2015. Petrografía, geoquímica y peligros volcánicos de los volcanes Palomo y Tinguiririca, VI Región. https://web.archive.org/web/20180613234253/http://biblioteca.sernageomin.cl/opac/DataFiles/14905_v3_pp_124_127.pdf. dead. June 13, 2018. SERNAGEOMIN.
  4. Völker. David. Kutterolf. Steffen. Wehrmann. Heidi. 2011-08-15. Comparative mass balance of volcanic edifices at the southern volcanic zone of the Andes between 33°S and 46°S. Journal of Volcanology and Geothermal Research. 205. 3–4. 119. 10.1016/j.jvolgeores.2011.03.011. 2011JVGR..205..114V.
  5. Charrier. Reynaldo. 2010-08-30. Los Volcanes Andres y Don Casimiro: Dos Centros Descubiertos en los Andes Entre 34° y 34°45' Latitud Sur. Andean Geology. es. 8. 0718-7106.
  6. Charrier . Reynaldo . Iturrizaga . Lasafam . Carretier . Sébastien . Regard . Vincent . Charrier . Reynaldo . Iturrizaga . Lasafam . Carretier . Sébastien . Regard . Vincent . Evolución geomorfológica y glaciar de las hoyas de los ríos Maipo superior y Cachapoal en la Cordillera Principal Andina, Chile central (34°-35° S) . Andean Geology . May 2019 . 46 . 2 . 240–278 . 10.5027/andgeov46n2-3108 . 0718-7106. free .
  7. Rivera. A.. Bown. F.. Brock. B. W.. Burger. F.. Carrión. D.. Cisternas. S.. Gacitúa. G.. Oberreuter. J.. Silva. R.. 2013-05-01. Outline of recent research on ice-volcano interactions in Southern Chile. 2013AGUSMGC44A..02R. AGU Spring Meeting Abstracts. 44. GC44A–02.
  8. Rojas. Octavio. Mardones. María. Arumí. José Luis. Aguayo. Mauricio. 2014-05-01. Una revisión de inundaciones fluviales en Chile, período 1574–2012: causas, recurrencia y efectos geográficos. Revista de Geografía Norte Grande. 57. 177–192. 10.4067/S0718-34022014000100012. 0718-3402. free.
  9. Book: Singh, Ram Bali. Dynamics of Mountain Geosystems. 1992-01-01. APH Publishing. 9788170244721. 168.
  10. Lliboutry. Louis. Louis Lliboutry. 1958. Studies of the Shrinkage After a Sudden Advance, Blue Bands and Wave Ogives on Glaciar Universidad (Central Chilean Andes). Journal of Glaciology. 3. 24. 261. 10.1017/S002214300002390X. 0022-1430. 1958JGlac...3..261L. free.
  11. Hickey-Vargas. Rosemary. Holbik. Sven. Tormey. Daniel. Frey. Frederick A.. Moreno Roa. Hugo. Hugo Moreno Roa. 2016-08-01. Basaltic rocks from the Andean Southern Volcanic Zone: Insights from the comparison of along-strike and small-scale geochemical variations and their sources. Lithos. 258–259. 120. 10.1016/j.lithos.2016.04.014. 2016Litho.258..115H.
  12. Iturrizaga . Lasafam . Charrier . Reynaldo . Sudden glacier advances in the Cachapoal Valley, Southern Central Andes of Chile (34°S) . Journal of South American Earth Sciences . 1 January 2021 . 105 . 20 . 10.1016/j.jsames.2020.102787 . 2021JSAES.10502787I . 225396202 . en . 0895-9811.