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Solimana (volcano)

January 01, 1970

For the mountain in the Castilla Province, Arequipa Region, Peru, see Solimana (Castilla).

Solimana[4][5] is a volcanic massif in the Andes of Peru, South America, that is approximately 6,093 metres (19,990 ft) high.[6] [a] It is considered an extinct stratovolcano that is part of the Central Volcanic Zone, one of the volcanic belts of the Andes. It features a caldera as well as traces of a sector collapse and subsequent erosion. The volcano is glaciated.

Solimana
Highest point
Elevation6,093 m (19,990 ft)[1]
Prominence1,461 m (4,793 ft)[2]
Parent peakCoropuna
Coordinates15°24′36″S 72°53′35″W / 15.41000°S 72.89306°W / -15.41000; -72.89306
Geography
Solimana
Peru
LocationArequipa Region
Parent rangeAndes
Geology
Mountain typeStratovolcano[3]
Last eruptionPleistocene[3]
Climbing
First ascentFirst ascent to the main summit (central peak), 6’093m.(19’990 ft), on 1st August 1970 by Mario Bignami (CAI) Italy, and Julian Blanco Herrera, Peru.

Geomorphology and geography edit

Regional edit

It is situated in the Arequipa Region, Condesuyos Province, in the districts of Chichas and Salamanca, and in the La Unión Province, in the districts of Cotahuasi and Toro.[11] Several towns lie around the volcano.[12]

Solimana is part of the Peruvian segment of the Central Volcanic Zone of the Andes. The Central Volcanic Zone in this segment has both generated large composite volcanoes which rise 2–3 kilometres (1.2–1.9 mi) above their basement and monogenetic volcanoes and volcanic fields. This zone of volcanoes includes, from northwest to southeast, Sara Sara, Solimana, Coropuna, Andagua volcanic field, Huambo volcanic field, Ampato, Sabancaya, Cerro Nicholson, Chachani, Misti, Ubinas, Huaynaputina, Ticsani, and Tutupaca, some of which have been active during historical time.[13]

Local edit

Solimana rises above an approximately 4-kilometre (2.5 mi) high basement.[14] It has a caldera,[15] which gives it an asymmetric appearance; further on the south flank both the basement and inner parts of the edifice crop out. This asymmetry was caused by large sector collapses and subsequent erosion of the southern flank.[14] The main edifice is formed by a compound volcano accompanied by lava domes and lava flows as well as pyroclastic flows and lahars, the latter relating to the formation of the collapse structure.[16]

Solimana has a high relief reaching approximately 2,000 metres (6,600 ft),[17] the consequence of glacial erosion.[15] Neighbouring canyons have begun to incise the edifice.[18] The Cotahuasi Canyon runs north of Solimana, and the southern flank is drained by numerous quebradas.[12]

During the last glacial maximum a number of glaciers developed on Solimana, the longest of which occupied the Quebrada Caño on the northern flank[15] and reached 9 kilometres (5.6 mi) length.[19] There have been approximately five episodes of glaciation on Solimana in total.[20] Later glaciations after the Last Glacial maximum emplaced conspicuous moraines, which are well preserved by the arid climate. Presently, glaciers are restricted to a valley on the northern slope and the steep southeastern flank;[15] a report in 1992 indicated the presence of an ice cap covering a surface of 50 square kilometres (19 sq mi).[14] In addition, rock glaciers are present on Solimana.[21]

Geology edit

 
Aerial photo of Solimana (foreground), Coropuna (upper right) and Sabancaya (upper left)

The Nazca Plate subducts beneath the South America Plate at a rate of 61 ± 3 millimetres per year (2.40 ± 0.12 in/year); it has slowed since the Oligocene. This subduction process is responsible for the formation of the Andes mountains in the region.[22]

Together with Sara Sara and Coropuna, Solimana is located on the northwestern end of the Central Volcanic Zone; no volcanism occurs farther north where the Nazca Plate subducts at a shallower angle than beneath the Central Volcanic Zone.[1] Of these volcanoes, Solimana is considered to be the oldest and Coropuna the youngest.[14] Solimana together with Ampato and Coropuna form the Cordillera Ampato.[23]

The basement dates back to the Precambrian-Paleozoic and is buried beneath several pre-Oligocene formations. The Tacaza formation forms a Miocene-Oligocene layer of volcanic and sedimentary rocks that are overlain by Quaternary volcanoes, which include the Barroso Group formation and the Pliocene Sencca formation.[14]

Composition edit

Samples taken from Solimana are andesite and dacite, but more recently basaltic andesite was erupted as well.[24] The rocks contain hornblende, hypersthene, and plagioclase,[25] with additional olivine in the phreatomagmatic deposits.[24]

The geochemistry of volcanoes of the Central Volcanic Zone typically displays strong evidence of crustal contamination, which is attributed to the thick crust that has developed in this region.[22] A granulitic basement may be a plausible origin of this contamination,[26] with additional contribution of subducted sediments.[27]

Vegetation edit

Llareta and ichu grass form the thin vegetation up to about 5,000 metres (16,000 ft) altitude.[15]

Archeology edit

The Inca considered Solimana and Coropuna to be sacred mountains,[28] which were within the Inca Condesuyos province.[29]

In 2008, an Inca archeological site was discovered on Solimana's eastern flank, in the locality of Minticocha. The site most likely served religious and ceremonial purposes. According to colonial period sources, Solimana is the site of a major oracle, but this oracle is more likely to be located at Muyu Muyu close to the town of Yanque than at Minticocha.[30]

First ascent edit

First ascent to the main summit (central peak), 6’093m.(19’990 ft), on 1st August 1970 by Mario Bignami (CAI) Italy, and Julian Blanco Herrera, Peru. Note: In 1952, Mathias Rebitsch, Piero Ghiglione, Anders Bolinder and Alberto Parodi climbed the North peak, the second highest peak.[31][32]

Eruption history edit

Solimana is an extinct volcano. It was active during the Miocene and Pliocene between 4 and 1.5 million years ago,[14] with the last eruption occurring between 500,000 and 300,000 years ago.[17] The collapses occurred at some time between 3.05 and 1.5 million years ago and after the collapse volcanism became centered inside the collapse scar and its margins, with the youngest activity forming phreatomagmatic deposits within the caldera and a scoria cone on its south.[16]

Solimana may be the source of the Lomas pyroclastic flow deposit and the Upper Sencca ignimbrite.[33] The Upper Sencca ignimbrite was erupted between 1.76 and 2.09 million years ago and filled several valleys with 13–32 cubic kilometres (3.1–7.7 cu mi) of material, while the Lomas deposit was erupted between 1.56 and 1.26 million years ago.[34] Solimana still features fumarolic activity within the caldera[16] and the Peruvian geophysical institute has installed a geodesic control point on the volcano.[35] It is considered a moderately dangerous volcano.[36]

Notes edit

  1. ^ Other data from available digital elevation models: SRTM yields 6,020 metres (19,750 ft),[7] ASTER 6,010 metres (19,720 ft)[8] and TanDEM-X 6,015 metres (19,734 ft).[9] The nearest key col reaches an elevation of 4,632 metres (15,197 ft) and the volcano has a topographic prominence of 1,461 metres (4,793 ft) with a dominance of 23.98%. Its parent peak is Coropuna and the Topographic isolation is 29.1 kilometres (18.1 mi).[10]

References edit

  1. ^ a b Vatin-Pérignon, Nicole; Oliver, Richard A.; Goemans, Pierre; Keller, Francine; Briqueu, Louis; Guido Salas, A. (30 April 1992). "Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano, southern Peru". Tectonophysics. 205 (1): 330. Bibcode:1992Tectp.205..329V. doi:10.1016/0040-1951(92)90434-8.
  2. ^ "Solimana". Andes Specialists. Retrieved 2020-04-12.
  3. ^ a b "Solimana". Global Volcanism Program. Smithsonian Institution. Retrieved 2019-09-05.
  4. ^ Peru 1:100 000, Cotahuasi (31-q). IGN (Instituto Geográfico Nacional – Perú).
  5. ^ Ziółkowski, Mariusz (2008). "Coropuna y Solimana: los oráculos de Condesuyos". In Curatola, Marco; Ziółkowski, Mariusz (eds.). Adivinación y oráculos en el mundo andino antiguo. Lima: Fondo Editorial PUCP – IFEA. pp. 121–159. ISBN 9789972428463.
  6. ^ Biggar, John (2020). The Andes: A Guide for Climbers and Skiers. Andes. p. 181. ISBN 9780953608768.
  7. ^ USGS, EROS Archive. "USGS EROS Archive - Digital Elevation - SRTM Coverage Maps". Retrieved 12 April 2020.
  8. ^ "ASTER GDEM Project". ssl.jspacesystems.or.jp. Retrieved 2020-04-14.
  9. ^ TanDEM-X, TerraSAR-X. "Copernicus Space Component Data Access". Retrieved 12 April 2020.
  10. ^ "Solimana". Andes Specialists. Retrieved 2020-04-12.
  11. ^ escale.minedu.gob.pe – UGEL Map of the Condesuyos Province (Arequipa Region)
  12. ^ a b Defense Mapping Agency Hydrographic/Topographic Center, Washington DC (1977). Cotahuasi; Peru (PDF) (Map) (1 ed.). 1:100000. Joint Operations Graphic. Solimana.
  13. ^ Delacour, Adélie; Gerbe, Marie-Christine; Thouret, Jean-Claude; Wörner, Gerhard; Paquereau-Lebti, Perrine (1 April 2007). "Magma evolution of Quaternary minor volcanic centres in southern Peru, Central Andes" (PDF). Bulletin of Volcanology. 69 (6): 582. Bibcode:2007BVol...69..581D. doi:10.1007/s00445-006-0096-z. hdl:20.500.11850/67949. ISSN 0258-8900. S2CID 128636358.
  14. ^ a b c d e f Vatin-Pérignon, Nicole; Oliver, Richard A.; Goemans, Pierre; Keller, Francine; Briqueu, Louis; Guido Salas, A. (30 April 1992). "Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano, southern Peru". Tectonophysics. 205 (1): 331–332. Bibcode:1992Tectp.205..329V. doi:10.1016/0040-1951(92)90434-8.
  15. ^ a b c d e Bromley, Gordon R.M.; Hall, Brenda L.; Rademaker, Kurt M.; Todd, Claire E.; Racovteanu, Adina E. (1 March 2011). "Late Pleistocene snowline fluctuations at Nevado Coropuna (15°S), southern Peruvian Andes". Journal of Quaternary Science. 26 (3): 307. Bibcode:2011JQS....26..305B. doi:10.1002/jqs.1455. hdl:10379/14782. ISSN 1099-1417. S2CID 140657748.
  16. ^ a b c Vatin-Pérignon, Nicole; Oliver, Richard A.; Goemans, Pierre; Keller, Francine; Briqueu, Louis; Guido Salas, A. (30 April 1992). "Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano, southern Peru". Tectonophysics. 205 (1): 333. Bibcode:1992Tectp.205..329V. doi:10.1016/0040-1951(92)90434-8.
  17. ^ a b Bromley, Gordon R.M.; Hall, Brenda L.; Rademaker, Kurt M.; Todd, Claire E.; Racovteanu, Adina E. (1 March 2011). "Late Pleistocene snowline fluctuations at Nevado Coropuna (15°S), southern Peruvian Andes". Journal of Quaternary Science. 26 (3): 306. Bibcode:2011JQS....26..305B. doi:10.1002/jqs.1455. hdl:10379/14782. ISSN 1099-1417. S2CID 140657748.
  18. ^ Karátson, D.; Telbisz, T.; Wörner, G. (2012). "Erosion rates and erosion patterns of Neogene to Quaternary stratovolcanoes in the Western Cordillera of the Central Andes: An SRTM DEM based analysis". Geomorphology. 139–140: 131. Bibcode:2012Geomo.139..122K. doi:10.1016/j.geomorph.2011.10.010.
  19. ^ Bromley, Gordon R.M.; Hall, Brenda L.; Rademaker, Kurt M.; Todd, Claire E.; Racovteanu, Adina E. (1 March 2011). "Late Pleistocene snowline fluctuations at Nevado Coropuna (15°S), southern Peruvian Andes". Journal of Quaternary Science. 26 (3): 309. Bibcode:2011JQS....26..305B. doi:10.1002/jqs.1455. hdl:10379/14782. ISSN 1099-1417. S2CID 140657748.
  20. ^ "Late Quaternary glacier fluctuations and climate change at Nevado Coropuna, Southern Peru". gsa.confex.com. Retrieved 2017-11-10.
  21. ^ Dornbusch, Uwe (1 January 2005). "Glacier-rock glacier relationships as climatic indicators during the late Quaternary in the Cordillera Ampato, Western Cordillera of southern Peru". Geological Society, London, Special Publications. 242 (1): 77. Bibcode:2005GSLSP.242...75D. doi:10.1144/GSL.SP.2005.242.01.07. ISSN 0305-8719. S2CID 129250875.
  22. ^ a b Delacour, Adélie; Gerbe, Marie-Christine; Thouret, Jean-Claude; Wörner, Gerhard; Paquereau-Lebti, Perrine (1 April 2007). "Magma evolution of Quaternary minor volcanic centres in southern Peru, Central Andes" (PDF). Bulletin of Volcanology. 69 (6): 585. Bibcode:2007BVol...69..581D. doi:10.1007/s00445-006-0096-z. hdl:20.500.11850/67949. ISSN 0258-8900. S2CID 128636358.
  23. ^ "Peruvian Cordilleras". usgs.gov. USGS.
  24. ^ a b Vatin-Pérignon, Nicole; Oliver, Richard A.; Goemans, Pierre; Keller, Francine; Briqueu, Louis; Guido Salas, A. (30 April 1992). "Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano, southern Peru". Tectonophysics. 205 (1): 334. Bibcode:1992Tectp.205..329V. doi:10.1016/0040-1951(92)90434-8.
  25. ^ Aramaki, Shigeo; Onuma, Naoki; Portillo, Felix (1984). "Petrography and major element chemistry of the volcanic rocks of the Andes, southern Peru". Geochemical Journal. 18 (5): 227. Bibcode:1984GeocJ..18..217A. doi:10.2343/geochemj.18.217.
  26. ^ Vatin-Pérignon, Nicole; Oliver, Richard A.; Goemans, Pierre; Keller, Francine; Briqueu, Louis; Guido Salas, A. (30 April 1992). "Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano, southern Peru". Tectonophysics. 205 (1): 349. Bibcode:1992Tectp.205..329V. doi:10.1016/0040-1951(92)90434-8.
  27. ^ Vatin-Pérignon, Nicole; Oliver, Richard A.; Goemans, Pierre; Keller, Francine; Briqueu, Louis; Guido Salas, A. (1 April 1992). "Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano, southern Peru". Tectonophysics. 205 (1): 329–355. Bibcode:1992Tectp.205..329V. doi:10.1016/0040-1951(92)90434-8. ISSN 0040-1951.
  28. ^ Baca, Mateusz; Molak, Martyna; Sobczyk, Maciej; Węgleński, Piotr; Stankovic, Anna (1 July 2014). "Locals, resettlers, and pilgrims: A genetic portrait of three pre-Columbian Andean populations". American Journal of Physical Anthropology. 154 (3): 402–412. doi:10.1002/ajpa.22524. ISSN 1096-8644. PMID 24801631.
  29. ^ Ziólkowski, Mariusz S. (2008). "Coropuna y Solimana : los oráculos de Condesuyos". Adivinación y oráculos en el mundo andino antiguo.
  30. ^ "Descubren altar inca en el Solimana" (in Spanish). Universia. 2 July 2008. Retrieved 11 November 2017.
  31. ^ A. Parodi’s Report “AAJ 1971”
  32. ^ Mario Fantin, Tomo II ”Alpinismo Italiano nel Mondo” p.633,699
  33. ^ Thouret, Jean-Claude; Jicha, Brian R.; Paquette, Jean-Louis; Cubukcu, Evren H. (1 September 2016). "A 25 myr chronostratigraphy of ignimbrites in south Peru: implications for the volcanic history of the Central Andes". Journal of the Geological Society. 173 (5): 754. Bibcode:2016JGSoc.173..734T. doi:10.1144/jgs2015-162. ISSN 0016-7649. S2CID 131293712.
  34. ^ Thouret, Jean-Claude; Jicha, Brian R.; Paquette, Jean-Louis; Cubukcu, Evren H. (1 September 2016). "A 25 myr chronostratigraphy of ignimbrites in south Peru: implications for the volcanic history of the Central Andes". Journal of the Geological Society. 173 (5): 750–751. Bibcode:2016JGSoc.173..734T. doi:10.1144/jgs2015-162. ISSN 0016-7649. S2CID 131293712.
  35. ^ Vargas Alva, Katherine Andrea; Cruz Igme, John Edward; Villegas Lanza, Juan Carlos (April 2020). "Monitoreo de la deformación volcánica con GNSS en los volcanes activos del Perú": 9. {{cite journal}}: Cite journal requires |journal= (help)
  36. ^ Del Carpio Calienes, José Alberto; Rivera, Marco; Torres, José; Tavera, Hernando; Puma, Nino (August 2022). "Evaluación del peligro volcánico en Perú: una herramienta para la gestión del riesgo de desastres". {{cite journal}}: Cite journal requires |journal= (help)

January 01, 1970
solimana, volcano, mountain, castilla, province, arequipa, region, peru, solimana, castilla, solimana, volcanic, massif, andes, peru, south, america, that, approximately, metres, high, considered, extinct, stratovolcano, that, part, central, volcanic, zone, vo. For the mountain in the Castilla Province Arequipa Region Peru see Solimana Castilla Solimana 4 5 is a volcanic massif in the Andes of Peru South America that is approximately 6 093 metres 19 990 ft high 6 a It is considered an extinct stratovolcano that is part of the Central Volcanic Zone one of the volcanic belts of the Andes It features a caldera as well as traces of a sector collapse and subsequent erosion The volcano is glaciated SolimanaHighest pointElevation6 093 m 19 990 ft 1 Prominence1 461 m 4 793 ft 2 Parent peakCoropunaCoordinates15 24 36 S 72 53 35 W 15 41000 S 72 89306 W 15 41000 72 89306GeographySolimanaPeruLocationArequipa RegionParent rangeAndesGeologyMountain typeStratovolcano 3 Last eruptionPleistocene 3 ClimbingFirst ascentFirst ascent to the main summit central peak 6 093m 19 990 ft on 1st August 1970 by Mario Bignami CAI Italy and Julian Blanco Herrera Peru Contents 1 Geomorphology and geography 1 1 Regional 1 2 Local 2 Geology 2 1 Composition 3 Vegetation 4 Archeology 5 First ascent 6 Eruption history 7 Notes 8 ReferencesGeomorphology and geography editRegional edit It is situated in the Arequipa Region Condesuyos Province in the districts of Chichas and Salamanca and in the La Union Province in the districts of Cotahuasi and Toro 11 Several towns lie around the volcano 12 Solimana is part of the Peruvian segment of the Central Volcanic Zone of the Andes The Central Volcanic Zone in this segment has both generated large composite volcanoes which rise 2 3 kilometres 1 2 1 9 mi above their basement and monogenetic volcanoes and volcanic fields This zone of volcanoes includes from northwest to southeast Sara Sara Solimana Coropuna Andagua volcanic field Huambo volcanic field Ampato Sabancaya Cerro Nicholson Chachani Misti Ubinas Huaynaputina Ticsani and Tutupaca some of which have been active during historical time 13 Local edit Solimana rises above an approximately 4 kilometre 2 5 mi high basement 14 It has a caldera 15 which gives it an asymmetric appearance further on the south flank both the basement and inner parts of the edifice crop out This asymmetry was caused by large sector collapses and subsequent erosion of the southern flank 14 The main edifice is formed by a compound volcano accompanied by lava domes and lava flows as well as pyroclastic flows and lahars the latter relating to the formation of the collapse structure 16 Solimana has a high relief reaching approximately 2 000 metres 6 600 ft 17 the consequence of glacial erosion 15 Neighbouring canyons have begun to incise the edifice 18 The Cotahuasi Canyon runs north of Solimana and the southern flank is drained by numerous quebradas 12 During the last glacial maximum a number of glaciers developed on Solimana the longest of which occupied the Quebrada Cano on the northern flank 15 and reached 9 kilometres 5 6 mi length 19 There have been approximately five episodes of glaciation on Solimana in total 20 Later glaciations after the Last Glacial maximum emplaced conspicuous moraines which are well preserved by the arid climate Presently glaciers are restricted to a valley on the northern slope and the steep southeastern flank 15 a report in 1992 indicated the presence of an ice cap covering a surface of 50 square kilometres 19 sq mi 14 In addition rock glaciers are present on Solimana 21 Geology edit nbsp Aerial photo of Solimana foreground Coropuna upper right and Sabancaya upper left The Nazca Plate subducts beneath the South America Plate at a rate of 61 3 millimetres per year 2 40 0 12 in year it has slowed since the Oligocene This subduction process is responsible for the formation of the Andes mountains in the region 22 Together with Sara Sara and Coropuna Solimana is located on the northwestern end of the Central Volcanic Zone no volcanism occurs farther north where the Nazca Plate subducts at a shallower angle than beneath the Central Volcanic Zone 1 Of these volcanoes Solimana is considered to be the oldest and Coropuna the youngest 14 Solimana together with Ampato and Coropuna form the Cordillera Ampato 23 The basement dates back to the Precambrian Paleozoic and is buried beneath several pre Oligocene formations The Tacaza formation forms a Miocene Oligocene layer of volcanic and sedimentary rocks that are overlain by Quaternary volcanoes which include the Barroso Group formation and the Pliocene Sencca formation 14 Composition edit Samples taken from Solimana are andesite and dacite but more recently basaltic andesite was erupted as well 24 The rocks contain hornblende hypersthene and plagioclase 25 with additional olivine in the phreatomagmatic deposits 24 The geochemistry of volcanoes of the Central Volcanic Zone typically displays strong evidence of crustal contamination which is attributed to the thick crust that has developed in this region 22 A granulitic basement may be a plausible origin of this contamination 26 with additional contribution of subducted sediments 27 Vegetation editLlareta and ichu grass form the thin vegetation up to about 5 000 metres 16 000 ft altitude 15 Archeology editThe Inca considered Solimana and Coropuna to be sacred mountains 28 which were within the Inca Condesuyos province 29 In 2008 an Inca archeological site was discovered on Solimana s eastern flank in the locality of Minticocha The site most likely served religious and ceremonial purposes According to colonial period sources Solimana is the site of a major oracle but this oracle is more likely to be located at Muyu Muyu close to the town of Yanque than at Minticocha 30 First ascent editFirst ascent to the main summit central peak 6 093m 19 990 ft on 1st August 1970 by Mario Bignami CAI Italy and Julian Blanco Herrera Peru Note In 1952 Mathias Rebitsch Piero Ghiglione Anders Bolinder and Alberto Parodi climbed the North peak the second highest peak 31 32 Eruption history editSolimana is an extinct volcano It was active during the Miocene and Pliocene between 4 and 1 5 million years ago 14 with the last eruption occurring between 500 000 and 300 000 years ago 17 The collapses occurred at some time between 3 05 and 1 5 million years ago and after the collapse volcanism became centered inside the collapse scar and its margins with the youngest activity forming phreatomagmatic deposits within the caldera and a scoria cone on its south 16 Solimana may be the source of the Lomas pyroclastic flow deposit and the Upper Sencca ignimbrite 33 The Upper Sencca ignimbrite was erupted between 1 76 and 2 09 million years ago and filled several valleys with 13 32 cubic kilometres 3 1 7 7 cu mi of material while the Lomas deposit was erupted between 1 56 and 1 26 million years ago 34 Solimana still features fumarolic activity within the caldera 16 and the Peruvian geophysical institute has installed a geodesic control point on the volcano 35 It is considered a moderately dangerous volcano 36 Notes edit Other data from available digital elevation models SRTM yields 6 020 metres 19 750 ft 7 ASTER 6 010 metres 19 720 ft 8 and TanDEM X 6 015 metres 19 734 ft 9 The nearest key col reaches an elevation of 4 632 metres 15 197 ft and the volcano has a topographic prominence of 1 461 metres 4 793 ft with a dominance of 23 98 Its parent peak is Coropuna and the Topographic isolation is 29 1 kilometres 18 1 mi 10 References edit a b Vatin Perignon Nicole Oliver Richard A Goemans Pierre Keller Francine Briqueu Louis Guido Salas A 30 April 1992 Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano southern Peru Tectonophysics 205 1 330 Bibcode 1992Tectp 205 329V doi 10 1016 0040 1951 92 90434 8 Solimana Andes Specialists Retrieved 2020 04 12 a b Solimana Global Volcanism Program Smithsonian Institution Retrieved 2019 09 05 Peru 1 100 000 Cotahuasi 31 q IGN Instituto Geografico Nacional Peru Ziolkowski Mariusz 2008 Coropuna y Solimana los oraculos de Condesuyos In Curatola Marco Ziolkowski Mariusz eds Adivinacion y oraculos en el mundo andino antiguo Lima Fondo Editorial PUCP IFEA pp 121 159 ISBN 9789972428463 Biggar John 2020 The Andes A Guide for Climbers and Skiers Andes p 181 ISBN 9780953608768 USGS EROS Archive USGS EROS Archive Digital Elevation SRTM Coverage Maps Retrieved 12 April 2020 ASTER GDEM Project ssl jspacesystems or jp Retrieved 2020 04 14 TanDEM X TerraSAR X Copernicus Space Component Data Access Retrieved 12 April 2020 Solimana Andes Specialists Retrieved 2020 04 12 escale minedu gob pe UGEL Map of the Condesuyos Province Arequipa Region a b Defense Mapping Agency Hydrographic Topographic Center Washington DC 1977 Cotahuasi Peru PDF Map 1 ed 1 100000 Joint Operations Graphic Solimana Delacour Adelie Gerbe Marie Christine Thouret Jean Claude Worner Gerhard Paquereau Lebti Perrine 1 April 2007 Magma evolution of Quaternary minor volcanic centres in southern Peru Central Andes PDF Bulletin of Volcanology 69 6 582 Bibcode 2007BVol 69 581D doi 10 1007 s00445 006 0096 z hdl 20 500 11850 67949 ISSN 0258 8900 S2CID 128636358 a b c d e f Vatin Perignon Nicole Oliver Richard A Goemans Pierre Keller Francine Briqueu Louis Guido Salas A 30 April 1992 Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano southern Peru Tectonophysics 205 1 331 332 Bibcode 1992Tectp 205 329V doi 10 1016 0040 1951 92 90434 8 a b c d e Bromley Gordon R M Hall Brenda L Rademaker Kurt M Todd Claire E Racovteanu Adina E 1 March 2011 Late Pleistocene snowline fluctuations at Nevado Coropuna 15 S southern Peruvian Andes Journal of Quaternary Science 26 3 307 Bibcode 2011JQS 26 305B doi 10 1002 jqs 1455 hdl 10379 14782 ISSN 1099 1417 S2CID 140657748 a b c Vatin Perignon Nicole Oliver Richard A Goemans Pierre Keller Francine Briqueu Louis Guido Salas A 30 April 1992 Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano southern Peru Tectonophysics 205 1 333 Bibcode 1992Tectp 205 329V doi 10 1016 0040 1951 92 90434 8 a b Bromley Gordon R M Hall Brenda L Rademaker Kurt M Todd Claire E Racovteanu Adina E 1 March 2011 Late Pleistocene snowline fluctuations at Nevado Coropuna 15 S southern Peruvian Andes Journal of Quaternary Science 26 3 306 Bibcode 2011JQS 26 305B doi 10 1002 jqs 1455 hdl 10379 14782 ISSN 1099 1417 S2CID 140657748 Karatson D Telbisz T Worner G 2012 Erosion rates and erosion patterns of Neogene to Quaternary stratovolcanoes in the Western Cordillera of the Central Andes An SRTM DEM based analysis Geomorphology 139 140 131 Bibcode 2012Geomo 139 122K doi 10 1016 j geomorph 2011 10 010 Bromley Gordon R M Hall Brenda L Rademaker Kurt M Todd Claire E Racovteanu Adina E 1 March 2011 Late Pleistocene snowline fluctuations at Nevado Coropuna 15 S southern Peruvian Andes Journal of Quaternary Science 26 3 309 Bibcode 2011JQS 26 305B doi 10 1002 jqs 1455 hdl 10379 14782 ISSN 1099 1417 S2CID 140657748 Late Quaternary glacier fluctuations and climate change at Nevado Coropuna Southern Peru gsa confex com Retrieved 2017 11 10 Dornbusch Uwe 1 January 2005 Glacier rock glacier relationships as climatic indicators during the late Quaternary in the Cordillera Ampato Western Cordillera of southern Peru Geological Society London Special Publications 242 1 77 Bibcode 2005GSLSP 242 75D doi 10 1144 GSL SP 2005 242 01 07 ISSN 0305 8719 S2CID 129250875 a b Delacour Adelie Gerbe Marie Christine Thouret Jean Claude Worner Gerhard Paquereau Lebti Perrine 1 April 2007 Magma evolution of Quaternary minor volcanic centres in southern Peru Central Andes PDF Bulletin of Volcanology 69 6 585 Bibcode 2007BVol 69 581D doi 10 1007 s00445 006 0096 z hdl 20 500 11850 67949 ISSN 0258 8900 S2CID 128636358 Peruvian Cordilleras usgs gov USGS a b Vatin Perignon Nicole Oliver Richard A Goemans Pierre Keller Francine Briqueu Louis Guido Salas A 30 April 1992 Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano southern Peru Tectonophysics 205 1 334 Bibcode 1992Tectp 205 329V doi 10 1016 0040 1951 92 90434 8 Aramaki Shigeo Onuma Naoki Portillo Felix 1984 Petrography and major element chemistry of the volcanic rocks of the Andes southern Peru Geochemical Journal 18 5 227 Bibcode 1984GeocJ 18 217A doi 10 2343 geochemj 18 217 Vatin Perignon Nicole Oliver Richard A Goemans Pierre Keller Francine Briqueu Louis Guido Salas A 30 April 1992 Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano southern Peru Tectonophysics 205 1 349 Bibcode 1992Tectp 205 329V doi 10 1016 0040 1951 92 90434 8 Vatin Perignon Nicole Oliver Richard A Goemans Pierre Keller Francine Briqueu Louis Guido Salas A 1 April 1992 Geodynamic interpretations of plate subduction in the northernmost part of the Central Volcanic Zone from the geochemical evolution and quantification of the crustal contamination of the Nevado Solimana volcano southern Peru Tectonophysics 205 1 329 355 Bibcode 1992Tectp 205 329V doi 10 1016 0040 1951 92 90434 8 ISSN 0040 1951 Baca Mateusz Molak Martyna Sobczyk Maciej Weglenski Piotr Stankovic Anna 1 July 2014 Locals resettlers and pilgrims A genetic portrait of three pre Columbian Andean populations American Journal of Physical Anthropology 154 3 402 412 doi 10 1002 ajpa 22524 ISSN 1096 8644 PMID 24801631 Ziolkowski Mariusz S 2008 Coropuna y Solimana los oraculos de Condesuyos Adivinacion y oraculos en el mundo andino antiguo Descubren altar inca en el Solimana in Spanish Universia 2 July 2008 Retrieved 11 November 2017 A Parodi s Report AAJ 1971 Mario Fantin Tomo II Alpinismo Italiano nel Mondo p 633 699 Thouret Jean Claude Jicha Brian R Paquette Jean Louis Cubukcu Evren H 1 September 2016 A 25 myr chronostratigraphy of ignimbrites in south Peru implications for the volcanic history of the Central Andes Journal of the Geological Society 173 5 754 Bibcode 2016JGSoc 173 734T doi 10 1144 jgs2015 162 ISSN 0016 7649 S2CID 131293712 Thouret Jean Claude Jicha Brian R Paquette Jean Louis Cubukcu Evren H 1 September 2016 A 25 myr chronostratigraphy of ignimbrites in south Peru implications for the volcanic history of the Central Andes Journal of the Geological Society 173 5 750 751 Bibcode 2016JGSoc 173 734T doi 10 1144 jgs2015 162 ISSN 0016 7649 S2CID 131293712 Vargas Alva Katherine Andrea Cruz Igme John Edward Villegas Lanza Juan Carlos April 2020 Monitoreo de la deformacion volcanica con GNSS en los volcanes activos del Peru 9 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Del Carpio Calienes Jose Alberto Rivera Marco Torres Jose Tavera Hernando Puma Nino August 2022 Evaluacion del peligro volcanico en Peru una herramienta para la gestion del riesgo de desastres a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Portals nbsp Peru nbsp Volcanoes Retrieved from https en wikipedia org w index php title Solimana volcano amp oldid 1217684387, wikipedia, wiki, book, books, library,

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