Volcanic geoheritage in Arequipa, Southern Peru: Assessment of pilot geosites for geohazard resilience

Carla Arias , Benjamin Van Wyk de Vries , Rigoberto Aguilar , Jersy Mariño , Kevin Cueva , Nélida Manrique , Bilberto Zavala , Andy Ancalle

International Journal of Geoheritage and Parks ›› 2025, Vol. 13 ›› Issue (1) : 44 -67.

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International Journal of Geoheritage and Parks ›› 2025, Vol. 13 ›› Issue (1) :44 -67. DOI: 10.1016/j.ijgeop.2024.11.010
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Volcanic geoheritage in Arequipa, Southern Peru: Assessment of pilot geosites for geohazard resilience

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Abstract

Arequipa, often referred to as “White City, land of volcanoes,” is located in Southern Peru and is a designated UNESCO World Heritage Site. Its amazing landscape is framed by three imposing volcanoes: Chachani, Misti, and Pichu Pichu, reflecting a rich volcanic history evident in several geological sites both within and around the city. A total of 12 pilot geosites related to Chachani and Misti volcanoes, as well as Yura monogenetic field, have been inventoried and assessed. These encompass a range of volcanic deposits, structures, and scenic viewpoints, and have been classified based on their scientific, educational, and touristic value. The selection of these geosites was based on multiple criteria to ensure objectivity, prioritizing those that are the most representative, unique, in good conservation status, and of great scientific importance. Additionally, degradation risks have been evaluated to implement appropriate geoconservation measures and address potential threats according to their urgency. The assessment has followed a holistic methodology, inspired by successful models from previous studies, and recommendations have been made for developing an integrated management plan. The next step is to prepare the geosites for public use by developing geo-routes that highlight the volcanic geoheritage, while also integrating Arequipa's historical and cultural legacy. These geosites play a crucial role in geoeducation, raising awareness about volcanology and volcanic hazards. Moreover, the development of geotourism as a sustainable natural resource not only brings socioeconomic benefits to the local population but also fosters a deeper connection and identity with the territory. This enhanced sense of belonging strengthens community resilience to geological hazards, enabling better preparedness and adaptive strategies in the face of potential risks.

Keywords

volcanic geoheritage / volcanic hazards / geoconservation / geoeducation / resilience

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Carla Arias, Benjamin Van Wyk de Vries, Rigoberto Aguilar, Jersy Mariño, Kevin Cueva, Nélida Manrique, Bilberto Zavala, Andy Ancalle. Volcanic geoheritage in Arequipa, Southern Peru: Assessment of pilot geosites for geohazard resilience. International Journal of Geoheritage and Parks, 2025, 13(1): 44-67 DOI:10.1016/j.ijgeop.2024.11.010

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

N. Adams, S. de Silva, S. Self, G. Salas, S. Schubring, J. Permenter, K. Arbesman. The physical volcanology of the 1600 eruption of Huaynaputina, Southern Peru. Bulletin of Volcanology, 62 (8) (2001), pp. 493-518, 10.1007/s00445-000-0105-3
[2]

R. Aguilar, D. Arteaga, N. Manrique, B. van Wyk de Vries, K. Cueva, E. Taipe, … V. Scao. Quaternary volcanism in the Yura Monogenetic Field near Arequipa city, Southern Peru. Frontiers in Earth Science, 10 (2022), Article 904914, 10.3389/feart.2022.904914
[3]

R. Aguilar, J.-C. Thouret, P. Samaniego, G. Wörner, B. Jicha, J.-L. Paquette, … A. Finizola.Growth and evolution of long-lived, large volcanic clusters in the Central Andes: The Chachani Volcano Cluster, Southern Peru. Journal of Volcanology and Geothermal Research, 426 (2022), Article 107539, 10.1016/j.jvolgeores.2022.107539
[4]

C. Arias. Recursos geoturísticos generados a partir del impacto de la erupción del volcán Huaynaputina del año 1600 d.C. como patrimonio geológico [The geological tourism resources generated by the eruption of the Huaynaputina volcano in 1600 AD are considered as geological heritage]. Universidad Nacional del Altiplano (2021) http://repositorio.unap.edu.pe/handle/20.500.14082/15619
[5]

C. Arias.Assessment and management of geoheritage in active volcanic areas: Threats, challenges, and opportunities (Master’s thesis) Universidade do Minho-Braga, Portugal (2024) http://www.dct.uminho.pt/mest/pgg/docs/tese_salazar.pdf
[6]

C. Arias, N. Manrique,R. Aguilar, B. van Wyk de Vries Geosite assessment in Arequipa city-Peru: UNESCO IGCP 692 project Geoheritage for Geohazard Resilience. Paper presented at the 23rd EGU General Assembly (held online) (2021), 10.5194/egusphere-egu21-8355
[7]

D. Arteaga, N. Manrique, R. Aguilar. Volcanes monogenéticos de Yura: Geología y petrografía para el entendimiento de la actividad volcánica en Arequipa [Monogenetic volcanoes of Yura: geology and petrography for the understanding of volcanic activity in Arequipa]. Retrieved from https://hdl.handle.net/20.500.12544/4359 (2021)
[8]

D. Arteaga, N. Manrique, R. Aguilar.Geología de volcanes: campo monogenético de Yura. Distrito Yura, provincia Arequipa, departamento Arequipa [Volcanic geology: Yula’s single cause field, Yura District, Arequipa Province] (Technical Report A7443) INGEMMET, Lima (2023) https://hdl.handle.net/20.500.12544/4828
[9]

Asociación de Servicios de Geología y Minería de Iberoamérica (ASGMI). Bases para el desarrollo común del Patrimonio Geológico en los servicios geológicos de Iberoamérica [The foundation for the common development of geological heritage in the Iberian American Geological Services Department]. Method proposal passed at the 24th ASGMI Congress, Salta, Argentina (2018, August)
[10]

K. Bernard, B. van Wyk de Vries, J.C. Thouret. Fault textures in volcanic debris-avalanche deposits and transformations into lahars: The Pichu Pichu thrust lobes in South Peru compared to worldwide avalanche deposits. Journal of Volcanology and Geothermal Research, 371 (2019), pp. 116-136, 10.1016/j.jvolgeores.2019.01.008
[11]

J. Brilha.Património geológico e geoconservação. A conservação da natureza na sua vertente geológica [Geological heritage and geoconservation: Nature conservation in its geological aspect] (p. 183). Retrieved from https://geoduma.files.wordpress.com/2010/02/jb_livro.pdf (2005)
[12]

J. Brilha. Inventory and quantitative assessment of geosites and geodiversity sites: A review. Geoheritage, 8 (2) (2016), pp. 119-134, 10.1007/s12371-014-0139-3
[13]

G. Bromley, J.C. Thouret, I. Schimmelpfennig, J. Mariño, D. Valdivia, K. Rademaker, … K. Keddadouche. In situ cosmogenic 3He and 36Cl and radiocarbon dating of volcanic deposits refine the Pleistocene and Holocene eruption chronology of SW Peru. Bulletin of Volcanology, 81 (11) (2019), p. 64, 10.1007/s00445-019-1325-6
[14]

L. Cacya, J. Mariño, M. Rivera, J.C. Thouret. La erupción pliniana “Autopista” del volcán Misti (21,000-11,000 años AP) [The Pliny “highway” eruption of Misty volcano (Associated Press 21000-11000)]. Boletín de la Sociedad Geológica del Perú, 102 (2007), pp. 25-42 https://hdl.handle.net/20.500.12544/388
[15]

L. Carcavilla, J. Lopez, J. Duran. Patrimonio geológico y geodiversidad: investigación, conservación, gestión y relación con los espacios naturales protegidos [Geological heritage and geological diversity: Research, protection, management, and relationship with protected natural spaces] (p. 360) Instituto Geológico y Minero de España, Madrid (2007)
[16]

T.J. Casadevall, D. Tormey, D. Van Sistine. Protecting our global volcanic estate: Review of international conservation efforts. International Journal of Geoheritage and Parks, 7 (4) (2019), pp. 182-191, 10.1016/j.ijgeop.2020.01.002
[17]

A. Cendrero. El Patrimonio Geológico. Ideas para su protección, conservación y utilización [Geological heritage: The idea of protecting, preserving, and using them]. Ministerio de Obras Públicas, Transportes y Medio Ambiente (MOPTMA) (Ed.), Patrimonio geológico. Bases para su valoración, protección, conservación y utilización [Geological heritage: The basis for evaluation, protection, preservation, and use] (pp. 17-27). Serie Monografías, MOPTMA, Madrid, España (1996)
[18]

J.A. Chávez Chávez. La erupción del volcán Misti [The eruption of Misty volcano]. Arequipa: Impresiones Zenit (1992)
[19]

G. Cobeñas, J.-C. Thouret, C. Bonadonna, P. Boivin.The c. 2030 yr BP Plinian eruption of El Misti volcano, Peru: Eruption dynamics and hazard implications. Journal of Volcanology and Geothermal Research, 241-242 (2012), pp. 105-120, 10.1016/j.jvolgeores.2012.06.006
[20]

J. Cuno. “sugar” deposit in Arequipa city] (Undergraduate thesis) Arequipa, Peru, Universidad Nacional de San Agustin (2018) https://repositorio.unsa.edu.pe/bitstreams/1c4aaf8d-4b0c-475b-bfe9-f9b2893ece58/download
[21]

A. Delacour, M.-C. Gerbe, J.-C. Thouret, G. Wörner, P. Paquereau-Lebti. Magma evolution of Quaternary minor volcanic centres in Southern Peru, central Andes. Bulletin of Volcanology, 69 (6) (2007), pp. 581-608, 10.1007/s00445-006-0096-z
[22]

G. Delaite, J.-C. Thouret, M. Sheridan, P. Labazuy, A. Stinton, T. Souriot, C. van Westen. Assessment of volcanic hazards of El Misti and in the Arequipa city, based on GIS and simulations, with emphasis on lahars. Zeitschrift für Geomorphologie Supplementband, 140 (2005), pp. 209-231 https://app.ingemmet.gob.pe/biblioteca/pdf/P-925.pdf
[23]

J. Dóniz-Páez, N. Pérez. El Hierro Island Global Geopark: Diversity of volcanic heritage for geotourism. Geoheritage, Geoparks and Geotourism, Springer, Cham (2023), 10.1007/978-3-031-07289-5
[24]

G.A. Douillet, U. Kueppers, C. Mato, Q. Chaffaut, M. Bouysson, R. Reschetizka, … B. Bernard. Revisiting the lacquer peels method with pyroclastic deposits: Sediment plates, a precise, fine scale imaging method and powerful outreach tool. Journal of Applied Volcanology, 7 (1) (2018), p. 11, 10.1186/s13617-018-0080-2
[25]

G.M. Escobar. Estudio de la erupción Pliniana del volcán Misti del Pleistoceno Superior que emplazó los depósitos del “Sandwich” en la ciudad de Arequipa [A study on the Pliny eruption of the Misty volcano during the Upper Pleistocene in Arequipa, which replaced the “sandwich” deposit] (Undergraduate thesis) Lima, Peru, Universidad Nacional Mayor de, San Marcos (2021) https://hdl.handle.net/20.500.12672/17771
[26]

L. Fidel, W. Morche, S. Núñez.Inventario de volcanes del Perú. Proyecto: Album de mapas de riesgos volcánicos de las principales ciudades del Suroeste del Perú [Inventory of volcanoes in Peru. Project: Album of volcanic hazard maps of the main cities in southwestern Peru]. Retrieved from https://hdl.handle.net/20.500.12544/304 (1997)
[27]

A. Galas. The extent and volcanic structures of the Quaternary Andahua Group. Andes, Southern Annales Societatis Geologorum Poloniae, 81 (1) (2011), pp. 1-19
[28]

A. Galas, A. Paulo, K. Gaidzik, B. Zavala, T. Kalicki, D. Churata, … J. Mariño. Geosites and geotouristic attractions proposed for the project Geopark Colca and Volcanoes of Andagua, Peru. Geoheritage, 10 (4) (2018), pp. 707-729, 10.1007/s12371-018-0307-y
[29]

M. Gray. Other nature: Geodiversity and geosystem services. Environmental Conservation, 38 (3) (2011), pp. 271-274, 10.1017/S0376892911000117
[30]

L. Grunewald. Municipio,Turismo & Seguridad [Municipality, tourism & security]. Retrieved from https://www.oas.org/en/sedi/pub/turismo_seguridad_s.pdf (2010)
[31]

C. Guevara.Geología del cuadrángulo de Characato 33-t - [Characato 33-T quadrilateral geology]. Retrieved from https://hdl.handle.net/20.500.12544/141 (1969)
[32]

A.P. Harmuth, D. la Cruz, A. Aldo Alfonso, M.H. Irene, R.M.J. Pablo, C.C. Moisés.Rocas sedimentarias y volcánicas del Triásico superior-Jurásico inferior: La Formación Chocolate en el extremo sur del Perú [Sediments and volcanic rocks from the Upper Triassic to Lower Jurassic: Chocolate Formation in the southernmost part of Peru]. Retrieved from https://hdl.handle.net/20.500.12544/2219 (2013)
[33]

C.J. Harpel, R. Aguilar, M. Rivera, F. Tepley, M. Takach, N. Manrique, … C. Lewis. Tephrostratigraphy of Misti volcano, Arequipa, Peru from the late Pleistocene to the mid-15th century. Paper presented at the Fall Meeting American Geophysical Union, New Orleans (2021)
[34]

C.J. Harpel, J. Cuno, M.K. Takach, M. Rivera, R. Aguilar, F.J. Tepley, F.G. García. The late Pleistocene Sacarosa tephra-fall deposit, Misti Volcano, Arequipa, Peru: Its magma, eruption, and implications for past and future activity. Bulletin of Volcanology, 85 (9) (2023), p. 46, 10.1007/s00445-023-01654-z
[35]

C.J. Harpel, S. de Silva, G. Salas. The 2 ka eruption of Misti Volcano, Southern Peru—The most recent Plinian eruption of Arequipa’s iconic volcano. Special Paper of the Geological Society of America, 484 (2011), pp. 1-72, 10.1130/2011.2484
[36]

A. Hilario, A. Asrat, B. van Wyk de Vries, D. Mogk, G. Lozano, J. Zhang, … S. Finney. The first 100 IUGS geological heritage sites. International Union of Geological Sciences, Zumaia (2022)
[37]

Instituto Nacional de Estadística e Informática (INEI). Censos Nacionales XII de Población y VII de Vivienda, Perú 2017: Resultados Definitivos [Twelfth national population census and seventh housing census, Peru, 2017: Final results], Arequipa: National Bureau of Statistics (2018)
[38]

W.F. Jenks.Geología de la hoja de Arequipa al 200,000. Geology of the Arequipa Quadrangle of the Carta Nacional del Peru [Arequipa geology, 200000 years ago:Geology of the Arequipa quadrangle in the Peruvian National Charter]. Retrieved from https://hdl.handle.net/20.500.12544/2807 (1948)
[39]

P.M. Keever, G.M. Narbonne. Geological World Heritage: A revised global framework for the application of criterion (VIII) of the World Heritage Convention. IUCN, Gland, Switzerland (2021), 10.2305/iucn.ch.2021.12.en
[40]

F. Legros. Tephra stratigraphy of Misti volcano, Peru. Journal of South American Earth Sciences, 14 (1) (2001), pp. 15-29, 10.1016/S0895-9811(00)00062-6
[41]

W. León, O. Palacios, L. Vargas, A. Sanchez. Memoria explicativa del mapa geológico del Perú Escala 1:100,000 [Explanatory memory of the geological map of Peru scale 1:100,000]. Rerieved from https://hdl.handle.net/20.500.12544/97 (2000)
[42]

N. Manrique, D. Arteaga. Evaluación de peligro geológico por lahares (huaycos) en el distrito de Yura, provincia Arequipa, departamento Arequipa [Geological hazard assessment of Lahares in Yura District, Arequipa Province] (Technical Report A7325) INGEMMET, Lima (2022) https://hdl.handle.net/20.500.12544/4677
[43]

J. Mariño, C. Arias, K. Cueva, J.-C. Thouret, A. Finizola, R. Antoine, … T. Saintenoy.Paisajes del volcán Huaynaputina, patrimonio geológico y cultural. Guía geoturística [The landscape, geology, and cultural heritage of the Warner Putina volcano]. Retrieved from https://hdl.handle.net/20.500.12544/4156 (2022)
[44]

J. Mariño, K. Cueva, J.-C. Thouret, C. Arias, A. Finizola, R. Antoine, … T. Saintenoy. Multidisciplinary study of the impacts of the 1600 CE Huaynaputina eruption and a project for geosites and geo-touristic attractions. Geoheritage, 13 (3) (2021), p. 64, 10.1007/s12371-021-00577-5
[45]

J. Mariño, L. Macedo, M. Rivera, L. Cacya.La ciudad de Arequipa y los peligros volcánicos asociados al volcán Misti, Perú [Arequipa city and volcanic hazards related to Misti volcano in Peru]. Retrieved from https://hdl.handle.net/20.500.12544/2849 (2008)
[46]

J. Mariño, M. Rivera, J.-C. Thouret, L. Macedo.Geología y mapa de peligros del volcán Misti [Geological and hazardous maps of Misty volcano]. Retrieved from https://hdl.handle.net/20.500.12544/310 (2016)
[47]

P. Martínez.Valoración de geositios en volcán Llaima, Parque Nacional Conguillio [Assessment of Llaima volcano geological site in Conguillio National Park]. Retrieved from https://repositorio.uchile.cl/handle/2250/103845 (2010)
[48]

P. Migoń. Geoheritage and world heritage sites. E. Reynard J. Brilha (Eds.), Geoheritage: protection, and management, Assessment, Elsevier, Amsterdam (2018), 10.1016/b978-0-12-809531-7.00013-7
[49]

J. Morin, C.R. Perales, L. Bono, L. Zúñiga, K. Holmberg, C. Gómez, … D. Castillo. Archivos de tefroestratigrafía en Patagonia como herramienta de conservación, divulgación y concientización de riesgos volcánicos [Volcanic stratigraphy archiving in Patagonia as a tool for conservation, outreach, and risk awareness]. Revista de Estudios Latinoamericanos sobre Reducción del Riesgo de Desastres, 8 (1) (2024), p. 56, 10.55467/reder.v8i1.151
[50]

M. Murúa. Historia general del Perú: De los orígenes al último inca [General history of Peru:From the origins to the last Inca]. M. Ballesteros Gaibrois (Ed.), Información y Revistas, S.A. - CAMBIO 16 [Information and magazine, S.A. - Change 16]. Madrid: España (1992)
[51]

K. Németh. Volcanic geoheritage in the light of volcano geology. J. Dóniz-Páez N.M. Pérez (Eds.), ElHierro Island Global Geopark. Geoheritage, Geoparks and Geotourism, Springer, Cham (2022), 10.1007/978-3-031-07289-5_1
[52]

K. Németh, T.J. Casadevall, M.R. Moufti, J. Martı. Volcanic geoheritage. Geoheritage, 9 (3) (2017), pp. 251-254, 10.1007/s12371-017-0257-9
[53]

E. Norabuena, L. Leffier-Griffin, A. Mao, T. Dixon, S. Stein, I.S. Sacks, … M. Ellis. Space geodetic observations of Nazca-South America convergence across the central Andes. Science, 279 (5349) (1998), pp. 358-362, 10.1126/science.279.5349.358
[54]

C. Palacios, N. Manrique, R. Aguilar, D. Arteaga. Tufo Yura: la ignimbrita más joven de Arequipa, sur del Perú [Tufo Yura: The youngest ignimbrita of Arequipa, Southern Peru]. Retrieved from https://hdl.handle.net/20.500.12544/4504 (2023)
[55]

P. Paquereau-Lebti, M. Fornari, P. Roperch, J.-C. Thouret, O. Macedo. Paleomagnetism, magnetic fabric, and 40Ar/39Ar dating of Pliocene and Quaternary ignimbrites in the Arequipa area, Southern Peru. Flow directions and implications for the emplacement mechanisms. Bulletin of Volcanology, 70 (8) (2008), pp. 977-997, 10.1007/s00445-007-0181-y
[56]

P. Paquereau-Lebti, J.-C. Thouret, G. Wörner, M. Fornari. Neogene and Quaternary ignimbrites in the area of Arequipa, southern Peru: Stratigraphical and petrological correlations. Journal of Volcanology and Geothermal Research, 154 (3-4) (2006), pp. 251-275, 10.1016/j.jvolgeores.2006.02.014
[57]

D. Pereira, P. Pereira, C. Alves, J. Brilha.Inventariação temática do Património geomorfológico português [Thematic inventory of Portuguese geomorphological heritage]. Retrieved from https://hdl.handle.net/1822/5370 (2006)
[58]

P. Pereira, D. Pereira, C. Alves. Avaliação do Património Geomorfológico: proposta de metodologia [Geomorphological heritage assessment: A methodology proposal]. Retrieved from https://hdl.handle.net/1822/7406 (2007)
[59]

G. Poma.New Koloniki and good governance [Internet Archive]. Retrieved from https://archive.org/details/15841615GuamanPomaNuevaCoronicaI/page/n3/mode/2up (1616)
[60]

J.-M. Prival, J.-C. Thouret, S. Japura, L. Gurioli, C. Bonadonna, J. Mariño, K. Cueva. New insights into eruption source parameters of the 1600 CE Huaynaputina Plinian eruption, Peru. Bulletin of Volcanology, 82 (1) (2020), p. 7, 10.1007/s00445-019-1340-7
[61]

M. Rivera, K. Cueva, J.L. Le Pennec, J. Vela, P. Samaniego, N. Manrique, Y. Soncco.Geología y evaluación de peligros del volcán Sara Sara (Ayacucho) [Geological and hazard assessment of Sara Sara volcano (Ayacucho)]. Retrieved from https://hdl.handle.net/20.500.12544/2992 (2020)
[62]

M. Rivera, H. Martin, J.-L. Le Pennec, J.-C. Thouret, A. Gourgaud, M.-C. Gerbe. Petro-geochemical constraints on the source and evolution of magmas at El Misti volcano (Peru). Lithos, 268-271 (2017), pp. 240-259, 10.1016/j.lithos.2016.11.009
[63]

P.L.A. Santos, J. Brilha. A review on tourism carrying capacity assessment and a proposal for its application on geological sites. Geoheritage, 15 (2) (2023), p. 47, 10.1007/s12371-023-00810-3
[64]

S.L. de Silva, P.W. Francis. Volcanoes of the central Andes. Springer-Verlag, Berlin (1991), 10.1017/S0016756800008372
[65]

D.M. Socha, J. Reinhard, R. Chávez Perea. Inca human sacrifices on Misti volcano (Peru). Latin American Antiquity, 32 (1) (2021), pp. 138-153, 10.1017/laq.2020.78
[66]

M. Solís, L. Hernández, J. Villagómez.El valor percibido del destino turístico en relación con el perfil del turista en Acapulco, Guerrero-México [The perceived value of tourist destinations on the image of tourists in Guerrero Acapulco, Mexico]. Retrieved from http://www.redalyc.org/articulo.oa?id=456048241002 (2016)
[67]

R. Somoza, M.E. Ghidella. Convergencia en el margen occidental de América del Sur durante el Cenozoico: subducción de las placas de Nazca, Farallón y Aluk [Convergence in the western margin of South America during the Cenozoic: Subduction of Nazca, Farallon and Aluk plates]. Revista de la Asociación Geológica Argentina, 60 (4) (2005), pp. 797-809
[68]

J.-C. Thouret, J. Davila, J.P. Eissen. Largest explosive eruption in historical times in the Andes at Huaynaputina volcano 1600 CE, Southern Peru. Geology, 27 (5) (1999), pp. 435-438, 10.1130/0091-7613(1999)027%3c0435:LEEIHT%3e2.3.CO;2
[69]

J.-C. Thouret, A. Finizola, M. Fornari, A. Legeley-Padovani, J. Suni, M. Frechen. Geology of El Misti volcano near the city of Arequipa, Peru. Geological Society of America Bulletin, 113 (12) (2001), pp. 1593-1610, 10.1130/0016-7606(2001)113%3c1593:GOEMVN%3e2.0.CO;2
[70]

J.-C. Thouret, E. Juvigné, A. Gourgaud, P. Boivin, J. Dávila. Reconstruction of the 1600 CE explosive eruption at Huaynaputina volcano, Peru, based on geologic evidence and Spanish chronicles. Journal of Volcanology and Geothermal Research, 115 (3-4) (2002), pp. 529-570, 10.1016/S0377-0273(01)00323-7
[71]

L. Vargas.Geología del cuadrángulo de Arequipa-33s [Arequipa quadrilateral geology-33S]Retrieved from https://hdl.handle.net/20.500.12544/142 (1970)
[72]

C.C.D.F. van Ree, P.J.H. van Beukering, J. Boekestijn. Geosystem services: A hidden link in ecosystem management. Ecosystem Services, 26 (2017), pp. 58-69, 10.1016/j.ecoser.2017.05.013
[73]

B. van Wyk de Vries, V. Vereb. Geoheritage for resilience: A global network for managing natural risk. Paper presented at the 21st EGU General Assembly, Vienna, Austria (2019)
[74]

B. Zavala, D. Churata, F. Varela.Geodiversidad y patrimonio geológico en el valle del Colca [Geodiversity and geoheritage of the Colca Valley]. Retrieved from https://hdl.handle.net/20.500.12544/2114 (2019)
[75]

B. Zavala, J. Mariño, F. Varela. Valle de los volcanes de Andahua: Guía geoturística [Andahua volcanic valley: Geological tourism guide]. Retrieved from https://hdl.handle.net/20.500.12544/377 (2016)
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