Artículo

Estamos trabajando para incorporar este artículo al repositorio
Consulte el artículo en la página del editor
Consulte la política de Acceso Abierto del editor

Abstract:

The El Pozo Volcanic Complex, in the south-central Mendoza province, is formed by three maars, the first to be described in the Payenia Volcanic Province and one of the few examples in Argentina. The maars of El Pozo Volcanic Complex (1, 2 and 3) show large craters (0.97 km, 1.2 km and 0.96 km, respectively) and their depth is between 10 and 57 m below the pre-eruptive surface. Their deposits are described from the only outcrops that have been found, called El Pajarito and El Visitante. It was interpreted that the first maar to be formed would have been No. 2, from which only the deposits corresponding to El Pajarito (3.6 m) and the lower section of El Visitante (28 m) are preserved. We suggest that its shape is the result of lateral vent migration and coalescence of successive vents. Then, after a short break represented by the angular unconformity in the El Visitante section, the active vent would have shifted more to the W and the maar No.3 is thought to have been formed. The activity of this maar is represented in El Visitante upper section, with features resulting from the presence of water in the time of deposition. Maar No. 1 was probably active simultaneously with maar no. 3, with which coalesces but the lack of outcrops does not guarantee this affirmation. Towards the end of the eruptive cycle, depletion of water produced a change in activity from phreatomagmatic to Strombolian and effusive. This gave rise to the nested pyroclastic scoria cone, El Pozo cone, which lies in the maars’ 1 and 3 craters floors. El Pozo cone is related to lava flows with a tumulus and the deposit of a lapilli-bearing tephra plume. © 2019 Elsevier B.V.

Registro:

Documento: Artículo
Título:El Pozo Volcanic Complex: Evolution of a group of maars, central Mendoza province, Argentina
Autor:Morales Volosín, S.; Risso, C.
Filiación:Instituto de Geociencias Básicas y Aplicadas y Ambientales de Buenos Aires, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Intendente Güiraldes 2160, Ciudad Universitaria, Buenos Aires, C1428, Argentina
Palabras clave:Coalescing maars; Nested cones; Phreatomagmatic eruptions; Pyroclastic deposits; Deposits; Flocculation; Angular unconformity; Coalescing maars; Phreatomagmatic; Phreatomagmatic eruption; Presence of water; Pyroclastic deposits; Vent migration; Volcanic complex; Volcanoes; lava flow; maar; magma; outcrop; phreatomagmatism; pyroclastic deposit; tephra; volcanic eruption; Argentina; Mendoza; Hyporhamphus hildebrandi
Año:2019
Volumen:371
Página de inicio:177
Página de fin:191
DOI: http://dx.doi.org/10.1016/j.jvolgeores.2019.01.005
Título revista:Journal of Volcanology and Geothermal Research
Título revista abreviado:J. Volcanol. Geotherm. Res.
ISSN:03770273
Registro:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03770273_v371_n_p177_MoralesVolosin

Referencias:

  • Aranda-Gomez, J.J., Luhr, J.F., Origin of the Joya Honda maar, San Luis Potosi, Mexico (1996) J. Volcanol. Geotherm. Res., 74 (1-2), pp. 1-18
  • Auer, A., Martin, U., Németh, K., The Fekete-hegy (Balaton Highland Hungary) “soft-substrate” and “hard-substrate” maar volcanoes in an aligned volcanic complex — implications for vent geometry, subsurface stratigraphy and the palaeoenvironmental setting (2007) J. Volcanol. Geotherm. Res., 159, pp. 225-245
  • Baker, S.E., Gosse, J.C., McDonald, E.V., Evenson, E.B., Martínez, O., Quaternary history of the piedmont reach of Río Diamante, Argentina (2009) J. S. Am. Earth Sci., 28, pp. 54-73
  • Bemis, K.G., Ferencz, M., Morphometric analysis of scoria cones: the potential for inferring process from shape (2017) Monogenetic Volcanism, Geological Society, London, Special Publications, 446, pp. 61-100. , K. Németh G. Carrasco-Núñez J.J. Aranda-Gómez I.E.M. Smith
  • Bermúdez, A., Delpino, D., Frey, F., Saal, A., Los basaltos de retroarco extraandinos (1993) Geología y Recursos Naturales de Mendoza. XII Congreso Geológico Argentino y II Congreso de Exploración de Hidrocarburos (Buenos Aires), Relatorio I-13, pp. 161-172. , V.A. Ramos
  • Bertotto, G.W., Cingolani, C.A., Bjerg, E.A., Geochemical variations in Cenozoic back-arc basalts at the border of La Pampa and Mendoza provinces, Argentina (2009) J. S. Am. Earth Sci., 28, pp. 360-373
  • Büchel, G., Maars of the Westeifel, Germany (1993) Paleolimnology of European Maar Lakes, pp. 1-13. , J.F.W. Negendank B. Zolitschka Springer-Verlag Berlin, Heidelberg
  • Carrasco-Núñez, G., Ort, M.H., Romero, C., Evolution and hydrological conditions of a maar volcano (Atexcac crater, Eastern Mexico) (2007) J. Volcanol. Geotherm. Res., 159, pp. 179-197
  • Cas, R.A.F., Wright, J.V., Volcanic Successions, Modern and Ancient (1987), Allen and Unwin London (528 pp.); Cortés, J.M., Fallas cuaternarias oblicuas al frente montañoso en la Cordillera Frontal de Mendoza (34°–34°30′ LS) (2000) Rev. Asoc. Geol. Argent. D Publicación Especial, 4, pp. 57-62
  • Cortés, J.M., Sruoga, P., Zonas de fractura cuaternarias y volcanismo asociado en el piedemonte de la Cordillera Frontal (34° 30′ S), Argentina (1998) X Congreso Latinoamericano de Geología y VI Congreso Nacional de Geología Económica, Actas II, pp. 116-121. , Asociación Geológica Argentina Buenos Aires
  • Cortés, J.M., Terrizzano, C.M., Pasini, M.M., Yamin, M.G., Casa, A.L., Quaternary tectonics along oblique deformation zones in the Central Andean retro-wedge between 31°30′S and 35°S (2014) Geodynamic Processes in the Andes of Central Chile and Argentina, Geological Society, London, Special Publications, 399. , S.A. Sepúlveda L.B. Giambiagi S.M. Moreiras L. Pinto M. Tunik G.D. Hoke M. Farías
  • Doniz, J., Romero, C., Coello, E., Guillen, C., Sanchez, N., Garcia-Cacho, L., Garcia, A., Morphological and statistical characterisation of recent mafic volcanism on Tenerife (Canary Islands, Spain) (2008) J. Volcanol. Geotherm. Res., 173 (3-4), pp. 185-195
  • Dyhr, C.T., Holm, P.M., Llambías, E.J., Geochemical constraints on the relationship between the Miocene-Pliocene volcanism and tectonics in the Palaoco and Fortunoso volcanic fields, Mendoza Region, Argentina: new insights from 40Ar/39Ar dating, Sr-Nd-Pb isotopes and trace elements (2013) J. Volcanol. Geotherm. Res., 266, pp. 50-68
  • Dyhr, C.T., Holm, P.M., Llambías, E.J., Schersten, A., Subduction controls on Miocene back-arc lavas from Sierra de Huantraico and La Matancilla and new 40Ar/39Ar dating from the Mendoza Region, Argentina (2013) Lithos, 79, pp. 67-83
  • Fisher, R.V., Proposed classification of sediments and rocks (1961) Geol. Soc. Am. Bull., 72, pp. 1409-1414
  • Folguera, A., Ramos, V.A., Repeated eastwards shifts of arc magmatism in the Southern Andes: a revision of the long-term pattern of Andean uplift and magmatism (2011) J. S. Am. Earth Sci., 32, pp. 531-546
  • Folguera, A., Naranjo, J.A., Orihashi, Y., Sumino, H., Nagao, K., Polanco, E., Ramos, V.A., Retroarc volcanism in the northern San Rafael Block (34°–35°30′S), southern Central Andes: occurence, age, and tectonic setting (2009) J. Volcanol. Geotherm. Res., 186, pp. 169-185
  • García, S.E., Estudio geológico y geofísico de la Zona de Fractura Papagayos. Trabajo Final de Licenciatura (2013), FCEN - UBA Buenos Aires, Argentina; Goto, A., Taniguchi, H., Yoshida, M., Ohba, T., Oshima, H., Effects of explosion energy and depth to the formation of blast wave and crater: field explosion experiment for the understanding of volcanic explosion (2001) Geophys. Res. Lett., 28, pp. 4287-4290
  • Graettinger, A.H., Valentine, G.A., Sonder, I., Ross, P.-S., White, J.D.L., Taddeucci, J., Maar-diatreme geometry and deposits: subsurface blast experiments with variable explosion depth (2014) Geochem. Geophys. Geosyst., 15
  • Graettinger, A.H., Valentine, G.A., Sonder, I., Circum-crater variability of deposits from discrete, laterally and vertically migrating volcanic explosions: experimental evidence and field implications (2015) J. Volcanol. Geotherm. Res., 308, pp. 61-69
  • Groeber, P., Observaciones geológicas a lo largo del meridiano 70, I. Hoja Chos Malal (1946) Rev. Soc. Geol. Argent., 1, pp. 177-208
  • Gudnason, J., Holm, P.M., Søager, N., Llambías, E.J., Geochronology of the late Pliocene to recent volcanic activity in the Payenia back-arc volcanic province, Mendoza Argentina (2012) J. S. Am. Earth Sci., 37, pp. 191-201
  • Guerstein, P.G., Origen y significado geológico de la Asociación Piroclástica Pumícea. Pleistoceno de la provincia de Mendoza entre los 33° 30′ y 34° 40′ L.S. (1993), Universidad Nacional de La Plata Argentina (Ph.D. Thesis); Gutman, J.T., Strombolian and effusive activity as precursors to phreatomagmatism: eruptive sequence at maars of the Pinacate volcanic field, Sonora, Mexico (2002) J. Volcanol. Geotherm. Res., 113 (1-2), pp. 345-356
  • Hooper, D., Sheridan, M., Computer-simulation models of scoria cone degradation (1998) J. Volcanol. Geotherm. Res., 83, pp. 241-267
  • Hooten, J.A., Ort, M.H., Peperite as a record of early-stage phreatomagmatic fragmentation processes: an example from the Hopi Buttes volcanic fi eld, Navajo Nation, Arizona, USA (2002) J. Volcanol. Geotherm. Res., 114, pp. 95-106
  • Houghton, B.F., Schmincke, H.-U., Rothenberg scoria cone, East Eifel; a complex Strombolian and phreatomagmatic volcano (1989) Bull. Volcanol., 52 (1), pp. 28-48
  • Houghton, B.F., Wilson, C.J.N., Smith, I.E.M., Shallow-seated controls on styles of explosive basaltic volcanism: a case study from New Zealand (1999) J. Volcanol. Geotherm. Res., 91 (1), pp. 97-120
  • Houghton, B.F., Wilson, C.J.N., Del Carlo, P., Coltelli, M., Sable, J.E., Carey, R., The influence of conduit processes on changes in style of basaltic Plinian eruptions: Tarawera 1886 and Etna 122 BC (2004) J. Volcanol. Geotherm. Res., 137, pp. 1-14
  • Kay, S.M., Copeland, P., Early to middle Miocene backarc magmas of the Neuquen Basin: geochemical consequences of slab shallowing and the westward drift of South America (2006) Late Cretaceous to Recent Magmatism and Tectonism of the Southern Andean Margin at the Latitude of the Neuquen Basin (36–39° S), Geological Society of America, Special Paper, 407, pp. 185-214. , S.M. Kay V.A. Ramos
  • Kay, S.M., Burns, W.M., Copeland, P.C., Mancilla, O., Upper Cretaceous to Holocene magmatism and evidence for transient Miocene shallowing of the Andean subduction zone under the northern Neuquen basin (2006) Evolution of an Andean Margin: A Tectonic and Magmatic View From the Andes to the Neuquen Basin (35°–39°S Lat), Geological Society of America Special Paper, 407, pp. 19-60. , S.M. Kay V.A. Ramos
  • Kay, S.M., Mancilla, O., Copeland, P., Evolution of the late Miocene Chachahuen volcanic complex at 37°S over a transient shallow subduction zone under the Neuquen Andes (2006) Evolution of an Andean Margin: A Tectonic and Magmatic View From the Andes to the Neuquen Basin (35°–39°S Lat), Geological Society of America Special Paper, 407, pp. 215-246. , S.M. Kay V.A. Ramos
  • Kienle, J., Kyle, P.R., Self, S., Motyka, R.J., Lorenz, V., Ukinrek Maars, Alaska, I. April 1977 eruption sequence, petrology and tectonic setting (1980) J. Volcanol. Geotherm. Res., 7, pp. 11-37
  • Kozlowski, E., Manceda, R., Ramos, V.A., Estructura (1993) Geología y recursos naturales de Mendoza - Relatorio XII Congreso Geológico Argentino y II Congreso de Exploración de Hidrocarburos I, 18, pp. 235-256. , V.A. Ramos Asociación Geológica Argentina Mendoza
  • Kwon, C.W., Sohn, Y.K., Tephra-filled volcanic neck (diatreme) of a mafic tuff ring at Maegok, Miocene Eoil Basin, SE Korea (2008) Geosci. J., 12, pp. 317-329
  • Lefebvre, N.S., White, J.D.L., Kjarsgaard, B.A., Unbedded diatreme deposits reveal maar-diatreme-forming eruptive processes: standing Rocks West, Hopi Buttes, Navajo Nation, USA (2013) Bull. Volcanol., 75, pp. 739-756
  • Litvak, V.D., Spagnuolo, M.G., Folguera, A., Poma, S., Jones, R.E., Ramos, V.A., Late Cenozoic calc-alkaline volcanism over the Payenia shallow subduction zone, South-Central Andean back-arc (34°30′–37°S), Argentina (2015) J. S. Am. Earth Sci., 64, pp. 365-380
  • Llambías, E.J., Bertotto, G.W., Risso, C., Hernando, I., El volcanismo cuaternario en el retroarco de Payenia: una revisión (2010) Rev. Asoc. Geol. Argent., 67 (2), pp. 278-300
  • Lorenz, V., Maars and diatremes of phreatomagmatic origin: a review (1985) Trans. Geol. Soc. S. Afr., 88, pp. 459-470
  • Lorenz, V., On the growth of maars and diatremes and its relevance to the formation of tuff rings (1986) Bull. Volcanol., 48, pp. 265-274
  • Lorenz, V., Maar–diatreme volcanoes, their formation, and their setting in hardrock and soft-rock environments (2003) Andean Geol., 15, pp. 72-83
  • Lorenz, V., Explosive maar–diatreme volcanism in unconsolidated watersaturated sediments and its relevance for diamondiferous pipes (2008) Zeitschrift der Deutschen Gemmologischen Gesellschaft, 57, pp. 41-60
  • Lorenz, V., Suhr, P., Suhr, S., Phreatomagmatic maar-diatreme volcanoes and their incremental growth: a model (2017) Monogenetic Volcanism, Geological Society, London, Special Publications, 446, pp. 29-59. , K. Németh G. Carrasco-Núñez J.J. Aranda-Gómez I.E.M. Smith
  • Macorps, É., Graettinger, A.H., Valentine, G.A., Ross, P.-S., White, J.D.L., Sonder, I., The effects of the host-substrate properties on maar-diatreme volcanoes: experimental evidence (2016) Bull. Volcanol., 78, p. 26
  • Martinis, N.S., Hidrogeología (2002) Proyecto: Evaluación Hidrogeológca de la Cuenca del Valle de Uco, pp. 62-92. , J.I. Hernández A.A. Alvarez Internal Publication of Instituto Nacional del Agua, Centro Regional Andino Argentina
  • Martín-Serrano, A., Vegas, J., García-Cortés, A., Galán, L., Gallardo-Millán, J.L., Martín-Alfageme, S., Rubio, F.M., García-Lobón, J.L., Morphotectonic setting ofmaar lakes in the Campo de Calatrava Volcanic Field (Central Spain, SW Europe) (2009) Sediment. Geol., 222, pp. 52-63
  • Morales Volosín, M.S., Geología del Complejo Volcánico El Pozo, Mendoza - Argentina. Trabajo Final de Licenciatura (2015), FCEN-UBA Buenos Aires, Argentina; Muñoz Bravo, J., Stern, C., Bermúdez, A., Delpino, D., Dobbs, M.F., Frey, F.A., El volcanismo plio-cuaternario a través de los 38° y 39°S de los Andes (1989) Rev. Asoc. Geol. Argent., 44, pp. 270-286
  • Németh, K., Monogenetic volcanic fields: origin, sedimentary record, and relationship with polygenetic volcanism (2010) What is a Volcano?, Geological Society of America, Special Papers, 470, pp. 43-66. , E. Cañón-Tapia A. Szakács
  • Németh, K., Kereszturi, G., Monogenetic volcanism: personal views and discussion (2015) Int. J. Earth Sci., 104, pp. 2131-2146
  • Németh, K., Risso, C., Nullo, F., Smith, I., Silicic pumiceous Tuff Ring of Los Loros in Mendoza, Argentina (2009) 3IMC, pp. 85-86. , Asociación Geológica Argentina Malargüe, Argentina
  • Nullo, F.E., Stephens, G., Otamendi, J., Baldauf, P., El volcanismo del Terciario superior del sur de Mendoza (2002) Rev. Asoc. Geol. Argent., 57 (2), pp. 119-132
  • Ort, M.H., Carrasco-Núñez, G., Lateral vent migration during phreatomagmatic and magmatic eruptions at Tecuitlapa Maar, east-central Mexico (2009) J. Volcanol. Geotherm. Res., 181, pp. 67-77
  • Pedrazzi, D., Bolós, X., Martí, J., Phreatomagmatic volcanism in complex hydrogeological environments: La Crosa de Sant Dalmai maar (Catalan Volcanic Zone, NE Spain) (2014) Geosphere, 10, pp. 170-184
  • Pepin, E., Carretier, S., Hérail, G., Regard, V., Charrier, R., Farías, M., García, V., Giambiagi, L., Pleistocene landscape entrenchment: a geomorphological mountain to foreland field case, the Las Tunas system, Argentina (2013) Basin Res., 25, pp. 613-637
  • Perucca, L., Zárate, M., Mehl, A., Quaternary tectonic activity in the piedmont of Cordillera Frontal (33°S–34°S), Mendoza (2011) Cenozoic Geology of the Central Andes of Argentina, pp. 315-326. , J.A. Salfity R.A. Marquillas Instituto del Cenozoico, Universidad Nacional de Salta
  • Pirrung, M., Büchel, G., Lorenz, V., Treutler, H.-C., Post-eruptive development of the Ukinrek East Maar since its eruption in 1977 A.D. in the periglacial area of south-west Alaska (2008) Sedimentology, 55, pp. 305-334
  • Polanski, J., Calderas del cerro El Pozo (Departamento de San Carlos, Provincia de Mendoza) (1953) Rev. Asoc. Geol. Argent., 8, pp. 54-59
  • Polanski, J., Estratigrafía, Neotectónica y Geomorfología del Pleistoceno pedemontano de Mendoza (1963) Rev. Asoc. Geol. Argent., 17 (3-4), pp. 181-199
  • Porter, S., Distribution, morphology, and size frequency of cinder cones on Mauna Kea volcano, Hawaii (1972) Geol. Soc. Am. Bull., 83, pp. 3607-3612
  • Ramos, V.A., Folguera, A., Structural and magmatic responses to steepening of a flat subduction: southern Mendoza, Argentina (2005) VI International Symposium of Andean Geodynamics, Extended Abstracts, pp. 592-595
  • Ramos, V.A., Folguera, A., Payenia volcanic province in the Southern Andes: an appraisal of an exceptional Quaternary tectonic setting (2011) J. Volcanol. Geotherm. Res., 201, pp. 53-64
  • Risso, C., Németh, K., Combina, A.M., Nullo, F., Drosina, M., The role of phreatomagmatism in a Plio-Pleistocene high-density scoria cone field: Llancanelo Volcanic Field (Mendoza), Argentina (2008) J. Volcanol. Geotherm. Res., 169 (1-2), pp. 61-86
  • Rocha Campos, A.C., Basei, M.A., Nutman, A.P., Kleiman, L.E., Varela, R., Llambías, E.J., Canile, F.M., da Rosa, O.D.C.R., 30 million years of Permian volcanism recorded in the Choiyoi igneous province (W Argentina) and their source for younger ash fall deposits in the Paraná Basin: SHRIMP U-Pb zircon geochronology evidence (2011) Gondwana Res., 19 (2), pp. 509-523
  • Ross, P.-S., Delpit, S., Haller, M.J., Németh, K., Corbella, H., Influence of the substrate on maar-diatreme volcanoes—an example of a mixed setting from the Pali Aike Volcanic Field, Argentina (2011) J. Volcanol. Geotherm. Res., 201, pp. 253-271
  • Schmincke, H.-U., Phreatomagmatische Phasen in quartären Vulkanen der Osteifel (1977) Geol. Jahrb. A, 39, pp. 3-45
  • Self, S., Kienle, J., Huot, J.-P., Ukinrek Maars, Alaska, II: deposits and formation of the 1977 craters (1980) J. Volcanol. Geotherm. Res., 7, pp. 39-65
  • Settle, M., The structure and emplacement of cinder cone fields (1979) Am. J. Sci., 279, pp. 1089-1107
  • Sheridan, M.F., Wohletz, K.H., Hydrovolcanics: basic considerations and review (1983) J. Volcanol. Geotherm. Res., 17, pp. 1-29
  • Smith, I.E.M., Németh, K., Source to surface model of monogenetic volcanism: a critical review (2017) Monogenetic Volcanism, Geological Society, London, Special Publications, 446. , K. Németh G. Carrasco-Núñez J.J. Aranda-Gómez I.E.M. Smith
  • Søager, N., Holm, P.M., Llambías, E.J., Payenia volcanic province, southern Mendoza, Argentina: OIB mantle upwelling in a backarc environment (2013) Chem. Geol., 349-350, pp. 36-53
  • Søager, N., Holm, P.M., Thirlwall, M.F., Sr, Nd, Pb, and Hf isotopic constraints on mantle sources and crustal contaminants in the Payenia volcanic province, Argentina (2015) Lithos, 212-215, pp. 368-378
  • Sohn, Y.K., Chough, S.K., Depositional processes of the Suwolbong tuff ring, Cheju Island (Korea) (1989) Sedimentology, 36, pp. 837-855
  • Sohn, Y.K., Park, K.H., Composite tuff ring/cone complexes in Jeju Island, Korea: possible consequences of substrate collapse and vent migration (2005) J. Volcanol. Geotherm. Res., 141, pp. 157-175
  • Sonder, I., Graettinger, A.H., Valentine, G.A., Scaling multiblast craters: general approach and application to volcanic craters (2015) J. Geophys. Res., 120, pp. 6141-6158
  • Spagnuolo, M., Litvak, V.D., Folguera, A., Ramos, V.A., Miocene magmatic expansion and mountain building at the southern Central Andes, 36°–37°S, Argentina (2012) J. Geodyn., 53, pp. 81-94
  • Sruoga, P., Etcheverria, M., Folguera, A., Repol, D., Zanettini, J.C., Hoja geológica 3569-I, Volcán Maipo, Mendoza (2005) Programa Nacional de Cartas Geológicas de la República Argentina, 1:250.000, Servicio Geológico Minero Argentino, Boletín 290, , Servicio Geológico Minero Argentino Buenos Aires (238 pp.)
  • Sruoga, P., Rubinstein, N.A., Etcheverría, M.P., Cegarra, M., Kay, S.M., Singer, B., Lee, J., Estadío inicial del arco volcánico neógeno en la Cordillera Principal de Mendoza (35°S) (2008) Rev. Asoc. Geol. Argent., 63, pp. 454-469
  • Stearns, H.T., Causes of basaltic explosions (1953) Bull. Geol. Soc. Am., 64, pp. 599-600
  • Stern, C.R., Amini, H., Charrier, R., Godoy, E., Herve, F., Varela, J., Petrochemistry and age of rhyolitic pyroclastic flows which occur along the drainage valleys of the Río Maipo and Río Cachapoal (Chile) and the Río Yaucha and Río Papagayos (Argentina) (1984) Rev. Geol. Chile, 23, pp. 39-52
  • Sweeney, M.R., Valentine, G.A., Transport and mixing dynamics from explosions in debris-filled volcanic conduits: numerical results and implications for maar-diatreme volcanoes (2015) Earth Planet. Sci. Lett., 425, pp. 64-76
  • Tickyj, H., Rodríguez Raising, M., Cingolani, C.A., Alfaro, M., Uriz, N., Graptolitos ordovícicos en el Sur de la Cordillera frontal de Mendoza (2009) Rev. Asoc. Geol. Argent., 64 (2), pp. 295-302
  • Valentine, G.A., Shallow plumbing systems for small-volume basaltic volcanoes, 2: evidence from crustal xenoliths at scoria cones and maars (2012) J. Volcanol. Geotherm. Res., 223-224, pp. 47-63
  • Valentine, G.A., Gregg, T.K.P., Continental basaltic volcanoes – processes and problems (2008) J. Volcanol. Geotherm. Res., 177, pp. 857-873
  • Valentine, G.A., White, J.D.L., Revised conceptual model for maar diatremes: subsurface processes, energetics, and eruptive products (2012) Geology, 40, pp. 1111-1114
  • Valentine, G.A., Shufelt, N.L., Hintz, A.R.L., Models of maar volcanoes, Lunar Crater (Nevada, USA) (2011) Bull. Volcanol., 73, pp. 753-765
  • Valentine, G.A., White, J.D.L., Ross, P.-S., Amin, J., Taddeucci, J., Sonder, I., Johnson, P.J., Experimental craters formed by single and multiple buried explosions and implications for volcanic craters with emphasis on maars (2012) Geophys. Res. Lett., 39
  • Valentine, G.A., Graettinger, A.H., Sonder, I., Explosion depths for phreatomagmatic eruptions (2014) Geophys. Res. Lett., 41, pp. 3045-3051
  • Valentine, G.A., Graettinger, A.H., Macorps, E., Ross, P.-S., White, J.D.L., Döhring, E., Experiments with vertically- and laterally-migrating subsurface explosions with applications to the geology of phreatomagmatic and hydrothermal explosion craters and diatremes (2015) Bull. Volcanol., 77, p. 15
  • Valentine, G.A., White, J.D.L., Ross, P.-S., Graettinger, A.H., Sonder, I., Updates to concepts on phreatomagmatic maar-diatremes and their pyroclastic deposits (2017) Front. Earth Sci., 5, p. 68
  • Vespermann, D., Schmincke, H.-U., Scoria cones and tuff rings (2000) Encyclopedia of Volcanoes, pp. 683-694. , H. Sigurdsson B.F. Houghton S.R. McNutt H. Rymer J. Stix Academic Press San Diego, USA
  • White, J.D.L., Maar-diatreme phreatomagmatism at Hopi Buttes, Navajo Nation (Arizona), USA (1991) Bull. Volcanol., 53, pp. 239-258
  • White, J.D.L., McClintock, M.K., Immense vent complex marks flood-basalt eruption in a wet, failed rift: Coombs Hills, Antarctica (2001) Geology, 29, pp. 935-938
  • White, J.D.L., Ross, P.-S., Maar-diatreme volcanoes: a review (2011) J. Volcanol. Geotherm. Res., 201, pp. 1-29
  • Wohletz, K.H., Sheridan, M.F., Hydrovolcanic explosions II. Evolution of basaltic tuff rings and tuff cones (1983) Am. J. Sci., 283, pp. 385-413
  • Wood, C., Morphometric evolution of cinder cones (1980) J. Volcanol. Geotherm. Res., 7, pp. 387-413
  • Yokoo, A., Taniguchi, H., Goto, A., Oshima, H., Energy and depth of Usu 2000 phreatic explosions (2002) Geophys. Res. Lett., 29 (24), p. 2195
  • Yrigoyen, M.R., Los depósitos sinorogénicos terciarios (1993) Geología y recursos naturales de Mendoza-Relatorio XII Congreso Geológico Argentino y II Congreso de Exploración de Hidrocarburos I, 18, pp. 235-256. , V.A. Ramos Asociación Geológica Argentina Mendoza, Argentina
  • Zambrano, J., Torres, E., Mapa hidrogeológico con referencia a las cuencas de aguas subterráneas (1996) Recursos y Problemas Ambientales de las Zonas Áridas. Primera Parte: Provincias de Mendoza, San Juan y La Rioja, , E. Abraham R. Martínez GTZ, IDR, IADIZA, SDSyPA Argentina
  • Zárate, M.A., Geología y Estratigrafía del Plesitoceno tardío-Holoceno en el piedemonte de Tunuyán-Tupungato, Mendoza, Argentina (2002) XV Congreso Geológico Argentino, Actas II, pp. 615-620. , N. Cabaleri C. Cingolani E. Linares M.G. López de Luchi H.A. Ostera H.O. Panarello (El Calafate, Santa Cruz, Argentina)
  • Zimanowski, B., Fragmentationsprozesse beim explosiven Vulkanismus in der Westeifel (1985), University of Mainz (Dr. rer nat. thesis); Zimanowski, B., Zum phreatomagmatischen Eruptionsmechanismus (1992), University of Mainz (Habilitation thesis)

Citas:

---------- APA ----------
Morales Volosín, S. & Risso, C. (2019) . El Pozo Volcanic Complex: Evolution of a group of maars, central Mendoza province, Argentina. Journal of Volcanology and Geothermal Research, 371, 177-191.
http://dx.doi.org/10.1016/j.jvolgeores.2019.01.005
---------- CHICAGO ----------
Morales Volosín, S., Risso, C. "El Pozo Volcanic Complex: Evolution of a group of maars, central Mendoza province, Argentina" . Journal of Volcanology and Geothermal Research 371 (2019) : 177-191.
http://dx.doi.org/10.1016/j.jvolgeores.2019.01.005
---------- MLA ----------
Morales Volosín, S., Risso, C. "El Pozo Volcanic Complex: Evolution of a group of maars, central Mendoza province, Argentina" . Journal of Volcanology and Geothermal Research, vol. 371, 2019, pp. 177-191.
http://dx.doi.org/10.1016/j.jvolgeores.2019.01.005
---------- VANCOUVER ----------
Morales Volosín, S., Risso, C. El Pozo Volcanic Complex: Evolution of a group of maars, central Mendoza province, Argentina. J. Volcanol. Geotherm. Res. 2019;371:177-191.
http://dx.doi.org/10.1016/j.jvolgeores.2019.01.005