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The Platanar-Aguas Zarcas volcanic centers, Costa Rica: spatial-temporal association of Quaternary calc-alkaline and alkaline volcanism

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Abstract

The Platanar volcanic center is dominated by a calc-alkaline, basalt-andesite-dacite-rhyolite magma series with unusual LREE enrichment. Adjacent and overlapping the calc-alkaline rocks are the most alkaline basalts found along the volcanic front of Central America. These basalts are mafic, LIL- and LREE-enriched transitional to alkaline basalts. Several are found on the north flank of Platanar in the Aguas Zarcas region, where there are nine cinder cones and a few isolated flows. However, they are also found in isolated lava outcrops at least as far south as Porvenir volcano along the volcanic front. The addition of mafic alkaline magmas with high La/Yb and low Ba/La into the Platanar magma chamber or chambers may contribute to the LREE-enriched character of the Platanar basaltic andesites and andesites. At Platanar the field and geochemical evidence suggest mixing between calc-alkaline and alkaline magmas, a process that has probably occurred throughout the development of the Cordillera Central of Costa Rica. The presence of negative Ce anomalies in several of the calc-alkaline lavas also make the Platanar complex very unusual compared to the rest of the Central American volcanic front. In the center of the Platanar complex is the Chocosuela caldera, an apparent remnant of an avalanche caldera created by the collapse in the Middle Pleistocene of an ancestral stratovolcano toward the NNW in a directed blast-type eruption. Rhyolite is present as pumice lapilli in pyroclastic flow deposits outside the caldera rim. Whole lapilli analyses span the daciterhyolite range. The previous eruption of high silica tephra as pyroclastic flows, the current long dormant period and the repeated occurrence of earthquake swarms on the flanks of the Platanar complex make it a candidate for volcanic hazard mapping, detailed geological mapping and emergency planning.

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References

  • Alvarado GE (1984) Aspectos petrológicos-geológicos de los volcanes y unidades lávicas del Cenozoico Superior de Costa Rica. Licenciature Thesis. Escuela Centroamericana de Geología, San José, Costa Rica, 183 pp

  • Alvarado GE (1985) Consideraciones petrológicas de los estratovolcanes de Costa Rica. Rev Geol Amér Central 3:103–128, San José

    Google Scholar 

  • Alvarado GE, Barquero R, Boschini I, Chiesa S, Carr MJ (1986) Relación entre la Neotectonica y el Vulcanismo en Costa Rica. Rev CIAF 11 (1–3):246–264, Bogotá

    Google Scholar 

  • Alvarado GE, Morales LD, Montero W, Climent A, Rojas W (1988) Aspectos sismólogicos y morfotectónicos en el occidental de la cordillera volcánica Central de Costa Rica. Rev Geol Amér Central 9:75–98; San José

    Google Scholar 

  • Anderson AT (1976) Magma mixing: Petrological process and volcanological tool. J Volcanol Geotherm Res 1:3–33

    Google Scholar 

  • Anderson RN, Uyeda S, Miyashiro A (1976) Geophysical and geochemical constraints at converging plate boundaries. Parts I. dehydration in the downgoing slab: Geophys J R Astron Soc 44:333–357

    Google Scholar 

  • Appel H (1990) Geochemie und K/Ar-Datierung an Magmatiten in Costa Rica, Zentralamerica. Unpublished Diplomarbeit, University of Mainz, 149 pp

  • Baker DR, Eggler DH (1983) Fractionation paths of Atka (Aleutians) high-alumina basalts: constraints from phase relations. J Volc Geotherm Res 18:387–404

    Google Scholar 

  • Barquero R, Alvarado GE (1989) Los enjambres de temblores en el arco volcánico de Costa Rica. Bol Obs Volc Arenal 2(4):18–39

    Google Scholar 

  • Borgia A, Poore C, Carr MJ, Melson WG, Alvarado GE (1988) Structural, stratigraphic, and petrologic aspects of the Arenal-Chato volcanic system, Costa Rica: Evolution of a young stratovolcanic complex. Bull Volcanol 50:86–105

    Google Scholar 

  • Carr MJ (1984) Symmetrical and segmented variation of physical and geochemical characteristics of the Central American volcanic front. J Volcanol Geotherm Res 20:231–252

    Google Scholar 

  • Carr MJ, Feigenson MD, Bennett EA (1990) Incompatible element and isotopic evidence for tectonic control of source mixing and melt extraction along the Central American arc. Contrib Mineral Petrol 105:369–380

    Google Scholar 

  • Dengo G, Bohnenberger O, Bonis S (1970) Tectonics and volcanism along the Pacific Marginal Zone of Central America. Geol Rundsch 59:1215–1232

    Google Scholar 

  • Feigenson MD, Carr MJ (1985) Determination of major, trace and rare-earth elements in rocks by DCP-AES. Chem Geol 51:19–27

    Google Scholar 

  • Feigenson MD, Carr MJ (1993) Mineralogy of the source region of the Central American volcanic front as inferred from geochemical inverse modeling. Contrib Mineral Petrol 113:226–235

    Google Scholar 

  • Gerlach D, Grove T (1982) Petrology of Medicine Lake Highland volcanics: Characterization of endmembers of magma mixing. Contrib Mineral Petrol 80:147–159

    Google Scholar 

  • Gill JB (1981) Orogenic andesites and plate tectonics. Springer Verlag, Berlin, 390 pp

    Google Scholar 

  • Grove TL, Baker MB (1984) Phase equilibrium controls on the tholeiitic versus calc-alkaline differentation trends. J Geophys Res 89:3253–3274

    Google Scholar 

  • O'Hara MJ (1968) The bearing of phase equilibria studies on the origin of basic and ultrabasic rocks. Earth Sci Rev 4:69–133

    Google Scholar 

  • Hole MJ, Saunders AD, Marriner GF, Tarney J (1984) Subduction of pelagic sediments: implications for the origin of Ceanomalous basalts from the Mariana Islands. J Geol Soc London 141:453–472

    Google Scholar 

  • Kussmaul S, Paniagua S, Gainza J (1982) Recopilación, clasificación e interpretación petroquímica de las rocas ígneas de Costa Rica. Inst Geogr Nac, Informe Semestral Julio-Dic, 28:17–79; San José

    Google Scholar 

  • Kussmaul S, Tournon J, Alvarado GE (1991) Evolución de las rocas plutónicas y volcánicas subalcalinas del Neógeno y Cuaternario de Costa Rica. Memorias Simp. Magmatismo Andino y su Marco Tectónico, 1:23–44, Manizales, Colombia

    Google Scholar 

  • Nakamura K (1977) Volcanoes as possible indicators of tectonic stress orientation-principal and proposal. J Volcanol Geotherm Res 2:1–16

    Google Scholar 

  • Madrigal R, Rojas E (1980) Manuel Descriptivo del Mapa Geomorfologico de Costa Rica (escala 1:200000). SEPSA, Imprenta Nacional, San José, 79 pp

    Google Scholar 

  • Malavassi E (1991) Magma sources and crustal processes at the southern terminus of the Central American volcanic arc. Unpublished PhD thesis Univ Calif Santa Cruz 435 pp

  • Montero WK, Morales LD (1990) Deformación y esfuerzos Neotectónicos en Costa Rica. Rev Geol Amér Central 11:69–87

    Google Scholar 

  • Prosser JT, Carr MJ (1987) Poás volcano, Costa Rica: Geology of the summit region and spatial and temporal variations among the most recent lavas. J Volcanol Geotherm Res 33:131–146

    Google Scholar 

  • Reagan MK, Gill JM (1989) Coexisting calc-alkaline and high-niobium basalts from Turrialba volcano, Costa Rica: implications for residual titanates in arc magma sources. J Geophys Res 94:4619–4633

    Google Scholar 

  • Reagan MK, Gill JM, Malavassi E, Garcia MO (1987) Changes in magma composition at Arenal volcano, Costa Rica, 1968–1985: Realtime monitoring of open system differentiation. Bull Volcanol 49:415–434

    Google Scholar 

  • Robin C, Tournon J (1978) Spatial relations of andesitic and alkaline provinces in Mexico and Central America. Can J Earth Sci 15:1633–1641

    Google Scholar 

  • Russell JK, Nicholls J, Stanley CR, Pearce TH (1990) Pearce element ratios: A paradigm for testing hypotheses. EOS 71:234–246

    Google Scholar 

  • Siebert L (1984) Large volcanic debris avalances: Characteristics of source areas, deposits, and associated eruptions. J Volcanol Geotherm Res 22:163–197

    Google Scholar 

  • Stoiber RE, Carr MJ (1973) Quaternary volcanic and tectonic segmentation of Central America. Bull Volcanol 37:304–325

    Google Scholar 

  • Thorpe RS (ed) (1982) Andesites: orogenic andesites and related rocks, John Wiley & Sons, New York. 774 pp

    Google Scholar 

  • Tournon J (1980) Contribución a la morfología de la parte occidental de la cordillera central de Costa Rica. Inst Geogr Nac Informe Semestral Julio-Dic 26:73–83. San José

    Google Scholar 

  • Tournon J (1983) La cadena volcánica de Costa Rica: Composiciones químicas de las lavas, presencia de dos tipos de series. Inst Geogr Nac Informe Semestral Julio-Dic 29:31–62. San José

    Google Scholar 

  • Tournon J (1984) Magmatismes du mesozoique a l'actual en America Centrale: L'example de Costa Rica, des ophilites aux andesites. Thesis doctoral, Mem Sci Terre, Univ Curie, Paris, 49–84:335 pp

  • Walker JA (1981) Petrogenesis of lavas from cinder cone fields behind the volcanic front of Central America. J Geology 89:721–739

    Google Scholar 

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Authors and Affiliations

  1. Department of Volcanology and Petrology, GEOMAR, Wischhofstrasse 1-3, D-24148, Kiel, Germany

    G E Alvarado

  2. Departamento de Geología, ICE, Apto. 10032-1000, San José, Costa Rica

    G E Alvarado

  3. Department of Geological Sciences, Rutgers University, 08903, New Brunswick, NJ, USA

    M J Carr

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  1. G E Alvarado
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  2. M J Carr
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Alvarado, G.E., Carr, M.J. The Platanar-Aguas Zarcas volcanic centers, Costa Rica: spatial-temporal association of Quaternary calc-alkaline and alkaline volcanism. Bull Volcanol 55, 443–453 (1993). https://doi.org/10.1007/BF00302004

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  • DOI: https://doi.org/10.1007/BF00302004

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