Abstract
The mid-Tertiary ignimbrites of the Sierra Madre Occidental of western Mexico constitute the largest continuous rhyolitic province in the world. The rhyolites appear to represent part of a continental magmatic arc that was emplaced when an eastward-dipping subduction zone was located beneath western Mexico.
In the Batopilas region of the northern Sierra Madre Occidental the mid-Tertiary Upper Volcanic sequence is composed predominantly of rhyolitic ignimbrites, but volumetrically minor lava flows as mafic as basaltic andesite are also present. The basaltic andesite to rhyolite series is calc-alkalic and contains ∼1% K2O at 60% SiO2. Trace element abundances of a typical ignimbrite with 73% SiO2 are Sr ∼ 225 ppm, Rb ∼130 ppm, Y ∼32 ppm, Th ∼12 ppm, Zr ∼200 ppm, and Nb ∼15 ppm. The entire series plots as coherent and continuous trends on variation diagrams involving major and trace elements, and the trends are distinct from those of geographicallyassociated rocks of other suites. We interpret these and other geochemical variations to indicate that the rocks are comagmatic. Mineral chemistry, Sr isotopic data, and REE modelling support this interpretation.
Least squares calculations show that the major element variations are consistent with formation of the basaltic andesite to rhyolite series by crystal fractionation of observed phenocryst phases in approximate modal proportions. In addition, calculations modelling the behavior of Sr with the incompatible trace element Th favor a fractional crystallization origin over a crustal anatexis origin for the rock series. The fractionating minerals included plagioclase (> 50%), and lesser amounts of Fe-Ti oxides, pyroxenes, and/or hornblende. The voluminous ignimbrites represent no more than 20% of the original mass of a mantle-derived mafic parental magma.
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References
Arth JG (1976) Behavior of trace elements during magmatic processes — a summary of the theoretical models and their applications. J Res U S Geol Surv 4:41–47
Atwater T, Molnar P (1973) Relative motion of the Pacific and North American plates deduced from sea-floor spreading in the Atlantic, Indian, and South Pacific Oceans. Stanford University Publications 13:136–148
Bagby WC (1979) Geology, geochemistry, and geochronology of the Batopilas region, Sierra Madre Occidental, Chihuahua, Mexico. Ph D dissertation, University of California, Santa Cruz
Cameron KL, Cameron M, Bagby WC, Moll EJ, Drake RE (1980) Petrologic characteristics of mid-Tertiary volcanic suites, Chihuahua, Mexico. Geology 8:87–91
Clark KF, de la Fuente L, FE (1978) Distribution of mineralization in time and space in Chihuahua, Mexico. Mineral Deposita 13:27–49
Dostal J, Zentilli M, Caelles JC, Clark AH (1977) Geochemistry and origin of volcanic rocks of the Andes (26°–28° S). Contrib Mineral Petrol 63:113–128
Eichelberger JC (1978) Andesitic volcanism and crustal evolution. Nature 275:21–27
Elston WE, Rhodes RC, Coney PJ, Deal EG (1976) Progress report on the Mogollon Plateau volcanic field southwestern New Mexico, no 3 — Surface expression of a pluton. New Mexico Geol Soc Spec Publ 5:3–28
Ewart A (1979) A review of the mineralogy and chemistry of Tertiary-Recent dacitic, latitic, rhyolitic, and related salic volcanic rocks. In: Barker F (ed) Trondhjemites, Dacites and Related Rocks. Elsevier, New York
Ewart A (1966) Review of the mineralogy and chemistry of the acidic volcanic rocks of Taupo volcanic zone, New Zealand. Bull Volcanol 29:147–172
Ewart A, Brothers RN, Mateen A (1977) An outline of the geology and geochemistry, and the possible petrogenetic evolution of the volcanic rocks of the Tonga-Kermadec-New Zealand island arc. J Volcanol Geotherm Res 2:205–250
Ewart A, Green DC, Carmichael ISE, Brown FH (1971) Voluminous low temperature rhyolitic magmas in New Zealand. Contrib Mineral Petrol 33:128–144
Ewart A, Hildreth W, Carmichael ISE (1975) Quaternary acid magma in New Zealand. Contrib Mineral Petrol 51:1–27
Ewart A, Stipp JJ (1968) Petrogenesis of the volcanic rocks of the central North Island New Zealand, as indicated by a study of Sr87/Sr86 ratios, and Sr, Rb, K, U and Th abundances. Geochim Cosmochim Acta 32:699–736
Gunn BM, Mooser F (1971) Geochemistry of volcanics of central Mexico. Bull Volcanol 34:577–615
Hanson GN (1978) The application of trace elements to the petrogenesis of igneous rocks of granitic composition. Earth Planet Sci Lett 38:26–43
Hildreth W (1979) The Bishop Tuff: Evidence for the origin of compositional zonation in silicic magma chambers. Geol Soc Am Spec Pap 180:43–75
Humphris SE, Thompson G (1978) Trace element mobility during hydrothermal alteration of oceanic basalts. Geochim Cosmochim Acta 42:127–136
Irvine TN, Baragar WRA (1971) A guide to the chemical classification of common volcanic rocks. Can J Earth Sci 8:532–548
Lanphere MA, Cameron KL, Cameron M (1980) Sr isotope geochemistry of voluminous rhyolitic ignimbrites and related rocks, western Mexico. Nature 286:594–596
Leake BE (1978) Nomenclature of amphiboles. Can Mineral 16:501–520
Lipman PW (1976) Caldera-collapse breccias in the western San Juan Mountains, Colorado. Geol Soc Am Bull 86:1397–1410
Lipman PW, Doe BR, Hedge CE, Steven RA (1978) Petrologic evolution of the San Juan volcanic field, southwestern Colorado: Pb and Sr isotope evidence. Geol Soc Am Bull 89:59–82
Lipman PW, Christiansen RL, Van Alstine RE (1969) Retention of alkalies by calc-alkalic rhyolites during crystallization and hydration. Am Mineral 54:286–291
Mahood G (1979) Contrasting trace element behavior in rhyolitic ash flows and lavas, Sierra la Primavera (SLP), Mexico. Geol Soc Am Abstr Prog 11:471
McDowell FW, Clabaugh SE (1979) Ignimbrites of the Sierra Madre Occidental and their relation to the tectonic history of western Mexico. Geol Soc Am Spec Pap 180:113–124
McDowell FW, Keizer RP (1977) Timing of mid-Tertiary volcanism in the Sierra Madre Occidental between Durango City and Mazatlán, Mexico. Geol Soc Am Bull 88:1479–1486
Miyashiro A (1974) Volcanic rock series in island arcs and active continental margins. Am J Sci 274:321–355
Nicholls IA (1974) Liquids in equilibrium with peridotitic mineral assemblages at high water pressures. Contrib Mineral Petrol 45:289–316
Noble DC, Hedge CE, McKee EH, Korringa MK (1973) Reconnaissance study of the strontium isotope composition of Cenozoic volcanic rocks in the northwestern Great Basin. Geol Soc Am Bull 84:1393–1406
Norrish K, Hutton JT (1969) An accurate X-ray spectrographic method for the analysis of a wide range of geological samples. Geochim Cosmochim Acta 33:431–453
Osborn EF (1962) Reaction series for subalkaline igneous rocks based on different oxygen pressure conditions. Am Mineral 47:211–226
Peacock MA (1931) Classification of igneous rock series. J Geol 39:54–67
Pearce JA, Cann JR (1973) Tectonic setting of basic volcanic rocks determined using trace element analysis. Earth Planet Sci Lett 19:290–300
Pearce JA, Norry MJ (1979) Petrogenetic implications of Ti, Zr, Y, and Nb variations in volcanic rocks. Contrib Mineral Petrol 69:33–47
Pichler H, Zeil W (1972) The Cenozoic rhylolite-andesite association of the Chilean Andes. Bull Volcanol 35:424–452
Pushkar P, McBirney AR, Kudo AM (1972) The isotopic composition of strontium in Central American ignimbrites. Bull Volcanol 35:265–294
Shaw DM (1970) Trace element fractionation during anatexis. Geochim Cosmochim Acta 34:237–243
Sparks RSJ, Walker GPL (1977) The significance of vitric-enriched air-fall ashes associated with crystal-enriched ignimbrites. J Volcanol Geotherm Res 2:329–341
Swanson ER, Keizer RP, Lyons JI, Clabaugh SE (1978) Tertiary volcanism and caldera development near Durango City, Sierra Madre Occidental, Mexico. Geol Soc Am Bull 89:1000–1012
Thorpe RS, Francis PW, Moorbath S (1979) Rare earth and strontium isotope evidence concerning the petrogenesis of North Chilean ignimbrites. Earth Planet Sci Lett 42:359–367
Wright TL, Doherty PC (1970) A linear programming and least square computer method for solving petrologic mixing problems. Geol Soc Am Bull 81:1905–2008
Wyllie PG (1977) Crustal anatexis: an experimental review. Tectonophysics 43:41–71
Zielinski RA, Lipman PW, Millard HT (1977) Minor element abundances in obsidian, perlite, and felsite of calc-alkaline rhyolites. Am Mineral 62:426–437
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Cameron, M., Bagby, W.C. & Cameron, K.L. Petrogenesis of voluminous mid-Tertiary ignimbrites of the Sierra Madre Occidental, Chihuahua, Mexico. Contr. Mineral. and Petrol. 74, 271–284 (1980). https://doi.org/10.1007/BF00371697
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DOI: https://doi.org/10.1007/BF00371697