Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-26T05:08:08.694Z Has data issue: false hasContentIssue false

The Mesozoic successions of western Sierra de Zacatecas, Central Mexico: provenance and tectonic implications

Published online by Cambridge University Press:  17 December 2015

BERLAINE ORTEGA-FLORES*
Affiliation:
Centro de Geociencias, Universidad Nacional Autónoma de México, Santiago de Querétaro 76001, Mexico
LUIGI A. SOLARI
Affiliation:
Centro de Geociencias, Universidad Nacional Autónoma de México, Santiago de Querétaro 76001, Mexico
FELIPE DE JESÚS ESCALONA-ALCÁZAR
Affiliation:
Unidad Académica de Ciencias de la Tierra, Universidad Autónoma de Zacatecas, Zacatecas 98058, Zacatecas, México
*
Author for correspondence: [email protected]

Abstract

Central Mexico was subject to active tectonics related to subduction processes while it occupied a position in western equatorial Pangea during early Mesozoic time. The subduction of the palaeo-Pacific plate along the western North American and South American active continental margins produced volcanic arc successions which were subsequently rifted and re-incorporated to the continental margin. In this context, the fringing arcs are important in unravelling the continental accretionary record. Using petrographic analysis, detrital zircon geochronology and structural geology, this paper demonstrates that the Guerrero Arc (Guerrero Terrane) formed on top of a felsic volcaniclastic unit (Middle Jurassic La Pimienta Formation) and siliciclastic strata (Upper Triassic Zacatecas Formation and Arteaga Complex) of continental Mexican provenance, deposited across the continental margin and oceanic substrate. This assemblage was rifted away from continental Mexico to form an intervening oceanic assemblage (Upper Jurassic – Lower Cretaceous Las Pilas Volcanosedimentary Complex of the Arperos Basin), then accreted back more or less at the same place, all above the same east-dipping subduction zone. The accretion of the Guerrero Arc to the Mexican continental mainland (Sierra Madre Terrane) caused the deposition of a siliciclastic unit (La Escondida Phyllite), which recycled detritus from the volcaniclastic and siliciclastic underlying strata.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 2015 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anderson, T. H., McKee, J. W. & Jones, N. W. 1991. A northwest trending, Jurassic fold nappe, northernmost Zacatecas, Mexico. Tectonics 10, 383401.Google Scholar
Aranda-Gómez, J. J., Molina-Garza, R., McDowell, F. W., Vasallo-Morales, L. F., Ortega-Rivera, M. A., Solorio-Mungía, J. G. & Aguillón-Robles, A. 2007. The relationships between volcanism and extension in the Mesa Central: the case of Pinos, Zacatecas, Mexico. Revista Mexicana de Ciencias Geológicas 24, 216–33.Google Scholar
Barboza-Gudiño, J. R. 2012. Sedimentary tectonics and stratigraphy: the early Mesozoic record in central to northeastern Mexico. In Stratigraphic Analysis of Layered Deposits (ed. Elitok, Ö.), pp. 255278. InTech.Google Scholar
Barboza-Gudiño, J. R., Orozco-Esquivel, M. T., Gómez-Anguiano, M. & Zavala-Monsivais, A. 2008. The Early Mesozoic volcanic arc of western North America in northeastern Mexico. Journal of South American Earth Sciences 25, 4963.Google Scholar
Barboza-Gudiño, J. R., Ramírez-Fernández, J. A., Torres-Sánchez, S. A. & Valencia, V. A. 2011. Geocronología de circones detríticos de diferentes localidades del Esquisto Granjeno en el noreste de México. Boletín de la Sociedad Geológica Mexicana 63, 201–16.Google Scholar
Barboza-Gudiño, J. R., Tristán-González, M. & Torres-Hernández, J. R. 1998. The Late Triassic-Early Jurassic active continental margin of western North America in northeastern México. Geofísica Internacional 37, 283–92.CrossRefGoogle Scholar
Barboza-Gudiño, J. R., Zavala-Monsiváis, A., Venegas-Rodríguez, G. & Barajas-Nigoche, L. D. 2010. Late Triassic stratigraphy and facies from northeastern Mexico: tectonic setting and provenance. Geosphere 6, 621–40.Google Scholar
Bartolini, C., Lang, H. & Spell, T. 2003. Geochronology, geochemistry, and tectonic setting of the Mesozoic Nazas arc in north-central Mexico, and its continuation to north South America. In The Circum Gulf of Mexico and the Caribbean: Hydrocarbon Habitats, Basin Formation and Plate Tectonics (eds Bartolini, C., Buffler, R. T. & Blickwede, J. F.), pp. 427–61. American Association of Petroleum Geologists, Memoir no. 79.Google Scholar
Blickwede, J. F. 2001. The Nazas formation: a detailed look at the early Mesozoic convergent margin along the western rim of the Gulf of Mexico Basin. In The Western Gulf of Mexico Basin: Tectonics, Sedimentary Basins, and Petroleum Systems (eds Bartolini, C., Buffler, R. T. & Chapa, A. Cantú), pp. 317–42. American Association of Petroleum Geologists, Memoir no. 75.Google Scholar
Burckhardt, C. 1906. Sobre el descubrimiento del Triásico marino en Zacatecas. Boletín de la Sociedad Geológica Mexicana 2, 43–5.Google Scholar
Busby, C. J. 2012. Extensional and transtensional continental arc basins: case studies from the southwestern United States. In Tectonics of Sedimentary Basins: Recent Advances (eds Busby, C. J. & Azor, A.), pp. 382404. West Sussex: John Wiley & Sons.Google Scholar
Busby-Spera, C. J. 1988. Evolution of a Middle Jurassic back-arc basin, Cedros Island, Baja California: evidence from a marine volcaniclastic apron. Geological Society of America Bulletin 100, 218–38.2.3.CO;2>CrossRefGoogle Scholar
Campa, M. F. & Coney, P. J. 1983. Tectonostratigraphic terranes and mineral resource distributions in Mexico. Canadian Journal of Earth Sciences 20, 1040–51.Google Scholar
Centeno-García, E. 2005. Review of Upper Paleozoic and Lower Mesozoic stratigraphy and depositional environments of central and west Mexico: Constraints on terrane analysis and paleogeography. In The Mojave-Sonora Megashear Hypothesis: Development, Assessment, and Alternatives (eds Anderson, T. H., Nourse, J. A., McKee, J. W. & Steiner, M. B.), pp. 233–58. Geological Society of America, Special Paper no. 393.Google Scholar
Centeno-García, E., Busby, C., Busby, M. & Gehrels, G. 2011. Evolution of the Guerrero composite terrane along the Mexican margin, from extensional fringing arc to contractional continental arc. Geological Society of America Bulletin 123, 1776–97.CrossRefGoogle Scholar
Centeno-García, E., Guerrero-Suástegui, M. & Talavera-Mendoza, O. 2008. The Guerrero Composite Terrane of western Mexico: Collision and subsequent rifting in a suprasubduction zone. In Formation and Applications of the Sedimentary Record in Arc Collision Zones (eds Draut, A., Clift, P. D. & Scholl, D. W.), pp. 279308. Geological Society of America, Special Paper no. 436.Google Scholar
Centeno-García, E., Ruíz, J., Coney, P. J., Patchett, P. J. & Ortega-Gutiérrez, F. 1993. Guerrero Terrane of Mexico: Its role in the southern Cordillera from new geochemical data. Geology 21, 419–22.2.3.CO;2>CrossRefGoogle Scholar
Centeno-García, E. & Silva-Romo, G. 1997. Petrogénesis and tectonic evolution of central Mexico Turing Triassic-Jurassic time. Revista Mexicana de Ciencias Geológicas 14, 244–60.Google Scholar
Cochrane, R., Spikings, R., Gerdes, A., Ulianov, A., Mora, A., Villagómez, D., Putlitz, B. & Chiaradia, M. 2014. Permo-Triassic anatexis, continental rifting and the disassembly of western Pangaea. Lithos 190–191, 383402.Google Scholar
Coney, P. J. & Campa, M. F. 1984. Terrenos sospechosos de aloctonía y acreción del occidente y sur del continente Norteamericano. Boletín del Departamento Geología de la Universidad de Sonora 1, 124.Google Scholar
Corfu, F., Hanchar, J. M., Hoskin, P. W. O. & Kinny, P. 2003. Atlas of zircon textures. In Zircon (eds Hanchar, J. M. & Hoskin, P. W. O.), pp. 469500. Mineralogical Society of America, Reviews in Mineralogy and Geochemistry no. 53.Google Scholar
Critelli, S., Le Pera, E. & Ingersoll, R. V. 1997. The effects of source lithology, transport, deposition and sampling scale on the composition of southern California sand. Sedimentology 44, 653–71.Google Scholar
Dickinson, W. R. 1985. Interpreting provenance from detrital modes of sandstones. In Provenance of Arenites (ed. Zuffa, G. G.), pp. 333–61. Dordrecht: D. Reidel Publishing Company.Google Scholar
Dickinson, W. R. 1970. Interpreting detrital modes of greywacke and arkose. Journal of Sedimentary Petrology 40, 695707.Google Scholar
Dickinson, W. R. & Lawton, T. F. 2001. Carboniferous to Cretaceous assembly and fragmentation of Mexico. Geological Society of America Bulletin 113, 1142–60.Google Scholar
Elías-Herrera, M. & Ortega-Gutiérrez, F. 1998. The Early Cretaceous Arperos oceanic basin (western Mexico). Geochemical evidence for an aseismic ridge formed near a spreading center. Tectonophysics 292, 321–6.CrossRefGoogle Scholar
Elías-Herrera, M., Sánchez-Zavala, J. L. & Macías-Romo, C. 2000. Geologic and geochronologic data from the Guerrero terrane in the Tejupilco area, southern Mexico: new constraints on its tectonic interpretation. Journal of South American Earth Sciences 13, 355–75.Google Scholar
English, J. M. & Johnston, S. T. 2004. The Laramide Orogeny: what were the driven forces? International Geology Review 46, 833–38.Google Scholar
English, J. M., Johnston, S. T. & Wang, K. 2003. Thermal modelling of the Laramide orogeny: testing the flat-slab subduction hypothesis. Earth and Planetary Science Letters 214, 619–32.Google Scholar
Escalona-Alcázar, F. J., Delgado-Argote, L. A., Nebel, O., Velasco-Tapia, F., Weber, B. & Núñez-Peña, E. P. 2014. Maturing arc signatures monitored by trace element and Hf isotope systematics in the Early Cretaceous Zacatecas Volcanic Field, Mexico. The Journal of Geology 122, 549–66.Google Scholar
Escalona-Alcázar, F. J., Delgado-Argote, L. A., Weber, B., Núñez-Peña, E. P., Valencia, V. A. & Ortiz-Acevedo, O. 2009. Kinematics and U-Pb dating of detrital zircons from the Sierra de Zacatecas, Mexico. Revista Mexicana de Ciencias Geológicas 26, 4864.Google Scholar
Folk, R. L. 1974. Petrology of Sedimentary Rocks. Austin, TX: Hemphill Publishing Company, 182 pp.Google Scholar
Freydier, C., Lapierre, H., Briqueu, L., Tardy, M., Coulon, C. H. & Martínez, J. 1997. Volcaniclastic sequences with continental affinities within the Late Jurassic – Early Cretaceous Guerrero intra-oceanic arc terrane (western Mexico). The Journal of Geology 105, 483502.Google Scholar
Freydier, C., Lapierre, H., Ruiz, J., Terry, M., Martínez, R. J. & Coulon, C. 2000. The Early Cretaceous Arperos basin: an oceanic domain dividing the Guerrero arc from nuclear Mexico evidenced by geochemistry of the lavas and sediments. Journal of South American Earth Sciences 13, 325–36.Google Scholar
Freydier, C., Martinez, R., Lapierre, H., Tardy, M. & Coulon, C. 1996. The Early Cretaceous Arperos oceanic basin (western Mexico): geochemical evidence for an aseismic ridge formed near a spreading center. Tectonophysics 259, 343–67.Google Scholar
Gazzi, P. 1966. Le arenarie del flysch sopracretaceo dell'Appennino modenese; correlazioni con il flysch di Monghidoro. Mineralogica e Petrográfica Acta 12, 6997.Google Scholar
Gehrels, G. E. 2012. Detrital zircon U-Pb geochronology: Current methods and new opportunities. In Tectonics of Sedimentary Basins: Recent Advances (eds Busby, C. & Azor, A.), pp. 4562. West Sussex: John Wiley & Sons.Google Scholar
Gehrels, G. E., Valencia, V. A. & Ruiz, J. 2008. Enhanced precision, accuracy, efficiency, and spatial resolution of U-Pb ages by laser ablation–multicollector–inductively coupled plasma–mass spectrometry. Geochemistry, Geophysics, Geosystems 9, 113.Google Scholar
Gutiérrez-Amador, M. 1908. Las capas Cárnicas de Zacatecas. Boletín de la Sociedad Geológica Mexicana 4, 2935.Google Scholar
Ingersoll, R. V., Bullard, T. F., Ford, T. L., Grimm, J. P. & Pickle, J. D. 1984. The effect of grain size on detrital modes: a test of the Gazzi-Dickinson point counting method. Journal of Sedimentary Petrology 54, 103–16.Google Scholar
Keppie, J. D. 2004. Terranes of Mexico revisited: a 1.3 billion year odyssey. International Geology Review 46, 765–94.Google Scholar
Keppie, J. D., Dostal, J., Cameron, K. L., Solari, L. A., Ortega-Gutiérrez, F. & Lopez, R. 2003. Geochronology and geochemistry of grenvillian igneous suites in the northern Oaxacan Complex, southern Mexico: tectonic implications. Precambrian Research 120, 365–89.Google Scholar
Keppie, J. D., Dostal, J., Miller, B. V., Ortega-Rivera, A. & Roldán-Quintana, J. 2007. Geochronology and geochemistry of the Francisco Gneiss: Triassic continental rift tholeiites on the Mexican margin of Pangea, metamorphosed and exhumed in a Tertiary core complex. International Geology Review 48, 116.Google Scholar
Lapierre, H., Ortiz, H. E., Abouchami, N. V., Monod, O., Coulon, C. & Zimmermann, J. L. 1992. A crustal section of an intra-oceanic island arc: The Late Jurassic±Early Cretaceous Guanajuato magmatic sequence (central Mexico). Earth and Planetary Sciences Letters 108, 6177.Google Scholar
Lawlor, P. J., Ortega-Gutiérrez, F., Cameron, K. L., Ochoa-Camarillo, H., López, R. & Sampson, D. A. 1999. U–Pb geochronology, geochemistry, and provenance of the Grenvillian Huiznopala Gneiss of Eastern Mexico. Precambrian Research 94, 7399.Google Scholar
Lawton, T. F. & Molina-Garza, R. 2014. U-Pb geochronology of the type Nazas Formation and superjacent strata, northeastern Durango, Mexico: implications of a Jurassic age for continental-arc magmatism in north-central Mexico. Geological Society of America Bulletin, published online 2 May 2014, doi: 10.1130/B30827.1.Google Scholar
Levresse, G., Tritlla, J., Deloule, E. & Pinto-Linares, P. 2007. Is there a Grenvillian basement in the Guerrero-Morelos Platform of Mexico? Geologica Acta 5, 167–75.Google Scholar
Ludwig, K. 2008. Manual for Isoplot 3.7. Berkeley Geochronology Center, Special Publication 4.Google Scholar
Marshall, D. J. 1988. Cathodoluminescence of Geological Materials. London: Unwin Hyman, 181 pp.Google Scholar
Martens, U., Weber, B. & Valencia, V. A. 2010. U/Pb geochronology of Devonian and older Paleozoic beds in the southwestern Maya Block, Central America: its affinity with Peri-Gondwanan terranes. Geological Society of America Bulletin 122, 815–29.Google Scholar
Martini, M., Ferrari, L., López-Martínez, M., Cerca-Martínez, M., Valencia, V. & Serrano-Durán, L. 2009. Cretaceous-Eocene magmatism and Laramide deformation in southwestern Mexico: no role for terrane accretion. In Backbone of the Americas: Shallow Subduction, Plateau Uplift, and Ridge and Terrane Collision (eds Kay, S. M., Ramos, V. A. & Dickinson, W. R.), pp. 151–82. Geological Society of America, Memoir no. 204.Google Scholar
Martini, M., Ferrari, L., López-Martínez, M. & Valencia, V. 2010. Stratigraphic redefinition of the Zihuatanejo area, southwestern Mexico. Revista Mexicana de Ciencias Geológicas 27, 412–30.Google Scholar
Martini, M., Fitz, E., Solari, L., Camprubí, A., Hudleston, P. J., Lawton, T. F., Tolson, G. & Centeno-García, E. 2012. The Late Cretaceous evolution of the Mexican Fold-Thrust Belt and its possible relationship to the accretion of the Guerrero Terrane. In The Southern Cordillera and Beyond (eds Aranda-Gómez, J. J., Tolson, G. & Molina-Garza, R. S.), pp. 30–8. Geological Society of America, Field Trip Guide no. 25.Google Scholar
Martini, M., Mori, L., Solari, L. & Centeno-García, E. 2011. Sandstone provenance of the Arperos Basin (Sierra de Guanajuato, central Mexico): late Jurassic–Early Cretaceous back-arc spreading as the foundation of the Guerrero terrane. Journal of Geology 119, 597617.Google Scholar
Martini, M., Solari, L. & López-Martínez, M. 2014. Correlating the Arperos Basin from Guanajuato, central Mexico, to Santo Tomás, southern Mexico: implications for the paleogeography and origin of the Guerrero terrane. Geosphere, published online 7 October 2014, doi: 10.1130/GES01055.1.Google Scholar
McGehee, R. V. 1976. Las rocas metamórficas del Arroyo La Pimienta, Zacatecas, Zac. Boletín de la Sociedad Geológica Mexicana 37, 110.Google Scholar
McKee, J. W., Jones, N. W. & Anderson, T. H. 1999. The late Paleozoic and early Mesozoic history of the Las Delicias terrane, Coahuila, Mexico. In Mesozoic Sedimentary and Tectonic History of North-Central Mexico (eds Bartolini, C., Wilson, J. L. & Lawton, T. F.), pp. 161–89. Geological Society of America, Special Paper no. 340.Google Scholar
Miller, E. L., Soloviev, A. V., Prokopiev, A. V., Toro, J., Harris, D., Kuzmichev, A. B. & Gehrels, G. E. 2013. Triassic river systems and the paleo-Pacific margin of northwestern Pangea. Gondwana Research 23, 1631–45.Google Scholar
Monod, O. & Calvet, P. 1992. Structural and stratigraphic re-interpretation of the Triassic units near Zacatecas (Zac.), Central Mexico: Evidence of a Laramide nappe pile. Zentralblatt für Geologie und Paläontologie I (6), 1533–44.Google Scholar
Mortensen, J. K., Hall, B. V., Bissig, T., Friedman, R. M., Danielson, T., Oliver, J., Rhys, D. A., Ross, K. V. & Gabites, J. E. 2008. Age and paleotectonic setting of volcanogenic massive sulphide deposits in the Guerrero terrane of Central Mexico: constraints from U-Pb age and Pb isotope studies. Economic Geologists 103, 117–40.Google Scholar
Nance, R. D., Fernández-Suárez, J., Keppie, J. D., Storey, C. & Jeffries, T. 2007. Provenance of the Granjeno Schist, Ciudad Victoria, México: Detrital zircon U-Pb age constraints and implications for the Paleozoic paleogeography of the Rheic Ocean. In The Evolution of the Rheic Ocean: From Avalonian-Cadomian Active Margin to Alleghenian-Variscan Collision (eds Linnemann, U., Nance, R. D., Kraft, P. & Zulauf, G.), pp. 453–54. Geological Society of America, Special Paper no. 423.Google Scholar
Nieto-Samaniego, A. F., Ferrari, L., Alaniz-Alvarez, S. A., Labarthe-Hernández, G. & Rosas-Elguera, J. 1999. Variation of Cenozoic extension and volcanism across the southern Sierra Madre Occidental volcanic province, Mexico. Geological Society of America Bulletin 111, 347–63.2.3.CO;2>CrossRefGoogle Scholar
Ochoa-Camarillo, H. R., Buitrón, S. B. E. & Silva, P. A. 1998. Contribución al conocimiento de la Bioestratigrafía, Paleoecología y Tectónica del Jurásico (Anticlinorio de Huayacocotla) en la Región de Molango, Hidalgo, México. Revista Mexicana de Ciencias Geológicas 15, 5763.Google Scholar
Ortega-Flores, B., Solari, L., Lawton, T. F. & Ortega-Obregón, C. 2014. Detrital-zircon record of major Middle Triassic–Early Cretaceous provenance shift, central Mexico: demise of Gondwanan continental fluvial systems and onset of back-arc volcanism and sedimentation. International Geology Review 56, 237–61.Google Scholar
Ortega-Gutiérrez, F., Ruiz, J. & Centeno-García, E. 1995. Oaxaquia, a Proterozoic microcontinent accreted to North America during the late Paleozoic. Geology 23, 1127–30.Google Scholar
Ortíz-Hernández, L. E., Acevedo-Sandoval, O. A. & Flores- Castro, K. 2003. Early Cretaceous intraplate seamounts from Guanajuato, central Mexico: geochemical and mineralogical data. Revista Mexicana de Ciencias Geológicas 20, 2740.Google Scholar
Palacios-García, N. B. & Martini, M. 2014. From back-arc rifting to arc accretion: the Late Jurassic–Early Cretaceous evolution of the Guerrero terrane recorded by a major provenance change in sandstones from the Sierra de los Cuarzos area, central Mexico. International Geology Review 56, 1377–94.Google Scholar
Pantoja-Alor, J. 1972. La Formación Nazas del Levantamiento de Villa Juárez, Estado de Durango. In Memorias de la Segunda Convención Nacional de la Sociedad Geológica Mexicana (eds Córdoba, D. A., del Arenal, R., Rodríguez-Torres, R. & Segura, L. R.), pp. 2531. Mazatlán, Sinaloa, México: Sociedad Geológica Mexicana.Google Scholar
Paton, C., Woodhead, J. D., Hellstrom, J. C., Hergt, J. M., Greig, A. & Maas, R. 2010. Improved laser ablation U-Pb zircon geochronology through robust downhole fractionation correction. Geochemistry, Geophysics, Geosystems 11, 136.Google Scholar
Petrus, J. A. & Kamber, B. S. 2012. VizualAge: a novel approach to laser ablation ICP-MS U-Pb geochronology data reduction. Geostandards and Geoanalytical Research 36, 247–70.CrossRefGoogle Scholar
Pindell, J. L. & Dewey, J. F. 1982. Permo-Triassic reconstruction of western Pangea and the evolution of the Gulf of Mexico/Caribbean region. Tectonics 1, 179211.Google Scholar
Ransom, W. A., Fernández, L. A., Simmons, W. B. Jr. & Enciso-De La Vega, S. 1982. Petrology of the metamorphic rocks of Zacatecas, Zac., Mexico. Boletín de la Sociedad Geológica Mexicana XLIII, 3759.CrossRefGoogle Scholar
Rubio-Cisneros, I. I. & Lawton, T. F. 2011. Detrital zircon U-Pb ages of sandstones in continental red beds at Valle de Huizachal, Tamaulipas, NE Mexico: record of Early-Middle Jurassic arc volcanism and transition to crustal extension. Geosphere 7, 159–70.Google Scholar
Ruiz, J., Patchett, P. J. & Ortega-Gutiérrez, F. 1988. Proterozoic and Phanerozoic basement terranes of Mexico from Nd isotopic studies. Geological Society of America Bulletin 100, 274–81.Google Scholar
Sedlock, R. L., Ortega-Gutiérrez, F. & Speed, R. C. 1993. Tectonostratigraphic terranes and tectonic evolution of Mexico. In Tectonostratigraphic Terranes and Tectonic Evolution of Mexico (eds Sedlock, R. L., Ortega-Gutiérrez, F. & Speed, R. C.), pp. 1153. Geological Society of America, Special Paper no. 278.Google Scholar
Silva-Romo, G., Arellano-Gil, J., Mendoza-Rosales, C. & Nieto-Obregón, J. 2000. A submarine fan in the Mesa Central, Mexico. Journal of South American Earth Sciences 13, 429–42.Google Scholar
Silva-Romo, G., Mendoza-Rosales, C. C., Campos-Madrigal, E., Centeno-García, E. & Peralta-Salazar, R. 2015. Early Mesozoic Southern Mexico–Amazonian connection based on U–Pb ages from detrital zircons: the La Mora Paleo-River in the Mixteca Terrane and its paleogeographic and tectonic implications. Gondwana Research 28 (2), 689701.CrossRefGoogle Scholar
Silver, L. T. & Anderson, T. H. 1974. Possible left-lateral early to middle Mesozoic disruption of the southwestern North American craton margin. Geological Society of America Abstracts with Programs 6, 955–56.Google Scholar
Sláma, J., Košler, J., Condon, D. J., Crowley, J. L., Gerdes, A., Hanchar, J. M., Horstwood, M. S. A., Morris, G. A., Nasdala, L., Norberg, N., Schaltegger, U., Schoene, B., Tubrett, M. N. & Whitehouse, M. J. 2008. Plesovice zircon - A new natural reference material for U-Pb and Hf isotopic microanalysis. Chemical Geology 249, 135.Google Scholar
Solari, L.A., García-Casco, A., Martens, U., Lee, J. K. W. & Ortega-Rivera, A. 2013. Late Cretaceous subduction of the continental basement of the Maya Block (Rabinal Granite, central Guatemala): tectonic implications for the geodynamic evolution of Central America. Geological Society of America Bulletin 125, 625–39.Google Scholar
Solari, L. A., Gómez-Tuena, A., Bernal, J. P., Pérez-Arvizu, O. & Tanner, M. 2010. U-Pb zircon geochronology by integrated LA-ICPMS microanalytical workstation: achievements in precision and accuracy. Geostandards and Geoanalytical Research 34, 518.Google Scholar
Solari, L. A., Gómez-Tuena, A., Ortega-Gutiérrez, F. & Ortega-Obregón, C. 2011. The Chuacús metamorphic complex, central Guatemala: Geochronological and geochemical constraints on its Paleozoic–Mesozoic evolution. Geologica Acta 9, 329–50.Google Scholar
Solari, L. A., Keppie, J. D., Ortega-Gutiérrez, F., Cameron, K. L., Lopez, R. & Hames, W. E. 2003. 990 and 1100 Ma Grenvillian tectonothermal events in the northern Oaxacan Complex, southern Mexico: roots of an orogen. Tectonophysics 365, 257–82.Google Scholar
Talavera-Mendoza, O. & Guerrero-Suástegui, M. 2000. Geochemistry and isotopic composition of the Guerrero Terrane (western Mexico): Implications for the tectonomagmatic evolution of southwestern North America during the Late Mesozoic. Journal of South American Earth Sciences 13, 297324.Google Scholar
Talavera-Mendoza, O., Ruiz, J., Gehrels, G. E. & Valencia, V. A. 2007. Detrital zircon U/Pb geochronology of southern Guerrero and western Mixteca arc successions (southern Mexico): new insights for the tectonic evolution of southwestern North America during the late Mesozoic. Geological Society of America Bulletin 119, 1052–65.Google Scholar
Tassinari, C. C. G. & Macambira, M. J. B. 1999. Geochronological provinces of the Amazonian Craton. Episodes 22, 174–82.Google Scholar
Torres, R., Ruiz, J., Patchett, P. J. & Grajales, J. M. 1999. Permo-Triassic continental arc in eastern México: Tectonic implications, for reconstructions of southern North America. In Mesozoic Sedimentary and Tectonic History of North-Central Mexico (eds Bartolini, C., Wilson, J. L. & Lawton, T. F.), pp. 191–6. Geological Society of America, Special Paper no. 340.Google Scholar
Trainor, R. J., Nance, R. D. & Keppie, J. D. 2011. Tectonothermal history of the Mesoproterozoic Novillo Gneiss of eastern Mexico: Support for coherent Oaxaquia microcontinent. Revista Mexicana de Ciencias Geológicas 28, 580–92.Google Scholar
Tristán-González, M., Torres-Hernández, J. R., Labarthe-Hernández, G., Aguillón-Robles, A. & Yza-Guzmán, R. 2012. Control estructural para el emplazamiento de vetas y domos félsicos en el distrito minero de Zacatecas, México. Boletín de la Sociedad Geológica Mexicana 64, 353–67.Google Scholar
Vega-Granillo, R., Salgado-Souto, S., Herrera-Urbina, S., Valencia-Gómez, V. & Vidal-Solano, J. R. 2011. Metamorphism and deformation in the El Fuerte region: their role in the tectonic evolution of NW México. Revista Mexicana de Ciencias Geológicas 28, 1023.Google Scholar
Vermeesch, P. 2012. On the visualisation of detrital age distributions. Chemical Geology 312–313, 190–4.Google Scholar
Weber, B., Schaaf, P., Valencia, V. A., Iriondo, A. & Ortega-Gutiérrez, F. 2006. Provenance ages of late Paleozoic sandstone (Santa Rosa Formation) from the Maya block, SE Mexico. Implications on the tectonic evolution of western Pangea. Revista Mexicana de Ciencias Geológicas 23, 262–76.Google Scholar
Weber, B., Scherer, E. E., Mezger, K. & Ruiz, J. 2011. Evolution of the lower crust from S. Mexico: Constraints from Lu–Hf isotopes and U–Pb ages in zircon. Goldschmidt 2011 abstracts, Mineralogical Magazine 75, 2137.Google Scholar
Weber, B., Scherer, E. E., Schulze, C., Valencia, V. A., Montecinos, P., Mezger, K. & Ruiz, J. 2010. U–Pb and Lu–Hf isotope systematics of lower crust from central- southern Mexico – Geodynamic significance of Oaxaquia in a Rodinia Realm. Precambrian Research 182, 149–62.Google Scholar
Weber, B., Valencia, V., Schaaf, P. & Ortega-Gutiérrez, F. 2009. Detrital zircon ages from the Lower Santa Rosa Formation, Chiapas: Implications on regional Paleozoic stratigraphy. Revista Mexicana de Ciencias Geológicas 26, 260–76.Google Scholar
Wiedenbeck, M., Allé, P., Corfu, F., Griffin, W., Meier, M., Oberli, F., Von Quadt, A., Roddick, J. & Spiegel, W. 1995. Three natural zircon standards for U-Th-Pb, Lu-Hf, trace element and REE analyses. Geostandard Newsletter 19, 123.CrossRefGoogle Scholar
Zavala-Monsiváis, A., Barboza-Gudiño, J. R., Velasco-Tapia, F. & García-Arreola, M. E. 2012. Sucesión volcánica Jurásica en el área de Charcas, San Luis Potosí: Contribución al entendimiento del Arco Nazas en el noreste de México. Boletín de la Sociedad Geológica Mexicana 64, 277–93.Google Scholar
Zuffa, G. G. 1985. Optical analyses of arenitas: influence of methodology of compositional results. In Provenance of Arenites (ed. Zuffa, G. G.), pp. 165–89. Dordrecht, The Netherlands: Reidel.Google Scholar
Supplementary material: File

Ortega-Flores supplementary material

Tables S1

Download Ortega-Flores supplementary material(File)
File 22.5 KB
Supplementary material: File

Ortega-Flores supplementary material

Table S2

Download Ortega-Flores supplementary material(File)
File 22 KB
Supplementary material: File

Ortega-Flores supplementary material

Tables

Download Ortega-Flores supplementary material(File)
File 325.6 KB