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Early Ordovician (Arenig) brachiopods from volcaniclastic rocks of the Famatina Range, northwest Argentina

Published online by Cambridge University Press:  20 May 2016

Juan L. Benedetto*
Affiliation:
Cátedra de Estratigrafía y Geología Histórica, Departamento de Geología, Facultad de Ciencias Exactas, Físicas y Naturales, Universidad Nacional de Córdoba, CONICET, Av. Velez Sarsfield 299, 5000 Cordoba, Argentina

Abstract

This paper constitutes the first monographical study of the rich brachiopod faunas from the Early Ordovician Suri and Molles Formations of the central Famatina Range, which form a nearly continuous, more than 2,000 m thick succession of fossiliferous clastic and volcaniclastic rocks. Conodonts from the brachiopod-rich levels of the upper third of the Suri Formation and Los Molles Formation indicate the upper part of the Oepikodus evae Biozone (mid-Arenig). The systematic study of brachiopod faunas reveals the presence of 22 species belonging to 19 genera, three of which are new. The new genera recognized are the orthid Suriorthis, the hesperonomiid Mollesella, and the rectostrophiid Trigonostrophia. The following 12 new species and subspecies are described and illustrated: the clitambonitoidean Tritoechia mollesensis; the skenidioideans Crossiskenidium? stelzneri and Skenidioides kayseri; the orthoideans Paralenorthis suriensis, Paralenorthis riojanus brevis, Panderina? ambigua, Productorthis angulensis, Hesperonomiella arcuata, and Monorthis transversa; the plectorthoideans Ffynnonia famatinensis and Desmorthis? bifurcata; and the porambonitoidean Rugostrophia protoandina. Associated forms are Tritoechia sp., Pinatotoechia acantha Benedetto, 2001b; Protoskenidioides cf. revelata Williams, 1974; Hesperonomia orientalis Benedetto, 1998a; Paralenorthis riojanus (Levy and Nullo, 1973), Famatinorthis turneri (Levy and Nullo, 1973); and Camerella sp. Brachiopods from the Famatina Range display strong affinities with Welsh and Central Newfoundland, Maine and New Brunswick volcanic assemblages forming with them a statistically well defined Celtic cluster. Faunal evidence suggests that the Famatina volcanic belt continues northward into the western Puna belt.

Type
Research Article
Copyright
Copyright © The Paleontological Society

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References

Aceñolaza, F. G., and Rábano, I. 1990. Notas sobre algunos trilobites Asaphina de la Formación Suri (Sierra de Famatina, La Rioja, Argentina). Actas 5° Congreso Argentino de Paleontología y Bioestratigrafía, Tucumán, 1:3949.Google Scholar
Aceñolaza, F. G., Rábano, I., and Toselli, A. J. 1977. Observaciones geológicas y paleontológicas sobre el Ordovícico de la zona de Chaschuil, Provincia de Catamarca. Acta Geologica Lilloana, 14:5581.Google Scholar
Aceñolaza, F. G., Rábano, I., and Toselli, A. J. 1984. Lower Ordovician volcanism in North West Argentina, p. 203209. In Bruton, D. L. (ed.), Aspects of the Ordovician System. Palaeontological Contributions University of Oslo, 295.Google Scholar
Albanesi, G. L., and Astini, R. A. 2000. New conodont fauna from Suri Formation (Early-middle Ordovician), Famatina System, western Argentina. Reunión Anual Comunicaciones Asociación Paleontológica Argentina, Mar del Plata, abstracts, p. 3.Google Scholar
Albanesi, G. L., Astini, R. A., and Vaccari, N. E. 1994. Conodontos del Arenig en la Formación Suri, Sistema de Famatina, Argentina. Revista Española de Micropaleontología, 26(2):125146.Google Scholar
Alichova, T. N. 1953. Handbook of the brachiopod faunas of Ordovician of the northwestern part of Russian platform. Trudy Vsesoyuznogo Nauchno-Isselodovatel'skogo Geologichesogo Instituta (VSEGEI), 127 pp. (In Russian)Google Scholar
Astini, R. A. 1998. El Ordovícico de la región central del Famatina (Provincia de La Rioja, Argentina): aspectos estratigráficos, geológicos y geotectónicos. Revista de la Asociación Geológica Argentina, 53(4):445460.Google Scholar
Astini, R. A. 1999. Sedimentary record, volcano-tectonic cyclicity and progressive emergence of an Early Ordovician perigondwanan volcanic arc: the Famatina System, p. 115118. In Kraft, P. and Fatka, O. (eds.), Quo vadis Ordovician? Acta Universitatis Carolinae, Geologica, 43 (one-half).Google Scholar
Astini, R. A., and Benedetto, J. L. 1996. Paleoenvironmental features and basin evolution of a complex island-arc region in the pre-Andean western Gondwana: the Famatina belt, p. 755758. In 3rd International Symposium on Andean Geodynamics, St. Malo.Google Scholar
Astini, R. A., Benedetto, J. L., and Vaccari, N. E. 1995. The Early Paleozoic evolution of the Argentine Precordillera as a rifted, drifted and collided terrane: a geodynamic model. Geological Society of America Bulletin, 107:253273.2.3.CO;2>CrossRefGoogle Scholar
Bates, D. E. B. 1968. The Lower Palaeozoic brachiopod and trilobite faunas from Anglesey. Bulletin of the British Museum (Natural History), Geology, 16:127199.Google Scholar
Bates, D. E. B. 1969. Some Early Ordovician brachiopods and trilobites from Wales. Bulletin of the British Museum (Natural History), Geology, 18:328.Google Scholar
Benedetto, J. L. 1987. Braquiópodos clitambonitáceos de la Formación San Juan (Ordovícico temprano), Precordillera de San Juan, Argentina. Ameghiniana, 24:95108.Google Scholar
Benedetto, J. L. 1993. La hipótesis de la aloctonía de la Precordillera Argentina: un test estratigráfico y biogeográfico. Actas 12° Congreso Geológico Argentino, 3:375384.Google Scholar
Benedetto, J. L. 1994. Braquiópodos Ordovícicos (Arenigiano) de la Formación Suri en la región de Chaschuil, Sistema de Famatina, Argentina. Ameghiniana, 31:221238.Google Scholar
Benedetto, J. L. 1998a. Early Ordovician (Arenig) brachiopods from the Acoite and Sepulturas Formations, Cordillera Oriental, northwestern Argentina. Geologica et Palaeontologica, 32:727.Google Scholar
Benedetto, J. L. 1998b. Early Palaeozoic brachiopods and associated shelly faunas from western Gondwana: its bearing on the geodynamic history of the pre-Andean margin, p. 5783. In Pankhurst, R. and Rapela, C. W. (eds.), The proto-Andean Margin of Gondwana. Geological Society London, Special Publications, 142.Google Scholar
Benedetto, J. L. 2001a. Silicified Early Ordovician (Arenig) brachiopods from the San Juan Limestone, Argentine Precordillera. Geologica et Palaeontologica, 35(1):129.Google Scholar
Benedetto, J. L. 2001b. Una fauna de braquiópodos arenigianos (Ordovícico temprano) en rocas volcaniclásticas de la Puna occidental de Argentina: Implicaciones paleoclimáticas y paleogeográficas. Ameghiniana, 38(2):131146.Google Scholar
Benedetto, J. L., and Astini, R. A. 1993. A collisional model for the stratigraphic evolution of the Argentine Precordillera during the Early Paleozoic, p. 501504. In 2nd International Symposium on Andean Geodynamics, Oxford.Google Scholar
Benedetto, J. L., and Hererra, Z. A. 1987. El género Platystrophia King (Brachiopoda) en la Formación San Juan de la Precordillera Argentina. Ameghiniana, 24:5159.Google Scholar
Benedetto, J. L., Sanchez, T. M., Carrera, M. G., Brussa, E. D., and Salas, M. J. 1999. Paleontological constraints on successive paleogeographic positions of Precordillera terrane during the Early Paleozoic, p. 2142. In Ramos, V. A. and Keppie, J. D. (eds.), Laurentia-Gondwana Connections Before Pangea. Geological Society of America Special Paper 336.CrossRefGoogle Scholar
Billings, E. 1859. On some new genera and species of Brachiopoda from the Silurian and Devonian rocks of Canada. Canadian Naturalist and Geologist, 4:1131.Google Scholar
Cañas, F. L. 1999. Facies and sequences of the Late Cambrian-Early Ordovician carbonates of the Argentine Precordillera: a stratigraphic comparison with Laurentian platforms, p. 4362. In Ramos, V. A. and Keppie, J. D. (eds.), Laurentia-Gondwana Connections Before Pangea. Geological Society of America Special Paper 336.CrossRefGoogle Scholar
Conti, C. M., Rapalini, A. E., Coira, B., and Koukharsky, M. 1996. Paleomagnetic evidence of an Early Paleozoic rotated terrane in northwest Argentina: a clue for Gondwana-Laurentia interaction? Geology, 24:953956.2.3.CO;2>CrossRefGoogle Scholar
Cooper, G. A. 1956. Chazyan and related brachiopods. Smithsonian Miscellaneous Collections, 127:11245.Google Scholar
Davidson, T. 1853. British fossil brachiopoda, I: Introduction. Palaeontographical Society Monograph., London, 136 p.Google Scholar
Lipu, Fu, 1982. Brachiopoda, p. 85179. In Palaeontological Atlas of northwest China, Shaanxi-Gansu-Ningxia. Geological Publishing House.Google Scholar
Hall, J., and Clarke, J. M. 1894. An introduction to the study of the genera of Paleozoic Brachiopoda. Natural History of New York, Paleontology 8(2). New York Geological Survey, 394 p.Google Scholar
Harper, D. A. T., Niocaill, C. Mac, and Williams, S. H. 1996. The palaeogeography of Early Ordovician Iapetus terranes: an integration of faunal and palaeomagnetic constraints. Palaeogeography, Palaeoclimatology, Palaeoecology, 121:297312.CrossRefGoogle Scholar
Harrington, H. J., and Leanza, A. F. 1957. Ordovician trilobites of Argentina. University of Kansas Special Publication, 1:1276.Google Scholar
Havlíček, V. 1971. Brachiopodes de l'Ordovicien du Maroc. Notes et Memoires du Service Geologique du Maroc, 230:1135.Google Scholar
Havlíček, V. 1977. Brachiopods of the Order Orthida in Czechoslovakia. Rozpravy Ustredního ústavu Geologického, 44:1327.Google Scholar
Havlíček, V., and Branisa, L. 1980. Ordovician brachiopods of Bolivia. Rozpravy Ceskoslovenské Akademie Ved, 90:153.Google Scholar
Havlíček, V., Vanek, J., and Fatka, O. 1991. Perunica microcontinent in the Ordovician (its position within the Mediterranean Province, series division, benthic and pelagic associations). Sbornik geologickych ved, Geologie, 46:2356.Google Scholar
Herrera, Z. A., and Benedetto, J. L. 1989. Braquiópodos del Suborden Orthidina de la Formación San Juan (Ordovícico Temprano) en el área de Huaco-Cerro Viejo, Precordillera Argentina. Ameghiniana, 26:322.Google Scholar
Herrera, Z. A., and Benedetto, J. L. 1991. Early Ordovician brachiopod faunas from the Precordillera basin, Western Argentina: biostratigraphy and paleobiogeographical affinities, p. 283301. In MacKinnon, D. I. et al. (eds.), Brachiopods Through Time. Balkema, Rotterdam.Google Scholar
Huff, W. D., Bergström, S. M., Kolata, D. R., Cingolani, C. A., and Astini, R. A. 1998. Ordovician K-bentonites in the Precordillera: ralations to Gondwana margin evolution, p. 107126. In Pankhurst, R. and Rapela, C. W. (eds.), The Proto-Andean Margin of Gondwana. Geological Society London, Special Publications 142.Google Scholar
Jaanusson, V., and Bassett, M. G. 1993. Orthambonites and related Ordovician brachiopod genera. Palaeontology, 36:2163.Google Scholar
Kayser, E., 1876. Ueber Primordiale und Untersilurische Fossilien aus der Argentinischen Republik. Palaeontographica (supplement), 3(2):133.Google Scholar
Keller, M. 2000. Argentine Precordillera: sedimentary and plate tectonic history of a Laurentian crustal fragment in South America. Geological Society of America, Special Paper, 341:1131.Google Scholar
Kozlowski, R. 1927. Sur certain Orthides ordoviciens des environs de St. Petersburg. Bibliotheca Universitatis Libirae Polonae Varsavie, 17:321.Google Scholar
Kozlowski, R. 1929. Les brachiopodes gotlandiens de la Podolie polonaise. Palaeontologica Polonica, 1:1254.Google Scholar
Laurie, J. R. 1980. Early Ordovician orthide brachiopods from southern Tasmania. Alcheringa, 4:1123.CrossRefGoogle Scholar
Laurie, J. R. 1991. Articulate brachiopods from the Ordovician and lower Silurian of Tasmania, p. 1106. In Jell, P. A. (ed.), Australian Ordovician Brachiopod Studies. Memoirs Association Australasian Palaeontologists, 11.Google Scholar
Lehnert, O. T., Bergström, S. M., and Vaccari, N. E. 1997. Arenig conodonts from the Famatina Range, northwestern Argentina: faunal affinities and paleogeographic implications. Abstracts 18th IAS Regional European Meeting of Sedimentology, Heidelberg, Gaea Heidelbergensis, 3:216217.Google Scholar
Levy, R., and Nullo, F. 1973. Braquiópodos ordovícicos de la Sierra de Famatina (Formación Molles), Provincia de La Rioja. Ameghiniana, 10:139151.Google Scholar
Levy, R., and Nullo, F. 1980. Braquiópodos de la Sierra de Famatina (Formación Suri), Provincia de La Rioja. Actas 2° Congreso Argentino de Paleontología y Bioestratigrafía, 1:3147.Google Scholar
Mangano, M. G., and Buatois, L. A. 1996. Shallow marine event sedimentation in a volcanic arc-related setting: the Ordovician Suri Formation, Famatina Range, northwest Argentina. Sedimentary Geology, 105:6390.CrossRefGoogle Scholar
Mangano, M. G., and Buatois, L. A. 1997. Slope apron deposition in an arc-related setting: the Vuelta de las Tolas Member (Suri Formation), Famatina Basin, northwest Argentina. Sedimentary Geology, 109:155180.CrossRefGoogle Scholar
Mannheim, R. 1993. Geodynamic evolution of the Palaeozoic Gondwana margin in western Argentina (Famatina System), p. 531534. In 2nd International Symposium on Andean Geodynamics, Oxford.Google Scholar
Mergl, M. 1991. Arenig (Lower Ordovician) orthide brachiopods from Prague Basin, Bohemia. Casopis pro Mineralogii Geologii, 36:119.Google Scholar
McKerrow, W. S., and Cocks, L. R. M. 1986. Oceans, island arcs and olistostromes: the use of fossils in distinguishing sutures, terranes and environments around the Iapetus Ocean. Journal of the Geological Society, London, 143:185191.CrossRefGoogle Scholar
Neuman, R. B. 1964. Fossils from Ordovician tuffs, northeastern Maine. United States Geological Survey Bulletin, 1181E:138.Google Scholar
Neuman, R. B. 1971. An Early Middle Ordovician brachiopod assemblage from Maine, New Brunswick, and northern Newfoundland, p. 113124. In Dutro, J. T. Jr. (ed.), Paleozoic Perspectives: A Paleontological Tribute to G. Arthur Cooper. Smithsonian Contributions to Paleobiology 3.Google Scholar
Neuman, R. B. 1976. Early Ordovician (late Arenig) brachiopods from Virgin Arm, New World Island, Newfoundland. Geological Survey of Canada Bulletin, 261:1161.Google Scholar
Neuman, R. B. 1997. Famatinorthis cf. F. turneri Levy and Nullo 1973 (Brachiopoda, Orthida) from the Shin Brook Formation (Ordovician, Arenig) in Maine. Journal of Paleontology, 71:812815.CrossRefGoogle Scholar
Neuman, R. B. 1999. Arenig-Early Llanvirn age Celtic brachiopod assemblage reaffirmed, p. 345346. In Kraft, P. and Fatka, O. (eds.), Quo vadis Ordovician? Acta Universitatis Carolinae, Geologica, 43 (one-half).Google Scholar
Neuman, R. B., and Bates, D. E. B. 1978. Reassessment of Arenig and Llanvirn age (Early Ordovician) brachiopods from Anglesey, northwest Wales. Palaeontology, 21:571613.Google Scholar
Neuman, R. B., and Harper, D. A. T. 1992. Paleogeographic significance of the Arenig-Llanvirn Toquima-Table Head and Celtic brachiopod assemblages, p. 241254. In Webby, B. D. and Laurie, J. R. (eds.), Global Perspectives on Ordovician Geology.Google Scholar
Öpik, A. A. 1934. Über Klitamboniten. Universitatis Tartuensis, Acta et Commentationses (series A), 26(5):1239.Google Scholar
Pander, C. H. 1830. Beiträge zur Geognosie des Russichen Reiches. Gedruckt bei K. Kray, St. Petersburg, 165 p.Google Scholar
Pankhurst, R., and Rapela, C. W., (eds.). 1998. The Proto-Andean Margin of Gondwana. Geological Society London, Special Publications, 142, 383 p.Google Scholar
Pankhurst, R., Rapela, C. W., Saavedra, J., Baldo, E., Dahlquist, J., Pascua, I., and Fanning, C. M. 1998. The Famatinian magmatic arc in the central Sierras Pampeanas: an Early to Mid-Ordovician continental arc on the Gondwana margin, p. 343367. In Pankhurst, R. and Rapela, C. W. (eds.), The Proto-Andean Margin of Gondwana. Geological Society London, Special Publications, 142.Google Scholar
Popov, L. E., Vinn, O., and Nikitina, O. I. 2001. Brachiopods of the redefined family Tritoechiidae from the Ordovician of Kazakhstan and South Urals. Geobios, 34(2):131155.CrossRefGoogle Scholar
Ramos, V. A., and Keppie, J. D. (eds.). 1999. Laurentia-Gondwana connections before Pangea. Geological Society of America Special Paper, 336, 276 p.Google Scholar
Ross, R. J. Jr. 1970. Ordovician brachiopods, trilobites and stratigraphy in eastern and central Nevada. United States Geological Survey Professional Papers, 639:1103.Google Scholar
Ross, R. J. Jr. 1971. A new Middle Ordovician Syntrophopsid genus, p. 125128. In Dutro, J. T. Jr. (ed.), Paleozoic Perspectives. A paleontological tribute to G. Arthur Cooper. Smithsonian Contributions to Paleobiology, 3.Google Scholar
Rubel, M. 1961. Lower Ordovician brachiopods of the superfamilies Orthacea, Dalmanellacea, and Syntrophiacea of eastern Baltic. Eesti NSV Teaduste Akadeemia Geoloogia Instituudi, 6:141226. (In Russian with English and Estonian abstracts)Google Scholar
Sanchez, T. M. 1994. Los géneros Redonia y Catamarcaia (Mollusca, Bivalvia) de la Formación Suri (Ordovícico temprano, Oeste de Argentina) y su interés paleobiogeográfico. Revista Española de Paleontología, 9(1):8190.Google Scholar
Sanchez, T. M. 1997. Additional mollusca (Bivalvia and Rostroconchia) from the Suri Formation, Early Ordovician (Arenig), western Argentina. Journal of Paleontology, 71:10461054.CrossRefGoogle Scholar
Sanchez, T. M., and Babin, C. 1993. Un insolite mollusque bivalve, Catamarcaia n.g. de l'Arenig (Ordovicien inférieur) d'Argentine. Comptes Rendus de l'Academie des Sciences, 316(2):265271.Google Scholar
Schuchert, C. 1893. Classification of the Brachiopoda. American Geologists, 11:141167.Google Scholar
Schuchert, C., and Cooper, G. A. 1931. Synopsis of the brachiopod genera of the Suborder Orthoidea and Pentameroidea, with notes on the Telotremata. American Journal of Science, 22:241251.CrossRefGoogle Scholar
Schuchert, C., and Cooper, G. A. 1932. Brachiopod genera of the suborders Orthoidea and Pentameroidea. Memoirs of the Peabody Museum of Natural History, 4:1270.Google Scholar
Schuchert, C., and LeVene, C. M. 1929. Brachiopoda (generum et genotyporum index et bibliographia), p. 1140. In Pompeckj, J. F. (ed.), Fossilium Catalogus, 1, Animalia, pars 42. W junk, Berlin, 140 p.Google Scholar
Severgina, L. G. 1967. New species and genera of the Ordovician brachiopods from the Sayano-Altai Hill district. Uchenye Zapinski Tomskogo Gosudartvennogo Universiteta, 63:120140. (In Russian)Google Scholar
Sowerby, J. de C. 1839. Shells, p. 579712. In Murchison, R. I., (ed.), The Silurian System, Pt. II: Organic Remains. London.Google Scholar
Toro, B. A., and Brussa, E. D. 1997. Graptolitos de la Formación Suri (Arenig) en el Sistema de Famatina, Argentina. Revista Española de Paleontología, 12(2):1751884.Google Scholar
Tortello, M. F., and Esteban, S. B. 1997. Significado bioestratigráfico de una asociación de trilobites del tramo basal de la Formación Volcancito (Sistema de Famatina, La Rioja, Argentina). Ameghiniana, 34(3):265270.Google Scholar
Turner, J. M. 1964. Descripción geológica de la Hoja 15c, Vinchina, (provincias de Catamarca y La Rioja). Boletín Dirección Nacional de Geología y Minería, 100:181.Google Scholar
Ulrich, E. O., and Cooper, G. A. 1936. New genera and species of Ozarkian and Canadian brachiopods. Journal of Paleontology, 10:616631.Google Scholar
Ulrich, E. O., and Cooper, G. A. 1938. Ozarkian and Canadian brachiopods. Geological Society of America Special Paper, 13:1323.Google Scholar
Vaccari, N. E., and Waisfeld, B. G. 1994. Nuevos trilobites de la Formación Suri (Ordovícico temprano) en la región de Chaschuil, Provincia de Catamarca: Implicancias bioestratigráficas. Ameghiniana, 31(1):7386.Google Scholar
Vaccari, N. E., Benedetto, J. L., Waisfeld, B. G., and Sanchez, T. M. 1993. La Fauna de Neseuretus en la Formación Suri (Oeste de Argentina): edad y relaciones paleobiogeográficas. Revista Española de Paleontología, 8:185190.Google Scholar
Van Staal, C. R., Dewey, J. F., Niocaill, C. Mac, and McKerrow, W. S. 1998. The Cambrian-Silurian tectonic evolution of the northern Appalachians and British Caledonides: history of a complex, west and southwest Pacific-type segment of Iapetus, p. 199242. In Blundell, D. J. and Scott, A. C. (eds.), Lyell: The Past is the Key to the Present. Geological Society, London, Special Publication 143.Google Scholar
Walcott, C. D. 1924. Cambrian geology and paleontology IV, 9, Cambrian and Ozarkian Brachiopoda, Ozarkian Cephalopoda and Notostraca. Smithsonian Miscellaneous Collections, 67:477554.Google Scholar
Williams, A. 1974. Ordovician Brachiopods from the Shelve District, Shropshire. Bulletin of the British Museum (Natural History), Geology, Supplement, 2:1163.CrossRefGoogle Scholar
Williams, A., and Curry, G. B. 1985. Lower Ordovician Brachiopoda from the Tourmakeady Limestone, Co. Mayo, Ireland. Bulletin of the British Museum (Natural History), Geology, 38:183269.Google Scholar
Williams, A., and Harper, D. A. T. 2000. Orthida, p. 714844. In Kaesler, R. L. (ed.), Treatise on Invertebrate Paleontology, Pt. H, Brachiopoda (revised), 3. The Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Williams, A., Carlson, S. J., Brunton, C. H. C., Holmer, L. E., and Popov, E. 1996. A supra-ordinal classification of the Brachiopoda. Phylosophical Transactions of the Royal Society of London (series B), 351:11711193.Google Scholar
Winchell, N. H., and Schuchert, C. 1893. The Lower Silurian Brachiopoda of Minnesota, p. 333474. In Lesquereux, L. et al. (eds.), The Geology of Minnesota, 3(1). Geological and Natural History Survey of Minnesota, final report.Google Scholar
Woodward, S. P. 1851–1856. A Manual of the Mollusca. John Weale, London, 488 p.Google Scholar