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New Upper Cambrian–Tremadoc rhynchonelliformean brachiopods from northwestern Argentina: Evolutionary trends and early diversification of plectorthoideans in the Andean Gondwana

Published online by Cambridge University Press:  14 July 2015

Juan L. Benedetto
Juan L. Benedetto*
Affiliation:
Consejo Nacional de Investigaciones Científicas y Técnicas, Centro de Investigaciones Paleobiológicas, Universidad Nacional de Córdoba, Av. Vélez Sarsfield 299, 5000 Córdoba, Argentina,
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Abstract

New rhynchonelliformean brachiopods are documented from Upper Cambrian and Tremadoc beds of the Cordillera Oriental and Puna regions, which are representative of the initial radiation of Plectorthoidea on the Andean (South American) shelves of Gondwana. Protorthisina n. gen., so far the oldest known representative of the family Euorthisinidae, and Lesserorthis n. gen. (Euorthisinidae?) are described, as well as the new species Euorthisina? nazarenensis, Kvania mergli, Kvania lariensis, Kvania azulpampensis (with two subspecies), Kvania? primigenia, and Nanorthis calderensis (with two subspecies). Protorthisina, Kvania, and Nanorthis form a stratigraphically continuous series of species displaying well-defined evolutionary trends involving size, shell ornament, and internal features. in the cardinalia, a transition from a V-shaped septalium (typical of Protorthisina) through almost parallel brachiophore plates (typical of Kvania) to the orthoid notothyrial platform of Nanorthis is documented. the species Nanorthis purmamarcaensis Benedetto and “Nanorthis” grandis (Harrington) are considered as the end members of the lineage. the heterochronic (peramorphic) origin of this trend is supported by ontogenetic evidence from species of Kvania and Nanorthis calderensis. the origin of the ‘plectorthoid’ cardinalia of Kvania from a euorthisinid configuration present in the stem group, followed by the appearance of a orthoidlike configuration in Nanorthis, pose an intricate systematic problem. the preliminary phylogenetic analysis of the northwestern basin taxa shows that the Upper Cambrian Protorthisina simplex n. gen. and sp. is the stem group of both the nanorthid and euorthisinid clades. On the basis of the new evidence, the genus Nanorthis is removed from the Orthoidea to the Plectorthoidea, and the diagnosis of the families Euorthisinidae and Nanorthidae are revised.

Type
Research Article
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Journal of Paleontology , Volume 81 , Issue 2 , March 2007 , pp. 261 - 285
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Copyright © The Paleontological Society 

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References

Albanesi, G. L., and Ortega, G. 2002. Advances on conodont-graptolite biostratigraphy of the Ordovician System of Argentina, p. 143166. In Aceñolaza, F. G. (ed.), Aspects of the Ordovician System in Argentina. INSUGEO, Serie Correlación Geológica, 16.Google Scholar
Astini, R. A. 2003. The Ordovician Proto-Andean basins, p. 174. In Benedetto, J. L. (ed.), Ordovician Fossils of Argentina. Secretaría Ciencia y Tecnología, Universidad Nacional de Córdoba.Google Scholar
Bancroft, B. B. 1949. Welsh Valentinian brachiopods and the Strophomena antiquata group of fossil brachiopods. Quarry Managers' Journal. Time Printing, p. 216.Google Scholar
Barrande, J. 1879. Système Silurien du Centre de la Bohême, 1ère. Partie. Recherches Paléntologiques, 5. Classe des Mollusques, Ordre des Brachiopodes. Prague, 226 p.Google Scholar
Benedetto, J. L. 1977. Algunas consideraciones acerca del límite Cambro–Ordovícico en América del Sur. Geos, 25:1318.Google Scholar
Benedetto, J. L. 1998. Early Ordovician (Arenig) brachiopods from the Acoite and Sepulturas formations, Cordillera Oriental, northwestern Argentina. Geologica et Palaeontologica, 32:727.Google Scholar
Benedetto, J. L. 2001. Silicified Early Ordovician (Arenig) brachiopods from the San Juan Limestone, Argentine Precordillera. Geologica et Palaeontologica, 35:129.Google Scholar
Benedetto, J. L. 2002a. El género Kvania Havlíček en el Tremadociano temprano del noroeste de Argentina y su significado en la radiación basal de los braquiópodos plectorthoideos. Rusúmenes 8° Congreso Argentino de Paleontología y Bioestratigrafía, p. 84.Google Scholar
Benedetto, J. L. 2002b. El género Ranorthis Öpik (Brachiopoda) en el Ordovícico Temprano de la Precordillera Argentina: Interés bioestratigráfico, filogenético y paleobiogeográfico. Ameghiniana, 39:385394.Google Scholar
Benedetto, J. L. 2003. Brachiopods, p. 187271. In Benedetto, J. L. (ed.), Ordovician Fossils of Argentina. Secretaría de Ciencia y Tecnología, Universidad Nacional de Córdoba.Google Scholar
Benedetto, J. L. 2005. Spatial and stratigraphic distribution of the rhynchonelliformean brachiopod Productorthis Kozlowski: Fast migrations or parallel evolution? 5th International Brachiopod Congress, Copenhagen, Abstracts, p. 35.Google Scholar
Benedetto, J. L., and Carrasco, P. 2002. Tremadoc (earliest Ordovician) brachiopods from Purmamarca and Sierra de Mojotoro, Cordillera Oriental of northwestern Argentina. Geobios, 35:647661.Google Scholar
Benedetto, J. L., and Sánchez, T. M. 2002. Alometría y heterocronía en el linaje Panderina–Productorthis y el probable origen de Productorthis en el arco volcánico Ordovícico de Famatina. Actas 8° Congreso Argentino de Paleontología y Bioestratigrafía, Abstracts, p. 8485.Google Scholar
Benedetto, J. L., and Sánchez, T. M. 2003. The Ordovician radiation from a Gondwanan perspective: The early diversification of brachiopods and bivalves on mid- to high-latitude siliciclastic platforms, p. 245250. In Albanesi, G. L., Beresi, M. S., and Peralta, S. H. (eds.), Ordovician from the Andes. INSUGEO, Serie Correlación Geológica, 17.Google Scholar
Benedetto, J. L., Cañas, F. L., and Astini, R. A. 1986. Braquiópodos y trilobites de la zona de transición entre las formaciones San Juan y Gualcamayo, Provincia de La Rioja, Argentina. Actas 4° Congreso Argentino Paleontología y Bioestratigrafía, Mendoza, 1:103111.Google Scholar
Benedetto, J. L., Cech, N., and Esbry, C. 2003. New late Tremadoc–early Arenig (Early Ordovician) silicified brachiopods from the lower part of the San Juan Formation, Argentine Precordillera. Ameghiniana, 40:513530.Google Scholar
Buatois, L. A., Moya, M. C., Mángano, G., and Malanca, S. 2003. Paleoenvironmental and sequence stratigraphic framework of the Cambro–Ordovician transition in the Angosto del Moreno area, northwestern Argentina, p. 397401. In Albanesi, G. L., Beresi, M. S., and Peralta, S. H. (eds.), Ordovician from the Andes. INSUGEO, Serie Correlación Geológica, 17.Google Scholar
Carlson, S. J. 1996. Revision and review of the order Pentamerida, p. 5358. In Copper, P. and Jin, Jisuo (eds.), Brachiopods. Balkema, Rotterdam.Google Scholar
Castellaro, H. A. 1963. Faunas Ordovícicas, p. 41156. In Amos, A. J., Camacho, H. H., Castellaro, H. A., and Menéndez, C. A. (eds.), Guía Paleontológica Argentina, Consejo Nacional de Investigaciones Científicas y Técnicas.Google Scholar
Cooper, G. A. 1956. Chazian and related brachiopods. Smithsonian Miscellaneous Collections, 127 (Pts. 1 and 2), 1,245 p., 259 pls.Google Scholar
Fernández, R. I. 1985. Bioestratigrafía Cambro–Ordovícica del tramo superior de la Quebrada de Humahuaca, provincia de Jujuy, Argentina. Actas 4° Congreso Geológico Chileno, p. 284308.Google Scholar
Harrington, H. J. 1937. On some Ordovician fossils from northern Argentina. Geological Magazine, 74:97124.CrossRefGoogle Scholar
Harrington, H. J. 1938. Sobre las faunas del Ordoviciano inferior del Norte argentino. Revista del Museo de La Plata, n. s., 1:109289.Google Scholar
Harrington, H. J., and Leanza, A. F. 1957. Ordovician Trilobites of Argentina. University of Kansas, Special Publication, 1,276 p.Google Scholar
Havlíček, V. 1950. The Ordovician Brachiopoda from Bohemia. Rozpravy ústředního ústavu Geologického, 13, 72 p.Google Scholar
Havlíček, V. 1968. New brachiopods from the lower Caradoc of Bohemia. Věstník Ùstředního ústavu geologickéo, 43:123125.Google Scholar
Havlíček, V. 1971. Brachiopodes de l'Ordovicien du Maroc. Notes et Memoires du Service Géologique du Maroc, 230, 130 p.Google Scholar
Havlíček, V. 1977. Brachiopods of the order Orthida in Czechoslovakia. Rozpravy ústředního ústavu Geologického, 44, 327 p.Google Scholar
Havlíček, V. 1994. Kvania n. g. and Petrocrania Raymond (Brachiopoda, Ordovician) in the Prague basin. Journal of the Czech Geological Society, 39:297302.Google Scholar
Havlíček, V., and Branisa, L. 1980. Ordovician brachiopods of Bolivia. Rozpravy Ceskoslovenské Akademie Ved, 90, 53 p.Google Scholar
Huxley, J. S. 1958. Evolutionary processes and taxonomy with special reference to grades. Uppsala Universitet årsöversikt, p. 2139.Google Scholar
Jaanusson, V., and Bassett, M. G. 1993. Orthambonites and related Ordovician brachiopod genera. Palaeontology, 36:2163.Google Scholar
Kayser, E. 1876. Über primordiale und untersilurische fossilien aus der Argentinischen Republik. Palaeontographica, supplement 3(2), 33 p.Google Scholar
Keidel, J. 1943. El Ordovícico inferior de los Andes del norte argentino y sus depósitos marino-glaciares. Boletín de la Academia Nacional de Ciencias, 36:140229.Google Scholar
Kobayashi, T. 1935. On the Kainella Fauna of the basal Ordovician age found in Argentina. Geological Institute, Imperial University of Tokyo, p. 5967.Google Scholar
Kobayashi, T. 1936. On the Parabolinella fauna from Jujuy Province, Argentina. Japanese Journal of Geology and Geography, 13:85102.Google Scholar
Kobayashi, T. 1937. The Cambro–Ordovician shelly faunas of South America. Journal of the Faculty of Sciences, Imperial University of Tokyo, 2:374515.Google Scholar
Kozlowski, R. 1927. Sur certains Orthides ordoviciens des environs de St. Petersburg. Bibliotheca Universitatis Libirae Polonae Varsavie, 17:321.Google Scholar
Kulkov, N. P., and Severgina, L. G. 1989. Stratigraphy and brachiopods of the Ordovician and Lower Silurian of the Gornyi Altai. Academy of Sciences of the URSS, Siberian Branch, Institute of Geology and Geophysics, 223 p.Google Scholar
Laurie, J. R. 1980. Early Ordovician Orthide brachiopods from southern Tasmania. Alcheringa, 4:1123.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
Malanca, S., Monteros, J. A., and Moya, M. C. 1998. Nuevos datos paleontológicos de la Formación Las Vicuñas (Tremadoc temprano), Puna occidental argentina. Actas 7° Congreso Argentino de Paleontología y Bioestratigrafía, p. 90.Google Scholar
Manca, N., Heredia, S., Hünicken, M. A., and Rubinstein, C. V. 1995. Macrofauna, conodontes y acritarcos de la Formación Santa Rosita (Tremadociano), Nazareno, Provincia de Salta, Argentina. Boletín de la Academia Nacional de Ciencias, 60:267276.Google Scholar
Mángano, M. G., and Buatois, L. A. 1999. Ichnofacies models in Early Paleozoic tide-dominated quartzites: Onshore-Offshore gradients and the classic Seilacherian paradigm, p. 151154. In Kraft, P. and Fatka, O. (eds.), Quo vadis Ordovician? Acta Universitatis Carolinae, Geologica, 43.Google Scholar
McNamara, K. J. 1982. Heterochrony and phylogenetic trends. Paleobiology, 82:130142.Google Scholar
McNamara, K. J. 1990. The role of heterochrony in evolutionary trends, p. 5974. In McNamara, K. J. (ed.), Evolutionary Trends. Belhaven, London.Google Scholar
Mergl, M. 1984. Fauna of the Upper Tremadocian of Central Bohemia. Sbornik geologickych ved, Paleontologie, 26:946.Google Scholar
Mitchell, W. I. 1977. The Ordovician brachiopods from Pomeroy, Co. Tyrone. Palaeontographical Society Monograph, 130, 138 p.Google Scholar
Moya, M. C., and Albanesi, G. L. 2000. New stratigraphic section to define the Cambrian–Ordovician boundary in eastern Cordillera, northwest Argentina, p. 114116. In Aceñolaza, F. G. and Peralta, S. H. (eds.), Cambrian from the Southern Edge. INSUGEO, Miscelanea, 6.Google Scholar
Moya, M. C., Malanca, S., Hongn, F. D., and Balhburg, H. 1993. El Tremadoc temprano en la Puna Occidental Argentina. Actas 12° Congreso Geológico Argentino, p. 2030.Google Scholar
Moya, M. C., Malanca, S., Monteros, J. A., Albanesi, G. L., Ortega, G., and Buatois, L. 2003. Tremadocian faunas and events from the Angosto del Moreno section, eastern Cordillera, Argentina, p. 439444. In Albanesi, G. L., Beresi, M. S., and Peralta, S. H. (eds.), Ordovician from the Andes. INSUGEO, Serie Correlación Geológica, 17.Google Scholar
Myrow, P. M., Ethington, R. L., and Miller, J. F. 1995. Cambro–Ordovician proximal shelf deposits of Colorado, p. 375379. In Cooper, J. D., Droser, M. K., and Finney, S. C. (eds.), Ordovician Odyssey. The Pacific Section Society for Sedimentary Geology, 77.Google Scholar
Neuman, R. B., and Bruton, D. L. 1974. Early Middle Ordovician fossils from the Hølonda area, Trondheim region, Norway. Norsk Geologisk Tidsskrift, 54:69115.Google Scholar
Öpik, A. A. 1939. Brachiopoden und Ostrakoden aus dem Expansusschiefer, Norwegens. Norsk Geologisk Tidsskrift, 19:117142.Google Scholar
Paterson, J. R., and Brock, G. A. 2003. Early Ordovician Orthide brachiopods from Mount Arrowsmith, northwestern New South Wales, Australia. Records of the Australian Museum, 55:221230.Google Scholar
Rao, R. I. 1999. Los conodontes Cambro–Ordovícicos de la Sierra de Cajas y el Espinazo del Diablo, Cordillera Oriental, República Argentina. Revista Española de Micropaleontología, 31:2351.Google Scholar
Rao, R. I., and Hünicken, M. A. 1995a. Conodontes del Cámbrico superior-Ordovícico Inferior en el área de Purmamarca, Cordillera Oriental, Provincia de Jujuy, R. Argentina. Boletín de la Academia Nacional de Ciencias, 60:249266.Google Scholar
Rao, R. I., and Hünicken, M. A. 1995b. Conodont biostratigraphy of the Cambrian– Ordovician boundary in northwestern Argentina, p. 125128. In Cooper, J. D., Droser, M. K., and Finney, S. C. (eds.), Ordovician Odyssey. The Pacific Section Society for Sedimentary Geology, 77.Google Scholar
Rao, R. I., and Tortello, M. F. 1998. Tremadoc conodonts and trilobites from the Cardonal Formation, Incamayo Creek, Salta Province, northwestern Argentina. Palaeontologia Polonica, 58:3145.Google Scholar
Rao, R. I., Moya, M. C., and Hünicken, M. A. 2000. Conodontes en la Formación las Vicuñas (Treamadociano temprano), Puna occidental Argentina. Ameghiniana, 37(4) suppl.:1314.Google Scholar
Rushton, A. W. A., Cocks, L. R. M., and Fortey, R. A. 2002. Upper Cambrian trilobites and brachiopods from Severnaya Zemlya, Arctic Russia, and their implications for correlation and biogeography. Geological Magazine, 139:281290.CrossRefGoogle Scholar
Sanchez, T. M., and Benedetto, J. L. 2004. The higher-taxa paleogeographic segregation as a major feature of the Ordovician radiation: Evidence from brachiopods and bivalves of western Gondwana. Abstracts 32nd International Geological Congress, Firenze, p. 213214.Google Scholar
Schuchert, C., and Cooper, G. A. 1931. Synopsis of the brachiopod genera of the suborders Orthoidea and Pentameroidea, with notes on the Telotremata. American Journal of Science, series 5, 22:241255.Google Scholar
Schuchert, C., and Cooper, G. A. 1932. Brachiopod genera of the suborders Orthoidea and Pentameroidea. Peabody Museum of Natural History Memoirs, 4, 270 p.Google Scholar
Schuchert, C., and Levene, C. M. 1929. Brachiopoda, p. 1142. In Pompeckj, F. (ed.), Fossilium Catalogus, 1, Animalia, pars 42. W. Junk, Berlin.Google Scholar
Severgina, L. G. 1967. New species and genera of Ordovician brachiopods from the Sayan-Altai hill district. Tomsk Universati Ychenky Zapadni, 63:120140.Google Scholar
Suárez Soruco, R., and Díaz Martínez, E. (eds.). 1996. Léxico Estratigráfico de Bolivia. Revista Técnica de Yacimientos Petrolíferos Fiscales Bolivianos, 17, 227 p.Google Scholar
Szduy, K., Hammann, W., and Villas, E. 2001. The Upper Tremadoc fauna from Vogtendorf and the Bavarian Ordovician from Frankenwald (Germany). Senckenbergiana Lethaea, 81:207261.Google Scholar
Tortello, M. F. 2003. Biostratigraphic significance of the latest Cambrian–earliest Ordovician agnostoid trilobites from northwestern Argentina. Geologica Acta, 1:6172.Google Scholar
Tortello, M. F., and Esteban, S. B. 2003. Trilobites del Cámbrico Tardío de la Formación Lampazar (sierra de Cajas, Jujuy, Argentina). Implicancias bioestratigráficas y paleoambientales. Ameghiniana, 40:323344.Google Scholar
Tortello, M. F., and Rao, R. I. 2000. Trilobites y conodontes del Ordovícico temprano del Angosto de Lampazar (provincia de Salta, Argentina). Boletín Geológico y Minero, 111:6184.Google Scholar
Tortello, M. F., Esteban, S. B., and Aceñolaza, G. F. 2002. Trilobites from the base of the Ordovician System in northwestern Argentina, p. 131142. In Aceñolaza, F. G. (ed.), Aspects of the Ordovician System in Argentina. INSUGEO, Serie Correlación Geológica, 16.Google Scholar
Tortello, M. F., Rábano, I., Rao, R. I., and Aceñolaza, F. G. 1999. Los trilobites de la transición Cambro–Ordovícico en la Quebrada Amarilla (Sierra de Cajas, Jujuy, Argentina). Boletín Geológico y Minero, 110:555572.Google Scholar
Turner, J. C. 1960. Estratigrafía de la Sierra de Santa Victoria y adyacencias. Boletín de la Academia Nacional de Ciencias, 41:163196.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 Brachiopoda. Geological Society of America Special Paper, 13, 323 p.Google Scholar
Vaccari, N. E., and Waisfeld, B. G. 2000. Trilobites Tremadocianos de la Formación Las Vicuñas, Puna occidental, Provincia de Salta, Argentina. Memorias 14° Congreso Geológico Boliviano, p. 165169.Google Scholar
Vaccari, N. E., Martínez, M., and Hongn, F. 1999. Trilobites Tremadocianos de la Formatión Taique en la Quebrada del río Taique, Salta, Argentina. Abstracts 14° Congreso Geológico Argentino, p. 51.Google Scholar
Villas, E., and Herrera, Z. A. 2004. Revision of the brachiopod Eoorthis grandis Harrington, 1938, from the Lower Ordovician of northwestern Argentina. Ameghiniana, 41:119123.Google Scholar
Waisfeld, B. G., and Astini, R. A. 2003. Environmental constraints on faunal patterns: An example in Early Ordovician (Arenig) trilobite assemblages from the Argentine Cordillera Oriental, p. 245250. In Albanesi, G. L., Beresi, M. S., and Peralta, S. H. (eds.), Ordovician from the Andes. INSUGEO, Serie Correlatión Geológica, 17.Google Scholar
Waisfeld, B. G., and Vaccari, N. E. 2003. Trilobites, p. 295409. In Benedetto, J. L. (ed.), Ordovician Fossils of Argentina. Secretaría Ciencia y Tecnología, Universidad Nacional de Córdoba.Google Scholar
Waisfeld, B. G., Vaccari, N. E., Chatterton, B. D. E., and Edgecombe, G. D. 2003. Systematics of Shumardiidae (Trilobita), with new species from the Ordovician of Argentina. Journal of Paleontology, 75:827859.Google Scholar
Walcott, C. D. 1884. Paleontology of the Eureka District, Nevada. United States Geological Survey Monograph, 8, 298 p.Google Scholar
Walcott, C. D. 1905. Cambrian Brachiopoda with description of new genera and species. U.S. National Museum Proceedings, 28:227337.Google Scholar
Williams, A. 1974. Ordovician brachiopods from the Shelve district, Shropshire. Bulletin of the British Museum Natural History (Geology), Supplement 11, 163 p.Google Scholar
Williams, A., and Harper, D. A. T. 2000. Orthida, p. 714782. In Kaesler, R. J. (ed.), Treatise on Invertebrate Paleontology. Pt. H. Brachiopoda (revised), 3. The Geological Society of America and The University of Kansas Press, Lawrence.Google Scholar
Xu, Han-Kui, and Liu, Di-Yong. 1984. Late Lower Ordovician brachiopods of southwestern China. Bulletin Nanjing Institute Geologie and Palaeontologie, Academia Sinica, 8:147237.Google Scholar
Xu, Han-Kui, Rong, Jia-Yu, and Liu, Di-Yong. 1974. Ordovician brachiopods, p. 144154. In Handbook of Stratigraphy and Palaeontology in Southwest China. Nanjing Institute of Geology and Palaeontology, Academica Sinica, p. 144154. (In Chinese) Google Scholar
Zeballo, F. J., Albanesi, G. L., Ortega, G., and Tortello, M. F. 2003. Biostratigraphy of Ordovician sequences from Alfarcito area, Tilcara, eastern Cordillera of Jujuy, Argentina, p. 167171. In Albanesi, G. L., Beresi, M. S., and Peralta, S. H. (eds.), Ordovician from the Andes. INSUGEO, Serie Correlación Geológica, 17.Google Scholar
Zeng, Quing-Luan. 1987. Brachiopoda, p. 489555. In Xiao-Feng, Wang (ed.), Biostratigraphy of the Yangtze Gorge Area. Geological Publishing House, Beijing. (In Chinese) Google Scholar