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Sponges and chancelloriids from the Cambrian of western Argentina

Published online by Cambridge University Press:  20 May 2016

Matilde S. Beresi
Affiliation:
Centro Regional de Investigaciones Cientificas y Tecnológicas, PRIBIPA C. C. 131, 5500 Mendoza, Argentina
J. Keith Rigby
Affiliation:
Geology Department, 210 Page School, Brigham Young University, Provo, Utah 84602

Abstract

Anthaspidellid sponges are reported from the La Laja Formation in the Chica de Zonda Range in the Precordillera Oriental, Argentina. These are generically unidentifiable fragments of trabs and more or less well-defined dendroclone spicules. They occur as skeletal elements in small transported fragments and are the only Cambrian occurrence of anthaspidellids known thus far from South America.

Walcott (1920) proposed to include an array of dissociated spicules, including triradiate prodiaenes, hexactines, and probable monactine spicules, in the genus Kiwetinokia. Assemblages tentatively identified as Kiwetinokia utahensis? Walcott, 1920, are reported from the Estancia San Martin Formation, of latest Early Cambrian and early Middle Cambrian age from San Isidro Gulch near Mendoza. Similar spicule assemblages occur in the La Laja Formation from the Chica de Zonda Range, in the Precordillera Oriental near San Juan, and in the Los Sombreros Formation in the Tontal Range of the Precordillera Occidental.

Sclerites of the sponge-like Chancelloria eros Walcott, 1920, are described from the upper Lower to lower Middle Cambrian La Laja Formation. Chancelloria sclerites are also reported here from rocks of the Middle Cambrian Glossopleura Zone in the San Isidro Formation in Empozada Gulch in the San Isidro area of the Precordillera Austral, west of Mendoza, in Mendoza Province. Sponges and chancelloriids from the Cambrian of Argentina are known basically from dissociated skeletal elements.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Baldis, B., and Bordonaro, O. L. 1982. Comparación entre el Cámbrico de la Great Basin Norteamericana y la Precordillera de San Juan, Argentina. Su implicancia Continental. Anales V Congreso Latinamericano de Geología, Columbia 1:97108.Google Scholar
Baldis, B., and Bordonaro, O. L. 1983. Variaciones de facies en la cuenca Cámbrica de la Precordillera Argentina y su relación con la génesis del borde continental. Anales VI Congreso Latinamericano de Geología, Columbia, 1:1015.Google Scholar
Banchig, A. M. Keller, and Milana, J. 1990. Brechas calcáreas de la Formación Los Sombreros, Quebrana Ojos de Agua, sierra del Tontal, San Juan. Actas XI Congreso Geológico Argentino, San Juan, 2:149152.Google Scholar
Bengtson, S. 1990. Chancelloriids, p. 4569. In Bengston, S., Conway Morris, S., Cooper, B. J., Jell, P. A., and Runnegar, B. N. (eds.), Early Cambrian fossils from South Australia. Association of Australasian Palaeontologists, Memoir 9.Google Scholar
Bengtson, S., and Missarzhevsky, V. V. 1981. Coeloscleritophora-a major group of enigmatic Cambrian Metazoans. U.S. Geological Survey, Open-file Report 81–743:1921.Google Scholar
Bordonaro, O. L. 1980. El Cámbrico en la Quebrada de Zonda, Provincia de San Juan. Revista Asociación Geológica Argentina, 35:2640.Google Scholar
Bordonaro, O. L. 1985. El Cámbrico de San Isidro, Mendoza, en facies de borde externo y talud de la plataforma calcárea de Precordillera. Primeras Jornadas sobre Geología de Precordillera, San Juan, 1:67.Google Scholar
Bordonaro, O. L., and Banchig, A. 1990. Nuevos trilobites del Cámbrico medio en la Quebrada Ojos de Agua, sierra del Tontal, San Juan. Actas V Congreso Argentino Paleontología y Biostratigrafia, Tucumán:2537.Google Scholar
Bordonaro, O. L., and Martos, L. M. 1985. El Género Chancelloria en el Cámbrico de San Juan. Reunión de Communicaciones Paleontológicas, Asociación Paleontológica Argentina, San Juan:67.Google Scholar
Borrello, A. V. 1962. Caliza La Laja (Cámbrico medio de San Juan). Notas Comité Investigación Cinetifica, Buenos Aries, La Plata, 2:38.Google Scholar
Cuerda, A. J., Cingolani, C., and Varela, R. 1983. Las graptofaunas de al Formación Los Sombreros, Ordovícico inferior de la vertiente oriental de la sierra del Tontal. Ameghiniana, Revista de la Asociación Paleontológica Argentina, 20(3-4):239260.Google Scholar
Cuerda, A. J., Cingolani, C., Schauer, O. C., and Varela, R. 1985. El Ordovícico de la sierra del Tontal, Precordillera de San Juan. Actas VI Congreso Geológico Chileno, Antofagasta, Chile, p. 190192.Google Scholar
Dawson, J. W. 1889. New species of fossil sponges from the Siluro-Cambrian at Little Métis on the lower Saint Lawrence. Royal Society of Canada, Transactions, 2(2):3155.Google Scholar
Doré, F., and Reid, R. E. H. 1965. Allonnia tripodophora nov. gen. nov. sp. nouvelle éponge du Cambrien inferieur de Carteret (Manche). Compte Rendu sommaire séance Société géologique de France, 1965:2021.Google Scholar
Grant, R. E. 1836. Animal kingdom, Vol. 1, p. 107118. In Todd, R. B. (ed.), The Cyclopedia of Anatomy and Physiology. Sherwood Gilbert and Piper, London.Google Scholar
Goryansky, V. Yu. 1973. O neobkhodimosti isklucheniya roda Chancelloria Walcott iz tipa gubok. [On the necessity of exclusion of Chancelloria Walcott from the phylum Porifera.] Trudy Institute Geologia i Geofizika Sibirskoy. Otdeieniye, 49:3444 [in Russian].Google Scholar
Harrington, H. 1961. The Cambrian formations of South America. In El Sistema Cámbrico, su Paleogeographia y el Problema de su Base, Symposium. XX International Geological Congress, 1956, Mexico, Proceedings, 3 Heredia, S. 1987. Zona de Proconodontus tenuiserratus (Conodonta), Cámbrico superior, Formación La Cruz, Mendoza, Argentina. Ameghiniana, Revista de la Asociación Paleontológica Argentina, 24(1-2):1720.Google Scholar
Heredia, S., Bordonaro, O. L., and Matteoda, E. 1987. Espículas de Poríferos de la Formación La Cruz, Cámbrico Superior, Departamento Las Heras, provincia de Mendoza, Ameghiniana, Revista de la Asociación Paleontológica Argentina, 24:(1-2):17-20.Google Scholar
Hinde, G. J. 1887-1912. A monograph of the British Fossil sponges. Paleontographica Society, London, Pt. 2, p. 93108.Google Scholar
Kruse, P. D. 1983. Middle Cambrian Archaeocyathus from the Georgina Basin is an anthaspidellid sponge. Alcheringa, 7:4958.Google Scholar
Laubenfels, M. W. de. 1955. Porifera, p. E21E112. In Moore, R. C. (ed.), Treatise on Invertebrate Paleontology, Pt. E. Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Lévi, C. 1953. Sur une nouvelle classification des Démosponges. Comptes Rendus des séances, Academie Sciences, Paris, 236:835855.Google Scholar
Lochman, C. 1952. Trilobites, p. 60161. In Logan, G. A. et al. (eds.), Cambrian Stratigraphy and Paleontology near Caborca, Northwestern Sonora, Mexico. Smithsonian Miscellaneous Collections, 119(1).Google Scholar
Miller, S.A. 1889. North American Geology and Paleontology. Published by the author, Cincinnati, 664 p.Google Scholar
Mooore, R. C., Lalicker, C. G., and Fischer, A. G. 1952. Invertebrate Fossils. McGraw-Hill, New York, 766 p.Google Scholar
Mostler, H. 1985. Neue heteractinide Spongien (Calcispongea) aus dem Unter-und Mittelkambrium Süwestsardiniens. Berichte naturwissen-medezin Verhandlungen Innsbruck, 72:732.Google Scholar
Mostler, H., and Moshleh-Yazdi, A. 1976. Neue Poriferen aus oberkambrischen Gesteinen der Milaformation im Elburzgebirge (Iran). Geologische-Paläontologische Mitteilungen Innsbruck, 5:136.Google Scholar
Okulitch, V. J., and Bell, W. G. 1955. Gallatinospongia, a new siliceous sponge from the Upper Cambrian of Wyoming. Journal of Paleontology, 29:460461.Google Scholar
Pina, L., Baldis, B., and Bordonaro, O. L. 1985. Formación Estancia San Martin (nov. nom.) del Cámbrico Inferio-Cámbrico Medio en la Comarca de San Isidro, Mendoza. Primeras Jornadas sobre Geología de Precordillera, 1:711.Google Scholar
Rauff, H. 1895. Palaeospongiologie, Zweiter Theil, Fortsetzung. Palaeontographica, 43:347395.Google Scholar
Reid, R. E. H. 1958. A monograph of the Upper Cretaceous Hexactinellida of Great Britain and Northern Ireland. Part I, Palaeontographical Society, London, 46 p.Google Scholar
Rigby, J. K. 1978. Porifera of the Middle Cambrian Wheeler Shale, from the Wheeler Amphitheater, House Range, in western Utah. Journal of Paleontology, 52:13251345.Google Scholar
Rigby, J. K. 1981. Cambrian sponges of the North American Cordilleran Region, p. 181183. In Taylor, M. E. (ed.), Short Papers for the Second International Symposium on the Cambrian System. U.S. Geological Survey Open-file Report 81-743.Google Scholar
Rigby, J. K. 1986. Sponges of the Burgess shale (Middle Cambrian), British Columbia. Palaeontographica Canadiana, No. 2, 105 p.Google Scholar
Rusconi, C. 1955. Fósiles Cámbricos y Ordovícicos al oeste de San Isidro, Mendoza. Revista del Museo de Historia Natural de Mendoza, 8(1-4):364.Google Scholar
Schmidt, O. 1870. Grundzuge einer Spongien-Fauna des altantischen Gebeites. Leipzig, 88 p.Google Scholar
Schulze, F. E. 1887. Report on the Hexactinellida collected by H. M. S. Challenger. Challenger Report, Zoology, 21:1514.Google Scholar
Sdzuy, K. 1969. Unter-und mittelkambrische Porifera (Chancelloriida und Hexactinellida) Päleontologische Zeitschrift, 43:115147.Google Scholar
Shimer, H. W., and Shrock, R. R. 1944. Index Fossils of North America. John Wiley and Sons, Inc., New York, 837 p.Google Scholar
Sollas, W. J. 1875. Sponges, p. 451. In Encyclopedia Britannica, 9th ed. London.Google Scholar
Walcott, C. D. 1920. Middle Cambrian Spongiae. Smithsonian Miscellaneous Collections, 67:261364.Google Scholar
Wilson, J. L. 1950. An Upper Cambrian pleospongid? Journal of Paleontology, 24:591593.Google Scholar