Hostname: page-component-7c8c6479df-nwzlb Total loading time: 0 Render date: 2024-03-27T05:46:56.971Z Has data issue: false hasContentIssue false

New and little-known bryozoans from Monte León Formation (early Miocene, Argentina) and their paleobiogeographic relationships

Published online by Cambridge University Press:  09 May 2016

Leandro M. Pérez
Affiliation:
División Paleozoología Invertebrados, Museo de La Plata Francisco Pascasio Moreno, Paseo del Bosque s/n, La Plata, B1900FWA, Argentina 〈pilosaperez@gmail.com〉, 〈patagonianoyster@gmail.com〉 Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Buenos Aires, Argentina
Juan López-Gappa
Affiliation:
Museo Argentino de Ciencias Naturales Bernardino Rivadavia, Av. Ángel Gallardo 470, Ciudad Autónoma de Buenos Aires, C1405DJR, Argentina 〈lgappa@macn.gov.ar〉 Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Buenos Aires, Argentina
Miguel Griffin
Affiliation:
División Paleozoología Invertebrados, Museo de La Plata Francisco Pascasio Moreno, Paseo del Bosque s/n, La Plata, B1900FWA, Argentina 〈pilosaperez@gmail.com〉, 〈patagonianoyster@gmail.com〉 Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Buenos Aires, Argentina

Abstract

The bryozoan fauna from the South American Cenozoic is poorly known. The study of new material collected in the Monte León Formation (early Miocene), gave us the opportunity to describe four new species: Valdemunitella canui n. sp., Foveolaria praecursor n. sp., Neothoa reptans n. sp., and Calyptotheca santacruzana n. sp. Two of them (V. canui and C. santacruzana) were first recorded by F. Canu and interpreted as recent species from the Australian bryozoan fauna, but are herein described as new species. The stratigraphic range of Otionella parvula (Canu, 1904) is extended to the early Miocene. The present study emphasizes the close relationships between the South American Neogene bryozoan faunas and those of other Gondwanan sub-continents such as New Zealand and Australia.

Type
Articles
Copyright
Copyright © 2016, The Paleontological Society 

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

Ameghino, F., 1906, Les formations sédimentaires du Crétacé superieur et du Tertiarie de Patagonie avec une parallele entre leurs faunes mammalogiques et celles de l’ancient continent: Anales del Museo Nacional de Historia Natural, serie 3, v. 15, p. 1568.Google Scholar
Beu, A.G., Griffin, M., and Maxwell, P.A., 1997, Opening of Drake Passage gateway and Late Miocene-Pleistocene cooling reflected in Southern Ocean molluscan dispersal: evidence from New Zealand and Argentina: Tectonophysics, v. 281, p. 8397.Google Scholar
Bock, P.E., 1982, Bryozoans (Phylum Bryozoa), in Shepherds, S.A., and Thomas, I.M., eds., Marine Invertebrates of Southern Australia, Part 1: Adelaide, Government Printer, p. 319394.Google Scholar
Bock, P., 2001, The bryozoa of McCoy’s prodromus: The Victorian Naturalist, v. 118, p. 256265.Google Scholar
Bock, P.E., and Cook, P.L., 1998, Otionellidae, a new family including five genera of free-living lunulitiform Bryozoa (Cheilostomatida): Memorie di Scienze Geologiche, v. 50, p. 195211.Google Scholar
Brown, D.A., 1952, The Tertiary cheilostomatous Polyzoa of New Zealand: Trustees of the British Museum (Natural History), London, 405 p.Google Scholar
Brown, D.A., 1958, Fossil cheilostomatous Polyzoa from south-west Victoria: Memoirs of the Geological Survey of Victoria, v. 10, p. 190.Google Scholar
Bryan, S.E., Cook, A.G., Evans, J.P., Hebden, K., Hurrey, L., Colls, P., Jell, J.S., Weatherley, D., and Firn, J., 2012, Rapid, long-distance dispersal by pumice rafting: PlosOne, v. 7, p. e40583.Google Scholar
Buge, E., 1946, Catalogue des bryozoaires types et figurés de la Collection du Laboratoire de Paléontologie du Muséum National d´Histoire Naturelle. I. Bryozoaires du Patagonien figurés par F. Canu (1904-1908), la position stratigraphique du Patagonien: Bulletin du Muséum National d´Histoire Naturelle, série 2, v. 18, p. 204212.Google Scholar
Busk, G., 1852, Catalogue of marine Polyzoa in the collection of the British Museum, I. Cheilostomata (part): London, Trustees of the British Museum (Natural History), 54 p.Google Scholar
Busk, G., 1854, Catalogue of marine Polyzoa in the collection of the British Museum, II. Cheilostomata (part): London, Trustees of the British Museum (Natural History), p. 55120.Google Scholar
Busk, G., 1859, A monograph of the fossil Polyzoa of the Crag: London, The Palaeontographical Society, 136 p.Google Scholar
Busk, G., 1884, Report on the Polyzoa collected by H.M.S. Challenger during the years 1873–1876. Part 1. The Cheilostomata. Report on the Scientific Results of the Voyage of the H.M.S. Challenger: Zoology, v. 10, p. 1216.Google Scholar
Canu, F., 1900, Revision des Bryozoaires du Crétacé figurés par d’Orbigny. II, Cheilostomata: Bulletin de la Société géologique de France, série 3, v. 28, p. 334463.Google Scholar
Canu, F., 1904, Les bryozoaires du Patagonien. Échelle des bryozoaires pour les terrains tertiaires. Mémoires de la Société Géologique de France: Paléontologie, v. 12, p. 130.Google Scholar
Canu, F., 1908, Iconographie des bryozoaires fossiles de l´Argentine. Première partie: Anales del Museo Nacional de Buenos Aires, serie 3, v. 10, p. 245341.Google Scholar
Canu, F., 1911, Iconographie des bryozoaires fossiles de l´Argentine. Deuxiéme partie: Anales del Museo Nacional de Buenos Aires, serie 3, v. 10, p. 214288.Google Scholar
Canu, F., and Bassler, R.S., 1917, A synopsis of American Early Tertiary Cheilostome Bryozoa: United States National Museum Bulletin, v. 96, p. 187.Google Scholar
Canu, F., and Lecointre, G., 1928, Les Bryozoaires cheilostomes des Faluns de Touraine et d’Anjou: Mémoires de la Société Géologique de France, n.s., v. 4, p. 5182.Google Scholar
Casadío, S., Campbell, N., Taylor, P., Griffin, M., and Gordon, D., 2010, West Antarctic Rift system: an Oligocene short cut for the New Zealand-Patagonia Link: Ameghiniana, v. 47, p. 129132.Google Scholar
Conti, S., 1949, I Briozoi del Aonichense (Superpatagoniano) di S. José nella Peninsola Valdez (Argentina): Annali del Museo Civico di Storia Naturale, v. 63, p. 283293.Google Scholar
Cook, P.L., and Chimonides, P.J., 1985, Recent and fossil Lunulitidae (Bryozoa, Cheilostomata), 4. American and Australian species of Otionella: Journal of Natural History, v. 19, p. 575603.Google Scholar
Coombs, D.S., and Landis, C.A., 1966, Pumice from South Sandwich eruption of March 1962 reaches New Zealand: Nature, v. 209, p. 289290.Google Scholar
Cossmann, M., 1899, Essais de paléoconchologie comparée, v. 3: Paris, M. Cossmann, 201 p.Google Scholar
Cumming, R.L., and Tilbrook, K.J., 2014, Six species of Calyptotheca (Bryozoa, Cheilostomata, Lanceoporidae) from the Gulf of Carpentaria and northern Australia, with description of a new species: Zootaxa, v. 3827, p. 147169.Google Scholar
Darwin, C., 1846, Geological observations on the volcanic islands and parts of South America visited during the voyage of H. M. S. Beagle: London, Appleton, 548 p.Google Scholar
del Río, C.J., 2004a, Revision of the large Neogene pectinids (Mollusca-Bivalvia) of eastern Santa Cruz and Chubut Provinces (Patagonia- Argentina): Journal of Paleontology, v. 78, p. 690699.Google Scholar
del Río, C.J., 2004b, Neogene Marine Molluscan Assemblages of Eastern Patagonia (Argentina): a biostratigraphic analysis: Journal of Paleontology, v. 78, p. 10971122.Google Scholar
d’Hondt, J.L., 1985, Contribution à la systématique des Bryozoaires Eurystomes. Apports récents et nouvelles propositions: Annales des Sciences naturelles - Zoologie et Biologie Animale, v. 7, p. 112.Google Scholar
d’Orbigny, A., 1842, Voyage dans l’ Amerique méridionale (le Brésil, la République Argentine, la Patagonie, la République du Chili, la République de Bolivie, la République du Pérou), executé pendant les années 1826-1833. Géologie. Tome 3, 3e part: Paris, P. Bertrand, 290 p.Google Scholar
Fischer, P., 1866, Étude sur les Bryozoaires perforants de la famille des Térébriporides: Nouvelles Archives du Museum d’Histoire Naturelle Lyon, v. 2, p. 293313.Google Scholar
Frenguelli, J., 1920, Contribución al conocimiento de la geología de Entre Ríos: Boletín de la Academia Nacional de Ciencias de Córdoba, v. 24, p. 55256.Google Scholar
Frenguelli, J., 1927, El Entrerriense de Golfo Nuevo en el Chubut: Boletín de la Academia Nacional de Ciencias, Córdoba, v. 29, p. 191270.Google Scholar
Gordon, D.P., 1984, The marine fauna of New Zealand: Bryozoa: Gymnolaemata from the Kermadec Ridge: New Zealand Oceanographic Institute Memoir, v. 91, p. 1198.Google Scholar
Gordon, D.P., 1986, The marine fauna of New Zealand: Bryozoa: Gymnolaemata (Ctenostomata and Cheilostomata Anasca) from the western south Island continental shelf and slope: New Zealand Oceanographic Institute Memoir, v. 95, p. 1121.Google Scholar
Gordon, D.P., 1989, The marine fauna of New Zealand: Bryozoa: Gymnolaemata (Cheilostomida Ascophorina) from the western south Island continental shelf and slope: New Zealand Oceanographic Institute Memoir, v. 97, p. 1158.Google Scholar
Gordon, D.P., and Parker, S.A., 1991, Discovery and identity of 110-year-old Hutton collection of South Australian Bryozoa: Records of the South Australian Museum, v. 25, p. 121128.Google Scholar
Gray, J.E., 1848, List of the Specimens of British Animals in the Collections of the British Museum. Part 1. Centrionae or Radiated Animals: London, Trustees of the British Museum (Natural History), 173 p.Google Scholar
Green, A.J., and Figuerola, J., 2005, Recent advances in the study of long distance dispersal of aquatic invertebrates via birds: Diversity and Distributions, v. 11, p. 149156.Google Scholar
Griffin, M., and Pastorino, G., 2012, Microbivalves from the Monte León Formation (Early Miocene), Patagonia, Argentina: Revue de Paléobiologie, Vol. Spéc. v. 11, p. 447455.Google Scholar
Harmer, S.F., 1957, The Polyzoa of the Siboga Expedition, Part 4. Cheilostomata Ascophora II: Siboga Expedition Reports, 28d, p. 6411147.Google Scholar
Hayward, P.J., 1980, Cheilostomata (Bryozoa) from South Atlantic: Journal of Natural History, v. 14, p. 701722.Google Scholar
Hayward, P.J., and Winston, J.E., 2011, Bryozoa collected by the United States Antarctic Research Program: new taxa and new record: Journal of Natural History, v. 45, p. 22592338.Google Scholar
Helmuth, B., Veit, R.R., and Holberton, R., 1994, Long distance dispersal of a subantarctic brooding bivalve (Gaimardia trapesina) by kelp rafting: Marine Biology, v. 120, p. 421426.Google Scholar
Hincks, T., 1881, Contributions towards a general history of the marine Polyzoa. VI. Polyzoa from Bass’s Straits: The Annals and Magazine of Natural History, series 5, v. 8, p. 115.Google Scholar
Hincks, T., 1884, Contributions towards a general history of the marine Polyzoa. Part XIII. Polyzoa from Victoria (continued): The Annals and Magazine of Natural History, series 5, v. 14, p. 276285.Google Scholar
Hutton, F.W., 1878, On some South Australian polyzoa: Papers and Proceedings of the Royal Society of Tasmania, for 1877-1878, p. 23–25.Google Scholar
IheringH.I., von. H.I., von., 1897, Os Molluscos dos terrenos terciarios da Patagonia: Revista do Museu Paulista, v. 2, p. 217382.Google Scholar
IheringH.I., von. H.I., von., 1907, Les Mollusques Fossiles du tertiaire et du Crétacé Supérieur de l´Argentine: Anales del Museo Nacional de Buenos Aires, serie 3, v. 7, p. 611 p.Google Scholar
IheringH.I., von. H.I., von., 1914, Catalogo de Molluscos cretaceos e terciarios da Argentina da collecção do auctor: Revista do Museu Paulista, v. 1, p. 4113.Google Scholar
Lagabrielle, Y., Goddéris, Y., Donnadieu, Y., Malavieill, J., and Suárez, M., 2009, The tectonic history of Drake Passage and its possible impacts on global climate: Earth and Planetary Science Letters, v. 279, p. 197211.Google Scholar
Lamouroux, J.V.F., 1821, Exposition méthodique des genres de l’ordre des polypiers, avec leur description et celles des principales espèces figurées dans 84 planches; les 63 premiers appartenant a l’histoire naturelle des zoophytes d’Ellis et Solander: Paris, Agasse, 115 p.Google Scholar
Lawver, A., and Gahagan, L.M., 2003, Evolution of Cenozoic seaways in the circum-Antarctic region: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 198, p. 1137.CrossRefGoogle Scholar
Leanza, A.F., 1956, Mutualismo entre un Ermitaño y un Briozoario fósiles, cohabitantes en la conchilla de un caracol: Holmbergia, v. 11, p. 145148.Google Scholar
Levin, L., 2006, Recent progress in understanding larval dispersal: new directions and digressions: Integrative and Comparative Biology, v. 46, p. 282297.Google Scholar
Levinsen, G.M.R., 1909, Morphological and systematic studies on the cheilostomatous Bryozoa: Nationale Forfatterers Forlag, Copenhagen, 431 p.Google Scholar
Linnaeus, C., 1758, Systemae naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differetiis, synonymis, locis Ed.10: Holmiae, Laurentii Salvii, 824 p.Google Scholar
López Gappa, J.J., and Lichtschein, V., 1990, Los briozoos coleccionados por el B/I Shinkai Maru en la plataforma continental argentina. Parte I: Buenos Aires, Servicio de Hidrografía Naval, 32 p.Google Scholar
MacGillivray, P.H., 1869, Descriptions of some new genera and species of Australian Polyzoa; to which is added a list of species found in Victoria: Transactions and Proceedings of the Royal Society of Victoria, v. 9, p. 126148.Google Scholar
MacGillivray, P.H., 1886, Polyzoa, in, McCoy, F., ed., Prodromus of the Zoology of Victoria. v. 2, Decade 13: Melbourne, Government Printer, p. 99–111.Google Scholar
Malumián, N., 1999, La sedimentación y el volcanismo terciarios en la Patagonia extraandina. 1. La sedimentación en la Patagonia extraandina, in Caminos, R., ed., Geología Argentina: Servicio Geológico Minero Argentino, Instituto de Geología y Recursos Minerales, Anales 29, p. 557–612.Google Scholar
Maplestone, C.M., 1913, New or little-known polyzoa: Proceedings of the Royal Society of Victoria, n.s., v. 25, p. 357362.Google Scholar
Moyano, H.I., 1974, Briozoos Marinos Chilenos II. Briozoos de Chile Austral, I: Gayana Zoología, v. 30, p. 141.Google Scholar
Moyano, H.I., 1982, Magellanic bryozoa: some ecological and zoogeographical aspects: Marine Biology, v. 67, p. 8196.Google Scholar
Moyano, H.I., 1983, Southern Pacific bryozoa: a general view with emphasis on Chilean species: Gayana Zoología, v. 46, p. 345.Google Scholar
Moyano, H.I., 1986, Bryozoa marinos chilenos VI. Cheilostomata Hippothoidae: South eastern Pacific species: Boletín de la Sociedad de Biología de Concepción, v. 57, p. 89135.Google Scholar
Moyano, H.I., 1991, Bryozoa marinos chilenos VIII: una síntesis zoogeográfica con consideraciones sistemáticas y la descripción de diez especies y dos géneros nuevos: Gayana Zoología, v. 55, p. 305389.Google Scholar
Moyano, H.I., 1997, Revisión de la diversidad y de las conexiones zoogeográficas de los briozoos magallánicos: Gayana Zoología, v. 61, p. 125139.Google Scholar
Muravchik, M., Griffin, M., and Pérez, L.M., 2004, Bryozoans from the Paraná Formation (Miocene), in the province of Entre Ríos, Argentina: Ameghiniana, v. 41, p. 312.Google Scholar
Nelson, C.S., and Cooke, P.J., 2001, History of oceanic front development in the New Zealand sector of the southern Ocean during the Cenozoic: a synthesis: New Zealand Journal of Geology and Geophysics, v. 44, p. 535553.Google Scholar
Norman, A., 1903, Notes on the natural history of East Finmark, polyzoa: Annals and Magazine of Natural History, series 7, v. 11, p. 567598.Google Scholar
Ortmann, A.E., 1900, Synopsis of the Collections of Invertebrate fossils made by the Princeton Expedition to Southern Patagonia: American Journal of Science, series 4, v. 10, p. 368381.Google Scholar
Ortmann, A.E., 1902, Paleontology Part II. Tertiary Invertebrates, in, Scott, W.B., ed., Reports of the Princeton University Expeditions to Patagonia, 1896-1899. Vol 4 Paleontology I, part 2: Princeton, J. Pierpont Morgan Publication Fund, p. 45–332.Google Scholar
Pallaroni, M., 1920, Sulla simbiosi di un Briozoario fossile e di un paguro: Atti della Società Ligustica di Scienze Naturali e Geografiche, v. 19, p. 2028.Google Scholar
Parras, A., and Griffin, M., 2009, Darwin´s great Patagonian Tertiary Formation at the Mouth of the Río Santa Cruz: a reappraisal: Revista de la Asociación Geológica Argentina, v. 64, p. 7082.Google Scholar
Parras, A., Griffin, M., Feldmann, R., Casadío, S., Schweitzer, C., and Marenssi, S., 2008, Correlation of marine beds based on Sr- and Ar-date determinations and faunal affinities across the Paleogene/Neogene boundary in southern Patagonia, Argentina: Journal of South American Earth Sciences, v. 26, p. 204216.Google Scholar
Parras, A., Dix, G., and Griffin, M., 2012, Sr-isotope chronostratigraphy of Paleogene Neogene marine deposits: Austral Basin, southern Patagonia (Argentina): Journal of South American Earth Sciences, v. 37, p. 122135.Google Scholar
Pérez, L.M., Griffin, M., and Manceñido, M.O., 2013, Los macroinvertebrados de la Formación Paraná: historia y diversidad de la fauna bentónica del Mioceno de Entre Ríos, Argentina, in Brandoni, D., and Noriega, J.I., eds., El Neógeno de la Mesopotamia Argentina. Publicación Especial Nº 14: Buenos Aires, Asociación Paleontológica Argentina, p. 56–70.Google Scholar
Ragazzola, F., Taylor, P.D., Bazzicalupo, P., Okamura, B., and Schmidt, D.N., 2014, A new species of the cheilostome bryozoan Chiastosella in the Southern Ocean, past and present: Polar Biology, v. 37, p. 773779.Google Scholar
Smitt, F.A., 1868, Kritisk Förteckning öfver Skandinaviens Hafs-Bryozoer: pt III: Öfversigt af Kongliga Vetenskaps-Akademiens Förhandlingar, v. 24, p. 279429.Google Scholar
Sowerby, G.B. II., 1846, Descriptions of Tertiary fossil shells from South America, in Darwin, C., ed., Geological Observations on South America: London, Elder and Co., p. 249279.Google Scholar
Thiel, M., and Haye, P.A., 2006, The ecology of rafting in the marine environment, III, biogeographical and evolutionary consequences: Oceanography and Marine Biology: An Annual Review, v. 44, p. 323429.Google Scholar
Tilbrook, K.J., 2006, Cheilostomatous Bryozoa from the Solomon Islands: Santa Barbara Museum of Natural History Monographs 4, Studies in Biodiversity Number 3, 386 p.Google Scholar
Uttley, G.H., 1951, The recent and tertiary polyzoa (bryozoa) in the collection of the Canterbury Museum, part 2: Records of the Canterbury Museum, v. 6, p. 1539.Google Scholar
Waters, A.W., 1879, On the occurrence of Recent Heteropora: Journal of the Royal Microscopical Society, v. 2, p. 390393.Google Scholar
Waters, A.W., 1887, On Tertiary chilostomatous Bryozoa from New Zealand: Quarterly Journal of the Geological Society of London, v. 43, p. 4072.CrossRefGoogle Scholar
Waters, A.W., 1888, Supplementary report on the polyzoa collected by H.M.S. Challenger during the years 1873-1876, report on the scientific results of the voyage of the H. M. S. Challenger: Zoology, v. 31, p. 141.Google Scholar
Waters, A.W., 1913, The marine fauna of British East Africa and Zanzibar, from collections made by Cyril Crossland M.A., B.Sc., F.Z.S., in the years 1901-1902, bryozoa-cheilostomata: Proceedings of the Zoological Society of London, 458–537.Google Scholar
Winston, J.E., 2005, Re-description and revision of Smitt’s “Floridan bryozoa” in the collection of the Museum of Comparative Zoology, Harvard University: Virginia Museum of Natural History Memoir no. 7, p. 1147.Google Scholar
Zachos, J., Pagani, M., Sloan, L., Thomas, E., and Billups, K., 2001, Trends, rhythms, and aberrations in global climate 65 Ma to present: Science, v. 292, p. 686693.Google Scholar