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Paradictyodora Antarctica: A new complex vertical spreite trace fossil from the Upper Cretaceous-Paleogene of Antarctica and Tierra del Fuego, Argentina

Published online by Cambridge University Press:  20 May 2016

Eduardo B. Olivero ,
Luis A. Buatois  and
Roberto A. Scasso
Eduardo B. Olivero
Affiliation:
1Centro Austral de Investigaciones Científicas (CADIC-CONICET), CC 92, 9410 Ushuaia, Tierra del Fuego, Argentina,
Luis A. Buatois
Affiliation:
2Instituto Superior de Correlación Geológica, CC 1; 4000 San Miguel de Tucumán, Argentina,
Roberto A. Scasso
Affiliation:
3Facultad de Ciencias Exactas y Naturales, Ciudad Universitaria, Pabellón 2; 1428 Buenos Aires, Argentina,
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Abstract

A new ichnotaxon, Paradictyodora antarctica, is proposed for complex spreite trace fossils from the Upper Cretaceous of Antarctica and Eocene of Tierra del Fuego, Argentina. This complex, three-dimensional, vertical spreite structure enlarges upwards, displaying a prismatic-to-conical shape that consists of subvertical folded laminae, produced by the lateral migration of a subvertical J-shaped tube anchored at its base. Overall morphology and mode of formation distinguishes this new ichnotaxa from other ichnogenera such as Daedalus, Dictyodora, and Heimdallia. Paradictyodora occurs in fodinichnia-dominated ichnocoenosis developed in distal fine-grained deposits of deepwater fan delta systems.

Type
Research Article
Information
Journal of Paleontology , Volume 78 , Issue 4 , July 2004 , pp. 783 - 789
Copyright
Copyright © The Paleontological Society 

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References

Benton, M. J. 1982. Dictyodora and associated trace fossils from the Palaeozoic of Thuringia. Lethaia, 15:115132.Google Scholar
Bradshaw, M. A. 1981. Palaeoenvironmental interpretations and systematics of Devonian trace fossils from the Taylor Group (Lower Beacon Supergroup), Antarctica. New Zealand Journal of Geology and Geophysics, 24:615652.Google Scholar
Buckman, J. O. 1996. Heimdallia from the Lower Carboniferous of Ireland: H. mullaghmori a new ichnospecies, and re-evaluation of the three-dimensional format of the ichnogenus. Ichnos, 5:4351.Google Scholar
Hall, J. 1852. Paleontology of New York. Vol. II. C. van Benthuysen, Albany, 362 p.Google Scholar
Hall, J. 1863. Observations upon some spiralgrowing fucoidal remains of the Paleozoic rocks of New York. New York State Cabinet Annual Report, 16:7683.Google Scholar
Heer, O. 1877. Flora Fossilis Helvetiae. Vorweltliche Flora der Schweiz. J. Wurster, Zürich, 182 p.Google Scholar
Heinzelin, J. 1964. Pogonopheres fossiles? Bulletin de la Societé Belge de Géologie, Paléontologie e d'Hydrogéologie, 53:501510.Google Scholar
Massalongo, A. 1855. Monografia delle nereidi fossili del M. Bolca. G. Antonelli, Verona, 35 p.Google Scholar
Nathorst, A. G. 1886. Nouvelles observations sur des traces d'animaux et autres phénomènes d'origine purement mécanique décrits comme “Algues fossils.” K Svenka Vetenskapsakademien Handlingar, 21:158.Google Scholar
Nicholson, H. 1873. Contributions to the study of errant annelids of the older Paleozoic rocks. Proceedings of the Royal Society of London, 21:288290.Google Scholar
Olivero, E. B., and López, M. I. C. 2001. Ichnology of syntectonic turbidites, estuarine and shelf deposits. Eocene, Punta Torcida anticline, Isla Grande de Tierra del Fuego. 4° Reunión Argentina de Icnología y 2° Reunión de Icnología del Mercosur, San Miguel de Tucumán. Resúmenes, 62.Google Scholar
Olivero, E. B., and Malumián, N. 1999. Eocene Stratigraphy of Southeastern Tierra del Fuego, Argentina Bulletin of the American Association of Petroleum Geologists, 83:295313.Google Scholar
Olivero, E. B., Malumián, N., and Jannou, G. 2002. Estratigrafía y facies de sistemas turbidíticos, estuáricos y de plataforma, Eoceno, Andes Fueguinos, Argentina. IX Reunión Argentina de Sedimentología, Córdoba. Resúmenes, 57.Google Scholar
Richter, R. 1850. Aus der thüringischen Grauwacke. Zeitschrift der Deutschen Geologischen Gesellschaft, 2:198206.Google Scholar
Rieth, A. 1932. Neue Funde spongeliomorpher Fucoiden aus dem Jura Schwabens. Geologische und palaeontologische Abhandlungen, 19:257294.Google Scholar
Rouault, M. 1850. Note préliminaire (1) sur une nouvelle formation découverte dans le terrain silurien inférieur de la Bretagne. Société Géologique de France Bulletin, série 2,7:724744.Google Scholar
Sarle, C. J. 1906. Arthrophycus and Daedulus of burrow origin. Proceedings of the Rochester Academy of Sciences, 4:203210.Google Scholar
Scasso, R. A., Olivero, E. B., and Buatois, L. A. 1991. Lithofacies, Biofacies and Ichnoassemblages evolution of a shallow submarine volcaniclastic fan-shelf depositional system (Upper Cretaceous, James Ross Island, Antarctica). Journal of South American Earth Sciences, 4:239260.Google Scholar
Schlirf, M. 2000. Upper Jurassic trace fossils from the Boulonnais (northern France). Geologica et Palaeontologica, 34:145213.Google Scholar
Seilacher, A. 1955. Spuren und Fazies im Unterkambrium, p. 373399. In Schindewolf, O. H. and Seilacher, A. (eds.), Beitrage zur Kenntnis des Kambriums in der Salt Range (Pakistan). Akademie der Wissenschaften und der Literatur zu Mainz, mathematisch-naturwissenschaftliche Klasse, Abhandlungen 10.Google Scholar
Seilacher, A. 1967. Fossil behavior. Scientific American, 27:7280.Google Scholar
Seilacher, A. 1974. Flysch trace fossils: evolution of behavioural diversity in the deep-sea. Neues Jahrbuch für Geologie und Palaontologie, Monatshefte, 1974:233245.Google Scholar
Seilacher, A. 2000. Ordovician and Silurian Arthrophycid Ichnostratigraphy, p. 237258. In Sola, M. A. and Worsley, D. (eds.), Geological Exploration in Murzuk Basin. Elsevier Science, Amsterdam.Google Scholar
Seilacher-Drexler, E., and Seilacher, A. 1999. Undertraces of Sea Pens and Moon Snails and possible fossil counterparts. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 214:195210.Google Scholar
Sternberg, K. M. G. 1833. Versuch einer geognostisch-botanischen Darstellung der Flora der Vorwelt. Pt. 5–6. Johan Spurny, Prague, 80 p.Google Scholar
Weiss, E. 1884. Beitrag zur Culm-Flora von Thüringen. Jahrbuch Preussische Geologische Landesanstalt, 1883:81100.Google Scholar