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Disappeared almost without a trace : Taphonomic pathways and the recognition of hidden bioturbation events in Eocene storm deposits (Paují Formation, Lake Maracaibo, Venezuela)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Shallow-marine deposits, included in the “Basal Sands” of the Eocene Paují Formation of the Maracaibo Basin in western Venezuela, record deposition in fore shore to lower off shore settings. These deposits are stacked in coarsening-upward parasequences that reflect variable intensities and frequencies of storms. Of particular interest are sharp-based, amalgamated, hummocky cross-stratified and rippled, very fine-grained sandstone beds, observed in the core MOT-X from the Motatán Field. These beds record storm deposition, under purely oscillatory to combined flows in an offshore-transition setting. The amalgamated nature of the sand stone interval indicates repeated erosion, due to multiple storm events. The ichnofabrics in these tempestites result from a distinctive taphonomic pathway, reflecting the interplay between bioturbation events and storm erosion and deposition. The storm-related trace-fossil suite is represented by Diplocraterion parallelum and local occurrences of Palaeophycus tubularis, Bergaueria isp. and Thalassinoides isp., which is consistent with the relatively high energy of formation of these deposits. Fair-weather deposits are absent from the sand stone interval. However, high densities of Chondrites isp. are present in the infills of Diplocraterion parallelum and, more rarely, Thalassinoides isp. providing the sole evidence of the establishment of a resident fauna during inter-storm intervals. Deposits containing the fair-weather suites were erosionally removed during the subsequent storm. The deep-tier emplacement of Chondrites and the ability of its producer to rework other biogenic structures favour preservation, allowing recognition of a “hidden” bioturbation event that otherwise might have remained undetected.
Rocznik
Strony
473--479
Opis fizyczny
Bibliogr. 38 poz., rys.
Twórcy
  • Department of Geological Sciences, University of Saskatchewan, Saskatoon, SK S7N 5E2, Canada
autor
  • División Oriente, Gerencia de Exploración, PDVSA, Edificio PDVSA, Nivel Plaza, Modulo A, Puerto La Cruz, 6023, Venezuela
  • Department of Geological Sciences, University of Saskatchewan, Saskatoon, SK S7N 5E2, Canada
Bibliografia
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  • 6. Buatois, L. A., Bromley, R. G., Mángano, M. G., Bellosi, E. & Carmona, N. B., 2003. Ichnology of shallow marine deposits in the Miocene Chenque Formation of Patagonia: Complex ecologic structure and niche partitioning in Neogene ecosystems. In: Buatois, L. A. & Mángano, M. G. (eds), Icnología: Hacia una convergencia entre geología y biología. Publicación Especial de la Asociación Paleontológica Argentina, 9: 85-95.
  • 7. Buatois, L. A. & Mángano, M. G., 2004. Animal-substrate interactions in freshwater environments: applications of ichnology in facies and sequence stratigraphic analysis of fluvio-lacustrine successions. In: McIlroy, D. (ed.), The Application of Ichnology to Palaeoenvironmental and Stratigraphic Analysis. Geological Society Special Publication, 228: 311-333.
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  • 10. Buatois, L. A., Mángano, M. G., Alissa, A. & Carr, T. R., 2002. Sequence stratigraphic and sedimentologic significance of biogenic structures from a late Paieozoic marginal to openmarine reservior, Morrow Sandstone, subsurface of southwest Kansas, USA. Sedimentary Geology, 152: 99-132.
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  • 12. Carmona, N. B., Buatois, L. A., Mángano, M. G. & Bromley, R. G., 2008. Ichnology of the Lower Miocene Chenque Formation, Patagonia, Argentina: Animal - substrate interactions and the Modern Evolutionary Fauna. Ameghiniana, 45: 93-122.
  • 13. Delgado, M., Kabbabe, T., Sampson, E. & Chacartegui, F., 2001. Ichnofossils as a tool for environmental interpretation, Pauji and Misoa formations, Barúa and Motatán fields, Zulia and Trujillo states, Venezuela. VI International Ichnofabric Workshop Abstracts, IslaMargarita &PuertoLa Cruz, p. 27.
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  • 24. Mángano, M. G., Buatois, L. A. & Muniz Guinea, F., 2005. Ichnology of the Alfarcito Member (Santa Rosita Formation) of northwestern Argentina: animal-substrate interactions in a lower Paleozoic wave-dominated shallow sea. Ameghiniana, 42: 641-668.
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  • 26. Pearson, N. J., Mángano, M. G., Buatois, L. A., Casadío, S. & Rodríguez Raising, M., 2013. Environmental variability of Macaronichnus ichnofabrics in Eocene tidal-embayment deposits of southern Patagonia, Argentina. Lethaia, 46: 341-354.
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  • 33. Tedesco, L. P. & Wanless, H. R., 1991. Generation of sedimentary fabrics and facies by repetitive excavation and storm infilling of burrow networks, Holocene of South Florida and Caicos Platform, B.W.I. Palaios, 6: 326-343.
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  • 36. Vossler, S. M. & Pemberton, S. G., 1989. Ichnology and plaeoecology of offshore deposits in the Cardium Formation (Turonian, Alberta, Canada). Palaeogeography, Palaeoclimatology, Palaeoecology, 74: 217-239.
  • 37. Zambrano, E., 1995. Síntesis geológica, marco secuencial y perspectivas exploratorias del Eoceno de la Cuenca de Maracaibo. Maraven, Internal Report.
  • 38. Zhang, G., Buatois, L. A., Mángano, M. G. & Aceńolaza, F. G., 1998. Sedimentary facies and environmental ichnology of a Permian playa-lake complex in western Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology, 138: 221-243.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-338e20bf-7ca7-4647-a682-ccd4ec11ab1e
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