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Caulostrepsis es el icnogénero que designa las perforaciones realizadas por presumibles poliquetos espiónidos. Entre otros substratos, es frecuente su presencia tanto en conchas de moluscos actuales como fósiles. En el presente trabajo se estudia este tipo de trazas en especímenes recolectados en sedimentos marinos cuaternarios de Colombia. Este hallazgo representa el primer registro de cualquier tipo de bioerosión en fósiles colombianos.
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Barrera, R., 2001. Geología de las Planchas 16-17 (Galerazamba y Barranquilla). Esc. 1:100.000. Ingeominas. Memoria explicativa.
Boehs, G. & Magalhães, A.R.M. 2004. Simbiontes associados com Anomalocardia brasiliana (Gmelin) (Mollusca, Bivalvia, Veneridae) na Ilha de Santa Catarina e região continental adjacente, Santa Catarina, Brasil. Revista Brasileira de Zoologia, 21: 865-869.
Bromley, R. G. 1970. Borings as trace fossils and Entobia cretacea Portlock, as an example. In: Trace fossils, T.P. Crimes & J.C. Harper (Eds.). Geological Journal Special Issues, 3: 49-90.
Bromley, R.G. 1972. On some ichnotaxa in hard substrates, with a redefinition of Trypanites Mägdenfrau. Paläontologische Zeitschrift, 46: 93-98.
Bromley, R.G. 2004. A stratigraphy of marine bioerosion. In: The application of Ichnology to Palaeoenvironmental and Stratigraphic Analysis, D. McIlroy (Ed.), Geological Society Special Publication, 228: 455-479.
Bromley, R.G. & D’Alessandro, A. 1983. Bioerosion in the Pleistocene of southern Italy: ichnogenera Caulostrepsis and Maean-dropolydora. Rivista Italiana di Paleontologia e Stratigrafia, 89: 283-309.
Buffetaut, E., 2000. A forgotten episode in the history of dinosaur ichnology; Carl Degenhardt’s report on the first discovery of fossil footprints in South America (Colombia, 1839). Bulletin de la Société Géologique de France, 171: 137-140.
Cosel, R. von, 1986. Moluscos de la región de la Ciénaga Grande de Santa Marta (Costa Caribe de Colombia). Anales del Instituto de Investigaciones Marinas de Punta Betín, 15-16: 79-370.
Díaz, J. M. & Puyana, M. 19994. Moluscos del Caribe colombiano. Un Catálago Ilustrado. Colciencias. Fundación Natura, Invemar: 1-291.
Duque-Caro, H. 1979. Major structural elements and evolution of Northeaster Colombia. In: J.S. Watkins, J.L. Montader, P.W. (Eds.). Geological and Geophysical Investigations of Continental Margins. American Association of Petroleum Geology. Mem. 29: 329-351.
Duque-Caro, H. 1984. Structural style, diapirism and accretionary episodes of the Sinú-San Jacinto Terrane, southwestern Caribbean borderland. Geological Society of America. Mem. 162: 303-316.
Ekdale, A.A.; Bromley, R.G. & Pemberton, S.G. 1984. Ichnology: The use of trace fossils in Sedimentology and Stratigraphy. Society of Economic Paleontologists and Mineralogists Short Courses, 15: 1-317.
Handley, S.J. 2002. Optimizing intertidal Pacific oyster (Crassostrea gigas Thunberg) culture, Houhora Harbour, northern New Zealand. Aquaculture Research, 33: 1019-1030.
Ishikawa, M. & Kase, T. 2007. Spionid bore hole Polydorichnus subapicalis new ichnogenus and ichnospecies: a new behavioral trace in gastropod shells. Journal of Paleontology, 81: 1466-1475.
Kern, J.P.; Grimmer, J.C. & Lister, K.H. 1974. A new fossil spionid tube, Pliocene and Pleistocene of California and Baja California. Journal of Paleontology, 48: 978-982.
Lyell, C. 1830. Principles of Geology, being an attempt to explain the former changes of the earth’s surface, by reference to causes now in operation. 2 vols., Murray, 1-841.
Martin, D. & Britayev, T.A. 1998. Symbiotic Polychaetes: Review of known species. In: A.D. Ansell, R.N. Gibson, M. Barnes (Eds.). Oceanography and Marine Biology: An Annual Review. 36:217-340.
Martinell, J. 1989. Interacción organismos/sustrato duro: la bioerosión y sus implicaciones. In: E. Aguirre (Coord.), Paleontología, Col. Nuevas Tendencias: 205-222, CSIC, Madrid.
Martinell, J. & Domènech, R. Commensalism in the fossil record: eunicid polychaete bioerosion on Pliocene solitary corals of the Western Mediterranean. Acta Palaeontologica Polonica (en prensa).
McIlroy, D. (ed.) 2004. The application of ichnology to palaeoenvironmental and stratigraphic analysis. Geological Society of London, Special Publication, 228: 1-490.
Murad-B. M., M. 1976. Relationship between biofouling and growth of the pearl oyster pinctada fucata (Gould) in Kuwait, Arabian Gulf. Hydrobiologia, 15: 129-138.
Nel, R.; Coetzee, P.S. & Van Niekerk, G. 1996. The evaluation of two treatments to reduce mud worm (Polydora hoplura Claparède) infestations in commercially reared oysters (Crassostrea gigas Thunberg). Aquaculture, 141: 31-39.
Neumann, C. 1966. Observations on coastal erosion in Bermuda and measurements of the boring rate of the sponge Cliona lampa. Limnology and Oceanography, 11: 92-108.
Page, W.D. 1983. Holocene deformation of the Caribbean coast, northwestern Colombia. Part III. Appendix A1-A20. In: H. Duque-Caro, W.D. Page, J. Cuellar (Leaders). General geology and tectonics of Northwestern Coombia) Southeastern Caribbean boreland). 10ª Conferencia Geológica del Caribe. Fiel Trip C. Cartagena.
Pemberton, S.G. (ed.) 1992. Applications of ichnology to petroleum exploration – A core workshop. Society of Economic Paleontologists and Mineralogists, Core Workshop 17: 1-429.
Palmer, T. & Wilson, M.A. 1988. Parasitism of Ordovician bryozoans and the origin of pseudoborings. Palaeontology, 31: 939-949.
Porta, J. de, Julià, R. & Barrera, R. Raised marsh deposits near Catagena de Indias, Colombia: evidence of eustatic and climatic instability during the Late Holocene. Boletín de Geología (en prensa).
Rodrigues, S. 2007. Biotic interactions recorded in shells of Recent Rhynchonelliform brachiopods from San Juan Island, USA. Journal of Shellfish Research, 26: 241-252.
Sato-Osoki, W. 1999. Polydorid species (Polychaeta: Spionidae) in Japan, with descriptions of morphology, ecology and burrow structure. 1. Boring species. Journal of Marine Biology Association United Kingdom, 79: 831-848.
Tapanila, L. 2005. Palaeoecology and diversity of endosymbionts in Palaeozoic marine invertebrates: Trace fossil evidence. Lethaia, 38: 89-99.
Taylor, P.D. 1990. Preservation of soft-bodied and other organisms by bioimmuration- a review. Palaeontology, 33: 1-17.
Taylor, P.D. & Wilson, M.A. 2002. A new terminology for marine organisms inhabiting hard substrates. Palaios, 17: 522-525.
Taylor, P.D. & Wilson, M.A. 2003. Palaeoecology and evolution of marine hard substrate communities. Earth-Science Reviews, 62: 1-103.
Vernette, G. 1989a. Les variations du niveau marin. Exemple de la cote colombienne des Caraïbes a l’Holocene. Institut de Géologie du Bassin d’Aquitaine, 45: 81-95.
Vernette, G. 1989b. Impact du diapirisme argileux sur les recifes de la plate-forme colombienne des Caraibes. Institut de Géologie du Bassin d’Aquitaine, 45: 97-105.
Voigt, E. 1975. Tunnelbaue rezenter und fossiler Phoronidea. Paläontologische Zeitschrift. 49: 135-167.
Wargo, R.N. & Ford, S.E. 1993. The Effect of Shell Infestation by Polydora sp. and Infection by Haplosporidium nelsoni (MSX) on the Tissue Condition of Oysters, Crassostrea virginica. Estuaries, 16: 229-234.
Warme, J.E. 1975. Borings as trace fossils, and the process of marine bioerosion. In: The study of trace fossils, Frew R.W. ed., Springer Verlag, Berlin: 181-227.
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