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R. Bromley (1981)
Conceptos en ichnotaxonomía ilustrados por perforaciones pequeñas y redondas sobre conchas = Concepts in ichnotaxonomy illustrated by small round holes in shells, 16
Blissett (2007)
77Scripta Geologica, 134
R. Bromley, C. Heinberg (2006)
Attachment strategies of organisms on hard substrates: A palaeontological viewPalaeogeography, Palaeoclimatology, Palaeoecology, 232
E. Farinati, C. Zavala (2002)
Trace fossils on shelly substrate. An example from the Miocene of Patagonia, Argentina, 37
H. Lescinsky, E. Edinger, M. Risk (2002)
Mollusc Shell Encrustation and Bioerosion Rates in a Modern Epeiric Sea: Taphonomy Experiments in the Java Sea, Indonesia, 17
R. Bromley (1975)
Comparative analysis of fossil and recent echinoid bioerosionPalaeontology, 18
R.G. Bromley (1984)
The ichnogenus Entobia from the Miocene, Pliocene and Pleistocene of sourthern Italy, 90
S. Pemberton (1978)
Biogenic sedimentary structures
F.G. Aceñolaza, G. Aceñolaza (2000)
Trazas fósiles del Terciario marino de Entre Ríos (Formación Paraná, Mioceno medio). República Argentina, 64
Bromley (1996)
361
D. Blissett, R. Pickerill (2007)
Systematic ichnology of microborings from the Cenozoic White Limestone Group, Jamaica, West IndiesScripta Geologica, 134
E. Alfaro (1988)
Pennatichnus nov. incogen., Pinaceocladichnus nov. icnogen. e Iramenia. Huellas de bioerosión debidas a Bryozoa perforantes (Ctenostomata, Plioceno inferior) en la Cuenca del Bajo Guadalquivir, 3
Dávid (2010)
53ACTA GGM DEBRECINA Geology, Geomorphology, Physical Geography Series. DEBRECEN, 4-5
E. Mayoral (1988)
Microperforaciones (Tallophyta) sobre bivalvia del Plioceno del Bajo Guadalquivir. Importancia paleoecologicaEstudios Geologicos-madrid, 44
R. Bromley, A. D'alessandro (1983)
Bioerosion in the Pleistocene of southern Italy: ichnogenera Caulostrepsis and MaeandropolydoraRivista Italiana Di Paleontologia E Stratigrafia, 89
Francisco Muñoz, Manuel Santos, M. Montero, Antonio Grande, J. Vidal, Luis Puro, M. Pozo, M. Carretero, Edith García (2010)
Evidencias de depredación en ostrácodos holocenos del Parque Nacional de Doñana (SO de España), 42
E. Ruggiero, G. Annunziata (2002)
Bioerosion on a "Terebratula scillae" population from the Lower Pleistocene of Lecce area (Southern Italy), 37
A. Klompmaker, R. Portell, Susan Lad, M. Kowalewski (2015)
The fossil record of drilling predation on barnaclesPalaeogeography, Palaeoclimatology, Palaeoecology, 426
F.G. Aceñolaza, G.F. Aceñolaza (2004)
Trazas fósiles en unidades estratigráficas del Néogeno de Entre Rios, 12
R.G. Bromley (1993)
Predation habits of octopus past and present and a new ichnospecies, Oichnus ovalis, 40
R.G. Bromley (1996)
Trace fossils: Biology, Taphonomy and Applications
E. Farinati, J. Spagnuolo, J. Spagnuolo, S. Aliotta, S. Aliotta (2006)
Bioerosión en micromoluscos holocenos del estuario de Bahía Blanca, ArgentinaAmeghiniana, 43
J. Cárdenas, Sandra Gordillo (2009)
Paleoenvironmental interpretation of late Quaternary molluscan assemblages from southern South América: A taphonomic comparison between the Strait of Magellan and the Beagle Channel.Andean Geology, 36
M. Arregui, M. Aguirre, M. Charó, S. Richiano, E. Farinati, G. Boretto, E. Fucks (2009)
Reunión Anual de comunicaciones de la asociación paleontológica argentina
Sandra Gordillo (1994)
PERFORACIONES EN BIVALVOS SUBFOSILES y ACTUALES DEL CANAL BEAGLE, TIERRA DEL FUEGOAmeghiniana, 31
S. Casadío, Ana Parras, M. Griffin, S. Marenssi (2007)
Borers and encrusters as indicators of the presence of hermit crabs in Antarctic Eocene gastropods shellsAntarctic Science, 19
M. Reolid, Ana Santos, E. Mayoral (2015)
Grazing activity as taphonomic record of necrobiotic interaction: A case study of a sea turtle carapace from the Upper Jurassic of the Prebetic (south Spain)Revista Mexicana De Ciencias Geologicas, 32
Ana Santos, E. Mayoral (2008)
Bioerosion versus colonisation on Bivalvia: A case study from the Upper Miocene of Cacela (southeast Portugal)
Sandra Gordillo, M. Bayer, G. Boretto, M. Charó (2014)
Mollusk shells as bio-geo-archives: Evaluating environmental changes during the QuaternaryMollusk shells as bio-geo-archives
M. Kowalewski (2004)
DRILL HOLES PRODUCED BY THE PREDATORY GASTROPOD NUCELLA LAMELLOSA (MURICIDAE): PALAEOBIOLOGICAL AND ECOLOGICAL IMPLICATIONSJournal of Molluscan Studies, 70
M. Charó, Sandra Gordillo, E. Fucks (2013)
Paleoecological significance of Late Quaternary molluscan faunas of the Bahia San Blas area, ArgentinaQuaternary International, 301
M. Charó, E. Fucks, Sandra Gordillo (2015)
Late Pleistocene–Recent marine malacological assemblages of the Colorado River delta (south of Buenos Aires Province): Paleoecology and paleoclimatologyQuaternary International, 377
Aceñolaza (2004)
1Temas de la Biodiversidad del Literal Fluvial argentino. Miscelánea, 12
Bromley (1981)
55Acta Geológica Hispánica, 16
P. Taylor, Mark Wilson, R. Bromley (1999)
a new ichnogenus for etchings made by cheilostome bryozoans into calcareous substratesPalaeontology, 42
R.G. Bromley (1994)
The Paleobiology of Trace Fossil, Chichester
Sandra Gordillo, F. Archuby (2012)
Predation by Drilling Gastropods and Asteroids Upon Mussels in Rocky Shallow Shores of Southernmost South America: Paleontological Implications, 57
N. Lorenzo, M. Verde (2004)
ESTRUCTURAS DE BIOEROSIÓN EN MOLUSCOS MARINOS DE LA FORMACIÓN VILLA SORIANO (PLEISTOCENO TARDÍO-HOLOCENO) DE URUGUAYRevista Brasileira De Paleontologia, 7
Aceñolaza (2000)
196Boletín de la Academia Nacional de Ciencias, 64
E. Alfaro (1987)
Acción bioerosiva de mollusca (Gastropoda, Bivalvia) en el Plioceno inferior de la Cuenca del Bajo Guadalquivir, 2
A. Rojas, M. Verde, D. Urteaga, F. Scarabino, S. Martínez (2014)
THE FIRST PREDATORY DRILLHOLE ON A FOSSIL CHITON PLATE: AN OCCASIONAL PREY ITEM OR AN ERRONEOUS ATTACK?, 29
S. Kelly, R. Bromley (1984)
Ichnological nomenclature of clavate boringsPalaeontology, 27
R.G. Bromley, B. Richter (1999)
Direkte skanning: Ny teknik til illustrering af geologisk materiale, 4
Sandra Gordillo (2013)
Muricid boreholes in Pleistocene acorn barnacles from the Beagle Channel: trophic interactions during the Last Interglacial in southern South AmericaAlcheringa: An Australasian Journal of Palaeontology, 37
C. Neumann, M. Wisshak, M. Aberhan, Peter Girod, T. Rösner, R. Bromley (2014)
Centrichnus eccentricus Revisited: A New View on Anomiid Bivalve Bioerosion, 60
Melisa Charó (2014)
Caracterización paleoambiental y paleodiversidad malacológica en los depósitos marinos cuaternarios del norte patagónico [sur de Buenos Aires y norte de Río Negro]
E. Ruggiero, P. Raia (2010)
Bioerosion structures and their distribution on shells of the Lower Pleistocene terebratulid brachiopod Gryphus minorPalaeogeography, Palaeoclimatology, Palaeoecology, 293
P. Taylor, Mark Wilson (2003)
Palaeoecology and evolution of marine hard substrate communitiesEarth-Science Reviews, 62
Árpád Dávid (2010)
Macrobioerosion on Early‐Miocene (Karpatian) Pebbles; Dédestapolcsány, Hungary, 4–5
Bromley (1994)
134
Bromley (1999)
1Geologisk Tidsskrift, 4
Bromley (1984)
227Rivista di Italiana di Paleontologia e Stratigrafia, 90
Bromley (1983)
283Rivista Italiana di Paleontologia e Stratigrafia, 89
Arregui (2009)
15
Ana Santos, E. Mayoral, C. Silva, M. Cachão, J. Kullberg (2010)
Trypanites ichnofacies: Palaeoenvironmental and tectonic implications. A case study from the Miocene disconformity at Foz da Fonte (Lower Tagus Basin, Portugal)Palaeogeography, Palaeoclimatology, Palaeoecology, 292
Bromley (1975)
725Palaeontology, 18
J. Gibert, R. Domènech, J. Martinell (2004)
An ethological framework for animal bioerosion trace fossils upon mineral substrates with proposal of a new class, fixichniaLethaia, 37
R. Lopes (2011)
Ichnology of fossil oysters (Bivalvia, Ostreidae) from the southern Brazilian coastGaea - Journal of Geoscience, 7
Bromley (1993)
167Bull. Geol. Soc. Denmark, 40
Melisa Charó, Enrique Fucks, Sandra Gordillo (2013)
Moluscos marinos bentónicos del Cuaternario de Bahía Anegada (sur de Buenos Aires, Argentina): variaciones faunísticas en el Pleistoceno tardío y HolocenoRevista Mexicana De Ciencias Geologicas, 30
R.G. Bromley (1981)
Concepts in ichnotaxonomy illustrated by small round holes in shells, 16
P. Taylor, Mark Wilson, R. Bromley (2013)
Finichnus, a new name for the ichnogenus Leptichnus Taylor, Wilson and Bromley, 1999, preoccupied by Leptichnus Simroth, 1896 (Mollusca, Gastropoda)Palaeontology, 56
J. Martinell, R. Domènech, J. Aymar, M. Kowalewski (2010)
CONFAMILIAL PREDATION IN PLIOCENE NATICID GASTROPODS FROM SOUTHERN FRANCE: UTILITY OF PREEXISTING COLLECTIONS IN QUANTITATIVE PALEOECOLOGY, 25
The marine sediments of the area of Verde Peninsula – Jabali Island (39°28′S/62°19′W–40°28′S/62°11′W) Holocene in age (3–2 ky), and modern beaches contain a significant amount of bioeroded mollusc shells. Fifteen sites were analyzed, in which 20.11% of the mollusc shells (2168 valves) presented bioerosion traces, in 54 species (30 bivalves and 24 gastropods). Fourteen ichnogenera were reported: Entobia, Maeandropolydora, Iramena, Caulostrepsis, Pennatichnus, Pinaceocladichnus, Trypanites, and Gastrochaenolites (Domichnia), Gnathichnus and Radulichnus (Pascichnia), Finichnus and Centrichnus (Fixichnia), Oichnus (Praedicnia) (macrobioerosion), y Semidendrina (microbioerosion), the latter is first reported in mollusc shells in Argentina. Eleven ichnospecies were identified Finichnus peristroma, Maeandropolydora sulcans, Gnathichnus pentax, Pinaceocladichnus onubensis, Caulostrepsis taeniola, Centrichnus eccentricus, Radulichnus inopinatus, Oichnus simplex, Oichnus paraboloides, Oichnus gradatus, and Gastrochaenolites torpedo (lithic remains). The dominant ichnogenera in the Holocene deposits are Iramena, Entobia and Oichnus. The same ichnogenera are constant with different abundance in the modern beaches, and increasing representation of Pinaceocladichnus and Pennatichnus. The dominant ichnofacies in the Holocene deposits is Trypanites, revealing a benthonic marine community composed of cheilostome bryzoans, clionaid sponges, predator gastropods, regular echinoids, polychaete annelids, bivalves, thallophytas and fungi. Generally, the area was described as a sublittoral, low‐energy, stable environment with high rate of oxygenation, and sandy bottoms, with rocky bottoms at Villalonga locality.
Acta Geologica Sinica (English Edition) – Wiley
Published: Aug 1, 2017
Keywords: ; ; ;
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