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Abstract:

We describe osteichthyan remains from the Upper Jurassic of the Ameghino (= Nordenskjöld) Formation of the Antarctic Peninsula. The fossils are referred to a suspension-feeding pachycormid based on the shape, morphology, and presence of acus fanunculi (needle teeth) on their gill rakers. Due to the fragmentary condition of the Antarctic material, we refer it to aff. Asthenocormus. The remains described here represent the first record of a suspension-feeding pachycormid from the Upper Jurassic of the Antarctic Peninsula and the oldest pachycormid yet recovered from Antarctica. The new fossil fish supports a possible early dispersal route through the Mozambique Corridor (= Trans-Gondwana or South African Seaway). We also describe the weathering produced by modern lichens, which might be misinterpreted as original bone structure. SUPPLEMENTAL DATA—Supplemental materials are available for this article for free at www.tandfonline.com/UJVP Citation for this article: Gouiric-Cavalli, S., L. L. Rasia, G. J. Márquez, V. Rosato, R. A. Scasso, and M. Reguero. 2019. First pachycormiform (Actinopterygii, Pachycormiformes) remains from the Late Jurassic of the Antarctic Peninsula and remarks on bone alteration by recent bioeroders. Journal of Vertebrate Paleontology. DOI:10.1080/02724634.2018.1524384. ©, © by the Society of Vertebrate Paleontology.

Registro:

Documento: Artículo
Título:First pachycormiform (Actinopterygii, Pachycormiformes) remains from the Late Jurassic of the Antarctic Peninsula and remarks on bone alteration by recent bioeroders
Autor:Gouiric-Cavalli, S.; Rasia, L.L.; Márquez, G.J.; Rosato, V.; Scasso, R.A.; Reguero, M.
Filiación:División Paleontología Vertebrados, Museo de La Plata, Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, CONICET, Paseo del Bosque s/n, La Plata, Buenos Aires B1900FWA, Argentina
Cátedra de Palinología, Facultad de Ciencias Naturales y Museo, La Plata, CONICET, Paseo del Bosque s/n, La Plata, Buenos Aires B1900FWA, Argentina
Laboratorio de Entrenamiento Multidisciplinario para la Investigación Tecnológica, Comisión de Investigaciones Científicas de la Provincia de Buenos Aires, CONICET, 52 e/121 y 122, La Plata, B1900AYB, Argentina
Instituto de Geociencias Básicas, Aplicadas y Ambientales de Buenos Aires, Departamento de Ciencias Geológicas, Universidad de Buenos Aires, Pabellón II Ciudad Universitaria, FCEN, CONICETBuenos Aires C1428EGA, Argentina
Instituto Antártico Argentino, Campus Miguelete, 25 de Mayo 1151, 3° piso, San Martín, Buenos Aires, B1650HMK, Argentina
Año:2019
DOI: http://dx.doi.org/10.1080/02724634.2018.1524384
Título revista:Journal of Vertebrate Paleontology
Título revista abreviado:J. Vertebr. Paleontol.
ISSN:02724634
Registro:http://digital.bl.fcen.uba.ar/collection/paper/document/paper_02724634_v_n_p_GouiricCavalli

Referencias:

  • Acosta Hospitaleche, C., Márquez, G., Pérez, L.M., Rosato, V., Cione, A.L., Lichen bioerosion on fossil verterbates from the Cenozoic of Patagonia and Antactia (2011) Ichnos, 18, pp. 1-8
  • Arratia, G., Schultze, H.-P., (2013) Outstanding features of a new Late Jurassic pachycormiform fish from the Kimmeridgian of Brunn, Germany and comments on current understanding of pachycormiforms, pp. 87-120. , Arratia G., Schultze H.-P., Wilson M.V.H., (eds), Munich, Germany:, and,; (eds.), Mesozoic Fishes 5—Global Diversity and Evolution. Verlag Dr. Friedrich Pfeil
  • Arratia, G., Scasso, R.A., Kiessling, W., Late Jurassic fishes from Longing Gap, Antarctic Peninsula (2004) Journal of Vertebrate Paleontology, 24, pp. 41-55
  • Bambach, R.K., Bush, A.M., Erwin, D.H., Autecology and the filling of ecospace: key metazoan radiations (2007) Palaeontology, 50, pp. 1-22
  • Bengtson, P., Open nomenclature (1988) Palaeontology, 31, pp. 223-227
  • Berg, L.S., A classification of fish-like vertebrates (1937) Bulletin de l’Académie des Sciences de l’URSS, 4, pp. 1277-1280
  • Boyle, J., Ryan, M.J., New information on Titanichthys (Placodermi, Arthrodira) from the Cleveland Shale (Upper Devonian) of Ohio, USA (2017) Journal of Paleontology, 91, pp. 318-336
  • Cavin, L., On giant filter feeders (2010) Science, 327, pp. 968-969
  • Chown, S.L., Clarke, A., Fraser, C.I., Cary, S.C., Moon, K.L., McGeoch, M., The changing form of Antarctic biodiversity (2015) Nature, 522, pp. 431-438
  • Cione, A.L., Reguero, M., A middle Eocene basking shark (Lamniformes, Cetorhinidae) from Antarctica (1998) Antarctic Science, 10, pp. 83-88
  • Cione, A.L., Santillana, S., Gouiric-Cavalli, S., Acosta Hospitaleche, C., Gelfo, J.N., López, G.M., Reguero, M., Before and after the K/Pg extinction in West Antarctica: new marine fish records from Marambio (Seymour) Island (2018) Cretaceous Research, 85, pp. 250-265
  • Cope, E.D., Zittel’s Manual of Paleontology (1887) American Naturalist, 17, pp. 1014-1019
  • Crame, J.A., Late Mesozoic bipolar bivalve faunas (1986) Geological Magazine, 123, pp. 611-618
  • Crame, J.A., Bipolar molluscs and their evolutionary implications (1993) Journal of Biogeography, 20, pp. 145-161
  • Croll, D.A., Tershy, B.R., Newton, K.M., de Vos, A., Hazen, E., Goldbogen, J.A., Encyclopedia of Marine Mammals (2018) Filter feeding, pp. 363-368. , Würsig B., Thewissen J.G.M., Kovacs K.M., (eds), Academic Press, New York:, and,; (eds
  • Damborenea, S.E., (2000) Hispanic Corridor: its evolution and the biogeography of bivalve molluscs, pp. 369-380. , Advances Jurassic Research 2000, GeoResearch Forum
  • Damborenea, S.E., Revisión de los biocoremas marinos globales del jurásico según la distribución de los moluscos bivalvos (2017) Publicación Electrónica de La Asociación Paleontológica Argentina, 17, pp. 31-49
  • Damborenea, S.E., Echevarria, J., Ros-Franch, S., (2013) Southern Hemisphere Paleobiogeography of Triassic–Jurassic Marine Bivalves, p. 145. , Springer Brief Earth Sciences, Dordrecht, The Netherlands
  • Davies, J.L., The antitropical factor in cetacean speciation (1963) Evolution, 17, pp. 107-116
  • De los Ríos, A., Wierzchos, J., Sancho, L.G., Green, T.G.A., Ascaso, C., Ecology of endolithic lichens colonizing granite in continental Antarctica (2005) The Lichenologist, 37, pp. 383-395
  • Doyle, P., Whitham, A.G., Modern and Ancient Continental Shelf Anoxia (1991) Palaeoenvironments of the Nordenskjöld Formation: an Antarctic Late Jurassic-Early Cretaceous black shale-tuff sequence, pp. 397-414. , Tyson R.V., Pearson T.H., (eds), Geological Society Special Publication 58. Geological Society, London:, and,; (eds
  • Farquharson, G.W., Late Mesozoic sedimentation in the northern Antarctic Peninsula and its relationship to the southern Andes (1982) Journal of the Geological Society of London, 139, pp. 721-727
  • Fernández, M.S., On the paleogeographical distribution of the Callovian and Late Jurassic ichthyosaurs (1997) Journal of Vertebrate Paleontology, 17, pp. 752-754
  • Friedman, M., Parallel evolutionary trajectories underlie the origin of giant suspension-feeding whales and bony fishes (2012) Proceedings of the Royal Society B: Biological Sciences, 279, pp. 944-951
  • Friedman, M., Shimada, K., Everhart, M.J., Irwin, K.J., Grandstaff, B.S., Stewart, J.D., Geographic and stratigraphic distribution of the Late Cretaceous suspension-feeding bony fish Bonnerichthys gladius (Teleostei, Pachycormiformes) (2013) Journal of Vertebrate Paleontology, 33, pp. 35-47
  • Friedman, M., Shimada, K., Martin, L.D., Everhart, M.J., Liston, J., Maltese, A., Triebold, M., 100-million-year dynasty of giant planktivorous bony fishes in the Mesozoic seas (2010) Science, 327, pp. 990-993
  • Gasparini, Z., A new Oxfordian pliosaurid (Plesiosauria, Pliosauridae) in the Caribbean Seaway (2009) Palaeontology, 52, pp. 661-669
  • Gasparini, Z., Fernández, M., de la Fuente, M., Salgado, L., Reptiles marinos Jurásicos y Cretácicos de la Patagonia Argentina: su aporte al conocimiento de la herpetofauna mesozoica (2007) Asociación Paleontológica Argentina, 11, pp. 125-136. , Publicación Especial
  • Glynn, P.W., Manzello, D.P., (2015) Bioerosion and coral reef growth: a dynamic balance, pp. 67-97. , Springer, Dordrecht, The Netherlands:, and,; Coral Reefs the Anthropocene, Birkeland
  • Gouiric-Cavalli, S., (2013), Sistemática y relaciones biogeográficas de los peces del Titoniano (Jurásico tardío) de la Cuenca Neuquina de Argentina. Ph.D. dissertation, Facultad de Ciencias Naturales y Museo, Bue Aires, Argentina, 583; Gouiric-Cavalli, S., Large and mainly unnoticed: the first Lower Tithonian record of a suspension-feeding pachycormid from Southern Gondwana (2017) Ameghiniana, 54, pp. 283-289
  • Gouiric-Cavalli, S., Cione, A.L., is the first endemic pachycormiform genus (Osteichthyes, Actinopterygii, Pachycormiformes) in the Southern Hemisphere (2015) Journal of Vertebrate Paleontology, , Notodectes
  • Gouiric-Cavalli, S., Cione, A.L., Fish faunas from the Late Jurassic (Tithonian) Vaca Muerta Formation of Argentina: one of the most important Jurassic marine ichthyofaunas of Gondwana (2015) Journal of South American Earth Sciences, 63, pp. 114-124
  • Gouiric-Cavalli, S., Rasia, L.L., (2016) First record of Pachycormiformes (Osteicththyes, Actinopterygii) from the Mesozoic of Antarctica and the past distribution of the suspension-feeding clade, , XI Congreso de la Asociación Paleontológica Argentina, and,; p. 15R General Roca, Río Negro, Libro de Resúmenes
  • Gouiric-Cavalli, S., O’Gorman, J.P., Moly, J.J., Acosta Burllaile, L., Reguero, M., (2016) Marine Late Jurassic Antartic summer fieldtrip at Longing Gap (Ameghino Formation): preliminary report of the findings, , in XXX Jornadas Argentinas de Paleontología de Vertebrados, Bue Aires. Abstracts. Ameghiniana Supplement 56 (3): 21
  • Gouiric-Cavalli, S.M., Reguero, J.P., O’Gorman, L., Acosta Burllaile, J.J., Moly, Y., Herrerasantillana, S., (2018) La actividgqad científica Argentina en Antártida: Los peces y otros verterbados del Jurásico-Cretácico marino de la Península Antártica, , VI Congreso Latinoamericano de Paleontología de Vertebrados, Villa de Leyva, Boyacá, Colombia 20-25 August, 14–15, 2619–2616. Centro de Investigaciones Paleongqtológicas de Villa de Leyva - CIP, (Ed.), A. Ramos Franco
  • Hubbs, C.L., Antitropical distribution of fishes and other organisms. Symposium on problems of bipolarity and of pantemperate faunas (1952) Proceedings of the Seventh Pacific Science Congress (Pacific Science Association, 3, pp. 324-329
  • Hueck, H.J., The biodeterioration of materials as part of hylobiology (1965) Material and Organisms, 1, pp. 5-34
  • Kiessling, W., Scasso, R.A., Ecological perspectives of Late Jurassic radiolarian faunas from the Antarctic Peninsula (1996) GeoReseach Forum, 1-2, pp. 317-326
  • Kiessling, W., Scasso, R., Zeiss, A., Riccardi, A., Medina, F., Facies and depositional processes in an Upper Jurassic to Lower Cretaceous pelagic sedimentary sequence (1999) Geodiversitas, 21, pp. 687-713
  • Kietzmann, D.A., Cuitiño, J.L., Medina, F.A., Scasso, R.A., Análisis de Cadenas de Markov y Series de Fourier en una secuencia hemipelágica del Jurásico Superior de la Península Antártica (2009) Latin American Journal of Sedimentology and Basin Analysis, 16, pp. 45-56
  • Lambers, P., (1992) On the ichthyofauna of the Solnhofen Lithographic Lime- stone (Upper Jurassic, Germany), p. 336. , Ph.D. dissertation, (Proefschrift) Rijksuniversiteit Groningen, Groningen, The Netherlands
  • Leanza, H., The Tithonian ammonite genus Chigaroceras Howarth (1922) as a bioevent marker between Iraq and Argentina (1995) GeoResearch Forum, 1, pp. 451-458
  • Liston, J.J., (2006), A fish fit for Ozymandias?: the ecology, growth and osteology of, Leedsichthys, (Pachycormidae, Actinopterygii). Ph.D. dissertation, University of Glasgow, Glasgow, U.K., 464; Liston, J.J., (2008) A review of the characters of the edentulous pachycormiforms Leedsichthys, Asthenocormus, and Martillichthys nov. gen, pp. 181-198. , Arratia G., Schultze H.-P., Wilson M.V.H., (eds), Munich: Germany,.; (eds.), Mesozoic Fishes 4—Homology and Phylogeny. Verlag Dr. Friedrich Pfeil
  • Liston, J.J., The occurrence of the Middle Jurassic pachycormid fish Leedsichthys (2010) Oryctos, 9, pp. 1-36
  • Liston, J.J., (2013) The plasticity of gill raker characteristics in suspension feeders: implications for Pachycormiformes, pp. 121-143. , Arratia G., Schultze H.-P., Wilson M.V.H., (eds), Munich: Germany,; (eds.), Mesozoic Fishes 5—Global Diversity and Evolution. Verlag Dr. Friedrich Pfeil
  • Liston, J.J., Newbrey, M.G., Challands, T.J., Adams, C.E., (2013) Growth, age and size of the Jurassic pachycormid Leedsichthys problematicus (Osteichthyes: Actinopterygii), pp. 145-175. , Munich: Germany, and,; Mesozoic Fishes 5—Global Diversity and Evolution. Verlag Dr. Friedrich Pfeil
  • Macdonald, D.I.M., Barker, P.F., Garretr, S.W., Ineson, J.R., Pirrie, D., Storey, B.C., Whitham, A.G., Marshall, J.E.A., A preliminary assessment of the hydrocarbon potential of the Larsen Basin, Antarctica (1988) Marine and Petroleum Geology, 5, pp. 34-53
  • Mainwaring, A.J., (1978), Anatomical and systematic review of the Pachycormidae, a family of Mesozoic fossil fishes. Ph.D. dissertation, Queen Mary University of London, London, U.K., 162; Medina, F.A., Ramos, A.M., Geología de las inmediaciones del Refugio Ameghino (64″26/58°59°) Tierra de San Martín, Península Antártica (1981) Actas VIII Congreso Geológico Argentino, San Luis, 2, pp. 871-882
  • Medina, F.A., Ramos, A.M., Geología de las inmedicaciones del Refugio Ameghino (64° 26′S; 58° 59′W Tierra de San Martin, Península Antártica). Dirección Nacional Del Antártico (1983) Instituto Antártico Argentino, 229, pp. 1-14
  • Mikuláš, R., Modern and fossil traces in terrestrial lithic substrates (2001) Ichnos, 8, pp. 177-184
  • Neumann, A., Observations on coastal erosion in Bermuda and measurements of the boring rate of the sponge, Cliona lampa (1966) Limnology and Oceanography, 11, pp. 92-108
  • O’Gorman, J.P., Gouiric-Cavalli, S., Scasso, R.A., Reguero, M., Moly, J.J., Acosta-Burlaille, L., A Late Jurassic plesiosaur in Antarctica: evidence of the dispersion of marine fauna through the Trans-Erythraean Seaway? (2018) Comptes Rendus Palevol, 17, pp. 158-165
  • O’Keefe, F.R., Otero, R.A., Soto-Acuña, S., O’Gorman, J.P., Godfrey, S.J., Chatterjee, S., Cranial anatomy of Morturneria seymourensis from Antarctica, and the evolution of filter feeding in plesiosaurs of the Austral Late Cretaceous (2017) Journal of Vertebrate Paleontology
  • Ørvig, T., Histologic studies of placoderms and fossil elasmobranchs. I. The endoskeleton, with remarks on the hard tissues of lower vertebrates in general (1951) Arkiv för Zoologi series, 2 (2), pp. 321-454
  • Øvstedal, D.O., Lewis Smith, R.I., (2001) Lichens of Antarctica and South Georgia: A Guide to Their Identification and Ecology, p. 411. , Cambridge University Press, Cambridge, U.K
  • Prasad, G.V.R., Pandey, D.K., Alberti, M., Fürsich, F.T., Thakkar, M.G., Chauhan, G.D., Discovery of the first ichthyosaur from the Jurassic of India: implications for Gondwanan palaeobiogeography (2017) PLoS ONE, 12
  • Regan, C.T., The skeleton of Lepidosteus, with remarks on the origin and evolution of the lower neopterygian fishes (1923) Proceedings of the Zoological Society of London, 1923, pp. 445-461
  • Rice, D.W., Cetaceans (1967) Recent Mammals of the World, pp. 447-490. , Anderson S., Jones J.K., (eds), Ronald Press Company, New York:; (eds
  • Richter, M., Thomson, M.R.A., First Aspidorhynchidae (Pisces: Teleostei) from Antarctica (1989) Antarctic Science, 1, pp. 57-64
  • Sanderson, S.L., Wassersug, R., (1993) Convergent and alternative designs for vertebrate suspension feeding, pp. 37-112. , Hanken J., Hall B.K., (eds), University of Chicago Press, Chicago, Illinois:, and,; (eds.), The Skull, Volume 3, Functional and Evolutionary Mechanisms
  • Scasso, R.A., High frequency of explosive volcanic eruptions in a Late Jurassic volcanic arc: the Ameghino Formation on the Antarctic Peninsula (2001) Journal of Sedimentary Research, 71, pp. 101-106
  • Schumacher, B.A., Shimada, K., Liston, J., Maltese, A., Highly specialized suspension-feeding bony fish Rhinconichthys (Actinopterygii: Pachycormiformes) from the mid-Cretaceous of the United States, England, and Japan (2016) Cretaceous Research, 61, pp. 71-85
  • Shimada, K., Popov, E.V., Siversson, M., Welton, B.J., Long, D.J., A new clade of putative plankton-feeding sharks from the Upper Cretaceous of Russia and the United States (2015) Journal of Vertebrate Paleontology
  • Shultz, M.R., Fildani, A., Suarez, M., Occurrence of the southernmost South American ichthyosaur (Middle Jurassic–Lower Cretaceous), Parque Nacional Torres del Paine, Patagonia, Southernmost Chile (2003) Palaios, 18, pp. 69-73
  • Tajika, A., Nützel, A., Klug, C., The old and the new plankton: ecological replacement of associations of mollusc plankton and giant filter feeders after the Cretaceous? (2018) PeerJ, 6, p. e4219
  • del Valle, R.A., Núñez, J.H., Estratigrafía de la región comprendida entre el Cerro Torre y el Cabo Longing, en el borde NE de la Península Antártica (1988) Contribución Científica Del Instituto Antártico Argentino, 332, pp. 1-83
  • del Valle, R.A., Elliot, D.H., Macdonald, D.I.M., Sedimentary basins on the east flank of the Antarctic Peninsula: proposed nomenclature (1992) Antarctic Science, 4, pp. 477-478
  • Wagner, A., (1863) Monographie der fossilen Fische aus den lithographischen Schiefern Bayerns. Abhandlungen der mathematisch—physikalischen Classe der königlich bayerischen Akademie der Wissenschaften, 9, pp. 611-748
  • Whitham, A.G., Facies and depositional processes in an Upper Jurassic to Lower Cretaceous pelagic sedimentary sequence. Antarctica (1993) Sedimentology, 40, pp. 331-349
  • Whitham, A.G., Doyle, P., Stratigraphy of the Upper Jurassic-Lower Cretaceous Nordenskjöld Formation of eastern Graham Land, Antarctica (1989) Journal of South American Earth Sciences, 2, pp. 371-384
  • Woodward, A.S., (1895) Catalogue of the Fossil Fishes in the British Museum of Natural History. British Museum of Natural History, p. 544. , London

Citas:

---------- APA ----------
Gouiric-Cavalli, S., Rasia, L.L., Márquez, G.J., Rosato, V., Scasso, R.A. & Reguero, M. (2019) . First pachycormiform (Actinopterygii, Pachycormiformes) remains from the Late Jurassic of the Antarctic Peninsula and remarks on bone alteration by recent bioeroders. Journal of Vertebrate Paleontology.
http://dx.doi.org/10.1080/02724634.2018.1524384
---------- CHICAGO ----------
Gouiric-Cavalli, S., Rasia, L.L., Márquez, G.J., Rosato, V., Scasso, R.A., Reguero, M. "First pachycormiform (Actinopterygii, Pachycormiformes) remains from the Late Jurassic of the Antarctic Peninsula and remarks on bone alteration by recent bioeroders" . Journal of Vertebrate Paleontology (2019).
http://dx.doi.org/10.1080/02724634.2018.1524384
---------- MLA ----------
Gouiric-Cavalli, S., Rasia, L.L., Márquez, G.J., Rosato, V., Scasso, R.A., Reguero, M. "First pachycormiform (Actinopterygii, Pachycormiformes) remains from the Late Jurassic of the Antarctic Peninsula and remarks on bone alteration by recent bioeroders" . Journal of Vertebrate Paleontology, 2019.
http://dx.doi.org/10.1080/02724634.2018.1524384
---------- VANCOUVER ----------
Gouiric-Cavalli, S., Rasia, L.L., Márquez, G.J., Rosato, V., Scasso, R.A., Reguero, M. First pachycormiform (Actinopterygii, Pachycormiformes) remains from the Late Jurassic of the Antarctic Peninsula and remarks on bone alteration by recent bioeroders. J. Vertebr. Paleontol. 2019.
http://dx.doi.org/10.1080/02724634.2018.1524384