Identyfikatory
DOI
Warianty tytułu
Języki publikacji
Abstrakty
The first tetrapodomorph specimen from the Palaeozoic sequences of the Moravian Karst (Moravo-Silesian Basin, Bohemian Massif, Czech Republic) is described. The well preserved, cosmine-covered lateral extrascapular bone comes from the Upper Devonian (Famennian) hemipelagic Křtiny Limestone of the Líšeň Formation. The affinity to the “osteolepiforms” is inferred from the cosmine histology and morphological features of the bone. Assignment to the Megalichthyiformes seems most probable. The associated fauna, e.g., clymenids, orthocone nautiloids, thin shelled bivalves, trilobites and crinoids, clearly demonstrate a marine environment.
Czasopismo
Rocznik
Tom
Strony
737--745
Opis fizyczny
Bibliogr. 73 poz., rys.
Twórcy
autor
- Masaryk University, Department of Geological Sciences, Faculty of Science, Kotlářská 2, 611 37 Brno, Czech Republic
- Institute of Geology of the Czech Academy of Sciences, v.v.i., Rozvojová 269, 165 00 Prague 6, Czech Republic
autor
- Masaryk University, Department of Geological Sciences, Faculty of Science, Kotlářská 2, 611 37 Brno, Czech Republic
- Institute of Geology of the Czech Academy of Sciences, v.v.i., Rozvojová 269, 165 00 Prague 6, Czech Republic
Bibliografia
- 1. Ahlberg, P.E., 1991. A re-examination of sarcopterygian interrelationships, with special reference to the Porolepiformes. Zoological Journal of the Linnean Society, 103: 241-287.
- 2. Ahlberg, P.E., Johanson, Z., 1998. Osteolepiforms and the ancestry of tetrapods. Nature, 395: 792-794.
- 3. Bábek, O., Přikryl, T., Hladil, J., 2007. Progressive drowning of carbonate platform in the Moravo-Silesian Basin (Czech Republic) before the Frasnian/Famennian event: facies, compositional variations and gamma-ray spectrometry. Facies, 53: 293-316.
- 4. Bemis, W.E., Northcutt, R.G., 1992. Skin and blood vessels of the snout of the Australian lungfish, Neoceratodus forsteri, and their significance for interpreting of cosmine of devonian lungfishes. Acta Zoologica, 73: 115-139.
- 5. Borgen, U.J., 1989. Cosmine resorption structures on three osteolepid jaws and their biological significance. Lethaia, 22: 413-424.
- 6. Borgen, U.J., 1992. The function of the cosmine pore canal system. In: Fossil fishes as living animals (ed. E. Mark-Kurik): 141-150. Academy of Sciences of Estonia, Tallinn.
- 7. Chang, M-M., Smith, M.M., 1992. Is Youngolepis a Porolepiform? Journal of Vertebrate Paleontology, 12: 294-312.
- 8. Clack, J.A., 2006. The emergence of early tetrapods. Palaeogeography, Palaeoclimatology, Palaeoecology, 232: 167-189.
- 9. Cloutier, R., Ahlberg, P.E., 1996. Morphology, characters, and the in terrelationships of basal Sarcopterygians. In: Interrelationships of Fishes (eds. M.L.J. Stiassny, L.R. Parenti and G.D. Johnson): 445-479. Academic Press, San Diego.
- 10. Coates, M.I., Friedman, M., 2010. Litoptychus bryanti and characteristics of stemtetrapod neurocrania. In: Morphology, Phylogeny and Paleobiogeography of Fossil Fishes (eds. D.K. Elliott, J.G. Maisey, X. Yu and D. Miao): 389-416. Verlag Dr. F. Pfeil, München.
- 11. Finger, F., Hanžl, P., Pin, C., Quadt, A., Steyrer, H.P., 2000. The Brunovistulicum: Avalonian Precambrian at the eastern end of the Variscides. Geological Society Special Publications, 179: 103-112.
- 12. Fox, R.C., Campbell, K.S.W., Barwick, R.E., Long, J.A., 1995. A new osteolepiform fish from the Lower Carboniferous Raymond Formation, Drummond Basin, Queensland. Memoirs of the Queensland Museum, 38: 97-221.
- 13. Fritsch, A., 1889. Fauna der Gaskohle und der Kalksteine der Permformation Böhmes. II/4. F. Řivnáě: 93-114. Prag.
- 14. Fritsch, A., 1893. Fauna der Gaskohle und der Kalksteine der Permformation Böhmes. III/2. F. Řivnáě: 49-80. Prag.
- 15. Gross, W., 1956. Über Crossopterygier und Dipnoer aus dem baltischen Oberdevon im Zusammenhang einer vergleichenden Untersuchung des Porenkanalsystems paläozoischer Agnathen und Fische. Kungliga Svenska Vetenskapsa- kademiens Handlingar, Fjärde Serien, 5: 1-140.
- 16. Ginter, M., 1991. Ichthyoliths and fish fauna. Bulletin de la Société Belge de Géologie, 100: 74-76.
- 17. Hartenfels, S., 2011. Die globalen Annulata-Events und die Dasberg-Krise (Famennium, Oberdevon) in Europa und Nord-Afrika - hochauflösende Conodonten-Stratigraphie, Karbonat-Mikrofazies, Paläoökologie und Paläodiversität. Münstersche Forschungen zur Geologie und Paläontologie, 105: 17-527.
- 18. Hladil, J., 1992. Zonality of the Devonian sediments in Moravia (ČSFR). In: Proceedings of the 1st International Conference on the Bohemian Massif in 1988 (ed. Z. Kukal): 121-126. Czech Geological Survey, Prague.
- 19. Hladil, J., Melichar, R., Otava, J., Galle, A., Krs, M., Man, O., Pruner, P., Cejchan, P., Orel, P., 1999. The Devonian in the easternmost Variscides, Moravia: a holistic analysis directed towards comprehension of the original context. Abhandlungen der Geologischen Bundesanstalt, 54: 27-47.
- 20. Holland, T., 2013. Pectoral girdle and fin anatomy of Gogonasus andrewsae Long, 1985: Implications for tetrapodomorph limb evolution. Journal of Morphology, 274: 147-164.
- 21. Janvier, P., Clement, G., Cloutier, R., 2007. A primitive megalichthyid fish (Sarcopterygii, Tetrapodomorpha) from the Upper Devonian of Turkey and its biogeographical implications. Geodiversitas, 29: 249-268.
- 22. Jarvik, E., 1948. On the morphology and taxonomy of the Middle Devonian osteolepid fishes of Scotland. Kungliga Svenska Vetenskapsakademiens Handlingar, Tredje Serien, 25: 1-301.
- 23. Jarvik, E., 1980. Basic Structure and Evolution of Vertebrates. Academic Press, London.
- 24. Johanson, Z., Ahlberg, P.E., 1997. A new tristichopterid (Osteolepiformes: Sarcopterygii) from the Mandagery Sand - stone (Late Devonian, Famennian) near Canowindra, NSW, Australia. Transactions of the Royal Society of Edinburgh: Earth Sci ences, 88: 39-68.
- 25. Kalvoda, J., Bábek, O., 2010. The Margins of Laurussia in Central and Southeast Eu-ope and Southwest Asia. Gondwana Research, 17: 526-545.
- 26. Kalvoda, J., Melichar, R., 1999. Paleozoic sediments of the Drahany Upland. Geolines, 8: 88-90.
- 27. Kalvoda, J., Bábek, O., Nehyba, S., Špaček, P., 1996. Upper Devonian and Lower Carboniferous calciturbidites from the Lesní lom quarry in Brno-Líšeň (southern part of the Moravian Karst) (in Czech with English abstract). Gelogické výzkumy na Moravě a ve Slezsku v roce 1995, 3: 98-100.
- 28. Kalvoda, J., Bábek, O., Malovaná, A., 1999. Sedimentary and biofacies record in calciturbidites at the Devonian-Carboniferous boundary in Moravia (Moravian-Silesian Zone, Middle Europe). Facies, 41: 141-158.
- 29. Kalvoda, J., Melichar, R., Bábek, O., Leichmann, J., 2002. Late Proterozoic-Paleozoic tectonostratigraphic development and paleogeography of Brunovistulian terrane and comparison with other terranes at the SE margin of Baltica-Laurussia. Journal of the Czech Geological Society, 47: 81-102.
- 30. Kalvoda, J., Babek, O., Fatka, O., Leichmann, J., Melichar, R., Nehyba, S., Spacek, P., 2008. Brunovistulian terrane (Bohemian Massif, Central Eurpe) from Proerozoic to late Paleozoic: A review. International Journal of Earth Sciences (Geologische Rudschau), 97: 497-518.
- 31. Kumpan, T., 2013. Preliminary report on the occurence of the ichthyoliths in the Upper Famennian and Lower Tournaisian of the Moravian Karst (in Czech). Geologické výzkumy na Moravě a ve Slezsku, 20: 136-140.
- 32. Laurin, M., Soler-Gijón, R., 2010. Osmotic tolerance and habitat of early stegocephalians: indirect evidence from parsimony, taphonomy, palaeobiogeography, physiology and morphology. Geological Society Special Publications, 339: 151-179.
- 33. Lebedev, O.A., 1995. Morphology of a new osteolepidid fish from Russia. Bulletin du Muséum na-ional d'histoire naturelle. Section C, Sciences de la terre, paléontologie, géologie, mineralogy, 17: 287-341.
- 34. Lebedev, O.A., Lukševičs, E., Zakharenko, G.V., 2010. Palaeozoogeographical connections of the Devonian vertebrate communities of the Baltica Province. Part II. Late Devonian. Palaeoworld, 19: 108-128.
- 35. Lebedev, O.A., Zakharenko, G.V., 2010. Global vertebrate-based palaeozoogeographical subdivision for the Givetian-Famennian (Middle-Late Devonian): endemism-cosmopolitanism spectrum as an indicator of interprovincial faunal exchanges. Palaeoworld, 19: 186-205.
- 36. Long, J.A., 1985a. A new osteolepidid fish from the Upper Devonian Gogo Formation, Western Australia. Records of the Western Australian Museum, 12: 361-377.
- 37. Long, J.A., 1985b. The structure and relationships of a new osteolepiform fish from the Late Devonian of Victoria, Australia. Alcheringa, 9: 1-22.
- 38. Long, J.A., Barwick, R.E., Campbell, K.S.W., 1997. Osteology and functional morphology of the osteolepiform fish Gogonasus andrewsae Long, 1985, from the Upper Devonian Gogo Formation, Western Australia. Records of the Western Australian Museum, Supplement No. 53: 1-89.
- 39. Long, J.A., Gordon, M.S., 2004. The greatest step in verebrate history: A paleobiological review of the fish-tetrapod transition. Physiological and Biochemical Zoology, 77: 700-719.
- 40. Meinke, D.K., 1984. A review of cosmine: Its structure, development, and relationship to other forms of the dermal skeleton in osteichthyans. Journal of Vertebrate Paleontology, 4: 457-470.
- 41. Miles, R.S., 1977. Dipnoan (lungfish) skull and the relationships of the group: a study based on new species from the Devonian of Australia. Zoological Journal of the Linnean Society, 61:1-328.
- 42. Ørvig, T., 1969. Cosmine and cosmine growth. Lethaia, 2: 241-260.
- 43. Rez, J., Melichar, R., Kalvoda, J., 2011. Polyphase deformation of the Variscan accretionary wedge: an example from the southern part of the Moravian Karst (Bohemian Massif, Czech Republic). Geological Society Special Publications, 349: 223-235.
- 44. Romer, A.S., 1945. The Late Carboniferous vertebrate fauna of Kounova (Bohemia) compared with that of the Texas redbeds. American Journal of Science, 243: 417-442.
- 45. Rosen, D.E., Forey, P.L., Gardiner, B.G., Patterson, C., 1981. Lungfishes, tetrapods, paleontology, and plesiomorphy. Bulletin of the American Museum of Natural History, 167: 159-276.
- 46. Rzehak, A., 1910. Der Brüner Clymenienkalk. Zeitschrift des Mährischen Landesmuseums, 10: 149-216.
- 47. Säve-Söderbergh, G., 1933. The dermal bones of the head and the lateral line system in Osteolepis macrolepidotus Ag.: With remarks on the terminology of the lateral line system and on the dermal bones of certain other crossopterygians. Nova Acta Regiae Societatis Scientiarum Upsaliensis, Ser. IV, 9: 1-129.
- 48. Säve-Söderbergh, G., 1941. Notes on the dermal bones of the head in Osteolepis macrolepidotus Ag. and the interpretation of the lateral line system in certain primitive Vertebrates. Zoologiska Bidrag frín Uppsala, 20: 523-541.
- 49. Sire, J.-Y., Donoghue, P.C.J., Vickaryous, M.K., 2009. Origin and evolution of the integumentary skeleton in non tetrapod vertebrates. Journal of Anatomy, 214: 409-440.
- 50. Schultze, H.P., 1977. Ausgangsform und Entwicklung der rhombischen Schuppen der Osteichthyes (Pisces). Paläontologische Zeitschrift, 51: 152-168.
- 51. Schultze, H.P., 1986. Dipnoans as Sarcopterygians. In: The Biology and Evo l ution of Lungfishes (eds. W.E. Bemis, W.W. Burggren and N.E. Kemp): 39-74. Alan R. Liss, Inc., New York.
- 52. Smith, M.M., 1977. The microstructure of the dentition and dermal ornament of three dipnoans from the Devonian of Western Australia: A contribution towards dipnoan interrelations, and morphogenesis, growth and adaptation of the skeletal tissues. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 281: 29-72.
- 53. Smutná, S., 1994. New data on Upper Devonian fish fauna in Moravia (in Czech). Geologické výzkumy na Moravě a ve Slezsku v roce 1993, 1: 64.
- 54. Smutná, S., 1996. Upper Devonian and Lower Carboniferous fish fauna in Moravia (in Czech). Geologické výzkumy na Moravě a ve Slezsku v roce 1995, 3: 122-127.
- 55. Snitting, D., 2008. Morphology, taxonomy and interrelationships of tristichopterid fishes (Sarcopterygii, Tetrapodomorpha). Acta Universitatis Upsaliensis. Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology, 421. Uppsala.
- 56. Swartz, B., 2012. A ma rine stem-tetrapod from the Devonian of Western North America. PLoS ONE, 7: 1-11; e33683. doi: 10.1371 /journal. pone. 0033683
- 57. Štamberg, S., Zajíc, J., 2008. Carboniferous and Permian faunas and their occurrence in the limnic basins of the Czech Republic. Muzeum východních Čech v Hradci Králové. Hradec Králové.
- 58. Thomson, K.S., 1969. The environment and distribution of Paleozoic sarcopterygian fishes. American Journal of Science, 267: 457-464.
- 59. Thomson, K.S., 1975. On the biology of cosmine. Yale University Peabody Museum of Natural History Bulletin, 40: 1-59.
- 60. Thomson, K.S., 1977. On the individual his tory of cosmine and a possible electroreceptive function of the pore-canal system in fossil fishes. In: Problems in Vertebrate Evolution (eds. S.M. Andrews, R.S. Miles and A.D. Walker): 247-270. Linnean Society Symposium Series 4, Academic Press, New York.
- 61. Thomson, K.S., 1980. The ecology of Devonian lobe-finned fishes. In: The Terrestrial Environment and the Origin of Land Vertet brates (ed. A.L. Panchen): 187-222. Academic Press, London.
- 62. Thomson, K.S., 1993. The origin of the tetrapods. American Journal of Science, 239-A: 33-62.
- 63. Weiner, T., 2013. Stratigraphy and facies of some Famennian and lower Carboniferous outcrops in the southern part of the Moravian Karst (in Czech). Master thesis, Masaryk University, Brno, Czech Republic.
- 64. Weiner, T., Kalvoda, J., 2013. Annulata event from a pit-quarry near Ochoz u Brna - remarks on conodont biostratigraphy (Famennian, Moravian Karst) (in Czech). Geologické výzkumy na Moravě a ve Slezsku, 20: 141-144.
- 65. Weiner, T., Kalvoda, J., 2016. Biostratigraphic and sedimentary record of the Annulata Events in the Moravian Karst (Famennian, Czech Republic). Facies, 62: 1-25.
- 66. Westoll, T.S., 1936. On the structures of the dermal ethmoid shield of Osteolepis. Geological Magazine, 73: 157-171.
- 67. Witzmann, F., Schoch, R.R., 2012. A megalichthyid sarcopterygian fish from the Lower Permian (Autunian) of the Saar-Nahe Basin, Germany. Geobios, 45: 241-248.
- 68. Young, G.C., Long, J.A., Ritchie, A., 1992. Crossopterygian fishes from the Devonian of Antarctica: systematic, relationships and biogeographic significance. Records of the Australian Museum, Supplement ,14: 1-77.
- 69. Zajíc, J., 2000. Vertebrate zonation of the non-marine Upper Carboniferous - Lower Permian basins of the Czech Republic. Courier Forschungsinstitut Senckenberg, 223: 563-575.
- 70. Zajíc, J., 2008. The main Late Carboniferous and Early Perm Í an lake fish communities of the Czech Republic. In: Faunas and Palaeoenvironments of the Late Palaeozoic - Special Publication to 5th Symposium on Permo-Carboniferous Faunas (eds. S. Štamberg and J. Zajíc): 53-54. Museum of Eastern Bohemia at Hradec Králové, Hradec Králové.
- 71. Zhu, M., Yu, X., Wang, W., Zhao, W., Jia, L., 2006. A primitive fish provides key characters bearing on deep osteichthyan phylogeny. Nature, 441: 77-80.
- 72. Zhu, M., Wang, W., Yu, X., 2010. Meemannia eos, a basal sarcopterygian fish from the Lower Devonian of China - expanded description and significance. In: Morphology, Phylogeny and Paleobiogeography of Fossil Fishes (eds. D.K. Elliott, J.G. Maisey, X. Yu and D. Miao): 199-214. Verlag Dr. F. Pfeil, München.
- 73. Zukalová, V., Chlupáč, I., 1982. Stratigrafická klasifikace nemetamorfovaného devonu moravskoslezské oblasti (in Czech). Časopis pro mineralogii a geologii, 27: 225-241.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fb5fe715-7c5b-4509-a49f-65b00d0c53ec