PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Rosarichnoides sudeticus igen. et isp. nov. and associated fossils from the Coniacian of the North Sudetic Synclinorium (SW Poland)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A new ichnogenus and ichnospecies Rosarichnoides sudeticus is proposed for a large, exceptionally well-preserved crustacean burrow, which has been found in the Upper Cretaceous (Coniacian) Quadersandstein of the North Sudetic Synclinorium (Czaple quarry). Some of its specimens have been assigned to Thalassinoides saxonicus (Geinitz, 1842). It is unbranched, a characteristic rosary-shaped trace fossil, which consists of alternating chambers (swellings) and constrictions. The burrow is without any wall and usually lack ornamentation and has a passive fill. It should be included in ophiomorphid group sensu Bromley (1996). This unique finding resembles modern crustacean burrows produced by shrimps or crabs. Additionally, Thalassinoides paradoxicus (Woodward, 1830), the starfish Astropecten scupini Andert, 1934, the inoceramids Inoceramus kleini Müller, 1888 and Inoceramus sp. were found in the same sandstones. The trace fossils are indicative of the archetypal Skolithos ichnofacies that is typical of foreshore to middle shoreface settings.
Rocznik
Strony
181--196
Opis fizyczny
Bibliogr. 143 poz., rys., tab.
Twórcy
  • Wrocław University, Institute of Geological Sciences, pl. M. Borna 9, 50-204 Wrocław, Poland
autor
  • Wrocław University, Institute of Geological Sciences, pl. M. Borna 9, 50-204 Wrocław, Poland
autor
  • Wrocław University, Institute of Geological Sciences, pl. M. Borna 9, 50-204 Wrocław, Poland
autor
  • Kopalnie Piaskowca Sp. z o.o., Modłowa 1, 59-700 Bolesławiec, Poland
Bibliografia
  • 1. Alberti, F., 1834. Beitrag zu einer Monographie des bunten Sandsteins, Muschelkalks und Keupers, und die Verbindungt dieser. Verlag Cotta, Stuttgart u. Tübingen, I-XX: 1-366.
  • 2. Andert, H., 1934. Die Kreideablagerungen zwischen Elbe und Jeschken. Teil 3: Die Fauna der obersten Kreide in Sachsen, Böhmen und Schlesien. 159: 1-477.
  • 3. Angulo, S., Buatois, L.A., 2012. Ichnology of a Late Devonian-Early Carboniferous low-energy seaway: the Bakken Formation of subsurface Saskatchewan, Canada: assessing paleoenvironmental controls and biotic responses. Palaeogeography, Palaeoclimatology, Palaeoecology, 315-316: 46-60.
  • 4. Baeta, M., Galimany, E., Ramón, M., 2016. Growth and reproductive biology of the sea star Astropecten aranciacus (Echinodermata, Asteroidea) on the continental shelf of the Catalan Sea (northwestern Mediterranean). Helgoland Marine Research, 70: 1-22.
  • 5. Baranowski, Z., Haydukiewicz, A., Kryza, R., Lorenc, S., Muszyński, A., Solecki, A., Urbanek, Z., 1990. Outline of the geology of the Góry Kaczawskie (Sudetes, Poland). Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, 179: 223-257.
  • 6. Beddingfield, S.D., McClintock, J.B., 1993. Feeding behavior of the sea star Astropecten articulatus (Echinodermata: Asteroidea): an evaluation of energy-efficient foraging in a soft-bottom predator. Marine Biology, 115: 669-676.
  • 7. Belaústegui, Z., Gibert, J.M. de, López-Blanco, M., Bajo, I., 2014. Recurrent constructional pattern of the crustacean burrow Sinusichnus sinuosus from the Paleogene and Neogene of Spain. Acta Palaeontologica Polonica, 59: 461-474.
  • 8. Belaústegui, Z., Muńiz, F., Mángano, M.G., Buatois, L.A., Domčnech, R., Martinell, J., 2016. Lepeichnus giberti igen. nov. isp. nov. from the upper Miocene of Lepe (Huelva, SW Spain): evidence for its origin and development with proposal of a new concept, ichnogeny. Palaeogeography, Palaeoclimatology, Palaeoecology, 452: 80-89.
  • 9. Beyer, K., 1933. Das Liegende der Kreide in den Nordsudeten. Neues Jahrbuch für Mineralogie, Beilage-Band, B 69: 450-508.
  • 10. Beyer, K., 1934. Zur kimmerischen Faltung in den Nordsudeten. Zeitschrift der Deutschen Geologischen Gesellschaft, 86: 702-702.
  • 11. Beyrich, E., 1849. Das Quadersandsteingebirge in Schlesien. Zeitschrift der Deutschen Geologischen Gesellschaft, 1: 390-393.
  • 12. Beyrich, E., 1855. Ueber die Lagerung der Kreideformation im schlesischen Gebirge. Abhandlungen der Königlichen Akademie der Wissenschaften zu Berlin, 26: 57-80.
  • 13. Biernacka, J., 2012. Provenance of Upper Cretaceous quartz-rich sandstones from the North Sudetic Synclinorium, SW Poland: constraints from detrital tourmaline. Geological Quarterly, 56 (2): 315-332.
  • 14. Blake, D.B., Guensburg, T.E., 2016. An asteroid (Echinodermata) faunule from the Oxfordian Swift Formation (Upper Jurassic) of Montana. Journal of Paleontology, 90: 1160-1168.
  • 15. Bromley, R.G., 1996. Trace Fossils. Biology, Taphonomy and Applications. Chapman and Hall, London.
  • 16. Bromley, R.G., Frey, R.W., 1974. Redescription of the trace fossil Gyrolithes and taxonomic evaluation of Thalassinoides, Ophiomorpha and Spongeliomorpha. Bulletin of the Geological Society of Denmark, 23: 311-335.
  • 17. Buatois, L.A., Mángano, M.G., 2011. Ichnology: Organism-Substrate Interactions in Space and Time. Cambridge University Press.
  • 18. Buatois, L.A., Carmona, N.B., Curran, H.A., Netto, R.G., Mángano, M.G., Wetzel, A., 2016. The Mesozoic marine revolution. In: The Trace-Fossil Record of Major Evolutionary Events, 2: Mesozoic and Cenozoic (eds. M.G. Mángano and L.A. Buatois): 19-134. Springer, Heidelberg.
  • 19. Caregnato, F.F., Wiggers, F., Tarasconi, J.C., Veitenheimer-Mendes, I.L., 2009. Taxonomic composition of mollusks collected from the stomach con tent of Astropecten brasiliensis (Echinodermata: Asteroidea) in Santa Catarina, Brazil. Revista Brasileira de Biocięncias, 7: 252-259.
  • 20. Chamberlain, C.K., Baer, J.L., 1973. Ophiomorpha and a new thalassinid burtow from the Permian of Utah. Brigham Young University, Geology Studies, 20: 79-94.
  • 21. Chrząstek, A., 2002. Stratigraphy and sedimentation conditions of Roet and Lower Muschelkalk of the North Sudetic Basin (in Polish with English summary). Acta Universitatis Wratislaviensis 2383, Prace Geologiczno-Mineralogiczne, 73: 1-128.
  • 22. Chrząstek, A., 2012. Palaeontology of the Middle Turonian limestones of the Nysa Kłodzka Graben (Sudetes, SW Poland): biostratigraphical and palaeogeograpical implications. Geologos, 18: 83-109.
  • 23. Chrząstek, A., 2013a. Trace fossils from the Lower Muschelkalk of Raciborowice Górne (North Sudetic Synclinorium, SW Poland) and their palaeoenvironmental interpretation. Acta Geologica Polonica, 63: 315-353.
  • 24. Chrząstek, A., 2013b. Middle Turonian trace fossils from the Bystrzyca and Długopole sandstones in the Nysa Kłodzka Graben (Sudetes, SW Poland). Geological Quarterly, 57 (3): 443-466.
  • 25. Chrząstek, A., 2013c. Rekonstrukcja paleośrodowiska górnokredowych zlepieńców idzikowskich na podstawie skamieniałości śladowych (rów Nysy Kłodzkiej, Idzików) (in Polish). In: Aktualizm i antyaktualizm w paleontologii (eds. M. Kędzierski and B. Kołodziej), XXII Konferencja Naukowa Sekcji Paleontologicznej PTG, Tyniec 27-30.IX.2013: 10-11.
  • 26. Chrząstek, A., Sołczerski, R., 2016. Crustacean burrows from the Lower Idzików Beds (Stary Waliszów, Upper Nysa Kłodzka Graben) (In Polish). In: XXIII Konferencja Naukowa Sekcji Paleontologicznej Polskiego Towarzystwa Geologicznego, abstrakty (eds. K. Pawłowska and D. Pawłowski), Poznań 21-23.09.16: 25-26.
  • 27. Chrząstek, A., Wypych, M., 2016. Trace fossils from the quartz sand stones (Coniacian) from the North Sudetic Synclinorium (Czaple) (in Polish). In: XXIII Konferencja Naukowa Sekcji Paleontologicznej PTG, abstrakty (eds. K. Pawłowska and D. Pawłowski), 21-23.09.2016, Poznań: 27-28.
  • 28. D'Alessandro, A., Bromley, R.G., 1995. A new ichnospecies of Spongeliomorpha from the Pleistocene of Sicily. Journal of Paleontology, 69: 393-398.
  • 29. Dettmer, F., 1912. Spongites saxonicus Geinitz und die Fucoidenfrage. Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, 1912 (2): 114-126, http://kreidefossilien.de/1724
  • 30. Dettmer, F., 1915. Neues zum Fucoidenproblem. Centralblatt für Mineralogie, Geologie und Paläontologie, 285-287.
  • 31. Dunker, W., 1856. Ueber mehre Pflanzenreste aus dem Quadersandsteine von Blankenburg, 4: 179-183.
  • 32. Dworschak, P.C., 2000. Global diversity in the Thalassinidea (Decapoda). Journal of Crustacean Biology, 20: 238-245.
  • 33. Dworschak, P.C., 2001. The burrows of Calianassa tyrrhena (Petagna 1792) (Decapoda: Thalassinidea). Marine Ecology, 22: 155-166.
  • 34. Dworschak, P.C., 2005. Global diversity in the Thallassinidea (Decapoda): an update (1998-2004). Nauplius, 13: 57-63.
  • 35. Dworschak, P.C., Ott, J.A., 1993. Decapod burrows in mangrove-channel and back-reef environments at the Atlantic Barrier Reef, Belize. Ichnos, 2: 277-290.
  • 36. Ehrenberg, K., 1944. Ergänzende Bemerkungen zu den seinerzeit aus dem Miozän von Burgschleinitz beschrieben Gangkernen und Bauten dekapoder Krebse. Paläontologische Zeitschrift, 23: 354-359.
  • 37. Ekdale, A.A., Bromley, R.G., 2003. Paleoethologic interpretation of complex Thalassinoides in shallow-marine limestones, Lower Ordovician, southern Sweden. Palaeogeography, Palaeoclimatology, Palaeoecology, 192: 221-227.
  • 38. Frey, R.W., Curran, H.A., Pemberton, S.G., 1984. Tracemaking activities of crabs and their environmental significance: the ichnogenus Psilonichnus. Journal of Paleontology, 58: 333-350.
  • 39. Frey, R.W., Howard, J.D., Pryor, W.A., 1978. Ophiomorpha: its morphologic, taxonomic and environmental significance. Palaeogeography, Palaeoclimatology, Palaeoecology, 23: 199-229.
  • 40. Frič, A., 1883. Studien im Gebiete der Böhmischen Kreideformation. Palaeontologische Untersuchungen der einzelnen Schichten. III. Die Iserschichten. Mit 132 Textfiguren. Archiv für die naturwissenschaftliche Landesdurchforschung von Böhmen (Commissions-Verlag Fr. Rivnác), Prague, 5, http://kreidefossilien.de/299.
  • 41. Fürsich, F.T., 1973. A revision of the trace fossils Spongeliomorpha, Ophiomorpha and Thalassinoides. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte: 719-735.
  • 42. Gaillard, C., Olivero, D., 2009. The ichnofossil Halimedides in Cretaceous pelagic deposits from the Alps: environmental and ethological significance. Palaios, 24: 257-270.
  • 43. Geinitz, H.B., 1842. Die sächsisch-böhmische Schweiz, die Oberlausitz und das Innere von Böhmen. In: Charakteristik der Schichten und Petrefacten des sächsisch-böhmischen Kreidegebirges (ed. H.B. Geinitz): 63-116. Dresden und Leipzig in der Arnoldischen Buchandlung.
  • 44. Gibert, J.M. de, 1996. A new decapod burrow system from the NW Mediterranean Pliocene. Revista Espanola de Paleontologia, 11: 251-254.
  • 45. Gibert, J.M. de, Ekdale, A.A., 2010. Paleobiology of the crustacean trace fossil Spongeliomorpha iberica in the Miocene of southeastern Spain. Acta Palaeontologica Polonica, 55: 733-740.
  • 46. Göhler, T., 2011a. Eine komplizierte Gangetage im Grabgangsystem Thalassinoides saxonicus (Geinitz) aus dem tidal beeinflussten unteren Ober-Cenomanium des Tharandter Waldes. Beiträge zur Geologie der Sächsischen Kreide, 7-9: 49-58.
  • 47. Göhler, T., 2011b. Betrachtungen einiger Grabgangstücke [u.a. Ophiomorpha nodosa Lundgren und Thalassinoides saxonicus (Geinitz)] aus obercenomanen Sandsteinen des Tharandter Waldes. Beiträge zur Geologie der Sächsischen Kreide, 7-9: 59-64.
  • 48. Göppert, J.H.R., 1842. Über die fossile Flora der Quadersandsteinformation in Schlesien - als erster Beitrag zur Flora der Tertiärgebilde. Novorum Actorum Academiae Caesareae Leopoldino-Carolinae Naturae Curiosum [=Verhandlungen der kaiserlichen leopoldinisch-carolinischen Akademie der Naturforscher] (Eduard Weber) Breslau und Bonn, 19: 99-134, http://kreidefossilien.de/1726.
  • 49. Göppert, J.H.R., 1847. Zur Flora des Quader-Sandsteins in Schlesien, als Nachtrag zu der früher erschienen Abhandlung über den selben Gegenstand. Novorum Actorum Academiae Caesareae Leopoldino-Carolinae Naturae Curiosum [=Verhandlungen der kaiserlichen leopoldinisch-carolinischen Akademie der Naturforscher] (Eduard Weber) Breslau und Bonn 14: 353-365, http:// kreidefossilien.de/1727.
  • 50. Gray, J.E., 1840. A synopsis of the genera and species of the class Hypostoma Asterias (Linn.). Annals and Magazine of Natural History, 6: 275-290.
  • 51. Griffis, R.B., Suchanek, T.H., 1991. A model of burrow architecture and trophic modes in thalassinidean shrimp (Decapoda: Thalassinidea). Marine Ecology Progress Series, 79: 171-183.
  • 52. Häntzschel, W., 1962. Part W. Miscel lanea. Trace Fossils and Problematica. In: Treatise on Invertebrate Paleontology (ed. R.C. Moore). Geological Society of America and University of Kansas Press.
  • 53. Häntzschel, W., 1975. Part W. Miscellanea. Supplement 1. Trace Fossils and Problematica. In: Treatise on Invertebrate Paleontology (ed. C. Teichert). Geological Society of America and University of Kansas, Lawrence and Boulder.
  • 54. Harries, P.J., Ozanne, C.R., 1998. General trends in predation and parasitism upon inoceramids. Acta Geologica Polonica, 48: 377-386.
  • 55. Holdefleiss, G., 1915. Das Triasvorkommen von Gross-Hartmannsdorf in Niederschlesien. Jahresbericht der Schlesischen Gesellschaft für vaterländische Kultur, 92: 1-23.
  • 56. Howard, J.D., Frey, R.W., 1984. Characteristic trace fossils in nearshore to offshore sequences, Upper Cretaceous of east-central Utah. Canadian Journal of Earth Sciences, 21: 200-219.
  • 57. Hyžný, M., 2011. Insitu mud shrimps (Decapoda: Axiidea: Callianassidae) preserved within their burrows from the middle Miocene of the Central Paratethys. Bulletin of the Mizunami Fossil Museum, 37: 37-46.
  • 58. Hyžný, M., Klompmaker, A.A., 2015. Systematics, phylogeny, and taphonomy of ghost shrimps (Decapoda): a perspective from the fossil record. Arthropod Systematics & Phylogeny, 73: 401-437.
  • 59. Hyžný, M., Šimo, V., Starek, D., 2015. Ghost shrimps (Decapoda: Axiidea: Callianassidae) as producers of an Upper Miocene trace fossil association from sublittoral deposits of Lake Pannon (Vienna Basin, Slovakia). Palaeogeography, Palaeoclimatology, Palaeoecology, 425: 50-66.
  • 60. Kennedy, W.J., 1967. Burrows and surface traces from the Lower Chalk of southern England. Bulletin of the British Museum (Natural History) Geology London, 15: 125-167.
  • 61. Kim, J.-Y., Kim, K.-S., Pickerill, R.K., 2002. Cretaceous nonmarine trace fossils from the Hasandong and Jinju Formations of the Namhae Area, Kyongsangnamdo, southeast Korea. Ichnos, 9: 41-60.
  • 62. Kollmann, H.A., 2002. Gastropods from the Lower Cretaceous of Vorarlberg, Austria. A systematic review. Annalen des Naturhistorischen Museums in Wien, 103A: 23-73.
  • 63. Koo, B.J., Koh, C.-H., 2013. Oxygen penetration through Invertebrate burrow walls in Korean tidal flat. Ocean Science Journal, 48: 329-338.
  • 64. Kumagae, T., Maeda, H., Komatsu, T., 2011. Paleoecology of Inoceramus amakusensis Nagao et Matsumoto, 1940 (Bivalvia) in a Late Cretaceous shallow clastic sea: the Himenoura Group, Kyushu, Japan. Cretaceous Research, 32: 738-749.
  • 65. Kützing, F.T., 1841.Über die “Polypieres calciféres” des Lamouroux. In: Zu der öffentlichen Prüfung sämmtlicher Classen der Realschule zu Nordhausen 1841 (ed. F.T. Kützing): 3-34. Realschule, Nordhausen.
  • 66. Lepper, J., Rambow, D., Röhling, H.-G., 2002. Der Buntsandstein in der Stratigraphischen Tabelle von Deutschland. Newsletters on Stratigraphy, 41: 129-142.
  • 67. Leszczyński, S., 2010. Coniacian-?Santonian paralic sedimentation in the Rakowice Małe area of the North Sudetic Basin, SW Poland: sedimentary facies, ichnological record and palaeogeographical reconstruction of an evolving marine embayment. Annales Societatis Geologorum Poloniae, 80: 1-24.
  • 68. Lewy, Z., Goldring, R., 2006. Campanian crustacean burrow system from Israel with brood and nursery chambers representing communal organization. Palaeontology, 49: 133-140.
  • 69. Lorenz von Liburnau, J.R., 1902. Ergänzung zur Beschreibung der fossilen Halimeda fuggeri: Sitzungsberichte der kaiserlich-königlichen Akademie der Wissenschaften, Mathematisch-Naturwissenschaftliche Klasse, 111: 685-712.
  • 70. Lukeneder, A., Uchman, A., Gaillard, C., Olivero, D., 2012. The late Barremian Halimedides horizon of the Dolomites (Southern Alps, Italy). Cretaceous Research, 35: 199-207.
  • 71. Lundgren, B., 1891. Studier öfver fossilförande lösa block. Geologiska Föreningen i Stockholm Förhandlinger, 13: 111-121.
  • 72. MacEachern, J.A., Pemberton, S.G., Gingras, M.K., Bann, K.L., 2007. The ichnofacies paradigm: a fifty-year retrospective. In: Trace Fossils. Concepts, Problems, Prospects (ed. W. Miller III): 52-77. Elsevier.
  • 73. MacEachern, J.A., Bann, K.L., Gingras, M.K., Zonneveld, J.-P., Dashtgard, S.E., Pemberton, S.G., 2012. The ichnofacies paradigm. Developments in Sedimentology, 64: 103-138.
  • 74. Malpas, J.A., Gawthorpe, R.L., Pollard, J.E., Sharp, I.R., 2005. Ichnofabric analysis of the shallow marine Nukhul Formation (Miocene), Suez Rift, Egypt; implications for depositional processes and sequence stratigraphic evolution. Palaeogeography, Palaeoclimatology, Palaeoecology, 215: 239-264.
  • 75. Mángano, M.G., Buatois, L.A., 2016. The Cambrian Explosion. Topics in Geobiology, 39: 73-126.
  • 76. Mayoral, E., Ledesma-Vazgues, J., Baarli, B.G., Santos, A., Ramalho, R., Cachăo, M., Silva, C.M. da, Johnson, M.E., 2013. Ichnology in oceanic islands; case studies from the Cape Verde Archipelago. Palaeogeography, Palaeoclimatology, Palaeoecology, 381-382: 47-66.
  • 77. Menning, M., Deutsche Stratigraphische Kommission, 2012. Erlauterung zur Stratigraphischen Tabelle von Deutschland Kompakt 2012. [Explanatory notes to the Stratigraphic Table of Germany Compact 2012.]. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften, 163: 385-409.
  • 78. Milewicz, J., 1956. Zaburzenie utworów kredowych w Rakowicach Małych (in Polish). Przegląd Geologiczny, 4: 361-364.
  • 79. Milewicz, J., 1965. Facies of the Upper Cretaceous in the eastern part of the North Sudetic Basin (in Polish with English summary). Biuletyn Instytutu Geologicznego, 170: 15-80.
  • 80. Milewicz, J., 1979. Distribution of Cretaceous rocks in the North-Sudetic Basin (in Polish with English summary). Kwartalnik Geologiczny, 23 (4): 819-826.
  • 81. Milewicz, J., 1985. A proposal of formal stratigraphic subdivision of the infill of the North Sudetic Depression (in Polish with English summary). Przegląd Geologiczny, 33: 385-390.
  • 82. Milewicz, J., 1997. Upper Cretaceous of the North-Sudetic depression (litho-and biostratigraphy, paleogeography, tectonics and remarks on raw material (in Polish with English summary). Acta Universitatis Wratislaviensis, Prace Geologiczno-Mineralogiczne, 59: 5-58.
  • 83. Morris, J., Lycett, J., 2015. A monograph of the Mollusca from the Great Oolite. Cambridge Library Collection, 1, Chiefly from Minchinhampton and the coast of Yorkshire. Cambridge University Press.
  • 84. Musstow, R., 1968. Beitrag zur Stratigraphie und Paläogeographie der Oberkreide und des Albs in Ostbrandenburg und der östlichen Niederlausitz. Geologie, 17: 1-71.
  • 85. Muszer, J., Uglik, M., 2013. Palaeoenvironmental reconstruction of the Upper Visean Paprotnia Beds (Bardo Unit, Polish Sudetes) using ichnological and palaeontological data. Geological Quarterly, 57 (3): 365-384.
  • 86. Müller, G., 1888. Beiträge zur Kenntnis der oberen Kreideformation am nördlichen Harzrand. Jahrbuch der Preussischen Geologischen Landesanstalt und Bergacademie, 8: 372-456.
  • 87. Myint, M., 2001. Psilonichnus quietis isp. nov. from the Eocene Iwaki Formation, Shiramizu Group, Joban Coal Field, Japan. Ichnos, 8: 1-14.
  • 88. Myint, M., 2009. The Psilonichnus ichnofacies: an example from the Iwaki Formation, Shiramizu Group, Joban Coal Field, Japan. SEPM Special Publications, 52: 1-7.
  • 89. Myrow, P.M., 1995. Thalassinoides and the enigma of Early Paleozoic open-framework burrow systems. Palaios, 10: 58-74.
  • 90. Neto de Carvalho, C., Rodrigues, N.P.C., 2007. Compound Asterosoma ludwigae Schlirf, 2000 from the Jurassic of the Lusitanian Basin (Portugal): conditional strategies in the behavior of Crustacea. Journal of Iberian Geology, 33: 295-310.
  • 91. Neto de Carvalho, C.N., Viegas, P.A., Cachăo, M., 2007. Thalassinoides and its producer: populations of Mecochirus buried within their burrow systems, Boca do Chapim Formation (Lower Cretaceous), Portugal. Palaios, 22: 104-109.
  • 92. Netto, R.G., Buatois, L.A., Mángano, M.G., Balistieri, P., 2007. Gyrolithes as a multipurpose burtow: an ethologic approach. Revista Brasileira de Paleontologia, 10: 157-168.
  • 93. Nickell, L.A., Atkinson, R.J.A., 1995. Functional morphology of burrows and trophic modes of three thalassinidean shrimp species, and a new approach to the classification of thalassinidean burrow morphology. Marine Ecology Progress Series, 128: 181-197.
  • 94. Noetling, F., 1880. Die Entwickelung der Trias in Niederschlesien. Zeitschrift der Deutschen Geologischen Gesellschaft, 32: 300-349.
  • 95. Otto, E., 1852. Additamente zur Flora des Quadergebirges in der Gegend um Dresden und Dippoldiswalde, enthaltend meist noch nicht oder wenig bekannte fossile Pflanzen. Dippoldiswalde, Verlag von Carl Jehne, 1-27, http://www.kreidefossilien.de/387
  • 96. Ozanne, C.R., Harries, P.J., 2002. Role of predation and parasitism in the extinction of the inoceramid bivalves: an evaluation. Lethaia, 35: 1-19.
  • 97. Pemberton, S.G., Spila, M., Pulham, A.J., Saunders, T., MacEachern, J.A., Robbins, D., Sinclair, I.K., 2001. Ichnology and sedimentology of shallow to marginal marine systems. Ben Nevis & Avalon Reservoirs, Jeanne d'Arc Basin. Geological Association of Canada, Short Course Notes, 15: 1-343.
  • 98. Pemberton, S.G., MacEachern, J.A., Dashtgard, S.E., Bann, K.L., Gingras, M.K., Zonneveld, J.-P., 2012. Shorefaces. Developments in Sedimentology, 64: 563-603.
  • 99. Pervesler, P., Uchman, A., 2009. A new Y-shaped trace fossil attributed to upogebiid crustaceans from Early Pleistocene of Italy. Acta Palaeontologica Polonica, 54: 135-142.
  • 100. Pervesler, P., Uchman, A., Hohenegger, J., Dominici, S., 2011. Ichnological record of environmental changes in Early Quaternary (Gelasian-Calabrian) marine deposits of the Stirone section, Northern Italy. Palaios, 26: 578-593.
  • 101. Počta, P., 1885. Beiträge zur Kenntniss der Spongen der Böhmischen Kreideformation. III Abtheilung: Tereactinellidae, Monactinellidae, Calcispongiae, Ceratospongiae, Nachtrag. 26 Fig im Text. Abhandlungen der königlichen böhmischen Gesellschaft der Wissenschaften Praha, 7.1: 1-40, http://kreidefossilien.de/419.
  • 102. Radwańska, Z., 1960. The problem of the Upper Turonian in the Lower Silesian Cretaceous (in Polish with English summary). Kwartalnik Geologiczny, 4 (1): 113-123.
  • 103. Richter, P., 1909. Beiträge zur unteren Kreide Quedlinburgs. Teil 2: Die Gattung Nathorstiana P. Richter und Cylindrites spongioides Goeppert: 1-12. Wilhelm Engelmann, Leipzig.
  • 104. Rodríguez-Tovar, F.J., Uchman, A., 2004a. Ichnotaxonomic analysis of the Cretaceous/Palaeogene boundary interval in the Agost section, south-east Spain. Cretaceous Research, 25: 635-647.
  • 105. Rodríguez-Tovar, F.J., Uchman, A., 2004b. Trace fossils after the K-T boundary event from the Agost section, SE Spain. Geological Magazine, 141: 429-440.
  • 106. Rodríguez-Tovar, F.J., Uchman, A., 2010. Ichnofabric evidence for the lack of bottom anoxia during the Lower Toarcian Oceanic Anoxic Event in the Fuente de la Vidriera Section, Betic Cordillera, Spain. Palaios, 25: 576-587.
  • 107. Rotnicka, J., 2005. Ichnofabrics of the Upper Cretaceous fine-grained rocks from the Góry Stołowe Mountains (Sudetes, SW Poland). Geological Quarterly, 49 (1): 15-30.
  • 108. Saporta, G. de, 1884. Les organismes problematiques des anciennes mers. Masson, Paris.
  • 109. Saporta, G. de, 1887. Nouveaux documents relatifs aux organismes problematiques des anciens mers. Bulletin de la Socičte Géologique du France, 15: 286-302.
  • 110. Sawicki, L., 1967. Mapa geologiczna regionu dolnośląskiego (bez utworów czwartorzędowych) 1: 200 000. Instytut Geologiczny.
  • 111. Schaffer, F.X., 1928. Hormosiroidea florentina n.g., n. sp., ein Fucus aus der Kreide der Umgebung von Florenz. Paläontologische Zeitschrift, 10: 212-215.
  • 112. Schlirf, M., 2000. Upper Jurassic trace fossils from the Boulonnais (northern France). Geologica et Palaeontologica, 34:145-213.
  • 113. Schlirf, M., 2005. Revision and description of Keuper (Middle Ladinian to Rhaetian) invertebrate trace fossils from the southern part of the Germanic Basin and studies of related material. Dissertation zur Erlangung des naturwissenschaftlichen Doktorgrades der Bayerischen Julius-Maximilians-Universität, Würzburg.
  • 114. Schulze, C.F., 1760. Betrachtung der versteinerten Seesterne und ihrer Theile. Warschau und Dresden (Michael Gröll). 58 p. 3 Taf., http://kreidefossilien.de/377.
  • 115. Scupin, H., 1907. Die stratigraphischen Beziehungen der obersten Kreideschichten in Sachsen, Schlesien und Böhmen. Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, 24: 676-715.
  • 116. Scupin, H., 1910. Über sudetische prätertiäre junge Krustenbewegungen und die Verteilung von Wasser und Land zur Kreidezeit in der Umgebung der Sudeten und des Erzgebirges. Zeitschrift für Naturwissenschaften, 82: 321-344.
  • 117. Scupin, H., 1912-1913. Die Lowenberger Kreide und ihre Fauna. Paleontographica, Suppl. VI.
  • 118. Scupin, H., 1933. Der Buntsandstein der Nordsudeten. Zeitschrift der Deutschen Geologischen Gesellschaft, 85: 161-189.
  • 119. Scupin, H., 1936. Zur Paläogeographie des sudetischen Kreidemeeres. Zeitschrift der Deutschen Geologischen Gesellschaft, 88: 309-325.
  • 120. Seilacher, A., 2007. Trace Fossil Analysis. Springer.
  • 121. Sepahvand, V., Sari, A., Tudge, C., Bolouki, M., 2014. A study of burrow morphology in representative axiidean and gebiidean mud shrimps, from the Persian Gulf and Gulf of Oman, Iran. Nauplius, 22: 137-144.
  • 122. Solecki, A., 1994. Tectonics of the North Sudetic Synclinorium )n Polish with English summary). Acta Universitatis Wratislaviensis, 1618, Prace Geologiczno-Mineralogiczne, 45.
  • 123. Soukup, J., 1938. Der erste Fund eines fossilen Seesternes in den Quadersandsteinen des Oberturons bei Jicin. Vierteljahrschrift für Geologie und Erdkunde der Sudetenländer, 11: 23-27.
  • 124. Sowerby, J., 1814. The mineral conchology of Great Britain. London 1812-1829. Part 1.
  • 125. Sowerby, J. 1824 (continued by Sowerby J.) (1812-46). The mineral conchology of Great Britain. 7, London.
  • 126. Sprechmann, P., Gaucher, C., Blanco, G., Montańa, J., 2004. Stromatolitic and trace fossils community of the Cerro Victoria Formation, Arroyo del Soldado Group (Lowermost Cambrian, Uruguay). Gondwana Research, 7: 753-766.
  • 127. Stamhuis, E.J., Reede-Dekker, T., Etten Y van, Wiljes, J.J. de, Videler, J.J., 1996. Behaviour and time allocation of the burrowing shrimp Calianassa subterranean (Decapoda, Thalassinidea). Journal of Experimental Marine Biology and Ecology, 204: 225-239.
  • 128. Tarkowski, R., 1991. Stratigraphy, macrofossils and palaeogeography of the Upper Creiaceous from the Opole Trough (in Polish with English summary). Scientific Bulletins of Stanislaw Staszic Academy of Mining and Metallurgy, 1404, Geology, 51: 1-156.
  • 129. Tiwari, R.P., Rajkonwar, C., Lalchawimawii, Malsawma, P.L.J., Ralte, V.Z., Patel, S.J., 2011. Trace fossils from Bhuban Formation, Surma Group (Lower to Middle Miocene) of Mizoram India and their palaeoenvironmental significance. Journal of Earth System Science, 6: 1127-1143.
  • 130. Uchman, A., 1991. “Shallow water” trace fossils in Paleogene flysch of the southern part of the Magura Nappe, Polish Outer Carpatians. Annales Societatis Geologorum Poloniae, 61: 61-75.
  • 131. Uchman, A., 1995. Taxonomy and palaeoecology of flysch trace fossils: The Marnoso-arenacea Formation and associated facies (Miocene, Northern Apennines, Italy). Beringeria, 15: 3-115.
  • 132. Uchman, A., 1998. Taxonomy and ethology of flysch trace fossils: Revision of the Marian Książkiewicz collecton and studies of complementary material. Annales Societatis Geologorum Poloniae, 68: 105-218.
  • 133. Uchman, A., Krenmayr, H.G., 2004. Trace fossils, ichnofabrics and sedimentary facies in the shallow marine Lo Miocene Molasse of Upper Austria. Jahrbuch der Geologischen Bundesanstalt, 144: 233-251.
  • 134. Villier, L., Kutscher, M., Mah, C.L., 2004. Systematics and palaeoecology of middle Toarcian Asteroidea (Echinodermata) from the „Seuil du Poitou“, Western France. Geobios, 37: 807-825.
  • 135. Walaszczyk, I., 1996. Inoceramids from Kreibitz-Zittauer area (Saxony and northern Bohemia): revision of Andert's (1911)descriptions. Paläontologische Zeitschrift, 70: 367-392.
  • 136. Walaszczyk, I., 2008. North Sudetic Basin (Outer Sudetic Cretaceous). In: The Geology of Central Europe (ed. T. McCann), 2 (Mesozoic and Cenozoic): 959-960. The Geological Society of London, London.
  • 137. Walaszczyk, I., Kopaevich, L.F., Olferiev, A.G., 2004. Inoceramid/foraminiferal succession of the Turonian and Coniacian (Upper Cretaceous) of the Briansk region (Central European Russia). Acta Geologica Polonica, 54: 569-581.
  • 138. Weimer, R.J., Hoyt, J.H., 1964. Burrows of Callianassa mayor Say, geologic indicators of littoral and shallow neritic environments. Journal of Paleontology, 38: 761-767.
  • 139. Wiest, L.A., Buynevich, I.V., Grandstaff, D.E., Terry Jr., D.O., Maza, Z.A., Lacovara, K.J., 2016. Ichnological evidence for endobenthic response to the K-Pg event, New Jersey, U.S.A. Palaios, 31: 231-241.
  • 140. Wilmsen, M., Uličný, D., Koš ák, M., 2014. Cretaceous basins of Central Europe: deciphering effects of global and regional processes - a short introduction. Zeitschrift der Deutschen Geologischen Gesellschaft, 165: 495-499.
  • 141. Woelkerling, W.J., 1985. A taxonomic reassessment of Spongites (Corallinaceae, Rhodophyta) based on studies of Kutzing's original collections. British Phycological Journal, 20: 123-153.
  • 142. Woodward, S., 1830. A Synoptic Table of British Organic Remains. London & Norwich.
  • 143. Zittel, K.A. von, 1881-1885. Handbuch der Palaeontologie. 1 Abteilung, Palaeozoologie, 2, Oldenburg (München, Leipzig).
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-aab62ddf-2654-4ee9-a192-01a915177a6f
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.