PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Integrated sedimentological and ichnological study of the Coniacian sedimentation in North Sudetic Basin, SW Poland

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Lithofacies and ichnological features of the Coniacian deposits of the upper part of Żerkowice Member and lowest part of the overlying Czerna Formation in southeastern part of the North Sudetic Synclinorium are described and their sedimentary palaeoenvironment is interpreted. The study confirms a shallow-marine to paralic/paludine palaeoenvironment. Sedimentation of the Żerkowice Member occurred in an upper shoreface environment dominated by waves, tidal currents and wave-generated alongshore currents, with an episodic encroachment of fore shore zone and shoal-water deltas. The interpretation is supported by a high-diversity assemblage of trace fossils with 21 ichnogenera, representing a stressed expression of the Skolithos Ichnofacies dominated by Ophiomorpha nodosa and a proximal expression of the Cruziana Ichnofacies with Thalassinoides and rare specimens of diverse other ichnotaxa. Sedimentation of the Czerna Formation commenced after a stasis, with at least a local hiatus caused by emergence, and proceeded in a laterally and vertically more varied environment, with transgressive coastal lagoons evolving into freshwater lakes and marshes and with a repetitive regressive intrusion of shoreface and shoal-water deltas. The emergence of the area is recorded by coal-bearing deposits with plant-root traces. Local occurrence of the Teredolites Ichnofacies in coal (peat) deposits above the base of the Czerna Formation indicates renewed marine flooding. Continuation of the latter is locally evidenced by a trace-fossil assemblage with 17 ichnogenera, representing proximal expression of the Cruziana Ichnofacies followed by distal expression of the Skolithos Ichnofacies in the overlying transgressive-regressive cyclothems. The palaeoenvironmental changes recorded by the sedimentary succession indicate bathymetric fluctuations and imply considerable shoreline shifts and palaeogeographic changes in the basin. These changes are interpreted as a combined signal of 2nd- and 3rd-order eustatic cycles, modified and partly obliterated by the effects of intrabasinal tectonic forcing and by palaeogeographically controlled variation in sediment supply.
Rocznik
Strony
767--816
Opis fizyczny
Bibliogr. 166 poz., fot., mapa, rys., tab.
Twórcy
  • Jagiellonian University, Institute of Geological Sciences, Gronostajowa 3a, 30-063 Kraków, Poland
Bibliografia
  • 1. Alexandrowicz, S.W., 1976. Foraminifera from the brackish Santonian deposits in the North Sudetic Basin. Rocznik Polskiego Towarzystwa Geologicznego, 46: 183-195.
  • 2. Allen, J.R.L., 1982. Sedimentary structures; their character and physical Basis. Developments in Sedimentology, 30.
  • 3. Altevogt, G., 1968. Erste Asterosoma-Funde in (Problem.) aus der oberen Kreide Westfalens. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 132: 1-8.
  • 4. Anderson, B.G., Droser, M.L., 1998. Ichnofabrics and geometric configurations of Ophiomorpha within a sequence stratigraphic framework: an example from the Upper Cretaceous US western interior. Sedimentology, 45: 379-396.
  • 5. Andert, H., 1934. Die Fazies in der sudetischen Kreide unter besonderer Berücksichtigung des Elbsandsteingebirges. Zeitschrift der Deutschen Geologischen Gesellschaft, 86: 617-637.
  • 6. Bassyouni, A.A.F.E., El, 1984. Sedimentology of the Upper Cretaceous sandstones of the North Sudetic basin in the area between Złotoryja, Wleń, Lwówek Śląski. Ph.D. thesis, Archives of Wrocław University.
  • 7. Belaústegui, Z., Gibert, J.M. de, 2013. Bow-shaped, concentrically laminated polychaete burrows: a Cylindrichnus concentricus ichnofabric from the Miocene of Tarragona, NE Spain. Palaeogeography, Palaeoclimatology, Palaeoecology, 381-382: 119-127.
  • 8. Belaústegui, Z., Gibert, J.M de, Lopez-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.
  • 9. Belaústegui, Z., Muñiz, F., Nebelsick, J.H., Domčnech, R., Martinell, J., 2017. Echinoderm ichnology: bioturbation, bioerosion and related processes. Journal of Paleontology, 91: 643-662.
  • 10. Bell, C.M., 2004. Asteroid and ophiuroid trace fossils from the Lower Cretaceous of Chile. Palaeontology, 47: 51-66.
  • 11. Bengtson, P., 1988. Open nomenclature. Palaeontology, 31: 223-227.
  • 12. Bertling, M., Braddy, S.J., Bromley, R.G., Demathieu, G.R., Genise, J., Mikulaš, R., Nielsen, J.K., Nielsen, K.S.S., Rindsberg, A.K., Schlirf, M., Uchman, A., 2006. Names for trace fossils: a uniform approach. Lethaia, 39: 265-286.
  • 13. Beyrich, E., 1849. Das Quadersandsteingebirge in Schlesien. Zeitschrift der Deutschen Geologischen Gesellschaft, 1: 390-393.
  • 14. Beyrich, E., 1855. Ueber die Lagerung der Kreideformation im schlesischen Gebirge. Abhandlungen der Königlichen Akademie der Wissenschaften zu Berlin, 26: 57-80.
  • 15. Blissett, D.J., Pickerill, R.K., 2004. Soft-sediment ichnotaxa from the Cenozoic White Limestone Group, Jamaica, West Indies. Scripta Geologica, 127: 341-378.
  • 16. Bossowski, A. ed., 1991a. Wykroty N-14 (in Polish). Profile Głębokich Otworów Wiertniczych Państwowego Instytutu Geologicznego, 72: 1-45.
  • 17. Bossowski, A. ed., 1991b. Bolesławiec N-24 (in Polish). Profile Głębokich Otworów Wiertniczych Państwowego Instytutu Geologicznego, 73: 1-64.
  • 18. Bossowski, A., Bałazińska, J., Kossowska, I., Kural, K., Cieśla, E., 1978. Poszukiwanie rud miedzi w rejonie niecki północno-sudeckiej (in Polish). Dokumentacja wynikowa otworów N-24 Bolesławiec i N-25 Osieczów. National Geological Archives, PIG-PIB, Warszawa, no. 2960.
  • 19. Bossowski, A., Kossowska, I., Kuralowa, K., Żołnierz, J., 1976. Poszukiwanie rud miedzi w rejonie niecki północnosudeckiej (in Polish). Dokumentacja wynikowa otworów N-14 - Wykroty, N-26 - Osiecznica i N-19 - Bielawa Górna. National Geological Archives, PIG-PIB, Warszawa, no. 122341.
  • 20. Bossowski, A., Kossowska, I., Żołnierz, J., 1977. Poszukiwanie rud miedzi w rejonie niecki północnosudeckiej (in Polish). Dokumentacja wynikowa otworów N-27 - Parowa i stref rudnych z otworów Poświętne IG-2 i Borowe IG-2. National Geological Archives, PIG-PIB, Warszawa, no. 122860.
  • 21. Boyd, C., McIlroy, D., Herringshaw, L.G., Leaman, M., 2012. The recognition of Ophiomorpha irregulaire on the basis of pellet morphology: restudy of material from the type locality. Ichnos, 19: 185-189.
  • 22. Bromley, R.G., 1991. Trace fossils: biology and taphonomy. Unwin Hyman, London.
  • 23. Bromley, R.G., 1996. Trace fossils: biology, taphonomy and applications. Chapman and Hall. London.
  • 24. Bromley, R.G., Pedersen, G.K., 2008. Ophiomorpha irregulaire, Mesozoic trace fossil that is either well understood but rare in outcrop or poorly understood but common in core. Palaeogeography, Palaeoclimatology, Palaeoecology, 270: 295-298.
  • 25. Bromley, R.G., Uchman, A., 2003. Trace fossils from the Lower and Middle Jurassic marginal marine deposits of the Sorthat Formation, Bornholm, Denmark. Bulletin of the Geological Society of Denmark, 52: 185-208.
  • 26. Bromley, R.G., Pemberton, S.G., Rahmani, R.A., 1984. A Cretaceous woodground: the Teredolites ichnofacies. Journal of Paleontology, 58: 488-498.
  • 27. Bromley, R.G., Ekdale, A.A., Richter, B., 1999. New Taenidium (trace fossil) in the Upper Cretaceous chalk of northwestern Europe. Bulletin of the Geological Society of Denmark, 46: 47-51.
  • 28. Buatois, L.A., López-Angriman, A.O., 1992. The ichnology of a submarine braided channel complex: the Whiskey Bay Formation of James Ross Island, Antarctica. Palaeogeography, Palaeoclimatology, Palaeoecology, 94: 119-140.
  • 29. Buatois, L.A., Mángano, M.G., 2011. Ichnology: Organism-Substrate Interactions in Space and Time. Cambridge University Press, Cambridge, UK.
  • 30. Chrząstek, A., Wypych, M., 2016. Trace fossils from the quartz sandstones (Coniacian) from the North Sudetic Synclinorium (Czaple) (in Polish). In: XXIII Konferencja Naukowa Sekcji Paleontologicznej PTG, Abstrakty (eds. K. Pawłowska and D.Pawłowski): 27-28. 21-23.09.2016, Poznań.
  • 31. Chrząstek, A., Wypych, M. 2018. Coniacian sandstones from the North Sudetic Synclinorium revisited: palaeoenvironmental and palaeogeographical reconstructions based on trace fossil analysis and associated body fossils. Geologos, 24: 29-53.
  • 32. Chrząstek, A., Muszer, J,, Solecki, A., Sroka, A.M., 2018. Rosarichnoides sudeticus igen. et isp. nov. and associated fossils from the Coniacian of the North Sudetic Synclinorium (SW Poland). Geological Quarterly, 62: 181-196.
  • 33. Clifton, H.E., Thompson, J.K., 1978. Macaronichnus segregatis: a feeding structure of shallow marine polychaetes. Journal of Sedimentary Petrology, 48: 1293-1302.
  • 34. Coates, L., MacEachern, J.A., 2007. The ichnological signatures of river-and wave-dominated delta complexes: differentiating deltaic and non-deltaic shallow marine successions, Lower Cretaceous Viking Formation and Upper Cretaceous Dunvegan Formation, West-Central Alberta. SEPM Short Course Lecture Notes, 52: 227-254.
  • 35. Cohen, K.M., Finney, S.C., Gibbard, P.L., Fan, J.-X., 2013. The ICS International Chronostratigraphic Chart. Episodes, 36: 199-204.
  • 36. Collinson, J.D., Mountney, N.P., Thompson, D.B., 2006. Sedimentary Structures. Terra Publishing. Harpenden.
  • 37. Dabrio, C.J., Polo, M.D., 1981. Flow regime and bedforms in a ridge and runnel system, S.E. Spain. Sedimentary Geology, 28: 97-110.
  • 38. Drescher, R., 1863. Ueber die Kreide-Bildungen der Gegend von Löwenberg. Zeitschrift der Deutschen Geologischen Gesselfschaft, 14: 291-366.
  • 39. Droser, M.L., Bottjer, D.J., 1986. A semiquantitative field classification of ichnofabric. Journal of Sedimentary Research. 56: 558-559.
  • 40. Droser, M.L., Bottjer, D.J., 1989. Ichnofabric of sandstones deposited in high-energy nearshore environments: measurement and utilization. Palaios 4: 598-604.
  • 41. Dyja, E., 1978. Karta otworu wiertniczego Osieczów N-25 (in Polish). National Geological Archives, PIG-PIB, Warszawa, no. 286163.
  • 42. Ekdale, A.A., Harding, S.C., 2015. Cylindrichnus concentricus Toots in Howard, 1966 (trace fossil) in its type locality, Upper Cretaceous, Wyoming. Annales Societatis Geologorum Poloniae, 85: 427-432.
  • 43. Elliott, T., 1974. Interdistributary bay sequences and their genesis. Sedimentology, 21: 611-622.
  • 44. Engel, W., Drozdowski, S., Falecki, W., 1978. Dokumentacja geologiczna złoża rud miedzi “Wartowice” w kat. C2 (in Polish). Archives, Przedsiębiorstwo Geologiczne, Wrocław.
  • 45. Fenton, C.L., Fenton, M.A., 1937. Burrows and trails from Pennsylvania rocks of Texas. The American Midland Naturalist, 18: 1079-1084.
  • 46. Fillion, D., Pickerill, R.K., 1990. Ichnology of the Upper Cambrian to Lower Ordovician Bell Islands and Wabana groups of eastern Newfoundland, Canada. Palaeontographica Canadiana, 7: 1-119.
  • 47. Frey, R.W., Howard, J.D., 1975. Endobenthic adaptations of juvenile thalassinidean shrimp. Bulletin of the Geological Society of Denmark, 24: 283-297.
  • 48. Frey, R.W., Howard, J.D., 1981. Conichnus and Schaubcylindrichnus: redefined trace fossils from the Upper Cretaceous of the Western Interior. Journal of Paleontology, 55: 800-804.
  • 49. Frey, R.W., Howard, J.D., 1985. Trace fossils from the Panther Member, Star Point Formation (Upper Cretaceous), Coal Creek Canyon, Utah. Journal of Paleontology, 59: 370-404.
  • 50. Frey, R.W., Howard, J.D., 1990. Trace fossils and depositional sequences in a clastic shelf setting, Upper Cretaceous of Utah. Journal of Paleontology, 64: 803-820.
  • 51. Frey, R.W., Howard, J.D., Pryor, W.A., 1978. Ophiomorpha: its morphologic, taxonomic, and environmental significance. Palaeogeography, Palaeoclimatology, Palaeoecology, 23: 1 99-223.
  • 52. Frey, R.W., Pemberton, S.G., Fagerstrom, J.A., 1984. Morphological, ethological, and environmental significance of the ichnogenera Scoyenia and Ancorichnus. Journal of Paleontology, 58: 511-528.
  • 53. Fritsch, A., 1908. Problematica silurica. In: Systeme Silurien du centre de la Boheme (ed. J. Barrande): 1-28. Barrande Fonds, Prague.
  • 54. Fu, S., 1991. Funktion, Verhalten und Einteilung fucoider und lophoctenoider Lebensspuren. Courier Forschungsinstitut Senckenberg, 135: 1-79.
  • 55. Fürsich, F.T., 1973. A revision of the trace fossils Spongeliomorpha, Ophiomorpha and Thalassinoides. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte, (12): 719-735.
  • 56. Fürsich, F.T., 1974. On Diplocraterion Torell 1870 and the significance of morphological features in vertical, spreiten-bearing, U-shaped trace fossils. Journal of Paleontology, 48: 952-962.
  • 57. Gani, M.R., Bhattacharya, J.P., MacEachern, J.A., 2007. Using ichnology to determine relative influence of waves, storms, tides, and rivers in deltaic deposits: Examples from Cretaceous Western Interior Seaway, U.S.A. SEPM Short Course Notes, 52: 209-227.
  • 58. Gibert, J.M. de, 1996. A new decapod burrow system from the NW Mediterranean Pliocene. Revista Espańola de Paleontologia, 11: 251-254.
  • 59. Gibert, J.M. de, Robles, J.M., 2005. Firmground ichnofacies recording high-frequency marine flooding events (Langhian transgression, Vallés-Penedés Basin, Spain). Geologica Acta, 3: 295-305.
  • 60. Gingras, M.K., MacEachern, J.A., 2012. Tidal ichnology of shallow-water clastic settings. In: Principles of Tidal Sedimentology (eds. R.A. Davis, Jr. and R.W. Dalrymple): 57-77. Springert-Verlag, Dordrecht.
  • 61. Gingras, M.K., Räsänen, M.E., Pemberton, S.G., Romero, L.P., 2002. Ichnology and sedimentology reveal depositional characteristics of shoreface parasequences in Miocene Amazonian foreland basin. Journal of Sedimentary Research, 72: 871-883.
  • 62. Gingras, M.K., MacEachern, J.A., Pickerill, R.K., 2004. Modern perspectives on the Teredolites Ichnofacies: observations from Willapa Bay, Washington. Palaios, 19: 79-88.
  • 63. Gingras, M.K., Bann, K.L., MacEachern, J.A., Waldron, J., Pemberton, S.G., 2007. A conceptual framework for the application of trace fossils. SEPM Short Course Notes, 52: 1-26.
  • 64. Górniak, K., 1986. O sedymentacji santonu niecki północno-sudeckiej i możliwości występowania złóż surowców ilastych (in Polish with English summary). Archiwum Mineralogiczne, 41: 123-134.
  • 65. Haq, B.U., 2014. Cretaceous eustasy revisited. Global and Planetary Change, 114: 44-58.
  • 66. Harms, J.C., Southard, J.B., Spearing, D.R., Walker, R.G., 1975. Depositional environments as interpreted from primary sedimentary structures and stratification sequences. SEPM Short Course Lecture Notes, 2.
  • 67. Harms, J.C., Southard, J.B., Walker, R.G., 1982. Structures and sequences in clastic rocks. SEPM Short Course Lecture Notes, 9.
  • 68. Hauck, T.E., Dashtgard, S.E., Pemberton, S.G., Gingras, M.K., 2009. Brackish-water ichnological trends in a microtidal barrier-island embayment system, Kouchibouguac National Park New Brunswick, Canada. Palaios, 24: 478-496.
  • 69. Häntzschel, W., 1975. Trace fossils and problematica. In: Treatise on Invertebrate Paleontology, Second edition, Part W (ed. C. Teichert): W85-W86. Geological Society of America and Kansas University Press. Lawrence, Kansas.
  • 70. Howard, J.D., 1971. Trace fossils as paleoecological tools. In: Recent Advances in Paleoecology and Ichnology. Short Course Lecture Notes (eds. J.D. Howard, J.W. Valentine and J.E. Warme): 184-212. American Geological Institute.
  • 71. Howard, J.D., 1975. The sedimentological significance of trace fossils. In: The Study of Trace Fossils: a Synthesis of Principles, Problems and Procedures in Ichnology (ed. R.W. Frey): 131-146. Springer, New York.
  • 72. 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.
  • 73. Ilgar, A., Nemec, W., 2005. Early Miocene lacustrine deposits and sequence stratigraphy of the Ermenek Basin, Central Taurides, Turkey. Sedimentary Geology, 173: 233-275.
  • 74. Jumars, P.A., Nowell, A.R.M., 1984. Fluid and sediment dynamic effects on marine benthic community structure. American Zoologist, 24: 45-55.
  • 75. Keighley, D.G., Pickerill, R.K., 1994. The ichnogenus Beaconites and its distinction from Ancorichnus and Taenidium. Palaeontology, 37: 305-337.
  • 76. Kelly, S.R.A., Bromley, R.G., 1984. Ichnological nomenclature of clavate borings. Palaeontology, 27: 793-807.
  • 77. Knaust, D., 2017. Atlas of Trace Fossils in Well Core: Appearance, Taxonomy and Interpretation. Springer International Publishing, Berlin, New York.
  • 78. Knaust, D., Bromley, R.G. eds., 2012. Trace Fossils as indicators of sedimentary environments. Developments in Sedimentology, 64.
  • 79. Knox, L.W., Miller, M.F., 1985. Environmental control of trace fossil morphology. Society of Economic Paleontologists and Mineralogists, 35: 167-176.
  • 80. Kochanowska, J., 1988. Karta otworu wiertniczego Zebrzydowa-4 (in Polish). Archives of Przedsiębiorstwo Geologiczne we Wrocławiu PROXIMA S.A., Report No. DV/2827.
  • 81. Komar, P.D., Miller, M.C., 1975. The initiation of oscillatory ripple marks and the development of plane-bed at high shear stresses under waves. Journal of Sedimentary Petrology, 45: 697-703.
  • 82. Krutzsch, W., 1966. Die sporenstratigraphische Gliederung der Oberkreide im nordlichen Mitteleuropa. Abhandlungen des Zentralen Geologischen Institutes, 8: 79-111.
  • 83. Książkiewicz, M., 1977. Trace fossils in the Flysch of the Polish Carpathians. Palaeontologia Polonica, 36: 1-208.
  • 84. 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.
  • 85. Leszczyński, S., Nemec, W., 2015. Dynamic stratigraphy of composite peripheral unconformity in a foredeep basin. Sedimentology, 62: 645-680.
  • 86. Leymerie, M.A., 1842. Suite du mémoire sur le terrain Crétacé du departement de L’Aube. Bulletin de la Societe geologique de France, Memoire, 5: 1-34.
  • 87. Longhitano, S.G., Nemec, W., 2005. Statistical analysis of bed thickness variation in a Tortonian succession of biocalcarenitic tidal dunes, Amantea Basin, Calabria, southern Italy. Sedimentary Geology, 179: 195-224.
  • 88. MacEachern, J.A., Pemberton, S.G., 1992. Ichnological aspects of Cretaceous shoreface successions and shoreface variability in the Western Interior Seaway of North America. SEPM Core Workshop, 17: 57-84.
  • 89. MacEachern, J.A., Zaitlin, B.A., Pemberton, S.G., 1999. A sharp-based sandstone of the Viking Formation, Joffre Field, Alberta, Canada: criteria for recognition of transgressively incised shoreface complex. Journal of Sedimentary Research, 69: 876-892.
  • 90. MacEachern, J.A., Bann, K.L., Pemberton, S.G., Gingras, M.K., 2007a. The ichnofacies paradigm: high resolution paleoenvironmental interpretation of the rock record. SEPM Short Course Notes, 52: 27-64.
  • 91. MacEachern, J.A., Pemberton, S.G., Bann, K.L., Gingras, M.K., 2007b. Departures from the archetypal ichnofacies: effective recognition of environmental stress in the rock record. SEPM Short Course Notes, 52: 65-93.
  • 92. 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.
  • 93. Maples, Ch.G., West, R.R., 1989. Lockeia not Pelecypodichnus. Journal of Paleontology, 63: 694-696.
  • 94. Marcinowski, R., Wierzbowski, A., 1975. On the nature of decapod burrows “Spongia sudolica” of Zaręczny (1878). Acta Geologica Polonica, 25: 399-405.
  • 95. Marciński, J., 1970. Karta otworu wiertniczego Jagodzin 1 (in Polish). National Geological Archives, PIG-PIB, Warszawa, no. 290731.
  • 96. Martin, A.J., Rindsberg, A.K., 2007. Arthropod tracemakers of Nereites? Neoichological observations of juvenile limulids and their paleoichnological applications. In: Trace Fossils: Concepts, Problems, Prospects (ed. W.M. Miller, III): 478-491. Elsevier, Amsterdam.
  • 97. Mángano, M.G., Buatois, L.A., 2004. Reconstructing Early Phanerozoic intertidal ecosystems: ichnology of the Cambrian Campanario Formation in northwest Argentina. Fossils and Strata, 51: 17-38.
  • 98. McIlroy, D. ed., 2004. The application of lchnology to palaeoenvironmental and stratigraphic analysis. Geological Society Special Publications, 228: 1-493.
  • 99. Messina, C., Nemec, W., Martinius, A.W., Elfenbein, C., 2014. The Garn Formation (Bajocian-Bathonian) in the Kristin Field, Halten Terrace: its origin, facies architecture and primary heterogeneity model. IAS Special Publication, 47: 513-550.
  • 100. Middleton, G.V., Southard, J.B., 1978. Mechanics of sediment movement. SEPM Short Course 3 Lecture Notes, 3.
  • 101. Milewicz, J., 1956. Zaburzenie utworów kredowych w Rakowicach Małych (in Polish). Przegląd Geologiczny, 4: 361-364.
  • 102. Milewicz, J., 1958. Podział stratygraficzny osadów kredowych w niecce północno-sudeckiej (in Polish). Przegląd Geologiczny, 6: 386-388.
  • 103. Milewicz, J., 1965. Facies of Upper Cretaceous in the eastern part of the North Sudetic Basin (in Polish with English summary). Biuletyn Instytutu Geologicznego, 170: 15-80.
  • 104. Milewicz, J., 1966. Kreda z głębokiego otworu Węgliniec IG1 (in Polish). Kwartalnik Geologiczny, 10 (4) 1144-1146.
  • 105. Milewicz, J., 1970. The Cretaceous of the Jerzmanice Graben (Sudetes) (in Polish with English summary). Biuletyn Instytutu Geologicznego, 239: 37-66.
  • 106. Milewicz, J., 1973. Niecka północnosudecka (in Polish). In: Budowa Geologiczna Polski, tom 1 - Stratygrafia, część 2 - Mezozoik (ed. S. Sokołowski): 619-628. Wyd. Geol., Warszawa.
  • 107. Milewicz, J., 1979. Distribution of Cretaceous rocks in the North Sudetic Basin (in Polish with English summary). Kwartalnik Geologiczny, 23 (4): 819-825.
  • 108. 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: 385-389.
  • 109. Milewicz, J., 1991a. On the sedimentation conditions of the Coniacian sandstones in the North-Sudetic Basin (in Polish with English summary). Acta Universitatis Vratislaviensis No 1276, Prace Geologiczno-Mineralogiczne, 19: 47-61.
  • 110. Milewicz, J., 1991b. On development of the North Sudetic Cretaceous Basin (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 367: 135-141.
  • 111. Milewicz, J., 1997. Upper Cretaceous of the North Sudetic Depression (litho-and biostratigraphy, paleogeography, tectonics and remarks on raw materials) (in Polish with English summary). Prace Geologiczno-Mineralogiczne, 61: 5-54.
  • 112. Milewicz, J., 1998. Distribution of Coniacian sandstones in the North Sudetic Basin (in Polish with English summary). Acta Universitatis Vratislaviensis No 2004, Prace Uniwersytetu Wrocławskiego, 64: 101-109.
  • 113. Milewicz, J., 2006. On Santonian deposits within the North Sudetic Basin (in Polish). Przegląd Geologiczny, 54: 693-694.
  • 114. Milewicz, J., Podemski, M., Witwicka, E., 1968. New data on Upper Cretaceous in the western part of the North Sudetic Trough (in Polish with English summary). Kwartalnik Geologiczny, 12 (1): 143-152.
  • 115. Miller, M.F., Curran, H.A., Martino, R.L., 1998. Ophiamorpha nodosa in estuarine sands of the Lower Miocene Calvert Formation at the Pollack Farm Site, Delaware. Delaware Geological Survey, Special Publication, 21: 41-46.
  • 116. Miller, W., III, Aalto, K.R., 2008. Rosselia ichnofabric in the Miocene Pullen Formation, northwestern California: implications for the interpretation of regional tectonics. Palaios, 23: 329-335.
  • 117. Mitchell, A.J., Uličný, D., Hampson, G.J., Allison, P.A., Gorman, G.J., Piggot, M.D., Wells, M.R., Pain, C.C., 2010. Modelling tidal current-induced bed shear stress and palaeocirculation in an epicontinental seaway: the Bohemian Cretaceous Basin, Central Europe. Sedimentology, 57: 359-388.
  • 118. Morrisey, D.J., Howitt, L., Underwood, A.J., Stark, J.S., 1992. Spatial variation in soft-sediment benthos. Marine Ecology Progress Series, 81: 197-204.
  • 119. Musstow, R., 1968. Beitrag zur Stratigraphie und Paläogeographie der Oberkreide und des Albs in Ostbrandenburg und der östlichen Niederlausitz. Geologie, 17: 1-71.
  • 120. Müller, A.H., 1970. Über Ichnia vom Typ Ophiomorpha und Thalassinoides (Vestigia invertebratorum, Crustacea). Monatshefte der deutschen Akademie der Wissenschaften zu Berlin, 12: 775-787.
  • 121. Nádaskay, R., Uličný, D., 2014. Genetic stratigraphy of Coniacian deltaic deposits of the northwestern part of the Bohemian Cretaceous Basin. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften, 165: 547-575.
  • 122. Nara, M., 2006. Reappraisal of Schaubcylindrichnus: a probable dwelling/feeding structure of a solitary funnel feeder. Palaeogeography Palaeoclimatology Palaeoecology, 240: 439-452.
  • 123. Nara, M., Seike, K., 2004. Macaronichnus segregatis - like traces found in the modern foreshore sediments of the Kujukuri-hama coast, Japan (in Japanese with English summary). Journal of the Geological Society of Japan, 110: 545-551.
  • 124. Olariu, C., Bhattacharya, J.P., 2006. Terminal distributary channels and delta front architecture of river-dominated delta systems. Journal of Sedimentary Research, 76: 212-233.
  • 125. Partsch, J., 1896. Schlesien. Eine Landeskunde für das deutsche Volk. 1. Teil: Das ganze Land. Ferdinand Hirt, Breslau.
  • 126. Pedersen, G.K., Bromley, R.G., 2006. Ophiomorpha irregulaire, rare trace fossil in shallow marine sandstones, Cretaceous Atane Formation, West Greenland. Cretaceous Research, 27: 964-972.
  • 127. Pemberton, S.G., Frey, R.W., 1982. Trace fossil nomenclature and the Planolites-Palaeophycus dilemma. Journal of Paleontology, 56: 843-881.
  • 128. Pemberton, S.G., MacEachern, J.A., Dashtgard, S.E., Bann, K.L., Gingras, M.K., Zonneveld, J.-P., 2012. Shorefaces. Developments in Sedimentology, 64: 563-604.
  • 129. Pollard, J.E., Goldring, R., Buck, S.G., 1993. Ichnofabrics containing Ophiomorpha: significance in shallow-water facies interpretation. Journal of the Geological Society, 150: 149-164.
  • 130. Pożaryski, W., Brochwicz-Lewiński, W., Brodowicz, Z., Jaskowiak-Szoenejch, M., Milewicz, J., Sawicki, L., Uberna, T., 1979. Geological map of Poland and adjoining countries, without Cenozoic formations (without Quaternary in the Carpathians). Wyd. Geol., Warszawa.
  • 131. Ranger, M.J., Pemberton, S.G., 1992. The sedimentology and ichnology of estuarine point bars in the McMurray Formation of the Athabasca Oil Sands deposit, north-eastern Alberta, Canada. SEPM Core Workshop, 17: 401-421.
  • 132. Reineck, H.-E., Singh, I.B., 1980. Depositional Sedimentary Environments. Springer, Berlin.
  • 133. Retallack, G.J., 1988. Field recognition of paleosols. GSA Special Papers, 216: 1-20.
  • 134. Rhoads, D.C., 1973. The influence of deposit-feeding benthos on water turbidity and nutrient recycling. American Journal of Science, 273: 1-22.
  • 135. Rhoads, D.C., Speden, I.G., Waage, K.M., 1972. Trophic group analysis of Upper Cretaceous (Maestrichtian) bivalve assemblages from South Dakota. AAPG Bulletin, 56: 1100-1113.
  • 136. Richardt, N., Wilmsen, M., 2013. Sequence stratigraphy of the lower Upper Cretaceous Elbtal Group (Saxony, Germany): new data from Middle Cenomanian-Upper Turonian outcrops and boreholes. Geophysical Research, EGU General Assembly 2013, Abstracts.
  • 137. Rindsberg, A.K., Kopaska-Merkel, D.C., 2005. Treptichnus and Arenicolites from the Steven C. Minkin Paleozoic footprint site (Langsettian, Alabama, USA). Alabama Paleontological Society Monograph, 1: 121-141.
  • 138. Savrda, C.E., 1991. Teredolites, wood substrates and sea-level dynamics. Geology, 19: 905-908.
  • 139. Savrda, C.E., Smith, M.W., 1996. Behavioural implications of branching and tube-lining in Teredolites. Ichnos, 4: 191-198.
  • 140. Savrda, C.E., Ozalas, K., Demko, T.H., Hutchinson, R.A., Scheiwe, T.D., 1993. Log grounds and the ichnofossil Teredolites in transgressive deposits of the Clayton Formation (Lower Paleocene), western Alabama. Palaios, 8: 311-324.
  • 141. Scupin, H., 1910. Über sudetische prätertiäre junge Krustenbewe-gungen und die Verteilung von Wasser und Land zur Kreidezeit in der Umgebung der Sudeten und des Erzgebirges. Zeitschrift für Naturwissenschaften, 82: 321-344.
  • 142. Scupin, H., 1912-1913. Die Löwenberger Kreide und ihre Fauna. Palaeontographica, Supplement VI. Stuttgart.
  • 143. Scupin, H., 1936. Zur Palaeographie des sudetischen Kreidemeeres. Zeitschrift der Deutschen Geologischen Gesellschaft, 88: 309-325.
  • 144. Schlirf, M., 2000. Upper Jurassic trace fossils from the Boulonnais (northern France). Geologica et Palaeontologica, 34: 145-213.
  • 145. Schlirf, M., 2012. Helicophycus seilacheri n. isp. and Biformites insolitus Linck, 1949 (trace fossils) from the Late Triassic of the Germanic Basin: their taxonomy and palaeoecological relevance. Neues Jahrbuch für Geologie und Paläontologie, 263: 185-198.
  • 146. Seike, K., 2007. Palaeoenvironmental and palaeogeographical implications of modern Macaronichnus segregatis-like traces in foreshore sediments on the Pacific coast of central Japan. Palaeogeography, Palaeoclimatology, Palaeoecology, 252: 497-502.
  • 147. Seike, K., Yanagishima, S., Nara, M., Sasaki, T., 2011. Large Macaronichnus in modern shoreface sediments: identification of the producer, the mode of formation, and paleoenvironmental implications. Palaeogeography, Palaeoclimatology, Palaeoecology, 311: 224-229.
  • 148. Seilacher, A., 1963. Lebensspurren und Salinitatsfazies. Fortschritte in der Geologie von Rheinland und Westfalens, 10: 81-94.
  • 149. Seilacher, A., 1967. Bathymetry of trace fossils. Marine Geology, 5: 413-428.
  • 150. Seilacher, A., 2007. Trace Fossil Analysis. Springer, Berlin.
  • 151. Stepanek, J., Geyer, G., 1989. Spurenfossilien aus dem Kulm (Unterkarbon) des Frankenwaldes. Beringeria, 1: 1-55.
  • 152. Šimo, V., Olšavský, M., 2007. Diplocraterion parallelum Torell, 1870, and other trace fossils from the Lower Triassic succession of the Drienok Nappe in the Western Carpathians, Slovakia. Bulletin of Geosciences, 82: 165-173.
  • 153. Taylor, A.M., Goldring, R., 1993. Description and analysis of bioturbation and ichnofabric. Journal of the Geological Society, 150: 141-148.
  • 154. Taylor, A.M., Goldring, R., Gowland, S., 2003. Analysis and application of ichnofabrics. Earth-Science Reviews, 60: 227-259.
  • 155. Tonkin, N., 2012. Deltas. Developments in Sedimentology, 64: 507-528.
  • 156. Uchman, A., 1995. Taxonomy and palaeoecology of flysch trace fossils: the Marnoso-arenacea Formation and associates facies (Miocene, Northern Apennines, Italy). Beringeria, 15: 1-114.
  • 157. Uchman, A., 1998. Taxonomy and ethology of flysch trace fossils: a revision of the Marian Książkiewicz collection and studies of complementary material. Annales Societatis Geologorum Poloniae, 68: 105-218.
  • 158. Uchman, A., 2009. The Ophiomorpha rudis ichnosubfacies of the Nereites ichnofacies: characteristics and constraints. Palaeogeography, Palaeoclimatology, Palaeoecology, 276: 107-119.
  • 159. Voigt, S., Wagreich, M., Surlyk, F., Walaszczyk, I., Uličny, D., Čech, S., Voigt, T., Wiese, F., Wilmsen, M., Niebuhr, B., Reich, M., Funk, H., Michalik, J., Jagt, J.W.M., Felder, P.J., Schulp, A.S., 2008. Cretaceous. In: The Geology of Central Europe, 2 (Mesozoic and Cenozoic) (ed. T. McCann): 923-998. Geological Society, London.
  • 160. Walaszczyk, I., 2008. North Sudetic Basin (Outer Sudetic Cretatceous). In: The Geology of Central Europe, 2 (Mesozoic and Cenozoic) (ed. T. McCann): 959-960. Geological Society, London.
  • 161. Weimer, R.J., Hoyt, J.H., 1964. Burrows of Callianassa major Say, geologic indicators of littoral and shallow neritic environments. Journal of Paleontology, 38: 761-767.
  • 162. Wetzel, A., 2002. Modern Nereites in the South China Sea - ecological association with redox conditions in the sediment. Palaios, 17: 507-515.
  • 163. Williger, G., 1882. Die Löwenberger Kreidemulde, mit besonderer Berücksichtigung ihrer Fortsetzung in der preussischen Ober-Lausitz. Jahrbuch der Königlichen Preussischen Geologischen Landesanstalt, 1882: 55-125.
  • 164. Zaręczny, S., 1878. O średnich warstwach kredowych w krakowskim okręgu (in Polish). Sprawozdania Komisji Fizjograficznej, Akademii Umiejętności w Krakowie, 12: 7-46.
  • 165. Ziegler, P.A., 1990. Geological Atlas of Western and Central Europe. Shell Publication, Elsevier, Amsterdam.
  • 166. Żelaźniewicz, A., Aleksandrowski, P., Buła, Z., Karnkowski, P.H., Konon, A., Oszczypko, N., Ślączka, A., Żaba, J., Żytko, K., 2011. Regionalizacja Geologiczna Polski (in Polish). Komitet Nauk Geologicznych Polskiej Akademii Nauk, Wrocław.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a596b5c7-d8ef-41a3-8787-5b704dbfebf5
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.