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Abstrakty
The lithology, sedimentary structures and trace fossil association from the Bathonian organic-rich mudstones from Kraków-Silesia Homocline (SW Poland) are described and a preliminary interpretation of the palaeoenvironment is presented. The ore-bearing clays exposed in the Gnaszyn clay-pit are developed as dark grey claysilt deposits with a few horizons of sideritic concretions. Sedimentological analysis has revealed that these deposits originated in the offshore part of a marine basin, below the fair weather wave base. Relict parallel lamination suggests that the predominant mechanism of deposition was quiet settling from suspension. However, locally preserved storm deposits indicate that the sea bottom was affected by offshore flows, deriving coarser material from the nearshore area. The degree of bioturbation is high but the diversity of the trace-fossil association is low. It consists mainly of Chondrites, Trichichnus, pyritized burrows and less common Palaeophycus. Other traces, including Thalassinoides, Planolites, Taenidium and some undetermined burrows, occur mainly in the lower part of the succession. This ichnoassociation combines features of distal Cruziana and Zoophycos ichnofacies, suggesting poor oxygenation of the bottom sediment. Temporary improvements in bottom oxygenation, linked with more intense mixing of water during major storms, resulted in the more diverse trace fossil suite that is found in some intervals of the succession.
Czasopismo
Rocznik
Tom
Strony
281--296
Opis fizyczny
Bibliogr. 57 poz.,
Twórcy
autor
- Institute of Geology, University of Warsaw, Al. Żwirki i Wigury 93, PL-02-089 Warszawa, Poland, Paulina.Leonowicz@uw.edu.pl
Bibliografia
- 1. Beynon, B.M. and Pemberton, S.G. 1992. Ichnological signature of a brackish water deposit: an example from the Lower Cretaceous Grand Rapids Formation, Cold Lake oil sands area, Alberta. In: S.G. Pemberton (Ed.), Applications of Ichnology to Petroleum Exploration, Society of Economic Paleontologists and Mineralogists, Core Workshop Notes, 17, 199–221.
- 2. Bjerstedt, T.W. 1987. Latest Devonian – earliest Mississippian nearshore trace-fossil assemblages from West Virginia, Pennsylvania, and Maryland. Journal of Paleontology, 61 (5), 865–889.
- 3. Buatois, L.A. and Mángano, M.G. 1998. Trace fossil analysis of lacustrine facies and basins. Palaeogeography, Palaeoclimatology, Palaeoecology, 140, 367–382.
- 4. Bromley, R.G. and Ekdale, A.A. 1984. Chondrites: a trace fossil indicator of anoxia in sediments. Science, 224, 872–874.
- 5. Bromley, R.G. and Ekdale, A.A. 1986. Composite ichnofabrics and tiering of burrows. Geological Magazine, 123, 59–65.
- 6. Dadlez, R. and Kopik, J. 1975. Stratigraphy and palaeogeography of the Jurassic. Biuletyn Instytutu Geologicznego, 252, 149–171.
- 7. D’Alessandro, A. and Bromley, R.G. 1987. Meniscate trace fossils and the Muensteria-Taenidium problem. Palaeontology, 30 (4), 743–763.
- 8. Dayczak-Calikowska, K. 1997. Jura środkowa: Sedymentacja, paleogeografia i paleotektonika. In: S. Marek and M. Pajchlowa (Eds), Epikontynentalny perm i mezozoik w Polsce. Państwowy Instytut Geologiczny, Prace, 153, 269–282.
- 9. Dayczak-Calikowska, K. and Kopik, J. 1973. Jura Środkowa. In: Budowa Geologiczna Polski, vol. I – Stratygrafia, part 2 – Mezozoik, 237–324. Wydawnictwa Geologiczne; Warszawa.
- 10. Dayczak-Calikowska, K. and Moryc, W. 1988. Evolution of sedimentary basin and palaeotectonics of the Middle Jurassic in Poland. Kwartalnik Geologiczny, 32, 117–136. [In Polish with English summary]
- 11. Dott, R.H. and Bourgeois, J. 1982. Hummocky stratification: significance of its variable bedding sequences. Geological Society of America Bulletin, 93, 663–680.
- 12. Feldman-Olszewska, A. 1997. Depositional architecture of the Polish epicontinental Middle Jurassic basin. Geological Quarterly, 41, 491–508.
- 13. Feldman-Olszewska, A. 2003a. Badania stopnia natlenienia wód dennych podczas sedymentacji środkowojurajskich czarnych łupków na Kujawach. Tomy Jurajskie, 1, p. 115.
- 14. Feldman-Olszewska, A. 2003b. Skamieniałości śladowe w utworach jury środkowej regionu kujawskiego i ich znaczenie dla interpretacji paleośrodowiska. Tomy Jurajskie, 1, p. 116.
- 15. Feldman-Olszewska, A. 2005. Rozwój sedymentacji w jurze środkowej Kujaw. Tomy Jurajskie, 3, 130–131.
- 16. Feldman-Olszewska, A. 2006. Sedimentary environments of the Middle Jurassic epicontinental deposits from the central part of the Polish Basin (Kuiavian Region). Volumina Jurassica, 4, p. 86.
- 17. Frey, R.W., Curran, H.A. and Pemberton, S.G. 1984. Tracemaking activities of crabs and their environmental significance: the ichnogenus Psilonichnus. Journal of Paleontology, 58 (2), 333–350.
- 18. Frey, R.W. and Pemberton, S.G. 1984. Trace fossil facies models. In: R.G. Walker (Ed.), Facies Models (2nd ed.). Geoscience Canada, Reprint Series 1, 189–207.
- 19. Fu, S. 1991. Funktion, Verhalten und Einteilung fucoider und lophoctenoider Lebensspuren. Courier Forschungsinstitut Senckenberg, 135, 1–79.
- 20. Fürsich, F.T. 1975. Trace fossils as environmental indicators in the Corallian of England and Normandy. Lethaia, 8, 151–172.
- 21. Fürsich, F.T. and Oschmann, W. 1993. Shell beds as tools in basin analysis: the Jurassic of Kachchh, western India. Journal of the Geological Society, London, 150, 169–185.
- 22. Gedl, P. and Kaim, A. 2012. An introduction to palaeoenvironmental reconstruction of Bathonian (Middle Jurassic) ore-bearing clays at Gnaszyn, Kraków-Silesia Homocline, Poland. Acta Geologica Polonica, 62 (3), 267–280.
- 23. Gedl, P., Boczarowski, A., Kaim, A., Kędzierski, M., Leonowicz, P., Smoleń, J., Szczepanik, P. and Witkowska, M. 2006a. Field Trip B1 – Biostratigraphical framework from Bajocian to Oxfordian. Stop B1.5 – Sowa’s and Gliński’s clay pits (uppermost Bajocian-lowermost Bathonian). Lithology, fossil assemblages and palaeoenvironment. In: A. Wierzbowski et al. (Eds), Jurassic of Poland and adjacent Slovakian Carpathians. Field trip guidebook, 149–151. 7th International Congress on the Jurassic System, 6-18 September 2006, Kraków, Poland.
- 24. Gedl, P., Boczarowski, A., Kaim, A., Kędzierski, M., Leonowicz, P., Smoleń, J., Szczepanik, P. and Witkowska, M. 2006b. Field Trip B1 – Biostratigraphical framework from Bajocian to Oxfordian. Stop B1.6 – Leszczyński’s clay pit (Lower Bathonian). Lithology, fossil assemblages and palaeoenvironment. In: A. Wierzbowski et al. (Eds), Jurassic of Poland and adjacent Slovakian Carpathians. Field trip guidebook, 152–153. 7th International Congress on the Jurassic System, 6-18 September 2006, Kraków, Poland.
- 25. Gedl, P., Boczarowski, A., Dudek, T., Kaim, A., Kędzierski, M., Leonowicz, P., Smoleń, J., Szczepanik, P., Witkowska, M. and Ziaja, J. 2006c. Field Trip B1 – Biostratigraphical framework from Bajocian to Oxfordian. Stop B1.7 – Gnaszyn clay pit (Middle Bathonian–lowermost Upper Bathonian). Lithology, fossil assemblages and palaeoenvironment. In: A. Wierzbowski et al. (Eds), Jurassic of Poland and adjacent Slovakian Carpathians. Field trip guidebook, 154–155. 7th International Congress on the Jurassic System, 6–18 September 2006, Kraków, Poland.
- 26. Jennette, D.C. and Pryor, W.A. 1993. Cyclic alternation of proximal and distal storm facies: Kope and Fairview Formations (Upper Ordovician), Ohio and Kentucky. Journal of Sedimentary Petrology, 63, 183–203.
- 27. Kopik, J. 1998. Lower and Middle Jurassic of the north-eastern margin of the Upper Silesian Coal Basin. Biuletyn Państwowego Instytutu Geologicznego, 378, 67–129. [In Polish with English summary]
- 28. Löwemark, L. 2003. Automatic image analysis of X-ray radiography: a new method for ichnofabric evaluation. Deep-Sea Research, part I, 50, 815–827.
- 29. Majewski, W. 2000. Middle Jurassic concretions from Częstochowa (Poland) as indicators of sedimentation rates. Acta Geologica Polonica, 50, 431–439.
- 30. Marynowski, L., Zatoń, M., Simoneit, B.R.T., Otto, A., Jędrysek, M.O., Grelowski, C. and Kurkiewicz, S. 2007. Compositions, sources and depositional environments of organic matter from the Middle Jurassic clays of Poland. Applied Geochemistry, 22, 2456–2485.
- 31. Matyja, B.A. and Wierzbowski, A. 2000. Ammonites and stratigraphy of the uppermost Bajocian and Lower Bathonian between Częstochowa and Wieluń, Central Poland. Acta Geologica Polonica, 50, 191–209.
- 32. Matyja, B.A. and Wierzbowski, A. 2003. Biostratygrafia amonitowa formacji częstochowskich iłów rudonośnych (najwyższy bajos-górny baton) z odsłonięć w Częstochowie. Tomy Jurajskie, 1, 3–6.
- 33. Matyja, B.A. and Wierzbowski, A. 2006a. Field Trip B1 – Biostratigraphical framework from Bajocian to Oxfordian. Stop B1.5 – Sowa’s and Gliński’s clay pits (uppermost Bajocian-lowermost Bathonian). Ammonite biostratigraphy. In: A. Wierzbowski et al. (Eds), Jurassic of Poland and adjacent Slovakian Carpathians. Field trip guidebook, 149–151. 7th International Congress on the Jurassic System, 6–18 September 2006, Kraków, Poland.
- 34. Matyja, B.A. and Wierzbowski, A. 2006b. Field Trip B1 – Biostratigraphical framework from Bajocian to Oxfordian. Stop B1.6 – Leszczyński’s clay pit (Lower Bathonian). Ammonite biostratigraphy. In: A. Wierzbowski et al. (Eds), Jurassic of Poland and adjacent Slovakian Carpathians. Field trip guidebook, 152–153. 7th International Congress on the Jurassic System, 6–18 September 2006, Kraków, Poland.
- 35. Matyja, B.A. and Wierzbowski, A. 2006c. Field Trip B1 – Biostratigraphical framework from Bajocian to Oxfordian. Stop B1.7 – Gnaszyn clay pit (Middle Bathonian–lowermost Upper Bathonian). Ammonite biostratigraphy. In: A. Wierzbowski et al. (Eds), Jurassic of Poland and adjacent Slovakian Carpathians. Field trip guidebook, 154–155. 7th International Congress on the Jurassic System, 6–18 September 2006, Kraków, Poland.
- 36. McBride, E.F. and Picard, M.D. 1991. Facies implications of Trichichnus and Chondrites in turbidites and hemipelagites, Marnoso-arenacea formation (Miocene), Northern Apennines, Italy. Palaios, 6, 281–290.
- 37. Merta, T. and Drewniak, A. 1998. Lithology and depositional environment of the Bathonian clays. In: N.E. Poulsen et al. (Eds), Mellem-Øvre Jura i Polen. EEP-1995 projekt: Det polske Mellem-Øvre Epikratoniske Bassin, Stratigrafi, Facies og Bassin Historie. Program Østeuropa. Danmarks og Grønlands Geologiske Undersøgelse Rapport 1998/14, 25–41.
- 38. Myrow, P.M. 1992. Pot and gutter casts from the Chapel Island Formation, southeast Newfoundland. Journal of Sedimentary Petrology, 62 (6), 992–1007.
- 39. O’Brien, N.R. 1996. Shale lamination and sedimentary processes. In: A.E.S. Kemp (Ed.), Palaeoclimatology and Palaeocenography from Laminated Sediments. Geological Society Special Publication, 116, 23–36.
- 40. Pedersen, G.K. 1985. Thin, fine-grained storm layers in a muddy shelf sequence: an example from the Lower Jurassic in the Stenlille 1 well, Denmark. Journal of the Geological Society, London, 142 (2), 357–374.
- 41. Pemberton, S.G. and Frey, R.W. 1982. Trace fossil nomenclature and the Planolites - Palaeophycus dilemma. Journal of Paleontology, 56 (4), 843–881.
- 42. Pemberton, S.G. and Wightman, D.M. 1992. Ichnological characteristics of brackish water deposits. Society of Economic Paleontologists and Mineralogists, Core Workshop Notes, 17, 141–167.
- 43. Pemberton, S.G., Spila, M., Pulham, A.J., Saunders, T., MacEachern, J.A., Robbins, D. and Sinclair, I.K. 2001. Ichnology and sedimentology of shallow to marginal marine systems: Ben Nevis and Avalon Reservoirs, Jeanne d’Arc Basin. Geological Association of Canada, Short Course Notes, 15, 1–343.
- 44. Pieńkowski, G. et al. 2008. Jurassic. In: T. McCann (Ed.): The Geology of Central Europe. Volume 2: Mesozoic and Cenozoic, 823–922. Geological Society London.
- 45. Reineck, H. E. and Singh, I.B. 1972. Genesis of laminated sand and graded rhythmites in storm-sand layers of shelf mud. Sedimentology, 18, 123–128.
- 46. Romero-Wetzel, M.B. 1987. Sipunculans as inhabitants of very deep, narrow burrows in deep-sea sediments. Marine Biology, 96, 87–91.
- 47. Savrda, C. and Bottjer, D. 1989. Trace-fossil model for reconstructing oxygenation histories of ancient marine bottom waters: application to Upper Cretaceous Niobrara Formation, Colorado. Palaeogeography, Palaeoclimatology, Palaeoecology, 74, 49–74.
- 48. Savrda, C., Bottjer, D. and Gorsline, D. 1984. Development of a comprehensive oxygen-deficient marine biofacies model: evidence from Santa Monica, San Pedro and Santa Barbara Basins, California Continental Borderland. Bulletin of the American Association of Petroleum Geologists, 68, 1179–1192.
- 49. Sellwood, B.W. 1970. The relation of trace fossils to small scale sedimentary cycles in the British Lias. In: T.P. Crimes and J.C. Harper (Eds), Trace fossils. Geological Journal, Special Issue, 3, 489–504.
- 50. Shepard, F.P. 1954. Nomenclature based on sand–silt–clay ratios. Journal of Sedimentary Petrology, 24, 151–158.
- 51. Schieber, J. 1998. Sedimentary features indicating erosion, condensation and hiatuses in the Chattanooga Shale of central Tennessee: relevance for sedimentary and stratigraphic evolution. In: J. Schieber, W. Zimmerle and P.S. Sethi (Eds), Shales and mudstones, 187–215. E. Schweizerbart’sche Verlagsbuchhandlung; Stuttgart.
- 52. Szczepanik, P., Witkowska, M. and Sawłowicz, Z. 2007. Geochemistry of Middle Jurassic mudstones (Kraków-Częstochowa area, southern Poland): interpretation of the depositional redox conditions. Geological Quarterly, 51 (1), 57–66.
- 53. Thomsen, E. and Vorren, T.O. 1984. Pyritization of tubes and burrows from Late Pleistocene continental shelf sediments off North Norway. Sedimentology, 31, 481–492.
- 54. Uchman, A. 1998. Taxonomy and ethology of flysch trace fossils: revision of the Marian Książkiewicz collection and studies of complementary material. Annales Societatis Geologorum Poloniae, 68, 105–218.
- 55. Wetzel, A. and Uchman, A. 1998. Biogenic sedimentary structures in mudstones – an overview. In: J. Schieber, W. Zimmerle and P.S. Sethi (Eds), Shales and mudstones, 351–369. E. Schweizerbart’sche Verlagsbuchhandlung; Stuttgart.
- 56. Zatoń, M., Marynowski, L., Szczepanik, P., Bond, D.P.G. and Wignall, P.B. 2009. Redox conditions during sedimentation of the Middle Jurassic (Upper Bajocian–Bathonian) clays of the Polish Jura (south-central Poland). Facies, 55, 103–114.
- 57. Zatoń, M., Machocka, S., Wilson, M.A., Marynowski, L. and Taylor, P.D. 2011. Origin and paleoecology of Middle Jurassic hiatus concretions from Poland. Facies, 57, 275–300.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-3656-4187