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Variation in clastic input in the Berriasian of the Lower Sub-Tatric (Krížna) succession in the Tatra Mountains (Central Western Carpathians, Poland) : data from magnetic susceptibility and inorganic geochemistry

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Języki publikacji
EN
Abstrakty
EN
The paper deals with the age and palaeoenvironment interpretation of the Late Berriasian sedimentary transition from micritic calpionellid limestones to marls, corresponding to the passage from the Osnica Formation to the Kościeliska Marl Formation, Lower Sub-Tatric succession, Tatra Mts., Central Western Carpathians. Since only reliably dated sections are an appropriate basis for palaeoenvironmental study, the following pelagic and hemipelagic sections were chosen owing to enrichment in fine, clastic material and the existing biostratigraphic and magnetostratigraphic frameworks: Pośrednie III, Rówienka, Gładkie Upłaziańskie and Gęsia Szyja. The authors integrated and interpreted new, detailed data on magnetic susceptibility (MS), rock magnetism and element geochemistry from all of the sections. Well defined biostratigraphy permitted the testing of the potential of MS as a stratigraphic method. Owing to its close connection to selected terrigenous elements (e.g., Al, Th, Zr), MS could be used here as a proxy for detrital input into the basin. Its value as a correlation tool in a pelagic and hemipelagic setting was confirmed. MS permitted not only detailed correlation of the outcrops studied, but also the comparison of them with the Barlya section (Western Balkans) of the same age. This study proves that increased detrital input began in the Calpionellopsis simplex Subzone and continued into the lower part of the Calpionellopsis oblonga Subzone. It might be regarded as synchronous event within the Zliechov Basin and it is not everywhere correlated with the formation boundaries. The change in sedimentation was not only a local phenomenon. The onset of deposition of the terrigenous fraction can be identified in many sections of the Western Tethys. Two independent factors, regional regression and an increase in humidity might have contributed simultaneously to the increased detrital input in Late Berriasian time. However, this picture is further complicated by tectonic activity on local and regional scales.
Rocznik
Strony
139--150
Opis fizyczny
Bibliogr. 69 poz., rys., tab., wykr.
Twórcy
autor
  • Polish Geological Institute – National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland
autor
  • Polish Geological Institute – National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland
Bibliografia
  • 1. Abbink, J., Targona, J., Brinkhuis, H. & Visscher, H., 2001. Late Jurassic to earliest Cretaceous palaeoclimatic evolution of the southern North Sea. Global and Planetary Change, 30: 231256.
  • 2. Adatte, T., Keller, G. & Stinnesbeck, W., 2002. Late Cretaceous to early Paleocene climate and sea-level fluctuations: the Tunisian record. Palaeogeography, Palaeoclimatology, Palaeoecology, 178: 165-196.
  • 3. Bac, M., 1971. Tectonścs of the Bobrowiec unit in the Western Tatra Mts. Acta Geologica Polonica, 21: 279-317.
  • 4. Bac-Moszaszwili, M., 1998. Geology of the Subtatric units, Western Tatra Mts, Poland. Studia Geologica Polonica, 111: 113136.
  • 5. Birkenmajer, K., 1958. Submarine erosional breaks and Late Jurassic synorogenic movements in the Pieniny Klippen Belt geosyncline. Bulletin de l’Académie Polonaise des Sciences, Série des Sciences Chimiques, Géologiques et Géographiques, 6: 551-558.
  • 6. Birkenmajer, K., 1975. Tectonic control of sedimentation at the Jutastic-Cretaceous boundary in the Pieniny Klippen Belt, Carpathians. Memoire BRGM, 86: 294-299.
  • 7. Birkenmajer, K., 1977. Jurassic and Cretaceous lithostratigraphic units of the Pieniny Klippen Belt, Carpathians, Poland. Studia Geologica Polonica, 45: 1-158.
  • 8. Birkenmajer, K., 2000. Correlation of the Lower Subtatric Nappe partial units across the Biała Woda Valley, Tatra Mts, Carpathians. Bulletin of the Polish Academy of Sciences, 48: 231245.
  • 9. Bover-Arnal, T. & Strasser, A., 2013. Relative sea-level change, climate and sequence boundaries insights from the Kimmeridgian to Berriasian platform carbonates of Mount Saleve (E France). International Journal of Earth Sciences, 102: 493515.
  • 10. Brumsack, H. J., 2006. The trace metal content of recent organic carbon-rich sediments: implications for Cretaceous black shale formation. Palaeogeography, Palaeoclimatology, Palaeoecology, 232: 344-361.
  • 11. Calvert, S. E. & Pedersen, T. F., 1993. Geochemtstry of Recent oxic and anoxic marine sediments: Implications for the geological record. Marine Geology, 113: 67-88.
  • 12. Da Silva, A. C., Dekkers, M. J., Mabille, C. & Boulvain, F., 2012. Magnetic susceptibility and its relationship with paleoenvironments, diagenesis and remagnetization: examples from the Devonian carbonates of Belgium. Studia Geophysica et Geodetica, 56: 677-704.
  • 13. Da Silva, A. C., De Vleeschouwer, D., Boulvain, F., Claeys, P., Fagel, N., Humblet, M., Mabille, C., Michel, J., Sardar Abadi, M., Pas, D. & Dekkers, M. J., 2013. Magnetic susceptibility as a high-resolution correlation tool and as a climatic proxy in Paleozoic rocks - merits and pitfalls: examples from the Devonian in Belgium. Marine and Petroleum Geology, 46: 173189.
  • 14. Ellwood, B. B., Crick, R. E., Hassani, A. E., Benoist, S. L. & Young, R. H., 2000. Magnetosusceptibility event and cyclostratigraphy method applied to marine rocks: Detrital input vs carbonate productivity. Geology, 28: 1135-1138.
  • 15. Faupl, P., Császár, G. & Mišik, M., 1997. Cretaceous and Palaeogene sedimentary evolution in the Eastern Alps, Western Carpathians and North Pannonian region: an overview. Acta Geologica Hungarica, 40: 273-305.
  • 16. Golonka, J. & Krobicki, M., 2001. Upwelling regime in the Carpathian Tethys: a Jurassic-Cretaceous palaeogeographic and paleoclimatic perspective. Geological Quarterly, 45: 15-32.
  • 17. Golonka, J., Krobicki, M., Oszczypko, N., Slączka, A. & Słomka, T., 2003. Geodynamic evolution and palaeogeography of the Polish Carpathians and adjacent areas during Neo-Cimmerian and preceding events (latest Triassic - earliest Cretaceous). In: McCann, T. & Saintot, A. (eds), Tracing tectonic deformation using sedimentary record. Geological Society London, Special Publications, 208: 138-158.
  • 18. Grabowski, J., Krzemiński, L., Schnyder, J., Sobień, K., Hejnar, J., Koptiková, L., Pszczółkowski, A. & Schnabl, P., 2014a. Integrated magnetic susceptibility and geochemical record of δ13C anomaties in the Berriasian and Valanginian sections from the Tethyan domain (Western Carpathians, Poland). In: Rocha, R., Pais, J., Kullberg, J. C. & Finney, S. (eds), STRATI 2013. First International Congress on Stratigraphy: At the Cutting Edge of Stratigraphy. Springer Geology, 9: 847-851.
  • 19. Grabowski, J., Lakova, I., Schnabl, P., Sobień, K. & Petrova, S., 2014b. Berriasian bio- and magnetostratigraphy and magnetic susceptibility of the Barlya section (Western Balkan unit, Bulgaria) - preliminary results. VoluminaJurassica, 12: 185194.
  • 20. Grabowski, J., Michalik, J., Pszczółkowski, A. & Lintnerová, O., 2010. Magneto-, and isotope stratigraphy around the Jurassic/Cretaceous boundary in the Vysoká Unit (Malé Karpaty Mountains, Slovakia): correlations and tectonic implications. Geologica Carpathica, 61: 309-326.
  • 21. Grabowski, J. & Pszczółkowski, A., 2006. Magneto- and biostratigraphy of the Tithonian-Berriasian pelagic sediments in the Tatra Mountains (central Western Carpathians, Poland): sedimentary and rock magnetic changes at the Jurassic/Cretatceous boundary. Cretaceous Research, 27: 398-417.
  • 22. Grabowski, J., Schnyder, J., Sobień, K., Koptiková, L., Krzemiński, L., Pszczółkowski, A., Hejnar, J. & Schnabl, P., 2013. Magnetic susceptibility and spectral gamma logs in the Tithonian-Berriasian pelagic carbonates in the Tatra Mts (Western Carpathians, Poland): palaeoenvironmental changes at the Jurassic/Cretaceous boundary. Cretaceous Research, 43: 1-17.
  • 23. Guzik, K. & Kotański, Z., 1963. La tectonique de la zone subtatrique de Zakopane. Acta Geologica Polonica, 13: 388-424. [In Polish, with French summary.]
  • 24. Hardenbol, J., Thierry, J., Harley, M. B., Jacquin, T., de Graciansky, P.-C. & Vail, P. R., 1998. Mesozoic and Cenozoic sequence chronostratigraphic framework of European basins. Appendix. SEPMSpecial Publication, 160: 763-786.
  • 25. Haq, B. U., 2014. Cretaceous eustasy revisited. Global and Planetary Change, 113: 44-58
  • 26. Haq, B. U., Hardenbol, J. & Vail, P. R., 1987. Chronology of fluctuating sea levels since the Triassic (250 million years ago to present). Science, 235: 1156-1167.
  • 27. Jablonský, J., Sýkora, M. & Aubrecht, R., 2001. Detritic Cr-spinels in Mesozoic sedtmentary rocks of the Western Carpathians (overview of the latest knowledge). Mineralia Slovaca, 33, 487-498. [In Slovak, with English summary.]
  • 28. Jach, R., Djerić, N., Gorican, Š. & Reháková, D., 2014. Integrated stratigraphy of the Middle-Upper Jurassic of the Krížna Nappe, Tatra Mountains. Annales Societatis Geologorum Po- loniae, 84: 1-33.
  • 29. Jurewicz, E., 2005. Geodynamic evolution of the Tatra Mts. and the Pieniny Klippen Belt (Western Carpathians): probtems and comments. Acta Geologica Polonica, 55: 295-338.
  • 30. Kotański, Z., 1965. La structure géologique de la chame subta- trique entre la vallée de Mała Łąka et la vallée Kościeliska dans les Tatras Occidentales. Acta Geologica Polonica, 15: 257-330. [In Polish, with French summary.]
  • 31. Krische, O., Bujtor, L. & Gawlick, H.-J., 2013. Calpionellid and ammonite biostratigraphy of uppermost Jutas tic to Lower
  • 32. Cretaceous sedimentary rocks from the Leube quarry (Northern Calcareous Alps, Salzburg, Austria). Austrian Journal of Earth Sciences, 106: 26-45.
  • 33. Krobicki, M., 1994. Stratigraphic significance and palaeoecology of the Tithonian-Berriasian brachiopods in the Pieniny Klippen Belt, Carpathians. Studia Geologica Polonica, 106: 89-156.
  • 34. Krobicki, M., 1996. Neo-Cimmerian uplift of intraoceanic Czorsztyn pelagic swell (Pieniny Klippen Belt, Polish Carpathians) indicated by the change of brachiopod assemblages. In: Ricardi, A. C. (ed.), Advances in Jurassic Research. Geo-Research Forum, 1-2: 255-264.
  • 35. Krobicki, M., Golonka, J. & Słomka, T., 2010. Latest Jurassic- earliest Cretaceous mass movements in the Polish part of the Pieniny Klippen Belt and Silesian Unit (Outer Flysch Carpathians). In: Christofides, G., Kantiranis, N., Kostopoulos, S. & Chatzipetros, A. (eds), Proceedings of the XIXCBGA Congress, Thessaloniki, Greece, 23-26 September 2010. Scientific Annals of the School of Geology, Aristotle University of Thessaloniki, Faculty of Sciences, Special volume, 100: 209-219.
  • 36. Lakova, I. & Petrova, S., 2013. Towards a standard Tithonian to Valanginian calpionellid zonation of the Tethyan Realm. Acta Geologica Polonica, 63: 201-221.
  • 37. Lakova, I., Tchoumatchenco, P., Ivanova, D. & Koleva-Rekalova, E., 2007. Callovian to Lower Cretaceous pelagic carbonates in the West Balkan Mountain (Komshtitsa and Barlya secttions): integrated biostratigraphy and microfacies. Geologica Balcanica, 36: 81-89.
  • 38. Lefeld, J., 1974. Middle-Upper Jurassic and Lower Cretaceous biostratigraphy and sedimentology of the sub-tatric succession in the Tatra Mts (Western Carpathians). Acta Geologica Polonica, 24: 277-364.
  • 39. Lefeld, J., 1999. Tectomcs of the Subtatric units, Eastern Tatra Mts. Studia Geologica Polonica, 115: 139-166.
  • 40. Lefeld, J. (ed.), Gaździcki, A., Iwanow, A., Krajewski, K. & Wójcik, J., 1985. Jurassic and Cretaceous lithostratigraphic units of the Tatra Mountains. Studia Geologica Polonica, 84: 1-93.
  • 41. McCann, T. & Saintot, A., 2003. Tracing tectonic deformation using sedimentary record: an overview. In: McCann, T. & Saintot, A. (eds), Tracing Tectonic deformation using sedimentary record. Geological Society London, Special Publications, 208: 1-28.
  • 42. Michalik, J., 2007. Sedimentary rock record and microfacies indicators of the latest Triassic to mid-Cretaceous tensional development of the Zliechov Basin (Central western Carpathians). Geologica Carpathica, 58: 443-453.
  • 43. Michalik, J., Reháková, D., Hladikova, J. & Lintnerová, O., 1995a. Lithological and biological indicators of orbital changes in Tithonian and Lower Cretaceous sequences, Western Carpathians, Slovakia. Geologica Carpathica, 46: 161-174.
  • 44. Michalik, J., Reháková, D. & Vašicek, Z., 1995b. Early Cretaceous sedimenta^ changes in West Carpathian area. Geologica Carpathica, 46: 285-296.
  • 45. Michalik, J., Vašicek, Z. & Borza, V., 1990. Aptychy, tintinidy, a stratigrafia hranicných jursko-kriedových súvrstvi v pro tile Strážovce/zliechovská jednotka križňanského prikrovu, Strážovské vrchy, centrálne Západné Karpaty. Knihovnička Zemního Plynu a Nafty, 9a: 69-92. [In Slovak.]
  • 46. Morales, C., Gardin, S., Schnyder, J., Spangenberg, J., Arnaud- Vanneau, A., Arnaud, H., Adatte, T. & Föllmi, K. B., 2013. Palaeoclimatic and palaeoenvironmental change across the Berriasian-Valanginian boundary along a transect from the Jura plattorm to the Vocontian Batin. Sedimentology, 60: 36-63.
  • 47. Plašienka, D., 1997. Cretaceous tectonochronology of the Central Western Carpathians, Slovakia. Geologica Carpathica, 48: 99-111.
  • 48. Plašienka, D., 2003a. Development of basement involved fold and thrust structures exemplified by the Tatric - Fatric - Veporic nappe system of the Western Carpathians (Slovakia). Geodi- namica Acta, 16: 21-38.
  • 49. Plašienka, D., 2003b. Dynamics of Mesozoic pre-orogenic rifting in the Western Carpathians. Mitteilungen der Österreichischen Geologischen Gesellschaft, 94 (for 2001): 79-98.
  • 50. Plašienka, D., 2012. Jurassic syn-rift and Cretaceous syn-orogenic, coarse-grained deposits related to opening and closure of the Vahic (South Penninic) Ocean in the Western Carpathians - an overview. Geological Quarterly, 56: 601-628.
  • 51. Prokešova, R, Plašienka, D. & Milovský, R., 2012. Structural pattem and emplacement mechanisms of the Križna cover nappe (Central Western Carpathians). Geologica Carpathica, 63: 13-32.
  • 52. Pszczółkowski, A., 1996. Calpionellid stratigraphy of the Tithonian-Berriasian pelagic limestones in the Tatra Mts (Western Carpathians). Studia Geologica Polonica, 109: 103-130.
  • 53. Pszczółkowski, A., 2003. Kościeliska Marl Formation (Lower Cretaceous) in the Pohsh Western Tatra Mountains: lithostratigraphy and microfossil zones. Studia Geologica Polonica, 121: 7-50.
  • 54. Pszczółkowski, A. & Myczyński, R., 2004. Ammonite supported microfossil and nannoconid stratigraphy of the Tithonian- Hauterivian limestones in setected sections of the Branisko succession, Pieniny Klippen Belt (Poland). Studia Geologica Polonica, 123: 133-197.
  • 55. Pszczółkowski, A. & Myczyński, R., 2010. Tithonian-Early Valanginian evolution of deposition along the proto-Caribbean margin of North America recorded in Guaniguanico successions (western Cuba). Journal of South American Earth Sciences, 29: 225-253.
  • 56. Rasser, M. W., Vasicek, Z., Skupien, P., Lobitzer, H. & Boorova, D., 2003. Die Schrambach Formation an ihrer Typuslokalität (Unter-Kreide, Nördliche Kalkalpen, Salzburg): Lithostratigraphische Formalisierung und “historische” Irrtürmer. In: Piller, W. E. (ed.), Stratigraphia Austriaca, 16: 193-216. Österreichische Akademie der Wissenschaften, Schriftenreihe der Erdwissenschaftlichen Kommission, Wien.
  • 57. Reháková, D., 2000. Calcareous dinoflagellate and calpionellid bioevents versus sea-level fluctuations recorded in the West- Carpathian (Late Jurassic/Early Cretaceous) pelagic environments. Geologica Carpathica, 51: 229-243.
  • 58. Riquier, L., Averbuch, O., Devleeschouwer, X. & Tribovillard, N., 2010. Diagenetic versus detrital origin of the magnetic susceptibility variations in some carbonate Frasnian-Famennian boundary sections from Northern Africa and Western Europe: implications for paleoenvironmental reconstructions. International Journal of Earth Sciences, 99: 57-73.
  • 59. Schnyder, J., Baudin F. & Deconinck, J.-F., 2009. Occurrence of organic-matter-rich beds in Early Cretaceous coastal evaporitic setting (Dorset, UK): a link to long term palaeoclimatic changes? Cretaceous Research, 30: 356-366.
  • 60. Schnyder, J., Ruffell, A., Deconinck, J.-F. & Baudin, F., 2006. Conjunctive use of spectral gamma-ray logs and clay mineralogy in defining late Jurassic-early Cretaceous palaeoclimate change (Dorset, U.K.). Palaeogeography, Palaeoclimatology, Palaeoecology, 229: 303-320.
  • 61. Sokołowski, S., 1978. Geology of sub-Tatric zone of the Polish Tatras between Kopy Sołtysie and Białka stream. Prace Muzeum Ziemi, 28: 35-61. [In Polish, with English summary.]
  • 62. Środon, J., Kotarba, M., Biron, A., Such, P., Clauer, N. & Wojtowicz, A., 2006. Diagenetic history of the Podhale-Orava Basin and the underlying Tatra sedimentary structural units (Western Carpathians): evidence from XRD and K-Ar of illite - smectite. Clay Minerals, 41: 751-774.
  • 63. Świerczewska, A. & Pszczółkowski, A., 1997. Skład i pochodzenie materiału detrytycznego piaskowców ogniwa z Krytej (kreda dolna, Tatry). In: Wojewoda, J. (ed.), Obszary źródłowe: zapis w osadach. VI Krajowe Spotkanie Sedymentologów, Lewin Kłodzki, 26-28 września 1997 r. Materiały Konferencyjne. Wind, Wrocław, pp. 55-56. [In Polish.].
  • 64. Tremolada, F., Bornemann, A., Bralower, T. J., Koeberl, C. & van de Schootbrugge, B., 2006. Paleocenographic changes across the Jurassic/Cretaceous boundary: the phytoplankton response. Earth and Planetary Science Letters, 241: 361-371.
  • 65. Tribovillard, N., Algeo, Y. J., Lyons, T. & Riboullleau, A., 2006. Trace metals as paleoredox and productivity proxies: an update. Chemical Geology 232: 12-32.
  • 66. Tucker, M., 2003. Mixed clastic-carbonate cycles and sequences: Quaternary of Egypt and Carboniferous of England. Geologia Croatica, 56: 19-37.
  • 67. Vašíček, Z., Michalik, J. & Reháková, D., 1994. Early Cretaceous stratigraphy, paleogeography and life in Western Carpathians. Beringeria, 10: 3-168.
  • 68. Wendler, J. E., Meyers, S. R., Wendler, I. & Kuss, J., 2014. A mil- lion-year scale astronomical control on Late Cretaceous sea- level. Newsletters on Stratigraphy, 47: 1-19.
  • 69. Wierzbowski, A. & Remane, J., 1992. The ammonite and calpionellid stratigraphy of the Berriasian and lowermost Valanginian in the Pieniny Klippen Belt (Carpathians, Poland). Eclogae geologicae Helvetiae, 85: 871-891.
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Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e2f91f18-37e7-46e5-b88b-b36b1189e271
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