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New data on pre-Eocene karst in the Tatra Mountains, Central Carpathians, Poland

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EN
Abstrakty
EN
Sparry limestone, ferruginous muddy limestone and limestone breccia have been found in the Western Tatra Mts. They occur within Jurassic rocks of the Choč Nappe just below red conglomerates of probable Eocene age. The deposits found bear strong resemblance to the infill of subterranean karst forms. They differ significantly from Quaternary karst deposits of the Tatra Mts. The δ18O values of spelean carbonates suggest crystallisation at relatively high temperatures (over 20°C) whereas their relatively negative δ13C values imply the presence of soil-derived CO2 linked with vegetation dominated by C3 pathway plants. The karst forms and their infill were formed before the Eocene transgression, which shows unequivocally that the Tatra Mts. were subjected to karstification at that time.
Słowa kluczowe
Rocznik
Strony
291--300
Opis fizyczny
Bibliogr. 82 poz., rys., tab.
Twórcy
  • Jagiellonian University, Institute of Geological Sciences, Oleandry 2a, 30-063 Kraków, Poland
autor
  • Jagiellonian University, Institute of Geological Sciences, Oleandry 2a, 30-063 Kraków, Poland
autor
  • Polish Academy of Sciences, Institute of Geological Sciences, Twarda 51/55, 00-818 Warszawa, Poland
Bibliografia
  • 1. Alexandrowicz, S.W., Geroch, S., 1963. Association de petits Foraminifères dans l'eocene de la Tatra (in Polish with French summary). Rocznik Polskiego Towarzystwa Geologicznego, 33: 219-228.
  • 2. Anczkiewicz, A.A., Środoń, J., Zattin, M., 2013. Thermal history of the Podhale Basin in the internal Western Carpathians from the perspective of apatite fission track analyses. Geologica Carpathica, 64: 141-151.
  • 3. Andrusov, D., 1965. Geológia Československých Karpát. Zvázok III (in Slovak). Vydavatel’stvo Slovenskej Akadémie Vied, Bratislava.
  • 4. Aubrecht, R., 2015. Paleokarst, neptunian dykes, collapse breccias, mud mounds. In: Guidebook for the field trips accompanying 31st IAS Meeting of Sedimentology held in Kraków on 22nd-25th of June 2015. (ed. G. Haczewski): 159-193. Poll sh Geological Society, Kraków.
  • 5. Bac-Moszaszwili, M., Burchart, J., Głazek, J., Iwanow, A., Jaroszewski, W., Kotański, Z., Lefeld, J., Mastella, L., Ozimkowski, W., Roniewicz, P., Skupiński, A., Westwalewicz-Mogilska, E., 1979. Geological map of the Polish Tatra Mountains 1:30 000. Wyd. Geol., Warszawa.
  • 6. Baker, A., Ito, E., Smart, P.L., McEwan, R.F., 1997. Elevated and variable values of 13C in speleothems in a British cave system. Chemical Geology, 136: 263-270.
  • 7. Bartholdy, J., Bellas, S.M., Ćosović, V., Fuček, V.P., Keupp, H., 1999. Process controlling Eocene mid-latitude larger foraminifera accumulations: modeling of the stratigraphic architecture of a fore-arc basin (Podhale Basin, Poland). Geologica Carpathica, 50: 435-448.
  • 8. Birkenmajer, K., 1999. Gosau-type conglomerate in the Rusinowa Poland Area, Polish Tatra Mts: its relation to Lower Subtatric Nappe. Bulletin of the Polish Academy of Sciences, Earth Sciences, 48: 117-133.
  • 9. Bosák, P., Horáček, I., Panoš, V., 1989. Paleokarst of Czechoslovakia. In: Paleokarst: a Systematic and Regional Review (eds. P. Bosák, D.C. Ford, J. Głazek and I. Horáček): 77-105. Elsevier, Amsterdam.
  • 10. Číčel, B., 1958. Contribution to the mineralogy of bauxites from the surroundings of Mojtín (in Slovak with English summary). Geologické Práce, Zprávy, 14: 40-55.
  • 11. Činčura, J., 1998a. Alte Paleokarstplateaus am Ostrand des Wiener Beckens (Kleine Karpaten, Slovakei). Zeitschrift für Geomorphologie, N.F., 42: 255-263.
  • 12. Činčura, J., 1998b. Main fealures of the pre-Gosau paleokarst in the Brezovské Karpaty Mts. (Western Carpathians, Slovakia). Geologica Carpathica, 49: 297-300.
  • 13. Činčura, J., Köhler, E., 1995. Palaeoalpine karstification - the longest paleokarst period in the Western Carpathians (Slovakia). Geologica Carpathica, 46: 343-347.
  • 14. Dąbrowska, M., Jurewicz, E., 2013. Character and structural evolution of the Mała Łąka Fault in the Tatra Mts., Carpathians, Poland. Acta Geologica Polonica, 63: 137-151.
  • 15. Dickson, J.A.D., 1993. Crystal growth diagrams as an aid to interpreting the fabrics of caclite aggregates. Journal of Sedimentary Petrology, 63: 1-17.
  • 16. Dreybrodt, W., 1980. Deposition of calcite from thin films of calcareous solutions and the growth of speleothems. Chemical Geology, 29: 89-105.
  • 17. Dworkin, S.I., Nordt, L., Atchley, S., 2005. Determining terrestrial paleotemperatures using the oxygen isotopic composition of pedogenic carbonate. Earth and Planetary Science Letters, 237: 56-68.
  • 18. Dziadzio, P., Różniak, R., Szulc, J., 1993. Origin of the Pleistocene calcite flowstone of two cave (Jakinia Psia and Jaskinia Naciekowa) in the West Tatra Mts. (in Polish with English summary). Przegląd Geologiczny, 41: 767-775.
  • 19. Elliassen, A., Talbot, M.R., 2005. Solution-collapse breccias ofthe Minkinfjellet and Wordiekammen Formations, Central Spitsbergen, Svalbard: a large gypsum palaeokarst system. Sedimentology, 52: 775-794.
  • 20. Fairchild, I.J., Baker, A., 2012. Speleothem Science. From Process to Past Environment. Wiley-Blackwell, Chichester.
  • 21. Ford, D., Williams, P., 2007. Karst Hydrogeology and Geomorphology. Wiley, Chichester.
  • 22. Frisia, S., 2015. Microstratigraphic logging of calcite fabrics in speleothems as tool for palaeoclimatic studies. International Journal of Speleology, 44: 1-16.
  • 23. Frisia, S., Borsato, A., 2010. Karst. In: Carbonates in Continental Settings. Facies, Environments and Processes. Developments
  • 24. in Sedimentology, 61 (eds. A.M. Alonso-Zarza and L.H. Tanner): 269-318. Elsevier, Amsterdam.
  • 25. Gams, I., 2013. Tectonic impact on poljes and minor basins (case study of Dinaric Karst). Acta Carsologica, 34: 25-41.
  • 26. Given, R.K., Wilkinson, B.H., 1985. Kinetic control of morphology, composition and mineralogy of abiotic sedimentary carbonates. Journal of Sedimentary Petrology, 55: 109-119.
  • 27. Głazek, J., 1989. Paleokarst of Poland. In: Paleokarst a Systematic and Regional Review (eds. P. Bosák, D.C. Ford, J. Głazek and I. Horáček): 77-105. Elsevier, Amsterdam.
  • 28. Głazek, J., 2000. Kras przedeoceński w Tatrach (in Polish). In: Materiały 34. Sympozjum Speleologicznego, Kościelisko, 20-22.10.2000 r. (eds. J. Baryła, M. Gradziński and M. Szelei rewicz): 23-25. Sekcja Speleoologiczna Polskiego Towarzystwa Przyrodników im. Kopernika, Kraków.
  • 29. Głazek, J., 2004. Kras przedeoceński w Tatrach (in Polish). In: Geologia Tatr, Ponadregionalny kontekst sedymentologiczny, 21-21406.2004 r.r. (eds. M. Kędzierski, S. Leszczyński and A. Uchman): 85. Polskie Towarzystwo Geologiczne, Kraków.
  • 30. Głazek, J., Grodzicki, J., 1996. Karst and caves (in Polish with English summary). In: Przyroda Tatrzańskiego Parku Narodowego. (eds. Z. Glowaciński, K. Klimek, Z. Mirek and H. Piękoś-Mirkowa). Tatrzański Park Narodowy, Zakopane.
  • 31. Głazek, J., Zastawniak, E., 1999. Teriesl rial plant fossils in the transgressive Paleogene littoral/flysch sequence of the Tatra Mountains (Central Carpathians). Acta Palaeobotanica, Supplement, 2: 293-301.
  • 32. Goddard, G.M., Trask, P.D., DeFord, R.K., Rove, O.N., Singewald, J.T. Jr., Overbeck, R.M., 1970. Rock-color chart. Geological Society of America, Boulder.
  • 33. González, L., Carpenter, S.J., Lohmann, K.C., 1992. Inorganic calcite morphology: roles of fluid chemistry and fluid flow. Journal of Sedimentary Petrology, 62: 382-399.
  • 34. Grabowski, P., 1967. Geology of the Chocz scales of Upłaz, Kończysta and Brama Kantaka east of the Kościeliska Valley. Acta Geologica Polonica, 17: 671-696.
  • 35. Gradziński, M., Szulc, J., 2014. Nacieki jaskiniowe (in Polish). In: Skały osadowe Tatr (eds. R. Jach, T. Rychliński and A. Uchman): 243-250. Wydawnictwa Tatrzańskiego Parku Narodowego, Zakopane.
  • 36. Gradziński, M., Rospondek, M., Szulc, J., 1997. Paleoenvironmental controls and microfacies variability of the flowstone cover from Zvoniv Cave in the Slovakian Karst. Slovak Geological Magazine, 3: 299-313.
  • 37. Gradziński, M., Jach, R., Stworzewicz, E., 2001. Cementation of Holocene slope breccias in the Długa Valley (the Western Tatra Mts.). Annales Societatis Geologorum Poloniae, 71: 105-113.
  • 38. Gradziński, M., Jach, R., Ridi ng, R., Uchman, A., 2006. Słodkowodne stromatolity i onkoidy w zlepieńcach eoceńskich Doliny Suchej Wody w Tatrach (in Poll sh). In: II Polska Konferencja Sedymentologiczna, Materiały konferencyjne (eds. A. Wysocka and M. Jasionowski): 123. Instytut Geologii Podstawowej UW, Warszawa.
  • 39. Gradziński, M., Hercman, H., Kicińska, D., Barczyk, G., Bella, P., Holúbek, P., 2009. Karst in the Tatra Mountains-developments of knowledge in the last thirty years (in Polish with English summary). Przegląd Geologiczny, 57: 674-684.
  • 40. Gradziński, M., Jach, R., Górnikiewicz, E., 2013. Needle-fibre calcite and nanofibres as components of Holocene fissure-filling carbonates in southern Poland. Annales Societatis Geologorum Poloniae, 83: 229-242.
  • 41. Gradziński, M., Hercman, H., Staniszewski, K., 2014. Middle Pleistocene carbonate-cemented colluvium in southern Poland: Its depositional processes, diagenesis and regional palaeoenvironmental significance. Sedimentary Geology, 306: 24-35.
  • 42. Gross, P., Köhler, E., Samuel, O., Snopková, P., Bystrická, H., 1993. Subtatric group (Intracarpathian Paleogene) (in Slovak English summary). In: Geology of Southern and Eastern Orava (eds. P. Gross, E. Köhler, J. Mello, J. Haško, R. Halouzka and A. Nagy): 68-116. Geologický Ústav D. Štúra, Bratislava.
  • 43. Gyori, O., Orbán, R., Mindszenty, A., Fodor, L., Poros, Zs., Eross, A., Benkó, Zs., Molnár, F., 2014. Red calcite: an indicator of paleo-karst systems associated with bauxite unconformities. Geofluids, 14: 459-480.
  • 44. Hays, P.D., Grossmann, E.L., 1991. Oxygen isotopes in meteoric calcite as indicators of continental paleoclimate. Geology, 19: 441-444.
  • 45. Hoefs, J., 1997. Stable Isotope Geochemistry. Springer, Berlin.
  • 46. Ivanovich, M., Harmon, R.S., 1992. Uranium Series Disequilibrium. Applications to Environmental Problems. Clarendon, Oxford.
  • 47. Jach, R., Machaniec, E., 2014. Skały eocenu (in Polish). In: Skały osadowe Tatr (eds. R. Jach, T. Rychliński and A. Uchman): 232-244. Wydawnictwa Tatrzańskiego Parku Narodowego, Zakopane.
  • 48. Jach, R., Machaniec, E., Uchman, A., 2012. The trace fossil Nummiperaeocenica from the Tatra Mountains, Poi and: morphology and palaeoenvironmental implications. Lethaia, 45: 342-355.
  • 49. Kotański, Z., 1965. La structure géologique de la chaîne Subtatrique entre la Vallée de Mała Łąka et la Vallee Kościeliska dans les Tatras Occidentales (in Polish with French summary). Acta Geologica Polonica, 15: 258-330.
  • 50. Kulka, A., 1985. Arni sedimentological model in the Tatra Eocene. Kwartalnik Geologiczny, 29 (1): 31-64.
  • 51. Kuźniar, Cz., 1913. Skały osadowe tatrzańskie. Studium petrograficzne (in Polish). Rozprawy Wydziału Matematyczno-Przyrodniczego Akademii Umiejętności. Serya III, 13A: 131-176.
  • 52. Lefeld, J., 2009. Alpine orogenic phases in the Tatra Mts (in Polish with English summary). Przegląd Geologiczny, 57: 669-673.
  • 53. Lefeld, J., Gaździcki, A., Iwanow, A., Krajewski, K., Wójcik, K., 1985. Jurassic and Cretaceous litostratigraphic units in the Tatra Mts. Studia Geologica Polonica, 84: 7-93.
  • 54. Machaniec, E., Jach, R., Gradziński, M., 2011. Morphotype variation of orthophragminids as a paleoecological indicator: a case study of Late Bartonian limestone, Pod Capkami Quarry, Tatra Mts, Poland. Annales Societatis Geologorum Poloniae, 81: 199-205.
  • 55. Novotný, L., Tulis, J., 2002. Skalné Okno - Pre-Paleogenous karst in the Slovenský Raj (in Slovak with English summary). In: Výskum, využívanie a ochrana jaskýň (ed. P. Bella): 75-79. Správa slovenských jaskýň, Liptovský Mikuláa.
  • 56. Olszewska, B.W., Wieczorek, J., 1998. The Paleogene of the Podhale Basin (Polish Inner Carpathians) - micropaleontological perspective. Przegląd Geologiczny, 46: 721-728.
  • 57. O’Neil, J.R., Clayton, R.N., Mayeda, T.K., 1969. Oxygen isotope fractionation in divalent metal carbonates. Journal of Chemical Physics, 51: 5547-5558.
  • 58. Osborne, R.A.L., 2007. Intensively lithified paleokarst deposits in Okno Cave, Demânovská Vali ey (Slovakia). Geologica Carpathica, 58: 565-578.
  • 59. Passendorfer, E., 1978. Jak powstały Tatry (in Polish). Wyd. Geol., Warszawa.
  • 60. Plašienka, D., 2008. The Western Carpathians. In: The Geology of Central Europe, 2: Mesozoic and Cenozoic (ed. T. McCann): 1181-1217. The Geological Society, London.
  • 61. Radomski, A., 1958. The sedimentological character of the Podhale flysch (in Polish with English summary). Acta Geologica Polonica, 8: 335-409.
  • 62. Repčok, I., Salaj, J., 1998. Distribution of O and C isotopes in freshwater Malenica carbonates (in Slovak with English summary). Zemný Plyn a Nafta, 43: 261-263.
  • 63. Roniewicz, P., 1969. Sedimentation of the Nummulite Eocene in the Tatra (in Polish with English summary). Acta Geologica Polonica, 19: 503-608.
  • 64. Salaj, J., 1991. Lacustrine limestone in Súl’ov conglomerates of the Pružina area and their significance for paleogeographical-tectonical evolution of the area (in Slovak with English summary). Mineralia Slovaca, 23: 215-222.
  • 65. Salaj, J., 1993. The Súl’ov Paleogene of the Domaniža Basin in the light of new findings. Geologica Carpathica, 44: 95-107.
  • 66. Salaj, J., 2001. New knowledge of stratigraphy and paleogeographic-tectonic development of the Súl’ov type Paleogene (in Slovak with English summary). Mineralia Slovaca, 33: 81-90.
  • 67. Salaj, J., 2002. Reflection of paleoclimate in Paleogene sediments of Súl’ov, Biele Karpaty and Javorínky areas (Slovakia). Mineralia Slovaca, 34: 147-158.
  • 68. Schwarcz, H.P., Latham, A.G., 1989. Dirty calcites I: Uranium series dating of contaminated calcite using leachates alone. Isotope Geoscience, 80: 35-43.
  • 69. Sokołowski, S., 1959. Geological map of the Nummulitic Eocene region - northern margin of the Polish Tatra (in Polish with English summary). Biuletyn Instytutu Geologicznego, 149: 197-213.
  • 70. Soták, J., 2010. Paleoenvironmental changes across the Eocene-Oligocene boundary: insights from the Central Carpathian Paleogene Basin. Geologica Carpathica, 61: 393-418.
  • 71. Sotak, J., Pereszlenyi, M., Marschalko, R., Milicka, J., Starek, D., 2001. Sedimentology and hydrocarbon habitat of the submarine-fan deposits of the central Carpathian Paleogene Basin (NE Slovakia). Marine and Petroleum Geology, 18: 87-114.
  • 72. Starek, D., Sliva, L., Vojtko, R., 2012. Eustatic and tectonic control on late Eocene fan delta development (Orava Basin, Central Western Carpathians). Geological Quarterly, 56 (1): 67-84.
  • 73. Środoń, J., Kotarba, M., Biroň, A., Such, P., Clauer, N., Wójtowicz, 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.
  • 74. Uchman, A., 1994. Lower Jurassic carbonate sedimentation controlled by tilted blocks in the Choč Unit in the Tatra Mts., Poland. Zentralblatt für Geologie und Paläontologie, Teil I, 7/8 (for 1993): 875-883.
  • 75. Uchman, A., 1997. Jednostka choczańska (in Polish). In: Przewodnik LXVIII Zjazdu Polskiego Towarzystwa Geologicznego, Zakopane 2-4 października 1997 (eds. J. Lefeld and A. Gaździcki): 94-98. Polskie Towarzystwo Geologiczne, Warszawa.
  • 76. Uchman, A., 2014. Jura płaszczowiny choczańskiej (hronicum) (in Polish). In: Skały osadowe Tatr (eds. R. Jach, T. Rychliński and A. Uchman): 232-244. Wydawnictwa Tatrzańskiego Parku Narodowego, Zakopane.
  • 77. van Calsteren, P., Thomas, L., 2006. Uranium-series dating applications in natural environmental science. Earth-Science Reviews, 75: 155-175.
  • 78. Woolhouse, G., Andrews, J.E., Marca-Bell, A., Dennis, P.E., 2009. Geochemical constraints on the origin of enigmatic cemented chalks, Norfolk, UK. Geological Magazine, 146: 291-299.
  • 79. Worobiec, G., Jach, R., Machaniec, E., Uchman, A., Worobiec, E., 2015. Eocene flora and trace fossils from the Hruby Regiel section in the Tatra Mountains (Poland): taxonomic revision of the Wiktor Kuźniar fossil plant collection. Acta Geologica Polonica, 65: 203-225.
  • 80. Wójcik, Z., 1966. On the ori gin and age of clastic deposits in the Tatra caves (in Polish with English summary). Prace Muzeum Ziemi, 9: 3-130.
  • 81. Wyczółkowski, J., 1956. On some lithological investigations on the Eocene deposits of the Kościeliska Valley in the Tatra Mts. (in Polish with English summary). Biuletyn Instytutu Geologicznego, 109: 45-57.
  • 82. Zachos, J., Pagani, M., Sloan, L., Thomas, E., Billups, K., 2001. Trends, rhythms, and aberrations in global climate 65 Ma to present. Science, 292: 686-693.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
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Bibliografia
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