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Flowstone-like calcite in the andesite of Jarmuta Mt. - dating the Holocene tectonic activity in the vicinity of Szczawnica (Magura Nappe, Outer Carpathians, Poland)

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Abstrakty
EN
Extensional fractures partly filled with calcite showing the characteristics of flowstone have been observed in the andesite from Jarmuta Mt. The isotopic composition of this calcite indicates low-temperature crystallization conditions and its vadose origin. U-Th dating of the flowstone-like calcite indicates ages of [similar to] 2.5-6.5 ka. The calcite grew on a rough and fresh andesite surface, and hence its age may correspond to the age of the extensional fractures. Rhythmically distributed intergrowths of clay minerals present in the calcite may reflect annual climatic oscillations and show that the calcite grew for at least 500 years. The calcite filling the extensional fractures, like the calcite cementing the loosened cataclastic zones cutting the andesite, does not show any features indicating younger deformations. The origin and geometric features of the fractures show that they could have formed in response to increased strike-slip activity within the deep fault zone known as the Dunajec Fault, which may coincide with the fracture zone between the Upper Silesian and Małopolska blocks.
Rocznik
Strony
187--204
Opis fizyczny
Bibliogr. 57 poz.,Fot., rys., tab., wy
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autor
autor
Bibliografia
  • BANAŚ, J., NIEĆ, M. & SALAMON, W. 1993. Bismuth tellurides from the Jarmuta Hill (Pieniny Mts.). Mineralogia Polonica, 24, 33-40.
  • BETENCOURT, J.L., GRISSINO-MAYER, H.D., SALZER, M.W. & SWETMAN T.W. 2002. A test of the “Annual Resolution” in stalagmites using tree rings. Quaternary Research, 58, 197-199.
  • BIRKENMAJER, K. 1958. New contribution to the geology of magmatic rocks of the Szczawnica area, within the Pieniny Klippen Belt. Prace Muzeum Ziemi, 1, 89-103.
  • BIRKENMAJER, K. 1979. Przewodnik geologiczny po pienińskim pasie skałkowym. 236 pp. Wydawnictwa Geologiczne; Warszawa. [In Polish]
  • BIRKENMAJER, K. 1986. Stages of structural evolution of the Pieniny Klippen Belt, Carpathians. Studia Geologica Polonica, 88, 7-32.
  • BIRKENMAJER, K. 2003. Post-collisional Late Middle Miocene (Sarmatian) Pieniny volcanic arc, western Carpathians. Bulletin of the Polish Academy of Sciences, Earth Sciences, 51, 79-89.
  • BIRKENMAJER, K., DELITALA, M.C., NICOLETTI, M. & PETRUCCIANI, C. 1987. K-Ar dating of andesite intrusions (Miocene), Pieniny Mts., Carpathians. Bulletin of the Polish Academy of Sciences, Earth Sciences, 35, 11-19.
  • BIRKENMAJER, K. & PECSKAY, Z. 1999. K-Ar dating of the Miocene andesite intrusions, Pieniny Mts., West Carpathians. Bulletin of the Polish Academy of Sciences, Earth Sciences, 47, 155-169.
  • BIRKENMAJER, K. & PECSKAY, Z. 2000. K-Ar dating of the Miocene andesite intrusions, Pieniny Mts., West Carpathians, Poland: a supplement. Studia Geologica Polonica, 117, 7-25
  • BIRKENMAJER, K., PECSKAY, Z. & SZELIGA, W. 2004. Age relationships between Miocene volcanism and hydrothermal activity at Mt Jarmuta, Pieniny Klippen Belt, West Carpathians (Poland). Studia Geologica Polonica, 123, 279-294.
  • BOGACZ, K. 1980. Budowa geologiczna paleozoiku dębnickiego. In: Problemy tektoniki NE obrzeżenia GZW. Materiały konferencji naukowej w Czatkowicach, 7-29, Kraków.
  • BROCHWICZ-LEWIŃSKI, W., POŻARYSKI, W. & TOMCZYK H. 1983. Ruchy przesuwcze w południowej Polsce w paleozoiku. Przegląd Geologiczny, 12, 651-658. [In Polish]
  • BUŁA, Z., JACHOWICZ, M. & ŻABA, J. 1997. Principal characteristics of the Upper Silesian Block and Małopolska Block border zone, Southern Poland. Geological Magazine, 134, 669-677.
  • CHENG, H., EDWARDS, R.L., HOFF, J., GALLUP, C.D., RICHARDS, D.A. & ASMEROM, Y, 2000. The half-lives of uranium-234 and thorium-230. Chemical Geology, 169, 17-33.
  • DULIŃSKI, M., GRABCZAK, J., KOSTECKA, A. & WĘCŁAWIK, S. 1995. Stable isotope composition of spelean calcites and gaseous CO2 from Tylicz (Polish Carpathians). Chemical Geology, 125, 271-280.
  • FAIRCHILD, I.J., BAKER, A., BORSATO, A., FRISIA S., HINTON, R.W., MCDERMOTT, F. & TOOTH, A.F. 2001. Annual to sub-annual resolution of multiple trace-element trends in speleothems. Journal of the Geological Society of London, 158, 831-841.
  • GORKA, P. & HERCMAN, H. 2002. URANOTHOR v. 2.6. Delphi Code of calculation program and user guide. Unpublished report, Archive of Quaternary Geology Department, Institute of Geological Sciences, PAS, Warsaw.
  • GROMET, L.P., DYMEK, R.F., HASKIN, L.A. & KOROTEV, R.L. 1984. The “North American shale composite”: its compilation, major and trace element characteristics. Geochimica et Cosmochimica Acta, 48, 2469-2482.
  • HAYS, P.D. & GROSSMAN, E.L. 1991. Oxygen isotopes in meteoric calcite cements as indicators of continental paleoclimate. Geology, 19, 441–444.
  • HUMNICKI, W. 2006. Isotopic study of the Pieniny Mts. springs. Przyroda i człowiek, 9, 23- 27. [In Polish with English summary]
  • IVANOVICH, M. & HARMON, R.S. 1992. Uranium series disequilibrium: applications to earth, marine and environmental sciences. 2nd Ed. Clarendon Press; Oxford.
  • JUREWICZ, E. 1994. Structural analysis of the Pieniny Klippen Belt at Jaworki, Carpathians, Poland. Studia Geologica Polonica, 106, 7-87.
  • JUREWICZ, E. 1997. The contact between the Pieniny Klippen belt and Magura Unit (the Małe Pieniny Mts.). Geological Quarterly, 41, 315-326.
  • JUREWICZ, E. 2005. Geodynamic evolution of the Tatra Mts. and the Pieniny Klippen Belt (Western Carpathians): problems and comments. Acta Geologica Polonica, 55, 295-338.
  • JUREWICZ, E. & NEJBERT, K. 2005. Geotectonic position of the so-called “Pieniny Mts. andesites”. Mineralogical Society of Poland – Special Papers, 25, 179-183.
  • LEŚNIAK, P., SAKAI, H., ISHIBASHI, J. & WAKITA, H. 1997. Mantle helium signal in the West Carpathians, Poland. Geochemical Journal, 31, 383-394.
  • LINDNER, L. 1992. Holocen. In: Czwartorzęd. Osady, metody badań, stratygrafia. 613-635. Wydawnictwo PAE ; Warszawa. [In Polish]
  • McCREA, J.M. 1950. The isotopic composition of carbonate and paleotemperature scale. Journal of Chemical Physics, 18, 849-857.
  • MALINOWSKI, M.T., ŻELAŹNIEWICZ, A., GRAD, M., GUTERCH, A. & JANIK, T. 2005. Seismic and geological structure of the crust in the transition from Baltica to Palaeozoic Europe in SE Poland – CELEBRATION 2000 experiment, profile CEL02. Tectonophysics, 401, 55-77.
  • MAŁKOWSKI, S. 1918. Le métamorphisme du contact et le filon méttalifère dans de mont Jarmuta près de Szczawnica. Sprawozdania Towarzystwa Naukowego, 11, 681-698. [In Polish with French summary]
  • MAŁKOWSKI, S. 1921. Les andesites des environs de Piénines. Prace Państwowego Instytutu Geologicznego, 1, 3-67. [In Polish with French summary]
  • MAŁKOWSKI, S. 1923. Sur la relation entre les filons d’ andésites sur la structure géologique des environs de Piénines. Sprawozdania Państwowego Instytutu Geologicznego, 2, 29-38. [In Polish with French summary]
  • MAŁOSZEWSKI, S. 1958. Anomalie magnetyczne w Pieninach. Prace Muzeum Ziemi, 1, 105-113. [In Polish]
  • MAŁOSZEWSKI, S. 1962. Magnetic measurement of andesite occurrence in the vicinity of Szczawnica. Prace Geologiczne Polskiej Akademii Nauk, 10, 1-140.
  • MICHALIK, M., LADENBERGER, A., SKUBLICKI, Ł., WARZECHA, M. & ZYCH, B. 2004. Petrological characteristics of the Pieniny andesites. Mineralogical Society of Poland – Special Papers, 24, 283-286.
  • MICHALIK, M., LADENBERGER, A., SKIBA, M., WARZECHA, M. & ZYCH, B. 2005. Mineralogical characteristics of the Pieniny andesites. Mineralogical Society of Poland – Special Papers, 25, 333-336.
  • MILLER, A., COLLETTINI, C., CHIARALUCE, L., COCCO, M., BARCHI, M. & KAUS, B.J. 2004. Aftershock driven by a high-pressure CO2 source at depth. Nature, 427, 724-727.
  • OBERC, J. 1994. Uskoki (łuski, nasunięcia) podłużno-poprzeczne – specyfika strukturalno-ewolucyjna waryscydów Śląska i Moraw. Przegląd Geologiczny, 42, 81-87.
  • OSZCZYPKO-CLOWES, M. & OSZCZYPKO, N. 2004. The position and age of the youngest deposits in the Mszana Dolna and Szczawa tectonic windows (Magura Nappe, Western Carpathians, Poland). Acta Geologica Polonica, 54, 339-367.
  • OSZCZYPKO, N. & ZUBER, A. 2002. Geological and isotopic evidence of diagenetic waters in the Polish Flysch Carpathians. Geologica Carpathica, 53, 257-262.
  • PASSCHIER, C.W. & TROUW, R.A.J. 1998: Microtectonics. Springer-Verlag, 253 pp.
  • PECCERILLO, A. & TAYLOR, S.R. 1976. Geochemistry of Eocene calcalkaline volcanic rocks from the Kastamonu area, northern Turkey. Contribution to Mineralogy and Petrology, 58, 63–81.
  • PIN, C., BOUVIER, A. & ALEKSANDROWSKI, P. 2004. Major trace element and Sr-Nd Isotope Data on Neogene andesitic rocks from the Pieniny Klippen Belt (southern Poland) and geodynamic inferences. Mineralogical Society of Poland – Special Paper, 24, 323-328.
  • SIARZEWSKI, W. 1996. Warunki klimatyczne jaskiń tatrzańskich In: J. GRODZICKI (Ed.), Jaskinie Tatrzańskiego Parku Narodowego, 6, 13-29, Warszawa.
  • SWANSON, M.T. 2005. Geometry and kinematics of adhesive wear in brittle strike-slip fault zones. Journal of Structural Geology, 27, 871-887.
  • SZELIGA, W., BIRKENMAJER, K. & PÉCSKAY, Z. 2005. Age of hydrotermal activity at Mt. Jarmuta, Pieniny Mts., Poland. Mineralogical Society of Poland – Special Papers, 25, 368-371.
  • SZELIGA, W. & MICHALIK, M. 2003. Contact metamorphism and hydrothermal alternations around andesite intrusion of the Jarmuta hill, Pieniny (Poland). Mineralia Slovaca, 35, 31-35.
  • TAYLOR, S.R. & MCLENNAN, S.M. 1985. The continental crust: its composition and evolution. Blackwell Scientific Publications, Oxford, 312 pp.
  • TOKARSKI, A. 1978. Orogenesis and morphogenesis of Outer Carpathians and plate tectonics. Studia Geomorphologica Carpatho-Balcanica, 12, 29-43.
  • TRUA,T., SERRI, G., BIRKENMAJER, K. & PÉCSKAY, Z. 2006. Geochemical and Sr–Nd–Pb isotopic compositions of Mts Pieniny dykes and sills (West Carpathians): Evidence for melting in the lithospheric mantle. Lithos, 90, 57–76.
  • UHLIG, V. 1905. Atlas geologiczny Galicyi, Szczawnica (1:75 000 scale) Zeszyt 24. Wydawnictwo Komisji Fizjograficznej Akademii Umiejętności; Kraków.
  • WIEJACZ, P. 1994. An attempt to determine tectonic stress patterns in Poland. Acta Geophysica Polonica, 3, 169-176.
  • WOJCIECHOWSKI, J. 1950. Native gold and associated ore minerals of the mineral vein near Szczawnica, Pieniny Mts., Western Carpathians. Acta Geologica Polonica, 1, 143-149.
  • WOJCIECHOWSKI, J. 1955. Ore veins near Szczawnica, Pieniny Mts., Western Carpathians. Biuletyn Instytutu Geologicznego, 101, 1-82.
  • ŻABA, J. 1996. Late Carboniferous strike-slip activity at the boundary zone of Upper Silesia and Małopolska Blocks. Przegląd Geologiczny, 44, 173-180. [In Polish]
  • ŻABA, J. 1999. The structural evolution of Lower Palaeozoic succession in the Upper Silesia Block and Małopolska Block border zone (Southern Poland). Prace Państwowego Instytutu Geologicznego, 166, 1-162. [In Polish with English summary]
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-1772-6536
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