PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Detrital zircon age data from the conglomerates in the Upper Silesian and Małopolska blocks, and their implications for the pre-Variscan tectonic evolution (S Poland)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Detrital zircon age of the conglomerates from the Upper Silesian (USB) and Małopolska (MB) (S Poland) have been investigated to compare their deposition age and possible provenience. The size and poor sorting of the lithoclasts reflect a short transportation, with deposition close to the sourceland. The Late Ediacaran conglomerate of the Potrójna IG 1 and Raciechowice 1 boreholes (USB) reveal a good match between the ages known from the local basement explored by boreholes. Detrital zircon clusters in a range of 579-585 Ma and 628-638 Ma and of 707 Ma are consistent with the distributions of Cadomian magmatism within the nearest orogenic belt or those identified elsewhere within the Brunovistulicum. In case of the conglomerate deposited in the Batowice 2 borehole (MB), the zircon clusters of 532, 551, 594 and 649 Ma, accompanied with a pre-Svecofennian group peaked at 2071 Ma, and the lack of Sveconorvegian population may document a tectono-sedimentary interaction between the Baltica's southern margin and the Gondwanan Cadomian and Late Cadomian basement during Early Paleozoic time. This conglomerate bed was deposited later, after the Early Ordovician, then docking of Małopolska Block - Baltica was probably completed.
Rocznik
Strony
321--341
Opis fizyczny
Bibliogr. 99 poz., fot., rys., tab., wykr.
Twórcy
  • Polish Geological Institute - National Research Institute, Upper Silesian Branch, Królowej Jadwigi 1, 41-200 Sosnowiec, Poland
  • Polish Geological Institute - National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland
  • Polish Geological Institute - National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland
  • Polish Geological Institute - National Research Institute, Upper Silesian Branch, Królowej Jadwigi 1, 41-200 Sosnowiec, Poland
  • Polish Geological Institute - National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland
Bibliografia
  • 1. Bassett, K.N., 2000. Isotopic provenance analysis and terrane tectonics: a warning about sediment transport distances. In: Understanding Planet Earth: searching for a sustainable future (eds. C. Skilbeck, and T.C. Hubble). Abstracts of the 15th Australian Geological Convention. University of Technology, Sydney, NSW, Australia.
  • 2. Belka, Z., Ahrendt, H., Franke, W., Wemmer, K., 2000. The Baltica-Gondwana suture in Central Europe; evidence from K-Ar ages of detrital muscovites and biogeographical data. Geological Society Special Publications, 179: 87-102.
  • 3. Belka, Z., Valverde-Vaquero, P., Dörr, W., Ahrendt, H., Wemmer, K., Franke, W., Schaefer, J., 2002. Accretion of first Gondwana - derived terranes at the margin of Baltica. Geological Society Special Publications, 201: 19-36.
  • 4. Bhatia, M.R., Crook, K.A., 1986. Trace element characteristics of graywackes and tectonic setting, discrimination of sedimentary basins. Contribution to Mineralogy and Petrology, 90:181-193.
  • 5. Black, L.P., Kamo, S.L., Allen, C.M., Davis, D.W., Aleinikoff, J.N., Valley, J.W., Mundil, R., Campbell, I.H., Korsch, R.J., Williams, I.S., Foudoulis, C., 2004. Improved 206Pb/238U microprobe geochronology by the monitoring of a trace-element-related matrix effect; SHRIMP, ID-TIMS, ELA-ICP-MS and oxygen isotope documentation for a series of zircon standards. Chemical Geology, 205: 115-140.
  • 6. Buła, Z., 2000. The Lower Palaeozoic of the Upper Silesia and West Małopolska (in Polish with English summary). Prace Państwowego Instytutu Geologicznego, 171: 1-63.
  • 7. Buła, Z., Habryn, R. eds., 2008. Geological-structural atlas of the Palaeozoic basement of the Outer Carpathians and Carpathian Foredeep. Państwowy Instytut Geologiczny, Warszawa.
  • 8. Buła, Z., Habryn, R., 2011. Precambrian and Palaeozoic basement of the Carpathian foredeep and the adjacent Outer Carpatians (SE Poland and Western Ukraine). Annales Societatis Geologorum Poloniae, 81: 221-239.
  • 9. Buła, Z., Jachowicz, M., 1996. The lower Palaeozoic sediments in Upper Silesia Block. Geological Quarterly, 40 (3): 299-336.
  • 10. Buła, Z., Żaba, J., 2005. Pozycja tektoniczna Górnośląskiego Zagłębia Węglowego na tle prekambryjskiego i dolnopaleozoicznego podłoża (in Polish). Przewodnik 76 Zjazdu Polskiego Towarzystwa Geologicznego, Rudy k/Rybnika: 14-42. Warszawa.
  • 11. Buła, Z., Żaba, R., 2008. Structure of the Precambrian basement of the eastern part of the Upper Silesia block (Brunovistulicum) (in Polish with English summary). Przegląd Geologiczny, 56: 473-480.
  • 12. 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.
  • 13. Buła, Z., Żaba, J., Habryn, R., 2008. Tectonic subdivision of Poland (Upper Silesian Block and Małopolska Block) (in Polish with English abstract). Przegląd Geologiczny, 56: 912-920.
  • 14. Buła, Z., Habryn, R., Jachowicz-Zdanowska, M., Żaba, J., 2015. Precambrian and Lower Paleozoic of the Brunovistulicum (eastern part of the Upper Silesian Block, southern Poland) - the state of the art. Geological Quarterly, 59 (1): 123-134.
  • 15. Burda, J., Woskowicz-Ślęzak, B., Klötzli, U., Gawęda, A., 2019. Cadomian protolith ages of exotic mega blocks from Bugaj and Andrychów (Western outer Carpathians, Poland) and their palaeogeographic significance. Geochronometria, 46: 25-36.
  • 16. Bylina, P., Żelaźniewicz, A., Dörr, W., 2000. Archean basement in the Upper Silesia Block: U-Pb zircon age from amphibolites of the Rzeszotary horst. Abstracts, Joint Meeting EUROPROBE and PACE projects, Zakopane: 11-12.
  • 17. Cathelineau, M., 1988. Cation site occupancy in chlorites and illites as a function of temperature. Clay Minerals, 23: 471-485.
  • 18. Cathelineau, M., Nieva, D., 1985. A chlorite solid solution geothermometer. The Los Azufres (Mexico) geothermal system. Contribution to Mineralogy and Petrology, 91: 235-244.
  • 19. Cawood, P.A., Hawkesworth, B., Dhuime, B., 2012. Detrital zircon record and tectonic setting. Geology, 40: 875-878.
  • 20. Cebulak, S., 1958. Zlepieńce paleozoiczne w Batowicach koło Krakowa (in Polish). Przegląd Geologiczny, 6: 395-396.
  • 21. Cocks, L.R.M., Torsvik, T.H., 2005. Baltica from the late Precambrian to mid-Palaeozoic times: the gain and loss of a terrane's identity. Earth-Science Reviews, 72: 39-66.
  • 22. Compston, W., Sambridge, M.S, Reinfrank, R.F., Moczydłowska, M., Vidal, G., Claesson, S., 1995. Numerical ages of volcanic rocks and the earliest faunal zone within the Late Precambrian of east Poland. Journal of the Geological Society, 152: 599-611.
  • 23. Coutts, D.S., Mattiews, W.A., Hubbart, S.M., 2019. Assessment of widely used methods to derive depositional ages from detrital zircon populations. Geoscience Frontiers, 10: 1421-1435.
  • 24. Dadlez, R., Narkiewicz, M., Stephenson, R.A., Visser, M.T.M., van Wees, J.-D., 1995. Tectonic evolution of the Mid-Polish Trough: modelling implications and significance for central European geology. Tectonophysics, 252: 179-195.
  • 25. Dadlez R. 2001. Holy Cross Mts. area — crustal structure, geophysical data and general geology. Geological Quarterly, 45 (1): 99-106.
  • 26. Dadlez, R., Grad, M., Guterch, A., 2005. Crustal structure below the Polish Basin: is it composed of proximal terranes derived from Baltica? Tectonophysics, 411: 111-128.
  • 27. Dickinson, W.R., Gehrels, G.E., 2009. Use of U-Pb ages of detrital zircons to infer maximum depositional ages of strata: a test against a Colorado Plateau Mesozoic database. Earth and Planetary Science Letters, 288: 115-125.
  • 28. Dudek, A., 1980. The crystalline basement block of the Outer Carpathians in Moravia: Bruno-Vistulicum. Rozpravy Česko-Slovenské Akademie Věd, Řada Matematicko-přírodních Věd., 90: 1-85.
  • 29. Ferguson, R., Hoey, T., Wathen, S., Werritty, A., 1996. Field evidence for rapid downstream finng of river gravels through selective transport. Geology, 24: 179-182.
  • 30. Finger, F., Tichomirowa, M., Pin, C., Hanžl, P., 2000. Relics of early-Panafrican metabasite - metarhyolite formation in the Brno Massif, Moravia, Czech Republic. International Journal of Earth Sciences, 89: 328-335.
  • 31. Friedl, G., Finger, F., Paquette, J.L., von Quadt, A., McNaughton, N., Fletcher, I.R., 2004. Pre-Variscan geological events in the Austrian part of Bohemian Massif deduced from U-Pb zircon ages. International Journal of Earth Sciences, 93: 802-823.
  • 32. Gawęda, A., Golonka, J., Waśkowska, A., Szopa, K., Chew, D., Starzec, K., Wieczorek, A., 2019. Neoproterozoic crystalline exotic clasts in the Polish Outer Carpathian flysch: remnants of the Proto-Carpathian continent? International Journal of Earth Sciences, 108: 1409-1427.
  • 33. Gehrels, G., 2012. Detrital Zircon U-Pb Geochronology: current Methods and New Opportunities. In: Tectonics of Sedimentary Basins: Recent Advances (eds. C. Busby and A. Azor): 45-62. Blackwell Publishing Ltd.
  • 34. Gorbatschev, R., Bogdanova, S.V., 1993. Frontiers in the Baltic Shield. Precambrian Research, 64: 3-21.
  • 35. Habryn, R., Buła, Z., Nawrocki, J., 2014. The Kraków sector of the Kraków-Lubliniec tectonic zone in the light of data obtained from new boreholes of Trojanowice 2 and Cianowice 2 (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 459: 45-60.
  • 36. Hajná, J., Žak, W., Dörr, V., Kachlík, J., Sláma, J., 2018. New constraints from detrital zircon ages on prolonged, multiphase transition from the Cadomian accretionary orogen to a passive margin of Gondwana. Precambrian Research, 317: 159-178.
  • 37. Hanžl, P., Janousek, V., Soejono, I., Burianek, D., Svojtka, M., Hrdlickova, K., Erban, V., Pin, Ch., 2019. The rise of the Brunovistulicum: age, geological, petrological and geochemical character of the Neoproterozoic magmatic rocks of the Central Basic Belt of the Brno Massif. International Journal of Earth Sciences, 108: 1165-1199.
  • 38. Heflik, W., Konior, K., 1972. Upper Silurian conglomerates in the profile of the borehole Raciborsko 2 south-west of Wieliczka (in Polish with English summary). Annales Societatis Geologorum Poloniae, 42: 327-346.
  • 39. Jachowicz-Zdanowska, M., 2011. Organic microfossil assemblages from the late Ediacaran rocks of the Małopolska Block, southeastern Poland. Geological Quarterly, 55 (1): 85-94.
  • 40. Jachowicz-Zdanowska, M., 2014. The Terreneuvian and Late Ediacaran organic microfossils from the Kraków area (in Polish with English summary). Biuletyn Państwowego Instytutu. Geologicznego, 459: 61-82.
  • 41. Jaworowski, K., Sikorska-Jaworowska, M., 2006. Łysogóry Unit (Central Poland) versus East European Craton: application of sedimentological data from Cambrian siliciclastic association. Geological Quarterly, 50 (1): 77-88.
  • 42. Johansson, A.E., 2009. Baltica, Amazonia and the SAMBA connection - 1000 million years of neighbourhood during the Proterozoic? Precambrian Research, 175: 221-234.
  • 43. Kalvoda, J., Babek, O., Fatka, O., Leichmann, J., Melichar, R., Nehyba, S., Spacek, P., 2008. Brunovistulian terrane (Bohemian Massif, Central Europe) from late Proterozoic to late Paleozoic: a review. International Journal of Earth Sciences, 97: 497-518.
  • 44. Kodama, Y., 1994. Downstream changes in the lithology and grain size of fluvial gravels, the Watarase River, Japan: evidence of the role of abrasion in downstream fining. Journal of Sedimentary Research, A64: 68-75.
  • 45. Konior, K., 1974. Geological structure of Rzeszotary elevation in the light of recent geophysical and drilling data (in Polish with English summary). Annales Societatis Geologorum Poloniae, 44: 321-375.
  • 46. Korja, A., Lahtinen, R., Raimo, T., Nironen, M., 2006. The Svecofennian orogen: a collage of microcontinents and island arcs. Geological Society Memoirs, 32: 561-578.
  • 47. Kozłowski, W., Domańska-Siuda, J., Nawrocki, J., 2014. Geochemistry and petrology of the upper Silurian greywackes from the Holy Cross Mountains (central Poland): implications for the Caledonian history of the southern part of the Trans-European Suture Zone (TESZ). Geological Quarterly, 58 (2): 311-336.
  • 48. Kranidiotis, P., MacLean, W.H., 1987. Systematics of chlorite alteration at the Phelps Dodge massive sulfide deposit, Matagami, Quebec. Economic Geology, 82: 1898-1911.
  • 49. Kröner, A., Štěpská, P., Schulmann, K., Jaeckel, P., 2000. Chronological constraints on the pre-Variscan evolution of the northeastern margin of the Bohemian Massif, Czech Republic. Geological Society Special Publications, 179: 175-197.
  • 50. Krzemińska, E., 2010. Geochemical and isotopic reconstruction of the tectonic setting of the Mazowsze Domain in the Precambrian basement of north-eastern Poland (in Polish with English summary). Prace Państwowego Instytutu Geologicznego, 195: 5-57.
  • 51. Krzemińska, E., Krzemiński, L., 2019. Magmatic episodes in the Holy Cross Mountains, Poland - new contributions from multi-age zircon populations (in English with Polish summary). Biuletyn Państwowego Instytutu Geologicznego, 474: 43-58.
  • 52. Lewandowski, M., 1993. Paleomagnetism of the Paleozoic rocks of the Holy Cross Mts (Central Poland) and the origin of the Variscan orogen. Publications of the Institute of Geophysics, Polish Academy of Sciences A23, 265: 3-85.
  • 53. Linnemann, U., 2007. Ediacaran rocks from the Cadomian basement of the Saxo-Thuringian Zone (NE Bohemian Massif, Germany): age constraints, geotectonic setting and basin development. Geological Society Special Publications, 286: 35-51.
  • 54. Linnemann, U., Gerdes, A., Drost, K., Buschmann, B., 2007. The continuum between Cadomian orogenesis and opening of the Rheic Ocean: constraints from LA-ICP-MS U-Pb zircon dating and analysis of plate-tectonic setting (Saxo-Thuringian zone, northeastern Bohemian Massif, Germany). GSA Special Paper, 423: 61-96.
  • 55. Linnemann, U., Gerdes, A., Hofmann, M., Marko, L., 2014. The Cadomian Orogen: Neoproterozoic to Early Cambrian crustal growth and orogenic zoning along the periphery of the West African Craton - Constraints from U-Pb zircon ages and Hf isotopes (Schwarzburg Antiform, Germany). Precambrian Research, 244: 236-27.
  • 56. Łydka, K., Siedlecki, St., Tomczyk, H., 1963. On the Middle Ludlovian conglomerates in the Cracow Region. Bulletin of the Polish Academy of Sciences, Series Geology et Geography, 11: 93-99.
  • 57. Malinowski, M., Żelaźniewicz, A., Grad, M., Guterch, A., Janik, T., CELEBRATION 2000 Working Group, 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.
  • 58. Mazur, S., Jarosiński, M., 2006. Deep basement structure of the Paleozoic platform in SW Poland in the light of POLONAISE-97 seismic experiment. Prace Państwowego Instytutu Geologicznego, 188: 203-222.
  • 59. Moczydłowska, M., 1997. Proterozoic and Cambrian succession in Upper Silesia, an Avalonian terrane in southern Poland. Geology, 134: 679-689.
  • 60. Nance, R.D., Murphy, J.B., 1996. Basement isotopic signatures and Neoproterozoic paleogeography of Avalonian-Cadomian and related terranes in the circum-North Atlantic. GSA Special Paper, 304: 333-346.
  • 61. Narkiewicz, M., 2002. Ordovician through earliest Devonian development of the Holy Cross Mts. (Poland): constraints from subsidence analysis and thermal maturity data. Geological Quarterly, 46 (3): 255-266.
  • 62. Narkiewicz, M., Grad, M., Guterch, A., Janik, T., 2011. Crustal seismic velocity structure of southern Poland: preserved memory of a pre-Devonian terrane accretion at the East European Platform margin. Geological Magazine, 148: 191-210.
  • 63. Narkiewicz, M., Maksym, A., Malinowski, M., Grad, M., Guterch, A., Probulski, J., Janik, T., Majdański, M., Środa, P., Czuba, W., Gaczyński, E., Jankowski, L., 2015. Transcurrent nature of the Teisseyre-Tornquist Zone in Central Europe: results of the POLCRUST-01 deep reflection seismic profile. International Journal of Earth Sciences, 104: 775-796.
  • 64. Nawrocki, J., Poprawa, P., 2006. Development of Trans-European Suture Zone in Poland: from Ediacaran rifting to Early Palaeozoic accretion. Geological Quarterly, 50 (1): 59-76.
  • 65. Nawrocki, J., Buła, Z., Grabowski, J., Habryn, R., Jachowicz, M., Jarosiński, M., Jóźwiak, W., Krzywiec, P., Poprawa, P., Żylińska, A., 2001. Early Palaeozoic Palaeogeography of Upper Silesian Terrane (S Poland). Joint meeting of Europrobe TESZ, Timpebar, Uralides and SW - Iberia projects, 51-52. Middle East Technical University Ankara - Turkey.
  • 66. Nawrocki, J., Żylińska, A., Buła, Z., Grabowski, J., Krzywiec, P., Poprawa, P., 2004. Early Cambrian location and affinities of the Brunovistulian terrane (Central Europe) in the light of palaeomagnetic data. Journal of the Geological Society, 161: 513-522.
  • 67. Nawrocki, J., Dunlap, J., Pecskay, Z., Krzeminski, L., Żylinska, A., Fanning, M., Kozłowski, W., Salwa, S., Szczepanik, Z., Trela, W., 2007. Late Neoproterozoic to Early Palaeozoic palaoegeography of the Holy Cross Mountains (Central Europe): an integrated approach. Journal of the Geological Society, 164: 405-423.
  • 68. Oberc-Dziedzic, T., Klimas, K., Kryza, R., Fanning, C.M., 2003. SHRIMP U-Pb zircon geochronology of the Strzelin gneiss, SW Poland: evidence for a Neoproterozoic thermal event in the Fore-Sudetic Block, Central European Variscides. International Journal of Earth Sciences, 92: 701-711.
  • 69. Pacześna, J., 2014. The facies development of Terreneuvian deposits in the eastern part of the Upper Silesian Block (in Polish with English summary). Biuletyn Państwowego Instytutu Geologicznego, 459: 133-146.
  • 70. Pell, S.D., Williams, I.S., Chivas, A.R., 1997. The use of protolith zircon-age fingerprints in determining the protosource areas for some Australian dune sands. Sedimentary Geology, 109: 233-260.
  • 71. Pharaoh, T.C., 1999. Palaeozoic terranes and their lithospheric boundaries within the Trans-European Suture Zone (TESZ): a review. Tectonophysics, 314: 17-41.
  • 72. Poprawa, P., Krzywiec, P., Pacześna, J., Radkovets, N., Krzemińska, E., Mazur, S., Rauball, J., 2018. Ediacaran rift at the SW margin of the East European Craton. CETEG 2018, Central European Tectonic Groups, 16th Meeting, Rytro, Poland, 18-21 April 2018 Abstract volume: 183-184.
  • 73. Pożaryski, W., 1991. The strike-slip terrane model for the North German-Polish Caledonides. Publications of the Institute of Geophysics, Polish Academy of Sciences, A-19, 236: 3-15.
  • 74. Pożaryski, W., Grocholski, A., Tomczyk, H., Karnkowski, P., Moryc, W., 1992. The tectonic map of Poland in the Variscan epoch (in Polish with English summary). Przegląd Geologiczny, 40: 643-651.
  • 75. Salwa, S., Trela, W., 2019. Lower Ordovician (Tremadocian) tuffaceous mudstones from the Holy Cross Mountains, Poland: mineral composition and early diagenetic silicification. Mineralogia Special Papers, 49: 79.
  • 76. Sircombe, K.N., 1999. Tracing provenance through the isotope ages of littoral and sedimentary detrital zircons, Eastern Australia. Sedimentary Geology, 124: 47-67.
  • 77. Shumlyanskyy, L., Hawkesworth, C., Dhuime, B., Billström, K., Claesson, S., Story, C., 2015 . 207Pb/ 206Pb ages and Hf isotope composition of zircons from sedimentary rocks of the Ukrainian shield: Crustal growth of the south-western part of East European craton from Archaean to Neoproterozoic. Precambrian Research, 260: 39-54.
  • 78. Shumlyanskyy, L., Nosova, A., Billström, K., Söderlund, U., Andreasson, P.G., Kuzmenkova, O., 2016. The U-Pb zircon and baddeleyite ages of the Neoproterozoic Volyn Large Igneous Province: Implication for the age of the magmatism and the nature of a crustal contaminant. Geologiske Foreningen Forhandlinger (GFF), 138: 17-30.
  • 79. Soejono, I., Janoušek, V., Žáčková, E., Sláma, J., Konopásek, J., Machek, M., Hanžl, P., 2017. Long-lasting Cadomian magmatic activity along an active northern Gondwana margin: U-Pb zircon and Sr-Nd isotopic evidence from the Brunovistulian Domain, eastern Bohemian Massif. International Journal of Earth Sciences, 106: 2109-2129.
  • 80. Spencer, C.J., Kirkland, C.L., Richard, J.M., Taylor, R.J.M., 2016. Strategies towards statistically robust interpretations of in situ U-Pb zircon geochronology. Geoscience Frontiers, 7: 581-589.
  • 81. Svojtka, M., Breiter, K., Ďurišova, J., Ackerman, L., Veselovsky, F., Šmerda, J., 2017. Geochemistry and U-Pb zircon ages of Derflice granodiorite from the Thaya (Dyje) Massif (in Czech with English summary). Geoscience Research Reports, 50: 17-24.
  • 82. Ślączka, A., 1985. Potrójna IG-1. Kambr, Prekambr. Profil litologiczno-stratygraficzny (in Polish). Profile Głębokich Otworów Wiertniczych Instytutu Geologicznego, 59: 38-41.
  • 83. Teipel, U., Eichhorn, R., Loth, G., Rohrmüller, J., Höll, R., Kennedy, A., 2004. U-Pb SHRIMP and Nd isotopic data from the western Bohemian Massif (Bayerischer Wald, Germany): implications for Upper Vendian and Lower Ordovician magmatism. International Journal of Earth Sciences, 93: 782-801.
  • 84. Terentiev, R.A., Santosh, M., Skryabin, V.Yu., 2016. U-Pb zircon geochronology and geochemistry of Paleoproterozoic magmatic suite from East Sarmatian Orogen: tectonic implications on Columbia supercontinent. Precambrian Research, 273: 165-184.
  • 85. Timmerman, M., Krmiček, L., Krmičkova, S., Sláma, J., 2019. LA-ICP-MS zircon ages of the Slavkov Terrane, Central Basic Belt and Basal Clastics, Brunovistulicum, Czech Republic Conference paper 17th Meeting of the Central European Tectonic Groups, CETEG 2019, Rozdrojovice, 24-27 April, 2019, 84.
  • 86. Trela, W., Bąk, E., Pańczyk, M., 2018. Upper Ordovician and Silurian ash beds in the Holy Cross Mountains, Poland: preservation in mudrock facies and relation to atmospheric circulation in the Southern Hemisphere. Journal of the Geological Society, 175: 352-360.
  • 87. Valverde-Vaquero, P., Dörr, W., Belka, Z., Franke, W., Wiszniewska, J., Schastok, J., 2000. U-Pb single-grain dating of detrital zircon in the Cambrian of central Poland: implications for Gondwana versus Baltica provenance studies. Earth and Planetary Science Letters, 184: 225-240.
  • 88. Verniers, J., Maletz, J., Křiž, J., Žigaite, Ž., Paris, F., Schonlaub H.P., Wrona, R., 2008. Silurian. In: The Geology of Central Europe, Volume 1: Precambrian and Palaeozoic (ed. T. McCann): 249-302. Geological Society of London.
  • 89. Walczak, A., Belka, Z., 2017. Fingerprinting Gondwana versus Baltica provenance: Nd and Sr isotopes in Lower Paleozoic clastic rocks of the Małopolska and Łysogóry terranes, southern Poland. Gondwana Research, 45: 138-151.
  • 90. Wiedenbeck, M., Allé, P., Corfu, F., Griffin, W.L., Meier, M., Oberli, F., von Quadt, A., Roddick, J.C., Spiegel, W., 1995. Three natural zircon standards for U-Th-Pb, Lu-Hf, trace-element and REE analyses. Geostandards Newsletter, 19: 1-23.
  • 91. Williams, I.S., Krzemińska, E., Wiszniewska, J., 2009. An extension of the Svecofennian orogenic province into NE Poland: evidence from geochemistry and detrital zircon from Paleoproterozoic paragneisses. Precambrian Research, 17: 234-254.
  • 92. Winchester, J.A., Pharaoh, T.C., Verniers, J., 2002. Palaeozoic amalgamation of Central Europe: an introduction and synthesis of new results from recent geological and geophysical investigations. Geological Society Special Publications, 201: 1-18.
  • 93. Zang, W., Fyfe, W.S., 1995. Chloritization of the hydrothermally altered bedrock at the Igarapé Bahia gold deposit, Carajás, Brazil. Mineralium Deposita, 30: 30-38.
  • 94. Żelaźniewicz, A., Fanning, C.M., 2020. Neoarchean to Paleoproterozoic fragments in the Brunovistulia terrane, S Poland: a component of the Columbia Supercontinent? Geological Quarterly 64 (1): 120-129.
  • 95. Żelaźniewicz, A., Bula, Z., Fanning, M., Seghedi, A., Żaba, J., 2009. More evidence on Neoproterozoic terranes in Southern Poland and southeastern Romania. Geological Quarterly, 53 (1): 93-124.
  • 96. Żelaźniewicz, A., Seghedi, A., Jachowicz, M., Bobiński, W., Buła, Z., Cwojdziński, S., 2001. U-Pb SHRIMP data confirm the presence of a Vendian foreland flysch basin next to the East European Craton In: ESF EUROPROBE Meeting “Neoproterozoic-Early Palaeozoic Time-Slice Symposium: Orogeny and Cratonic Brunovistulian terrane 521 Response on the Margins of Baltica”, Ankara, Abstracts (eds. T.C. Pharaoh and D. Gee): 98-100. Middle East Technical University, Ankara.
  • 97. Żylińska, A., 2013. The oldest Cambrian trilobites from the Holy Cross Mountains, Poland: taxonomic, stratigraphic and biogeographic reappraisal. Acta Geologica Polonica, 63: 57-87.
  • 98. Żylińska, A., Masiak, M., 2007. Cambrian trilobites from Brzechów, Holy Cross Mountains (Poland) and their significance in stratigraphic correlation and biogeographic reconstructions. Geological Magazine, 144: 661-686.
  • 99. Żylińska, A., Szczepanik, Z., 2009. Trilobite and acritarch assemblages from the Lower-Middle Cambrian boundary interval in the Holy Cross Mountains (Poland). Acta Geologica Polonica, 59: 413-458.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d97c30bc-c671-442f-9b9f-72599f209a4a
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.