Age constraints on the Pre-Variscan and Variscan thermal events in the Kamieniec Ząbkowicki Metamorphic belt (the Fore-Sudetic Block, SW Poland)

Jastrzębski, Mirosław; Żelaźniewicz, Andrzej; Budzyń, Bartosz; Sláma, Jiří; Konečny, Patrik

doi:10.14241/asgp.2020.05

Artykuł - szczegóły

Tytuł artykułu

Age constraints on the Pre-Variscan and Variscan thermal events in the Kamieniec Ząbkowicki Metamorphic belt (the Fore-Sudetic Block, SW Poland)

Autorzy

Jastrzębski Mirosław , Żelaźniewicz Andrzej , Budzyń Bartosz , Sláma Jiří , Konečny Patrik

Treść / Zawartość

Pełne teksty:

Jastrzebski_M_Age_ASGP_Vol.90_No.1_2020.pdf

Pobierz

Identyfikatory

DOI

10.14241/asgp.2020.05

Warianty tytułu

Języki publikacji

Abstrakty

The Kamieniec Ząbkowicki Metamorphic Belt (KZMB) is a narrow zone of mainly mica schists, subordinate acid metavolcanics and scarce eclogites, sandwiched between Brunovistulia and the northern tip of the Teplá-Barrandia microplates. Locally occurring high-pressure relics indicate subduction of the metasedimentary succession of the KZMB, the origin and provenance of which remain unclear. Laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) investigations of detrital zircons show that the metapelites represent an Ediacaran-Cambrian sedimentary basin, with a maximum depositional age of 561±9 Ma. This basin was filled with detritus from a source or sources, composed of rocks containing zircons that are mainly Cryogenian-Ediacaran and Palaeoproterozoic in age. No younger component was found in the zircon population studied. The isotopic U-Pb LA-ICP-MS and chemical U-Th-total Pb electron probe microanalysis (EPMA) monazite geochronology data indicate an important regional tectono-metamorphic event at ca. 330 Ma. Though these data do not permit determination of the peak pressure from the peak temperature stages, the event was part of a complex collision of the Saxothuringian plate with Brunovistulia.

Słowa kluczowe

U-Pb geochronology LA-ICP-MS dating U-Th-total Pb geochronology EPMA dating microplates of the Bohemian Massif Kamieniec Ząbkowicki Metamorphic Belt Variscan metamorphism

Wydawca

Polskie Towarzystwo Geologiczne

Czasopismo

Annales Societatis Geologorum Poloniae

Rocznik

2020

Tom

Vol. 90, No. 1

Strony

27--49

Opis fizyczny

Bibliogr. 82 poz., rys., wykr.

Twórcy

autor

Jastrzębski Mirosław

mjast@twarda.pan.pl

Institute of Geological Sciences, Polish Academy of Sciences, Research Centre in Wrocław, ul. Podwale 75, 50-449 Wrocław, Poland

autor

Żelaźniewicz Andrzej

pansudet@pwr.edu.pl

Institute of Geological Sciences, Polish Academy of Sciences, Research Centre in Wrocław, ul. Podwale 75, 50-449 Wrocław, Poland

autor

Budzyń Bartosz

ndbudzyn@cyf-kr.edu.pl

Institute of Geological Sciences, Polish Academy of Sciences, Research Centre in Kraków, ul. Senacka 1, 31-002 Kraków

autor

Sláma Jiří

slama@gli.cas.cz

The Czech Academy of Sciences, Institute of Geology, Rozvojová 269, Prague 6, 16500, Czech Republic

autor

Konečny Patrik

patrik.konecny@geology.sk

Dionyz Stúr State Geological Institute, Mlynská dolina 1, SK-81704 Bratislava, Slovak Republic

Bibliografia

1. Achramowicz, S., 1993. Paleostress in the country rocks to the Strzelin grainitoids from the analysis of dilational centrifugal structures, SW Poland. Annales Societatis Geologorum Poloniae, 63: 265-332. [In Polish, with English summary.]
2. Achramowicz, S., Muszyński, A. & Schliestedt, M., 1997. The northeasternmost eclogite occurrence in the Saxothuringian Zone, West Sudetes (Poland). Chemie der Erde, 57: 51-61.
3. Aftalion, M., Bibikova, E. V., Bowes, D. R., Hopgood, A. M. & Perchuk, L. L., 1991. Timing of early Proterozoic collisional and extensional events in the granulite-gneiss-char- nockite-granite complex, Lake Baikal, USSR: a U-Pb, Rb-Sr, and Sm-Nd isotopic study. Journal of Geology, 99: 851-861.
4. Bakun-Czubarow, N., 1998. Ilmenite-bearing eclogites of the West Sudetes - their geochemistry and mineral chemistry. Archiwum Mineralogiczne, 51: 29-110.
5. Bröcker, M., Żelaźniewicz, A. & Enders, M., 1998. Rb-Sr and U-Pb geochronology of migmatitic gneisses from the Góry Sowie (West Sudetes, Poland): the importance of Mid-Late Devonian metamorphism. Journal of Geological Society, London, 155: 1025-1036.
6. Cawood, P. A., Hawkesworth, C. J. & Dhuime, B., 2012. Detrital zircon record and tectonic setting. Geology, 40: 875-878.
7. Chopin, F., Schulmann, K., Skrzypek, E., Lehmann, J., Dujardin, J.R., Martelat, J. E., Lexa, O., Corsini, M., Edel, J. B., Štípská, P. & Pitra, P., 2012. Crustal influx, indentation, ductile thinning and gravity redistribution in a continental wedge: building a Moldanubian mantled gneiss dome with underthrust Saxothuringian material (European Variscan belt). Tectonics, 31: TC1013.
8. Collett, S., Schulmann, K., Štípská, P. & Míková, J., 2020. Chronological and geochemical constraints on the Pre-Variscan tectonic history of the Erzgebirge, Saxothuringian Zone. Gondwana Research, 79: 27-48.
9. Cwojdziński, S. & Żelaźniewicz, A., 1995. Crystalline basement of the Fore-Sudetic Block. In: Cwojdziński, S. (ed.), Geologia i ochrona środowiska bloku przedsudeckiego. Przewodnik LXVI Zjazdu Polskiego Towarzystwa Geologicznego, Annales Societatis Geologorum Poloniae, Special Volume. Wrocław, pp. 11-28. [In Polish, with English summary.]
10. Cymerman, Z., Piasecki M. A. J. & Seston, R., 1997. Terranes and terrane boundaries in the Sudetes, Northeast Bohemian Massif. Geological Magazine, 134: 717-725.
11. Dall'Agnol, R., Silvabettencourt, J., Da Silvajorge-João, X., De Medeiros, H., Costi, H. & Macambira, H. B. M., 1987. Granitogenesis in northern Brazilian region: a review. Revista Brasileira de Geociências, 17: 382-403.
12. Dziedzicowa, H., 1975. Rozwój i sekwencja deformacji w strefie łupków kamieniecko-niemczańskich. In: Grocholski, A. (ed.), Przewodnik XLVII Zjazdu Polskiego Towarzystwa Geologicznego, Świdnica 22-24 czerwca 1975, Wydawnictwa Geologiczne, Warszawa, pp. 80-88. [In Polish.]
13. Dziedzicowa, H., 1979. Zarys budowy geologicznej wschodniego obrzeżenia gnejsów sowiogórskich. In: Gunia, T. (ed.), Wybrane zagadnienia stratygrafii, petrografii i tektoniki wschodniego obrzeżenia gnejsów sowiogórskich i metamorfiku kłodzkiego, Materiały konferencji terenowej. Wydawnictwa Uniwersytetu Wrocławskiego, Wrocław, pp. 43-51. [In Polish.]
14. Dziedzicowa, H., 1985. Variscan rejuvenation of the Precambrian gneisses along the eastern margin of the Góry Sowie massif, Fore-Sudetic Block. Krystalinikum, 18: 7-27.
15. Franke, W., Cocks, L. R. M. & Torsvik, T. H., 2017. The Palaeozoic Variscan oceans revisited. Gondwana Research, 48: 257-284.
16. Franke, W. & Żelaźniewicz, A., 2000. The eastern termination of the Variscides: terrane correlation and kinematic evolution. In: Franke, W., Haak, V., Oncken, O. & Tanner, D. (eds), Orogenic processes: Quantification and Modelling in the Variscan Belt. Geological Society, London, Special Publications 179, pp. 63-86.
17. Franke, W., Żelaźniewicz, A., Porębski, S. J. & Wajsprych, B., 1993. The Saxothuringian zone in Germany and Poland: differences and common features. Geologische Rundschau, 82: 583-599.
18. Gonçalves, G. O., Lana, C., Scholz, R., Buick, I. S., Gerdes, A., Kamo, S. L., Corfu, F., Marinhof, M. M., Chaves, A. O., Valeriano, C. & Nalini Jr., H. A., 2016. An assessment of monazite from the Itambé pegmatite district for use as U-Pb isotope reference material for microanalysis and implications for the origin of the “Moacyr” monazite. Chemical Geology, 424: 30-50
19. Gunia, T., 1979. Nowe stanowiska mikroflory w metamorfiku wschodnich okolic Niemczy. In: Gunia, T. (ed.), Wybrane zagadnienia stratygrafii, petrografii i tektoniki wschodniego obrzeżenia gnejsów sowiogórskich i metamorfiku kłodzkiego, Materiały konferencji terenowej. Wydawnictwa Uniwersytetu Wrocławskiego, Wrocław, pp. 63-77. [In Polish.]
20. Gurgurewicz, J. & Bartz, W., 2011. Deformational history of metavolcanic rocks from the Kamieniec Ząbkowicki Metamorphic Belt (Fore- Sudetic Block, southwest Poland): a quartz [c]-axis lattice preferred orientation study. Acta Geologica Polonica, 61: 289-305.
21. Hartman, J., Franks, R., Gehrels, G., Hourigan, J. & Wenig, P., 2017. Decoding dat files from a Thermo Element TM ICP Mass Spectrometer, 15 pp. Manual available online at https://github.com/jhh67/extractdat.git [15.10.2019].
22. Horstwood, M. S. A., Kosler, J., Gehrels, G., Jackson, S. E., McLean, N. M., Paton, Ch., Pearson, N. J., Sircombe, K., Sylvester, P., Vermeesch, P., Bowring, J. F., Condon, D. J. & Schoene, B., 2016. Community-derived standards for LA-ICP-MS U-(Th-)Pb geochronology - uncertainty propagation, age interpretation and data reporting. Geostandards and Geoanalytical Research, 40: 311-332.
23. Jackson, S. E., Pearson, N. J., Griffin, W. L. & Belousova, E. A., 2004. The application of laser ablation-inductively coupled plasma-mass spectrometry to in situ U-Pb zircon geochronology. Chemical Geology, 211: 47-69.
24. Jastrzębski, M., Budzyń, B. & Stawikowski, W., 2019. Cambro-Ordovician vs. Devono-Carboniferous geodynamic evolution of the Bohemian Massif: evidence from P-T-t studies in the Orlica-Śnieżnik Dome, SW Poland. Geological Magazine, 156: 447-470.
25. Jastrzębski, M., Żelaźniewicz, A., Murtezi, M., Larionov, A. N. & Sergeev, S., 2015. The Moldanubian Thrust Zone - a terrane boundary in the Central European Variscides refined based on lithostratigraphy and U-Pb zircon geochronology. Lithos, 220-223: 116-132.
26. Jastrzębski, M., Żelaźniewicz, A., Nowak, I., Murtezi, M. & Larionov, A. N., 2010. Protolith age and provenance of metasedimentary rocks in Variscan allochthon units: U-Pb SHRIMP zircon data from the Orlica-Śnieżnik Dome, West Sudetes. Geological Magazine, 147: 416-433.
27. Józefiak, D., 1998. The history of metamorphism of the Kamieniec Ząbkowicki mica schists (Sudetes, SW Poland). Archiwum Mineralogiczne, 51: 213-246. [In Polish, with English summary.]
28. Kennan, P. S., Dziedzic, H., Lorenc, M. W. & Mierzejewski, M. P., 1999. A review of Rb-Sr isotope patterns in the Carboniferous granitoids of the Sudetes in SW Poland. Geologia Sudetica, 32: 49-53.
29. Klimas, K., Kryza, R., Mazur, S. & Jendrzejaczyk, M., 2003. A petrogenetic comparative study of zircons from the mylonites of the Niemcza Shear Zone and the gneisses of the Góry Sowie Block (SW Poland). Geologia Sudetica, 35: 1-12.
30. Koněcný, P., Kusiak, M. A. & Dunkley, D. J., 2018. Improving U-Th-Pb electron microprobe dating using monazite age references. Chemical Geology, 484: 22-35.
31. Kröner, A. & Hegner, E., 1998. Geochemistry, single zircon ages and Sm-Nd systematics of granitoid rocks from the Góry Sowie (Owl Mts, Polish West Sudetes): evidence for early Palaeozoic arc related plutonism. Journal of the Geological Society, London, 155: 711-724.
32. Kryza, R. & Fanning, C. M., 2007. Devonian deep-crustal metamorphism and exhumation in the Variscan Orogen: evidence from SHRIMP zircon ages from the HT-HP granulites and migmatites of the Góry Sowie (Polish Sudetes). Geodinamica Acta, 20: 159-175.
33. Kryza, R. & Zalasiewicz, J., 2008. Records of Precambrian- Early Palaeozoic volcanic and sedimentary processes in the Central European Variscides: A review of SHRIMP zircon data from the Kaczawa succession (Sudetes, SW Poland). Tectonophysics, 461: 60-71.
34. Kryza, R., Zalasiewicz, J., Mazur, S., Aleksandrowski, P., Sergeev, S. & Larionov, A., 2007. Precambrian crustal contribution to the Variscan accretionary prism of the Kaczawa Mountains (Sudetes, SW Poland): evidence from SHRIMP dating of detrital zircons. International Journal of Earth Sciences, 96: 1153-1162.
35. 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, NE Bohemian Massif, Germany). In: Linnemann, U., Nance, R. D., Kraft, P. & Zulauf, G. (eds), The evolution of Rheic Ocean: from Avalonian-Cadomian active margin to Alleghenian-Variscan collision. Geological Society of America, Special Paper, 423: 61-96.
36. 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: 236-278.
37. Ludwig, K. R., 2012. Isoplot 3.75. A geochronological toolkit for Microsoft Excel. Berkeley Geochronology Center Special Publication, 5: 1-75.
38. Majka, J., Mazur, S., Młynarska, M., Klonowska, I., Tual, L., Kośmińska, K., Tarasiuk, J. & Wroński, S., 2019. Integrating X-ray mapping and microtomography of garnet with thermobarometry to define the P-T evolution of the (near) UHP Międzygórze eclogite, Sudetes, SW Poland. Journal of Metamorphic Geology, 37: 97-112.
39. Marheine, D., Kachlík, V, Maluśki, H., Patocka, F. & Żelaźniewicz, A., 2002. The Ar-Ar ages from the West Sudetes (NE Bohemian Massif): constraints on the Variscan polyphase tectonothermal development. In: Winchester, J. A., Pharaoh, T. C. & Verniers, J. (eds), Palaeozoic Amalgamation of Central Europe. Geological Society, London, Special Publication, 201: 133-155.
40. Matte, P., Maluski, H., Rajlich, P. & Franke, W., 1990. Terrane boundaries in the Bohemian Massif: Result of large-scale Variscan shearing. Tectonophysics, 177: 151-170.
41. Mazur, S., Aleksandrowski, P., Kryza, R. & Oberc-Dziedzic, T., 2006. The Variscan Orogen in Poland. Geological Quarterly, 50: 89-118.
42. Mazur, S. & Józefiak, D., 1999. Structural record of Variscian thrusting and subsequent extensional collapse in the mica schists from vicinities of Kamieniec Ząbkowicki, Sudetic foreland, SW Poland. Annales Societatis Geologorum Poloniae, 69: 1-26.
43. Mazur, S., Kröner, A., Szczepański, J., Turniak, K., Hanźl, P, Melichar, R., Rodionov, N. V., Paderin, I. & Sergeev, S. A., 2010. Single zircon U-Pb ages and geochemistry of granitoid gneisses from SW Poland: evidence for an Avalonian affinity of the Brunian microcontinent. Geological Magazine, 147: 508-526.
44. Mazur, S. & Puziewicz, J., 1995. Mylonites of the Niemcza Fault Zone. Annales Societatis Geologorum Poloniae, 64: 23-52.
45. Mazur, S., Szczepański, J., Turniak, K. & McNaughton, N. J., 2012. Location of the Rheic suture in the eastern Bohemian Massif: Evidence from detrital zircon data. Terra Nova 24: 199-206.
46. Mazur, S., Turniak, L., Szczepański, J. & McNaughton, N. J., 2015. Vestiges of Saxothuringian crust in the Central Sudetes, Bohemian Massif: zircon evidence of a recycled subducted slab provenance. Gondwana Research, 27: 825-839.
47. Nowak, I., 1998. Polyphase exhumation of eclogite-bearing high-pressure mica schists from the Fore-Sudetic Block, SW Poland. Geologia Sudetica, 31: 3-31.
48. Oberc-Dziedzic, T., Klimas, K., Kryza, R. & Fanning, C. M., 2003. SHRIMP 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.
49. Oberc-Dziedzic, T., Kryza, R. & Białek, J., 2010b. Variscan multistage granitoid magmatism in Brunovistulicum: petrological and SHRIMP U/Pb zircon geochronological evidence from the southern part of the Strzelin Massif, SW Poland. Geological Quarterly, 54: 301-324.
50. Oberc-Dziedzic, T., Kryza, R., Klimas, K., Fanning, M. C. & Madej, S., 2005. Gneiss protolith ages and tectonic boundaries in the NE part of the Bohemian Massif (Fore-Sudetic Block, SW Poland). Geological Quarterly, 49: 363-378.
51. Oberc-Dziedzic, T., Kryza, R., Madej, S. & Pin, C., 2018. The Saxothuringian Terrane affinity of the metamorphic Stachów Complex (Strzelin Massif, Fore-Sudetic Block, Poland) inferred from zircon ages. Geological Quarterly, 62: 237-256.
52. Oberc-Dziedzic, T., Kryza, R., Mochnacka, K. & Larionov, A., 2010a. Ordovician passive continental margin magmatism in the Central-European Variscides: U-Pb zircon data from the SE part of the Karkonosze-Izera Massif, Sudetes, SW Poland. International Journal of Earth Sciences, 99: 27-46.
53. Oberc-Dziedzic, T., Kryza, R. & Pin, C., 2015. Variscan granitoids related to shear zones and faults: examples from the Central Sudetes (Bohemian Massif) and the Middle Odra Fault Zone. International Journal of Earth Sciences, 104: 1139-1166.
54. O'Brien, P. J., Kröner, A., Jaeckel, P., Hegener, E., Żelaźniewicz, A. & Kryza, R., 1997. Petrological and isotope studies on Palaeozoic high-pressure granulites. Góry Sowie Mts, Polish Sudetes. Journal of Petrology, 38: 433-456.
55. Oliver, G. J., Corfu, F. & Krogh, T. E., 1993. U-Pb ages from SW Poland: evidence for a Caledonian suture zone between Baltica and Gondwana. Journal of Geological Society, London, 150: 355-369.
56. Paquette, J. L. & Tiepolo, M., 2007. High resolution (5 μm) U-Th-Pb isotope dating of monazite with excimer laser ablation (ELA)-ICPMS. Chemical Geology, 240: 222-237.
57. Paulsson, O. & Andréasson, P-G., 2002. Attempted break-up of Rodinia at 850 Ma: geochronological evidence from the Seve-Kalak Superterrane, Scandinavian Caledonides. Journal of the Geological Society, London, 159: 751-761.
58. Paton, C., Woodhead, J. D., Hellstrom, J. C., Hergt, J. M., Greig, A. & Maas, R., 2010. Improved laser ablation U-Pb zircon geochronology through robust downhole fractionation correction. Geochemistry, Geophysics, Geosystems, 11: 1-36. Q0AA06 http://dx.doi.org/10.1029/2009GC002618
59. Petrus, J. A. & Kamber, B. S., 2012. VizualAge: A novel approach to laser ablation ICP-MS U-Pb geochronology data reduction. Geostandards and Geoanalytical Research, 36: 247-270.
60. Pietranik, A., Storey, C. & Kierczak, J., 2013. Niemcza diorites and moznodiorites (Sudetes, SW Poland): a record of changing geotectonic setting at ca. 340 Ma. Geological Quarterly, 57: 325-334.
61. Puziewicz, J., 1992. Origin of the Koźmice granodiorite (Niemcza Zone, Lower Silesia, Poland). Archiwum Mineralogiczne, 47: 95-146. [In Polish, with English summary.]
62. Rubatto, D., 2017. Zircon: The Metamorphic Mineral. Reviews in Mineralogy and Geochemistry, 83: 261-295.
63. Sawicki, L., 1965. Mapa geologiczna regionu dolnośląskiego, 1:200 000. Wydawnictwa Geologiczne, Warszawa. [In Polish.]
64. Schaltegger, U., Schmitt, A. K. & Horstwood, M. S. A., 2015 U-Th-Pb zircon geochronology by ID-TIMS, SIMS, and laser ablation ICP-MS: Recipes, interpretations, and opportunities. Chemical Geology, 402: 89-110.
65. Schneider, D. A., Zahniser, S. J., Glascock, J. M., Gordon, S. M. & Manecki, M., 2006. Thermochronology of the West Sudetes (Bohemian Massif): rapid and repeated eduction in the eastern Variscides, Poland and Czech Republic. American Journal of Science, 306: 846-873.
66. Schulmann, K., Oliot, E., Kosulicová, M., Montigny, R. & Štípská, P., 2014. Variscan thermal overprints exemplified by U-Th-Pb monazite and K-Ar muscovite and biotite dating at the eastern margin of the Bohemian Massif (East Sudetes, Czech Republic). Journal of Geosciences, 59: 389-413.
67. Skrzypek, E., Bosse, V., Tetsuo Kawakami, T., Martelat, J. E. & Štípská, P., 2017. Transient allanite replacement and prograde to retrograde monazite (re)crystallization in medium-grade metasedimentary rocks from the Orlica-Śnieżnik Dome (Czech Republic/Poland): textural and geochronological arguments. Chemical Geology, 449: 41-57.
68. Sláma, J., Kosler, J., Condon, D. J., Crowley, J. L., Gerdes, A., Hanchar, J. M., Horstwood, M. S. A., Morris, G. A., Nasdala, L., Norberg, N., Schaltegger, U., Schoene, B., Tubrett, M. N. & Whitehouse, M. J., 2008. Plesovice zircon - a new natural reference material for U-Pb and Hf isotopic microanalysis. Chemical Geology, 249: 1-35.
69. Šípská, P., Chopin, F., Skrzypek, E., Schulmann, K., Pitra, P., Lexa, O., Martelat, J. E., Bollinger, C. & Zácková, E., 2012. The juxtaposition of eclogite and mid-crustal rocks in the Orlica-Śnieżnik Dome, Bohemian Massif. Journal of Metamorphic Geology, 30: 213-234.
70. Štípská, P., Pitra, P. & Powell, R., 2006. Separate or shared metamorphic histories of eclogites and surrounding rocks? An example from the Bohemian Massif. Journal of Metamorphic Geology, 24: 219-240.
71. Szczepański, J., 2002. The 40Ar/39Ar cooling ages of white micas from Jegłowa Beds (Strzelin Massif, Fore-Sudetic Block, SW Poland). Geologia Sudetica, 34: 1-7.
72. Szczepański, J., Goleń, M. & Anczkiewicz, R., 2018. Synconvergent exhumation of volcano-sedimentary succession from the Kamieniec Metamorphic Belt (Central Sudetes, Bohemian Massif). CETEG 2018 Abstracts, Geology, Geophysics and Environment, 44: 196-197.
73. Tunheng, A. & Hirata, T., 2004. Development of signal smoothing device for precise elemental analysis using laser ablation-ICP-mass spectrometry. Journal of Analytical Atomic Spectrometry, 19: 932.
74. Tyszka, R., Kryza, R., Zalasiewicz, J. A. & Larionov, A. N., 2008. Multiple Archaean to Early Palaeozoic events of the northern Gondwana margin witnessed by detrital zircons from the Radzimowice Slates, Kaczawa Complex (Central European Variscides). Geological Magazine, 145: 85-93.
75. Van Breemen, O., Bowes, D. R., Aftalion, M. & Żelaźniewicz, A., 1988. Devonian tectonothermal activity in the Sowie Góry Gneissic Block, Sudetes, Southwestern Poland: evidence from Rb-Sr and U-Pb isotopic studies. Annales Societatis Geologorum Poloniae, 58: 3-19.
76. Walczak, K., Anczkiewicz, R., Szczepański, J., Rubatto, D. & Kosler, J., 2017. Combined garnet and zircon geochronology of the ultra-high temperature metamorphism: Constraints on the rise of the Orlica-Śnieżnik Dome, NE Bohemian Massif, SW Poland. Lithos, 292-293: 388-400.
77. Wiedenbeck, M., Alle, P., Corfu, F., Griffin, W. L., Meier, M., Oberli, F., Vonquadt, A., Roddick, J. C. & Speigel, W., 1995. 3 natural zircon standards for U-Th-Pb, Lu-Hf, trace-element and REE analyses. Geostandards Newsletter, 19: 1-23.
78. Žáčková, E., Konopásek, J., Kosler, J. & Jeřábek, P., 2012. Detrital zircon populations in quartzites of the Krkonoše-Jizera Massif - implications for pre-collisional history of the Saxothuringian Domain in the Bohemian Massif. Geological Magazine, 149: 443-458.
79. Žák, J. & Sláma, J., 2018. How far did the Cadomian "terranes" travel from Gondwana during early Palaeozoic? A critical reappraisal based on detrital zircon geochronology. International Geology Review, 60; 319-338.
80. Żelaźniewicz, A., 1995. Fore-Sudetic part of the Góry Sowie Block, SW Poland. In: Cwojdziński, S. (ed.), Geologia i ochrona środowiska bloku przedsudeckiego. Przewodnik LXVI Zjazdu Polskiego Towarzystwa Geologicznego, Annales Societatis Geologorum Poloniae, Special Volume. Wrocław, pp. 85-109. [In Polish, with English summary.]
81. Żelaźniewicz, A., Fanning, C. M. & Achramowicz, S., 2009. Refining the granite, gneiss and schist interrelationships within the Lusatian-Izera Massif, West Sudetes, using SHRIMP U-Pb zircon analyses and new geologic data. Geologia Sudetica, 41: 67-84.
82. Żelaźniewicz, A., Nowak, I., Bachliński, R., Larionov, A. N. & Sergeev, S. A., 2005. Cadomian versus younger deformations in the basement of the Moravo-Silesian Variscides, East Sudetes, SW Poland: U-Pb SHRIMP and Rb-Sr age data. Geologia Sudetica, 37; 35-51.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).

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Bibliografia

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