PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Cadomian versus younger deformations in the basement of the Moravo-Silesian Variscides, East Sudetes, SW Poland: U-Pb SHRIMP and Rb-Sr age data

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
U-Pb SHRIMP dating of zircons from a metapegmatite vein which cross-cuts amphibolite facies paragneisses confirms ~580 Ma magmatism in the basement of the northern part of the Moravo-Silesian Zone (Jeseníky Mts.). Structures older than the felsic vein set are interpreted as a record of the Cadomian orogeny. This has been represented by N-trending, W-vergent folds followed by a top-to-the east shearing that occurred at T = 600°C and P = 5 kbar in the Neoproterozoic. The subsequent tectonic overprint led to folding and shearing of the pegmatite, which took place at similar P-T conditions but was associated with top-to-the west kinematics and shortening at a high angle to the foliation. This event likely developed during early stages of Variscan convergence when the Moravo-Silesian crust (Brunovistulia) was subducted and forced down below the approaching upper plate composed of terranes of the Bohemian Massif. Alternatively, it may have occurred around 500 Ma, related to crustal extensional (break-up of Gondwana margins in Cambrian times). Although the first option is favoured, presumably the two may have actually happened. The last ductile deformation was a top-to-the-east younger shearing localized in zones of various widths, assigned to the Variscan collision and reverse movement of the basement rocks. The latter two events occurred at temperatures that allowed in the metapegmatite for the crystal plastic deformation of quartz grains from which the strain was removed by subsequent static recrystallization, and that were high enough to reset the Rb-Sr system in this rock. Consequently, the obtained Rb-Sr isochron age of 290 Ma is considered to reflect the time of uplift. Such late regional uplift is characteristic of the northern part of the Moravo-Silesian Zone, which is the footwall to the Moldanubian Thrust, which separates the Bohemian Massif terranes from the Brunovistulia terrane. It follows from this study that in the East Sudetes basement rocks, structures which are often classified as Variscan may in fact be Cadomian and that the Cadomian record in these rocks is richer than previously assumed.
Czasopismo
Rocznik
Tom
Strony
35--51
Opis fizyczny
Bibliogr. 55 poz.
Twórcy
  • Instytut Nauk Geologicznych PAN, Podwale 75, 50-449 Wrocław, Poland
  • Instytut Geologii, Uniwersytet Adama Mickiewicza, ul. Maków Polnych 16, 61-616 Poznań
autor
  • Instytut Nauk Geologicznych PAN, Podwale 75, 50-449 Wrocław, Poland
  • Instytut Nauk Geologicznych PAN, Twarda 51/55, 00-818 Warszawa, Poland
  • Centre of Isotopic Research, All Russian Geological Research Institute, St. Petersburg, Russia
autor
  • Centre of Isotopic Research, All Russian Geological Research Institute, St. Petersburg, Russia
Bibliografia
  • 1. ACHRAMOWICZ, S., 1999. The Saxothuringian/Moravo- Silesian boundary duplex structure in the Fore-Sudetic Block. GeoLines, 8: 5-6.
  • 2. BACHLIÑSKI, R. & SMULIKOWSKI, W., 2001. Preliminary Rb-Sr isotope study of the Karkonosze-Kowary gneisses and related rocks. Mineralogical Society of Poland, Special Papers, 20: 53-56.
  • 3. BEDERKE, E., 1935. Verbreitung und Gliederung des Devons in den Ostsudeten. Zentralblatt für Mineralogie, Geologie und Paläontologie Abt. B, 33-40.
  • 4. BLACK, L.P., KAMO, S.L., ALLEN, C.M. ALEINIKOFF, J.N., DAVIS, D.W., KORSCH, R.J. & FOUDOULIS, C., 2003. TEMORA 1: a new zircon standard for Phanerozoic U-Pb geochronology. Chemical Geology, 200: 155-170.
  • 5. CHÁB, J., 1990. The problem of the Andelská hora thrust in the light of new deep boreholes (Hruby Jeseník Mts., Czechoslovakia). CasopisproMineralogie i Geologie, 35: 389-401.
  • 6. CHÁB, J., FISERA, M., FEDIUKOVÁ, E., NOVOTNY, P., OPLETAL, M. & SKÁCELOVÁ, D. 1984. Problémy tektonického a metmorfního vyvoje vychodní cásti Hrubého Jeseníku. [Probl ems of the tectonic and metmorphic evoluiion of the eastern part of the Hruby Jeseník Mts. (Altvatergebirge), northern Moravia, Czechoslovakia. Sbornik geologickych ved, Geologie, 39:27-172.
  • 7. CHÁB, J., FEDIUKOVÁ, E., FISERA, M., NOVOTNY, P. & OPLETAL, M., 1992. Deformation and metamorphism in the Silesicum, (North Moravia, Czechoslovakia). In: KUKAL, Z. (Ed.), Proceedings of the 1-st International Conference on the Bohemian Massif, Sept. 26-Oct.3, 1988, Czech Geological Survey, Prague, 44-47.
  • 8. CHÁB, J., MIXA, P., VANECEK, M. & ZACEK, V., 1994. Evidence of an extensional tectonics in the NW of the Hruby Jeseník Mts. (the Bohemian massif, central Europe). Vestník Ceského geologického ústavu, 69/3: 7-26.
  • 9. CHÁB, J. & ZACEK, V., 1994. Geology of the ¿ulová pluton mantle (Bohemian massif, central Europe). Vestník Ceského geologického ústavu, 69/4: 1-12.
  • 10. CHLUPÁC, i., 1975. Nové nálezy fauny v metamorfovaném devonu Hrubého Jeseníku a jejich vyznam, [New finds of fauna in the metamorphic Devonian of the Hruby Jeseník Mts. oravia, Czechoslovakia). Casopis pro mineralogii a geologii, 20: 259-271.
  • 11. CHLUPÁC, I., 1989. Fossil communities in the metamorphic Lower Devonian of the Hruby Jeseník Mts., Czechoslovakia. Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, 177: 367-392.
  • 12. CLIFF, R.A., 1985. Isotopic dating in metamorphic belts. Journal Geological Society London, 142: 97-110.
  • 13. FAURE, G., 1986. Principles of isotope geology. John Wiley & Sons, New York, 588 pp.
  • 14. FERRY, J.M. & SPEAR, F. S., 1978. Experimental calibration of the partitioning of fe and Mg between biotite and garnet. Contributions to Mineralogy and Petrology, 92: 71-75.
  • 15. FRANKE, W. & 2ELAZNIEWCZ, A., 2002. Structure and evolution of the Bohemian Arc. Special Publication of the Geological Society of London, 201: 133-155.
  • 16. FRIEDL, G., FINGER, F., MCNAUGHTON, N.J. & FLETCHER, I.R., 2000. Deducing the ancestry of terranes: SHRIMP evidence for South America-derived Gondwana fragments in central Europe. Geology, 28: 1035-1038.
  • 17. HEGNER, E. & KRONER, A., 2000. Review of Nd isotopic data and xenocrystic and detrital ircon ages from the pre-Variscan basement in the eastern Bohemian Massif: speculations on palinspastic reconstructions. Special Publication of the Geological Society of London, 179: 113-129.
  • 18. HOLLAND, T. & BLUNDY, J., 1994. Non-ideal interactions in calcic amphiboles and their bearing on amphibole-plagioclase thermometry. Contributions to Mineralogy and Petrology, 116: 433-447.
  • 19. JEDLICKA, J., 1995. The Źulova massif in Silesia - its geochemistry and petrogenesis. (Unpublished PhD thesis). Charles University, Prague. {in Czech only}
  • 20. KETTNER, R., 1922. Algonkium na Morave. Casopis vlast. spol. mus., 22: 1-4.
  • 21. KODYM, O., FUSAN, O. & MATEJKA, A. (eds.), 1967. Geological Map of Czechoslovakia 1:500 000. UUG, Prague.
  • 22. KOLBL, L., 1929. Die alpine Tektonik des Altvatergebirge. Mitteilungen Geologische Gessellschaft, 22: 65-124.
  • 23. KRONER A., STIPSKA, P., SCHULMANN, K. & JAECKEL, P., 2000. Chronological constraints on the pre-Variscan evolution of the northeastern margin of the Bohemian Massif, Czech Republic. In: Franke W., Haak V., Oncken O. & Tanner D. (eds): Orogenic Processes: Quantification and Modeliing in the Variscan Belt. Geological Society Special Publication, London, 179: 175-198.
  • 24. LARIONOV, A. N., ANDREICHEV V. A. & GEE D. G., 2004. The Vendian alkaline igneous suite of northern Timan: ion microprobe U-Pb zircon ages of gabbros and syenite. /n: GEE, D. G. & PEASE, V. L. (eds) The Neoproterozoic Timanide Orogen of Eastern Baltica. Geological Society, London, Memoirs, 30: 69-74.
  • 25. LUDWIG, K. R., 2005b. User's Manual for ISOPLOT/Ex 3.22. A Geochronological Toolkit for Microsoft Excel. Berkeley Geochronology Center Special Publication. 71 p. http://www. bgc.org/klprogrammenu.html.
  • 26. LUDWIG, K. R., 2005a. SQUID 1.12 A User's Manual. A Geochronological Toolkit for Microsoft Excel. Berkeley Geochronology Center Special Publication. 22 p. http://www. bgc.org/klprogrammenu.html
  • 27. LUDWIG, K.J., 2000. Users manual for Isoplot/Ex version 2.4. A Geochronological Toolkit for Microsoft Excel. Berkeley Geochronology Center. Special Publication No. 1a, pp. 56.
  • 28. MAJEROWICZ, A. & SAWICKI, L. 1958. Wschodniosudeckie serie metamorficzne w okolicy Głuchołazów. [The Eastern Sudeten metamorphic series in the area of Głuchołazy]. Biuletyn Instytutu Geologicznego, 127: 37-121.
  • 29. MALUSKI, H., RAJLICH, P. & SOUCEK, J., 1995. Pre-Variscan, Variscan and early Alpine thermotectonic history of the north-eastern Bohemian Massif: 40Ar/39Ar study. Geologische Rundschau, 84: 345-358.
  • 30. MILLER, B.V., SAMSON, S.D. & D'LEMOS, R.S., 2001. U-Pb geochronological constraints on the timing of plutonism, volcanism, and sedimentation, Jersey, Channel Islands, UK. Journal of the Geological Society, London, 15S: 243- 252.
  • 31. MUSZYŃSKA, J., 19S9. Petrografia metabazytów okolic Głuchołaz (Sudety Wschodnie). [Characteristics of metabasites occurring near Głuchołazy]. Acta Universitatis Wratisla- viensis, Prace Geologiczno-Mineralogiczne XV: 63-90.
  • 32. OBERC-DZIEDZIC, T., PIN, C., DUTHOU, J.L. & COUTURIE, J.P., 1996. Age and origin of the Strzelin granitoids (Fore-Sudetic Block, Poland): S7Rb/S6Sr data. Neues Jahrbuch für Mineralogie, Abhandlungen, 171: 1S7-19S.
  • 33. 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.
  • 34. OBERC-DZIEDZIC, T., PIN, C. & KRYZA, R., 2005. Early Palaeozoic crustal melti ng in an extensional setting: petro- logical and Sm-Nd evidence from the Izera granite-gneisses, Polish Sudetes. International Journal of Earth Sciences, 94: 354-368.
  • 35. PLYUSNINA, L. P., 19S2. Geothermometry and geobarometry of plagioclase-hornblende bearing assemblages. Contributions to Mineralogy and Petrology, S0: 140-146.
  • 36. PIETRANIK, A. & WAIGHT, T., 2005. Sr isotopes in plagioclase from Gęsiniec tonalite using microdrilling method (Strzelin crystalline massif). Mineralogical Society of Poland - Special Papers, 26: 233-236.
  • 37. QUESADA, C., 1990. Precambrian terranes in the Iberian Variscan foldbelts. In: Strachan, R.A. & Taylor, G.K. (eds.) Avalonian and Cadomian geology of the North Atlantic. Blackie, Glasgow, 109-133.
  • 38. ROLLINSON, H.R., 1993. Using geochemical data: evaluation, presentation, interpretation. Longman Scieniific & Techniical, Essex, pp. 352.
  • 39. RÖMER, C.F., 1S65. Über die Auffinfung devonischer Versteinerungen auf dem Ostabhange des Altvater-Gebirges. Zeitschrift des Deutschen Geologische Gessellschaft, 579-593.
  • 40. SCHULMANN, K. & GAYER, R., 2000. A model for a continent al accretionary wedge developed by oblique coll is ion: the NE Bohemian Massif. Journal of the Geological Society, 157: 401-416.
  • 41. SKÁCEL, J., 195S. Geologické pomery sv. cásti Hrubého Jeseníku. Prírodovedecky sbornik Ostravského kraje, 12: 213-316. {In Czech only}
  • 42. SKÁCEL, J., 1972. Ke vztahu desnenského krystalinika k devonu vrbnenskych vrstev a rejvízské série. Zur Beziehung des ostsudetischen Kristallin zum Devon der Vrbno- Schichten und Rejvíz-Serie. Èasopis slezského muzea Acta Musei Silasiae, 21: 1S3-190.
  • 43. SOUĆEK, J., 197Sa. Metabazity vrbnenske a rejvizske serie, Hruby Jeseník. Acta Universitatis Carolinae, Geologia, 3-4: 323-349.
  • 44. SOUCEK, J., 1978b. Metamorphic zones of the Yrbno and Rejviz Series, the Hruby Jesenik Mountains, Czechoslovakia. Tschermaks Mineralogische und Petrographische Mitteilungen, 25: 195-217.
  • 45. SOUCEK, j., 1981. Geochemie devonskych metabazitu Hrubého a Nizkého Jesniku. [The geochemistry of the Devonian metabasites of the Hruby and Nizky Jesenik Mts.] Casopis pro mineralogii a geologii, 26: 125-142.
  • 46. STACEY, J. S. & KRAMERS, J. D., 1975. Approximaion of terrestrial lead isotope evolution by a two-stage model. Earth and Planetary Science Letters, 26: 207-221.
  • 47. STEIGER, R. H. & JÄGER, E., 1977. Subcommission on geochronology: convent ion on the use of decay constants in geo- and cosmochronology. Earth and Planetary Science Letters, 36: 359-362.
  • 48. SUESS, F. E., 1912. Die moravischen Fenster und ihre Beziehung zum Grundgebirge des Hohen Gesenkes. Denkschrifte Österreichische Akademie Wissenschaftlichen math - naturwiss., 88: 541-631.
  • 49. SZCZEPAŃSKI J., 2002. The 4Ar/Ar cooling ages of white micas from the Jeglowa Beds (Strzelin Massif, Fore-Sudetic Block, SW Poland). Geologia Sudetica, 34: 1-7.
  • 50. TESTA, S. & GIBBONS, W., 1996. Late orogenic strucural control on the regional geometry of basement massifs: an example from the Jesenik Mountains, Czech Republic. Journal of the Czech Geological Society, 41/3-4: 147-155.
  • 51. YAN BREEMEN O., AFTALION M., BOWES., D.R., DUDEK A., MISAR Z., POYONDRA P. & YRÂNA S., 1982. Geochronological studies of the Bohemian massif, Czechoslovakia, and their significance in the evolution of Central Europe. Transactions of Royal Society of Edinburgh: Earth Sciences, 73: 89-108.
  • 52. WIEDENBECK, M., ALLÉ, P., CORFU, F., GRIFFIN, W.L., MEIER, M., OBERLI, F., YON 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.
  • 53. WILLIAMS I.S., 1998. U-Th-Pb geochronology by ion microprobe. In: Applications in microanalytical techniques to understanding mineralizing processes. Reviews in Economic Geology, 7: 1-35.
  • 54. ŻABA, J., CIESIELCZUK, J., MALIK, K. & STRZYŻEWSKA- KONIECZNA, S., 2005. Budowa oraz ewolucja strukturalna utworów dewońsko-karbońskich Gór Opawskich (strefa morawsko-śląska). Przewodnik LXXVI Zjazdu PTG, 116-127. {in Polish only}
  • 55. ŻELAŹNIEWICZ, A., NOWAK, I., ACHRAMOWICZ, S. & CZAPLIŃSKI, W., 2003. Północna część bloku karkonsko- izerskiego: historia pasywnej krawędzi terranu Saksoturyngii. [The northern part of the Izera-Karkonosze Block: a passive margin of the Saxothuringian terrane]. In: Ciężkowski, W., Wojewoda, J. & Żelazniewicz, A. (Eds.), Sudety Zachodnie: od wendu do czwartorzędu, pp. 17-32. Wind, Wrocław.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW9-0007-0103
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.