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Tytuł artykułu

Cenozoic tectonic evolution of the Poznań-Oleśnica Fault Zone, central-western Poland

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The Poznań-Oleśnica Fault Zone (P-OFZ) of central-west Poland is an over 150 km long, up to 10 km wide, and up to 200 m deep graben that developed during Early Oligocene to Pliocene times on the flank of the NE-dipping Fore-Sudetic Homocline. Fault systems of this extensional structure appear to reach pre-Zechstein basement in the area ofthe Fore-Sudetic Homocline that forms an integral part of the Bohemian Massif. The P-OFZ was affected by several stages of subsidence, separated by periods of inversion and/or tectonic quiescence between the Triassic and Cenozoic. Structurally, this dislocation zone can be linked with the Variscan faults, reactivated at that time. During the second half of the last century, the northern parts of the P-OFZ graben were intensively explored by cored boreholes because of their lignite content. Conventional back-stripping methods could not be applied to the tectonic analysis of the POFZ due to the limited thickness of the graben fill, its poor dating and the presence of relatively thick lignite seams. Therefore, phases of accelerated subsidence were determined by comparing the thickness of individual lithostratigraphic units within the graben and on its flanks. The total subsidence of the different graben segments was quantified by determining the aggradation coefficient (AC) and by taking the consolidation coefficient (CC) of lignite seams into consideration. Subsidence analyses indicate that the initial Early Oligocene extensional phase of the P-OFZ was followed by an Early.Middle Miocene extensional subsidence phase and a probably latest Miocene.Pliocene final extensional phase.
Rocznik
Strony
455--471
Opis fizyczny
Bibliogr. 72 poz.,rys., tab.,
Twórcy
autor
autor
  • Institute of Geology, A. Mickiewicz University, Maków Polnych 16,PL- 61-606 Poznań, Poland, widera@amu.edu.pl
Bibliografia
  • ARTHAUD, F. & MATTE, P. 1977. Late Paleozoic strike-slip faulting in southern Europe and northern Africa: result of a right-lateral shear zone between the Appalachians and the Urals. Geological Society of America Bulletin, 88, 1305-1320.
  • AHRENS, H. & LOTSCH, D. 1963. Tektonische Bewegungen im Tertiär der zentralen Niederlausitz. Geologie, 12, 833-841.
  • BALDWIN, B. & BUTLER, C.O. 1985. Compaction curves. American Association of Petroleum Geologists Bulletin, 69, 622-626.
  • CIUK, E. 1970. Lithostratigraphical Schemes of the Tertiary from Polish Lowland Area. Kwartalnik Geologiczny, 14, 754-771. [In Polish with English summary]
  • CIUK, E. 1978. The present state of knowledge of brown coal deposits in Poland, recoverable resources covering their explotation to the year 2000, and trends in prospecting. Przegląd Geologiczny, 26, 573-578. [In Polish with English summary]
  • CLOETINGH, S., MANCO, L., BADA, G., DINU, C. & MOCZANU, V. 2005. The evolution of the Carpathians–Pannonian system: Interaction between neotectonics, deep structure, polyphase orogeny and sedimentary basins in a source to sink natural laboratory. Tectonophysics, 410, 1-14.
  • DADLEZ, R. 1997. Ogólne rysy tektoniczne bruzdy środkowopolskiej. In: MAREK, S., PAJCHLOWA, M. (Eds). The epicontinental Permian and Mesozoic in Poland. Prace Instytutu Geologicznego, 153, 410-414. [In Polish with English summary]
  • DADLEZ, R. 2006. The Polish Basin – relationship between the crystalline, consolidated and sedimentary crust. Geological Quarterly, 50, 43-58.
  • DADLEZ, R., NARKIEWICZ, M., STEPHENSON, R.A., VISSER, M.T. & WESS, J.D. 1995. Tectonic evolution of Mid-Polish Trough. Modelling implications and significance for central European geology. Tectonophysics, 252, 179-195.
  • DANIELS, C.H., VON CICHA, I. & SPIEGLER, D. 1985. Correlation of Neogene regional stages between the boreal Tertiary of NW Germany and Paratethys using Uvigerina (forams). In: VIII Congress RCMNS, symposium European late Cenozoicmineral resources, Budapest, 131-169.
  • DĄBROWSKI, A. & KARASZEWSKI,W. 1957. Investigation on the presumed salt dome near Poznań. Przegląd Geologiczny, 5, 472. [In Polish with English summary]
  • DECZKOWSKI, Z. & GAJEWSKA, I. 1977. The characteristics of Late Cimmerian and Laramide block structures of the Fore-Sudetic Monocline. Kwartalnik Geologiczny, 21, 467-481. [In Polish with English summary]
  • DECZKOWSKI, Z. & GAJEWSKA, 1980. Mesozoic and Tertiary troughs in the Fore-Sudetic Monocline. Przegląd Geologiczny, 28, 151-156. [In Polish with English summary]
  • DÈZES, P., SCHMID, S.M. & ZIEGLER, P.A. 2004. Evolution of the European Cenozoic Rift System: interaction of the Alpine and Pyrenean orogens with their foreland. Tectonophysics, 389, 1-33.
  • DYJOR, S. 1995. Evolution of the Cainozoic on the Fore-Sudetic Block. Przewodnik LXVI Zjazdu Polskiego Towarzystwa Geologicznego, 29-40. [In Polish with English summary]
  • GOTOWAŁA, R. & HAŁUSZCZAK, A. 2002. The Late Alpine structural development of the Kleszczów Graben (Central Poland) as a result of a reactivation of the pre-existing, regional dislocation. European Geoscience Union, Stephan Mueller Special Publication Series, 1, 137-150.
  • GRADSTEIN, F.M., OGG, J.G., SMITH, A.G., BLEEKER, W. & LOURENS, L.J. 2004. A new Geologic Time Scale, with special reference to Precambrian and Neogene. Episodes, 27, 83-100.
  • GRIMM, K. (Ed.) 2002. Tertiary. In: German Stratigraphic Commission (Ed.), Stratigraphic Table of Germany 2002.
  • GUTERCH, A. & GRAD, M. 1996. Seismic structure of the Earth’s crust between Precambrian and Variscan Europe in Poland. Publication of the Institute of Geophysics, Polish Academy of Science, M-18 273, 67-73.
  • GUTERCH, A., GRAD, M., THYBO, H., KELLER, R. & POLONAISE WORKING GROUP 1999. POLONAISE’97 – an international seismic experiment between Precambrian and Variscan Europe in Poland. Tectonophysics, 314, 123-143.
  • HAGER, H., KOTHEN, H. & SPANN, R. 1981. Zur Setzung der Rheinischen Braunkohle und ihrer klastischen Begleitschichten. Fortschritt in der Geologie von Rheinland und Westfalen, 29, 319-352.
  • HARDING, T.P. 1985. Seismic characteristics and identification of negative flower structure, positive flower structures and structural inversion. American Association of Petroleum Geologists Bulletin, 69, 17-39.
  • HIPPOLYTE, J.-C. & SANDULESCU, H. 1996. Paleostress characterization of the “Wallachian phase” in its type area (southeastern Carpathians, Romania). Tectonophysics, 263, 235-248.
  • JASKOWIAK-SCHOENEICHOWA, M. 1981. Upper Cretaceous sedimentation and stratigraphy in north-western Poland. Prace Instytutu Geologicznego, 98, 91 p. [In Polish with English summary]
  • KARNKOWSKI, P.H. 1980. The paleotectonic of platform cover in the Wielkopolska. Przegląd Geologiczny, 28, 146-151. [In Polish with English summary]
  • KASIŃSKI, J.R. 1984. Synsedimentary tectonics as the factor determining sedimentation of brown coal formation in tectonic depressions in western Poland. Przegląd Geologiczny, 32, 260-268. [In Polish with English summary]
  • KASIŃSKI, J.R. 1985. Synsedimentary tectonics as a factor controlling sedimentation of brown-coal formations in tectonic depressions in western Poland. In: BORISOV (Ed.), Solid Fuel Mineral Deposits. Proceedings 27th International Geological Congress., Moscow, 14, 247-279. VNU Science Press; Utrecht.
  • KRYSIAK, Z. 2000. Tectonic evolution of the Carpathian Foredeep and its influence on Miocene sedimentation. Geological Quarterly, 44, 137-156.
  • KRZYWIEC, P. 2002. Mid-Polish Trough inversion – seismic examples, main mechanisms and its relationship to the Alpine-Carpathian collision. In: BERTOTTI, G., SCHULMANN, K. & CLOETHING, S. (Eds), Continental Collision and the Tectonosedimentary Evolution of Forelands. European Geoscience Union Stephan Mueller Special Publication Series, 1, 151-165.
  • KRZYWIEC, P. 2006. Structural inversion of the Pomeranian and Kuiavian segments of the Mid-Polish Trough – Lateran variations in timing and structural style. Geological Quarterly, 50, 151-168.
  • KUPETZ, A., KUPETZ,M. & RASCHER, J. 2004. Der Muskauer Faltenbogen. Gesellschaft für Geowissenschaften e.V., Berlin, 36 pp.
  • KWOLEK, K. 2000. The age of tectonic movements in the Poznań-Kalisz Dislocation Zone, Fore-Sudetic Monocline. Przegląd Geologiczny, 48, 804-814. [In Polish with English summary]
  • LAMARCHE, J., BERGERAT, F., LEWANDOWSKI, M., MANSY, J.L., ŚWIDROWSKA, J. &WIECZOREK, J. 2002. Variscan to Alpine heterogeneous palaeo-stress field above a major Palaeozoic suture in the Carpathian foreland (southeastern Poland). Tectonophysics, 257, 55-80.
  • MALINOWSKI, M., ŻELAŹNIEWICZ, A., GRAD, M., GUTERCH, A., JANIK, T. & CELEBRATION 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.
  • MALKOVSKY, M. 1987. The Mesozoic and Tertiary basins of the Bohemian Massif and their evolution. Tectonophysics, 137, 31-42.
  • MAZUR, S., ALEKSANDROWSKI, P., KRYZA R. & OBERC-DZIEDZIC, T. 2006. The Variscan Orogen in Poland. Geological Quarterly, 50, 89-118.
  • MICHON, L., VAN BALEN, R.T., MERLE, O. & PAGNIER, H. 2003. The Cenozoic evolution of the Roer Valley Rift System integrated at a European scale. Tectonophysics, 367, 101-126.
  • MEULENKAMP, J.E., KOVÁC, M. & CICHA, I. 1996. On Late Oligocene to Pliocene depocentre migration and the evolution of the Carpathian–Pannonian system. Tectonophysics, 266, 301-317.
  • OSZCZYPKO, N. 1999. The Miocene subsidence of the Polish Carpathian Foredeep. Prace Państwowego Instytutu Geologicznego, 168, 209-230.
  • OSZCZYPKO, N. 2001. The Miocene development of the Polish Carpathian Foredeep. Przegląd Geologiczny, 49, 717-723. [In Polish with English summary]
  • PETEREK, A., RAUCHE, H., SCHRODER, B., FRANZE, H.-J., BANKWITZ, P. & BANKWITZ, E. 1997. The late and post-Variscan tectonic evolution of the Western Border fault zone of the Bohemian Massif (BBZ). Geologische Rundschau, 86, 191-202.
  • PHARAOH, T. 1999. Palaeozoic terranes and their lithospheric boundaries within the Trans-European Suture Zone, a review. Tectonophysics, 314, 17-41.
  • PIWOCKI, M. 1998. An outline of the palaeogeographic and palaeoclimatic developments. In: Ważyńska H. (Ed.), Palynology and palaeogeography of the Neogene in the Polish Lowlands. Prace Państwowego Instytutu Geologicznego, 160, 8-12.
  • PIWOCKI, M. & ZIEMBIŃSKA-TWORZYDŁO, M. 1997. Neogene of the Polish Lowlands – lithostratigraphy and pollen-spore zones. Geological Quarterly, 41, 21-40.
  • SCHÄFER, A., UTESCHER, T., KLETT, M. & VALDIVIAMANCHEGO, M. 2005. The Cenozoic Lower Rhine Basin - rifting, sedimentation, and cyclic stratigraphy. International Journal of Earth Sciences, 94, 621-639.
  • SCHINDEWOLF, O.W. 1960. Stratigraphische Methodik und Terminologie. Geologische Rundschau, 49, 1-35.
  • SCLATER, J.G. & CHRISTIE, P.A.F. 1980. Continental stretching: an explanation the post-mid-Cretaceous subsidence of the Central North Sea Basin. Journal of Geophysical Research, 85, 3711-3739.
  • SHELDON, N.D. & RETALLACK, G.J. 2001. Equation for compaction of paleosols due to burial. Geology, 29, 247-250.
  • SISSINGH, W. 1998. Comparative Tertiary stratigraphy of the Rhine Graben, Bresse Graben and Molasse Basin: correlation of Alpine foreland events. Tectonophysics, 300, 249-284.
  • SOKOŁOWSKI, J. 1967. Geology and structure of the Sudetic foreland. Geologia Sudetica, 3, 197-367. [In Polish with English summary]
  • STACKENBRANDT, W. & FRANZKE, H.J. 1989. Alpidic reactivation of the Variscan consolidated lithosphere – the activity of some fracture zones in central Europe. Zeitschrift für Geologische Wissenschaften, 17, 699-712.
  • STANDKE, G., RASCHER, J. & STRAUSS, C. 1993. Relative sealevel fluctuations and brown coal formations around the Early-Middle Miocene boundary in the Lusatian Brown Coal District. Geologische Rundschau, 82, 295-305.
  • STEININGER, F. & RÖGL, F. 1983. Stratigraphic correlation of the Tethys-Paratethys Neogene. In: Project 25 IGCP, Paris, pp. 65-66.
  • STEININGER, F., RÖGL, F. & DERMITZNKIS, M. 1987. Report of the round table discussion “Mediterrean and Paratethys correlation”. Annales Instituti Geologici Hungarici, 70, 397-421.
  • TEN VEEN, J.H. & KLEINSPEHN, K.L 2000. Quantifying the timing and sense of fault dip slip: New application of biostratigraphy and geohistory analysis. Geology, 28, 471-474.
  • VAN HINTE, J.E. 1978. Geohistory analysis –Application of micropaleontology in exploration geology. American Association of Petroleum Geologists Bulletin, 62, 210-222.
  • VINKEN, R. (Ed.) 1988. The Northwest European Tertiary Basin, Results of the IGCP, Project No 124. Geologisches Jahrbuch Reihe A, 100, 512 p.
  • WALKIEWICZ, Z. 1984. The Tertiary in Wielkopolska. Wydawnictwo Naukowe UAM, Seria Geologia, 10, 96 p. [In Polish with English summary]
  • WIDERA, M. 2002.An attempt to determine consolidation coefficient of peat for lignite seams. Przegląd Geologiczny, 50, 42-48. [In Polish with English summary]
  • WIDERA, M. 2004. Phases of Paleogene and Neogene tectonic evolution of selected grabens in the Wielkopolska area, central-western Poland. Annales Societatis Geologorum Poloniae, 74, 295-310.
  • WIDERA, M. 2007. Lithostratigraphy and palaeotectonics of the sub-Pleistocene Cenozoic of Wielkopolska. Wydawnictwo Naukowe UAM, Seria Geologia, 18, 224 pp. [In Polish with English summary]
  • WIDERA, M., BANASZAK, J., CEPIŃSKA, S. & DERDOWSKI, R. 2004. Paleotectonic analysis of the Paleogene and Neogene activity of the northern parts of the Poznań-Oleśnica Dislocation Zone. Przegląd Geologiczny, 52, 665-674. [In Polish with English summary]
  • WIDERA, M., JACHNA-FILIPCZUK, G., KOZULA, R. & MAZUREK, S. 2007. From peat bog to lignite seam: a new method to calculate the consolidation coefficient of lignite seams, Wielkopolska region in central Poland. International Journal of Earth Sciences, 96, 947-955.
  • WIDERA, M. & KARMAN, R. 2007. Location of the major eastern fault in the Mesozoic substratum of the City of Poznań. Przegląd Geologiczny, 55, 965-970. [In Polish with English summary]
  • WIDERA, M. & KITA, A. 2007. Paleogene marginal marine sedimentation in central-western Poland. Geological Quarterly, 51, 79-90.
  • ZAGWIJN, W. & HAGER, H. 1987. Correlation of continental and marine Neogene deposits in South-Western Netherlands and the Lower Rhine district. Mededelingen van de Werkgroep voor Tertiaire en Kwartaire Geologie (Contributions to Tertiary and Quaternary Geology), 24, 59-78.
  • ZIEGLER, P.A. 1990. Geological Atlas of Western and Central Europe. 239 p. Shell International Petroleum Maatschappij, distr. Geological Society Publishing House; Bath.
  • ZIEGLER, P.A. 1992a. European Cenozoic rift system. In: ZIEGLER, P.A. (Ed.), Geodynamics of Rifting. Tectonophysics, 208, 91-111.
  • ZIEGLER, P.A. 1992b. North Sea rift system. In: ZIEGLER, P.A. (Ed.). Geodynamics of Rifting. Tectonophysics, 208, 55-75. ZIEGLER, P.A., CLOETINGH, S. & VANWEES, J.-D. 1995. Dynamics of intra-plate compressional deformation: the Alpine foreland and other examples. Tectonophysics, 252, 7-59.
  • ZIEGLER, P.A. & DÈZES, P., 2005. Evolution of the lithosphere in the area of the Rhine Rift System. International Journal of Earth Sciences, 94, 594-614.
  • ZIEGLER, P.A. & DÈZES, P., 2007. Cenozoic uplift of Variscan Massifs in the Alpine foreland: Timing and controlling mechanisms. Global and Planetary Change, 58, 237-269
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Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-2214-8499
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