Reconstruction of initial thickness and geometry of the Lower Palaeozoic strata in the Podlasie and Baltic basins, East European Craton

Barmuta, Jan; Barmuta, Maria; Golonka, Jan; Papiernik, Bartosz

doi:10.14241/asgp.2019.20

Artykuł - szczegóły

Tytuł artykułu

Reconstruction of initial thickness and geometry of the Lower Palaeozoic strata in the Podlasie and Baltic basins, East European Craton

Autorzy

Barmuta Jan , Barmuta Maria , Golonka Jan , Papiernik Bartosz

Treść / Zawartość

Pełne teksty:

Barmuta_J_Reconstruction_ASGP_Vol.89_Vol.4_2019.pdf

Pobierz

Identyfikatory

DOI

10.14241/asgp.2019.20

Warianty tytułu

Języki publikacji

Abstrakty

The aim of this study was to use the structural restoration technique to verify the correctness of the structural and palaeothickness maps created during the BLUE GAS Project. On the basis of well data as well as refined structural and palaeothickness maps of Cambrian, Ordovician, Silurian, Devonian, Carboniferous, Permian, Triassic, Jurassic and Cretaceous horizons, a cross-section running across the Baltic Basin, the Mazury High and the Podlasie Basin was created. During the restoration process, the effects of compaction and fault activity were removed sequentially. The amount of erosion was estimated on the basis of the corrected palaeothickness maps. The resulting restoration is geologically reasonable and therefore both the structural and palaeothickness maps should be regarded as reliable. The reconstruction also allowed reproduction of the initial geometry and thickness of the Cambrian–Devonian strata and the recognition of three main episodes in the evolution of the sedimentary cover of this part of the East European Craton. The first episode was related to the deposition of the Lower Palaeozoic (up to the Lower Devonian) sedimentary complex on the relatively flat surface of the East European Craton edge. During the second episode, lasting most probably to the Permian, the Baltic and Podlasie Basins subsided significantly. The amount of subsidence was much higher in the Podlasie Basin. The third episode is related to the deposition of the almost flat-lying Mesozoic–Cainozoic complex.

Słowa kluczowe

subsidence decompaction restoration Podlasie Basin Baltic Basin Mazury High shale gas

Wydawca

Polskie Towarzystwo Geologiczne

Czasopismo

Annales Societatis Geologorum Poloniae

Rocznik

2019

Tom

Vol. 89, No. 4

Strony

471--480

Opis fizyczny

Bibliogr. 56 poz., rys., tab., wykr.

Twórcy

autor

Barmuta Jan

jbarmuta@agh.edu.pl

Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Avenue, Kraków, Poland

autor

Barmuta Maria

maria.barmuta@gmail.com

Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Avenue, Kraków, Poland

autor

Golonka Jan

jgolonka@agh.edu.pl

Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Avenue, Kraków, Poland

autor

Papiernik Bartosz

papiern@geol.agh.edu.pl

Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Avenue, Kraków, Poland

Bibliografia

1. Baldwin, B. & Butler, C. O., 1985. Compaction curves. The American Association of Petroleum Geologists Bulletin, 69: 622-626.
2. Barmuta, J., Barmuta, M., Golonka, J. & Papiernik, B., 2017. Dwuwymiarowa rekonstrukcja morfologii basenu ordowicko - sylurskiego wzdłuż linii Gałajny-2 - Kałuszyny-2, In: Golonka, J. & Bębenek, S. (eds), Opracowanie map zasięgu, biostratygrafia utworów dolnego paleozoiku oraz analiza ewolucji tektonicznej przykrawędziowej strefy platformy wschodnioeuropejskiej dla oceny rozmieszczenia niekonwencjonalnych złóż węglowodorów. Wydawnictwo Arka, Cieszyn, Poland, pp. 356-362. [In Polish.]
3. Bogdanova, S., Gorbatschev, R., Skridlaite, G., Soesoo, A., Taran, L. & Kurlovich, D., 2015. Trans-Baltic Palaeoproterozoic correlations towards the reconstruction of supercontinent Columbia/Nuna. Precambrian Research, 259: 5-33.
4. Bond, C. E., Gibbs, A. D., Shipton, Z. K. & Jones, S., 2007. What do you think this is? “Conceptual uncertainty” in geoscience interpretation. GSA Today, 17 (11): 4-10.
5. Bond, C. E., Johnson, G. & Ellis, J. F., 2015. Structural model creation: the impact of data type and creative space on geological reasoning and interpretation. Geological Society, London, Special Publications, 421: 83-97.
6. Clarke, S. M., Burley, S. D., Williams, G. D., Richards, A. J., Meredith, D. J. & Egan, S. S., 2006. Integrated four-dimensional modelling of sedimentary basin architecture and hydrocarbon migration. In: Buiter, S. J. H. & Schreurs, G. (eds), Analogue and Numerical Modelling of Crustal-Scale Processes. Geological Society, London, Special Publications, 253: 185-211.
7. Cocks, L. R. & Torsvik, T. H., 2008. Baltica from the late Precambrian to mid-Palaeozoic times: The gain and loss of a terrane’s identity. Earth-Science Reviews, 72: 39-66.
8. Dadlez, R., Marek, S. & Pokorski, J. (eds), 1998. Atlas paleogeograficzny epikontynentalnego permu i mezozoiku w Polsce l : 2 500000. Państwowy Instytut Geologiczny, Warszawa. [In Polish.]
9. Dadlez, R., Narkiewicz, M., Stephenson, R. A., Visser, M. T. & van Wess, J.-D., 1995. Tectonic evolution of the Mid-Polish Trough: modelling implications and significance for central European geology. Tectonophysics, 252: 179-195.
10. Dickinson, G., 1953. Geological aspects of abnormal reservoir pressures in Gulf Coast Louisiana. The American Association of Petroleum Geologists Bulletin, 37: 410-432.
11. Geluk, M. C., 2007. Permian. In: Wong, Th. E., Blatjes, D. A. J. & de Jager, J. (eds), Geology of the Netherlands. Royal Netherlands Academy of Arts and Sciences, pp. 63-83.
12. Gibbs, A. D., 1983. Balanced cross-section construction from seismic sections in areas of extensional tectonics. Journal of Structural Geology, 5: 153-16.
13. Golonka, J., 2007. Phanerozoic paleoenvironment and paleolithofacies maps. Early Paleozoic. Geologia, 35: 589-654.
14. Golonka, J., Porębski, S. J., Barmuta, J., Papiernik, B., Bębenek, S., Barmuta, M., Botor, D., Pietsch, K. & Słomka, T., 2019. Palaeozoic palaeogeography of the East European Craton (Poland) in the framework of global plate tectonics. Annales Societatis Geologorum Poloniae, 89: 381-403.
15. Gorbatschev, R. & Bogdanova, S., 1993. Frontiers in the Baltic Shield. Precambrian Research, 64: 3-21.
16. Groshong, R., 2006. 3-D structural Geology: A Practical Guide to Quantitative Surface and Subsurface Map Interpretation. Springer, Berlin, 400 pp.
17. Krzemińska, E., 2010. Geochemical and isotopic reconstruction of the tectonic setting of the Mazowsze Domain in the Precambrian basement of north-eastern Poland. Prace Państwowego Instytutu Geologicznego, 195: 5-56. [In Polish, with English summary.]
18. Krzywiec, P., Gągała, Ł., Mazur, S., Słonka, Ł., Kufrasa, M., Malinowski, M., Pietsch, K. & Golonka, J., 2017a. Variscan deformation along the Teisseyre-Tornquist Zone in SE Poland: Thick-skinned structural inheritance or thin-skinned thrusting? Tectonophysics, 718: 83-91.
19. Krzywiec, P., Mazur, S., Gągała, Ł., Kufrasa, M., Lewandowski, M., Malinowski, M. & Buffenmyer, V., 2017b. Late Carboniferous thin-skinned compressional deformation above the SW edge of the East European Craton as revealed by reflection seismic and potential fields data - correlations with the Variscides and the Appalachians. In: Law, R., Thigpen, R., Stowell, H. & Merschat, A. (eds), Linkages and Feedbacks in Orogenic Processes. Geological Society of America Memoir, 213: 353-372.
20. Krzywiec, P., Poprawa, P., Mikołajczak, M., Mazur, S. & Malinowski, M., 2018. Deeply concealed half-graben at the SW margin of the East European Craton (SE Poland) - Evidence for Neoproterozoic rifting prior to the break-up of Rodinia. Journal of Palaeogeography, 7: 88-97.
21. Lazauskienė, J., Stephenson, R., Šliaupa, S. & van Wees, J-D., 2002. 3-D flexural modelling of the Silurian Baltic Basin. Tectonophysics, 346: 115-135.
22. Lazauskienė, J., Šliaupa, S., Brazauskas A. & Musteikis, P., 2003. Sequence stratigraphy of the Baltic Silurian succession: Tectonic control on the foreland infill. Geological Society, London, Special Publications, 208: 95-115.
23. Matyja, H., 2006. Stratigraphy and facies development of Devonian and Carboniferous deposits in the Pomeranian Basin and in the western part of the Baltic Basin and palaeogeography of the northern TESZ during late Palaeozoic times. In: Matyja, H. & Poprawa, P. (eds), Facies, Tectonic and thermal evolution of the Pomeranian sector of Trans-European suture zone and adjacent areas. Prace Państwowego Instytutu Geologicznego, 186: 79-122. [In Polish, with English summary.]
24. Mazur, S., Gągała, Ł., Kufrasa, M. & Krzywiec, P., 2018a. Application of two-dimensional gravity models as input parameters to balanced cross-sections across the margin of the East European Craton in SE Poland. Journal of Structural Geology, 116: 223-233.
25. Mazur, S., Krzywiec, P., Malinowski, M., Lewandowski, M., Aleksandrowski, P. & Mikołajczak, M., 2017b. Tectonic significance of the Teisseyre-Tornquist zone in the light of new research. Przegląd Geologiczny, 65: 1511-1520. [In Polish, with English summary.]
26. Mazur, S., Krzywiec, P., Malinowski, M., Lewandowski, M., Aleksandrowski, P. & Mikołajczak, M., 2018b. On the nature of the Teisseyre-Tornquist Zone. Geology, Gephysics and Environment, 44: 17-30.
27. Mazur, S., Mikołajczak, M., Krzywiec, P., Malinowski, M., Buffenmyer, V. & Lewandowski, M, 2015. Is the Teisseyre-Tornquist Zone an ancient plate boundary of Baltica? Tectonics, 34: 2465-2477.
28. Michna, M., Krakowska, P., Ząbek, G., Machowski, G. & Liana, B., 2017. Opracowanie bazodanowych projektów w programie Petrel - integracja danych kartograficznych oraz geofizycznych. In: Golonka, J. & Bębenek, S. (eds), Opracowanie map zasięgu, biostratygrafia utworów dolnego paleozoiku oraz analiza ewolucji tektonicznej przykrawędziowej strefy platformy wschodnioeuropejskiej dla oceny rozmieszczenia niekonwencjonalnych złóż węglowodorów. Wydawnictwo Arka, Cieszyn, Poland, pp. 51-63. [In Polish.]
29. Miłaczewski, L., 2007. Dewon - litologia i stratygrafia. In: Pacześna, J. (ed.), Busówno IG 1. Profile Głębokich Otworów Wiertniczych Państwowego Instytutu Geologicznego, 118: 113-116. [In Polish.]
30. Modliński, Z., 1967. Stratigraphy of the Ordovician deposits occurring in the Lithuanian Depression (Polish part of the Peri-Baltic Syneclise). Kwartalnik Geologiczny, 11: 68-75. [In Polish, with English summary.]
31. Modliński, Z., 1982. The development of Ordovician lithofacies and palaeotectonics in the area of the Precambrian Platform in Poland. Prace Instytutu Geologicznego, 102: 1-66. [In Polish, with English summary.]
32. Modliński, Z., Małecka, J. & Szewczyk, A., 2010. Paleogeological Atlas of the sub-Permian Paleozoic of the East-European Craton in Poland and Neighbouring Areas 1:2 000 000. Państwowy Instytut Geologiczny, Warszawa.
33. Modliński, Z., Nehring-Lefeld, M. & Ryba, J., 1994. The Early Palaeozoic Complex in the Polish Part of the Baltic Sea. Zeitschrift für Geologische Wissenschaften, 22: 227-234.
34. Motyl-Rakowska, J. & Schoeneich, K., 1970. Geology of the south-western slope of the Masurian Anteclise. Acta Geologica Polonica, 20: 771-794. [In Polish, with English summary.]
35. Move, 2019. Move Documentation. https://www.mve.com/resources/move-documentation [02.04.2019.]
36. Narkiewicz, M., 2007. Development and inversion of Devonian and Carboniferous basins in the eastern part of the Variscan foreland (Poland). Geological Quarterly, 51: 231-256.
37. Nawrocki, J. & Poprawa, P., 2006. Development of Trans-European Suture Zone in Poland: from Ediacaran rifting to Early Palaeozoic accretion. Geological Quarterly, 50: 59-76.
38. Pacześna, J., 2006. Evolution of the Late Neoproterozoic-Early Cambrian rift depocentres and facies in the Lublin-Podlasie Sedimentary Basin. In: Matyja, H. & Poprawa, P. (eds), Facies, Tectonic and thermal evolution of the Pomeranian sector of Trans-European suture zone and adjacent areas. Prace Państwowego Instytutu Geologicznego, 186: 9-38. [In Polish, with English summary.]
39. Papiernik, B., 2017a. Wielkoskalowe przestrzenne modele geologiczne - narzędzie do kartowania wgłębnego i oceny jakości integracji danych. In: Golonka, J. & Bębenek, S. (eds), Opracowanie map zasięgu, biostratygrafia utworów dolnego paleozoiku oraz analiza ewolucji tektonicznej przykrawędziowej strefy platformy wschodnioeuropejskiej dla oceny rozmieszczenia niekonwencjonalnych złóż węglowodorów. Wydawnictwo Arka, Cieszyn, Poland, pp. 38-50. [In Polish.]
40. Papiernik, B., 2017b. Metodyka kartowania strukturalnego, miąższościowego i paleomiąższościowego. In: Golonka, J. & Bębenek, S. (eds), Opracowanie map zasięgu, biostratygrafia utworów dolnego paleozoiku oraz analiza ewolucji tektonicznej przykrawędziowej strefy platformy wschodnioeuropejskiej dla oceny rozmieszczenia niekonwencjonalnych złóż węglowodorów. Wydawnictwo Arka, Cieszyn, Poland, pp. 64-79. [In Polish.]
41. Papiernik, B., Botor, D., Golonka, J. & Porębski, S. J., 2019. Unconventional hydrocarbon prospects in Ordovician and Silurian mudrocks of the East European Craton (Poland): Insight from three-dimensional modelling of total organic carbon and thermal maturity. Annales Societatis Geologorum Poloniae, 89: 511-533.
42. Petecki, Z. & Rosowiecka, O., 2017. A new magnetic anomaly map of Poland and its contribution to the recognition of crystalline basement rocks. Geological Quarterly, 61: 934-945.
43. Poprawa, P., 2006a. Neoproterozoic break-up of the Supercontinent Rodinia/Pannotia recorded by development of sedimentary basins at the western slope of Baltica. In: Matyja, H. & Poprawa, P. (eds), Facies, Tectonic and thermal evolution of the Pomeranian sector of Trans-European suture zone and adjacent areas. Prace Państwowego Instytutu Geologicznego, 186: 165-188. [In Polish, with English summary.]
44. Poprawa, P., 2006b. Development of the Caledonian Collision Zone along the western margin of Baltica and its relations to the foreland basin. In: Matyja, H. & Poprawa, P. (eds), Facies, Tectonic and thermal evolution of the Pomeranian sector of Trans-European suture zone and adjacent areas. Prace Państwowego Instytutu Geologicznego, 186: 189-214. [In Polish, with English summary.]
45. Poprawa, P. & Pacześna, J., 2002. Late Neoproterozoic to Early Palaeozoic development of a rift at the Lublin-Podlasie slope of the East European Craton - analysis of subsidence and facies record. Przegląd Geologiczny, 50: 49-63. [In Polish, with English summary.]
46. Poprawa, P., Šliaupa, S., Stephenson, R. & Lazauskienė, J., 1999. Late Vendian-Early Palaeozoic tectonic evolution of the Baltic Basin: regional tectonic implications from subsidence analysis. Tectonophysics, 314: 219-239.
47. Roberts, A. M., Kusznir, N., Yielding, G. & Styles, P., 1998. 2D flexural backstripping of extensional basins; the need for a sideways glance. Petroleum Geoscience, 4: 327-338.
48. Scalter, J. G. & Christie, P. A., 1980. Continental Stretching - an explanation of the Post-Mid-Cretaceous subsidence of the central North-Sea Basin. Journal of Geophysical Research, 85: 3711-3739.
49. Stolarczyk, F., Stolarczyk, J. & Wysocka, H., 2004. Primary areas for hydrocarbon prospecting in the Cambrian of the Polish part of the East European Platform. Przegląd Geologiczny, 52: 403-412. [In Polish, with English summary.]
50. Šliaupa, S., Fokin, P., Lazauskienė, J. & Stephenson, R., 2006. The Vendian-Early Palaeozoic sedimentary basins of the East European Craton. In: Gee, D. G. & Stephenson, R. A., (eds), European Lithosphere Dynamics, Geological Society, London, Memoir, 32: 449-462.
51. Tomaszczyk, M. & Jarosiński, M., 2017. The Kock Fault Zone as an indicator of tectonic stress regime changes at the margin of the East European Craton (Poland). Geological Quarterly, 61: 908-925.
52. Turcotte, D. & Schubert, G., 1982. Geodynamics. Wiley, New York, 450 pp.
53. Watts, A., 2001. Isostasy and Flexure of the Lithosphere. Cambridge University Press, New York, 458 pp.
54. Watts, A. B., Karner, G. D. & Steckler, M. S., 1982. Lithospheric flexure and the evolution of sedimentary basins. Philosophical Transactions of the Royal Society, 305: 249-281.
55. Żelaźniewicz, A., Aleksandrowski, P., Buła, Z., Karnkowski, P. H., Konon, A., Oszczypko, N., Ślączka, A., Żaba, J. & Żytko, K., 2011. Regionalizacja tektoniczna Polski. Komitet Nauk Geologicznych PAN, Wrocław, pp. 60. [In Polish.]
56. Żelichowski, A. M., 1987. Development of the Carboniferous of the SW margin of the East-European Platform in Poland. Przegląd Geologiczny, 35: 230-237.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-401d3984-0399-4599-ace6-1c83cda51977