PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Neogene activity of the Outer Carpathians recorded by thrust-top basin deposits - an example from the Rzeszów area, Poland

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The Rzeszów thrust-top basin was formed on the active Skole thrust sheet of the Outer Carpathian fold-and-thrust belt and filled with Miocene syntectonic sediments. New seismic 3D, well and field data were used to define the relationship between sedimentation and tectonic activity and to establish the synkinematic context of the Rzeszów basin-fill architecture. The basin evolution was controlled by the activity of the Carpathian frontal thrust and hinterland thrusts developed in the forelimbs of folds in the Skole thrust sheet, bounding the basin from the north and south, respectively. The activity of the frontal thrust resulted in hinterland-directed depocentre migration and tilting of the syntectonic stratigraphic sequence. Balanced cross-sections have indicated that during the last compressive stage of deformation, the syntectonic deposits filling the basin were shortened by c. 5%, which resulted in the formation of folds and contractional faults. The architecture of the syntectonic deposits and the development of contractional structures reflect the activity of thrusts bounding the basin during compressive deformation of the Carpathian orogenic belt.
Rocznik
Strony
79--96
Opis fizyczny
Bibliogr. 64 poz., rys.
Twórcy
autor
  • Faculty of Geology, University of Warsaw, Żwirki i Wigury 93, PL-02-089 Warsaw, Poland
Bibliografia
  • 1. Alonso, J.L., Colombo, F. and Riba, O. 2011. Folding mechanisms in a fault-propagation fold inferred from analysis of the unconformity angles: The Sant Llorenç growth structure (Pyrenees, Spain). In: McKlay, K., Shaw, J. and Suppe, J. (Eds), Thrust fault-related folding. The American Association of Petroleum Geologists Bulletin Memoir, 24, 137-151.
  • 2. Bada, G. 1999. Cenozoic stress field evolution in the Pannonian Basin and surrounding orogens. Netherlands Research School of Sedimentary Geology (NSG) publication no. 990101.
  • 3. Bonini, M., Moratti, G. and Sani, F. 1999. Evolution and depocentre migration in thrust-top basins: inferences from the Messinian Velona Basin (Northern Apennines, Italy). Tectonophysics, 304, 95-108.
  • 4. Boyer, S.E. and Elliott, D. 1982. Thrust systems. The American Association of Petroleum Geologists Bulletin, 66, 1196-1230.
  • 5. Burchfiel, B.C. and Royden, L. 1982. Carpathian foreland fold and thrust belt and its relation to Pannonian and other basins. The American Association of Petroleum Geologists Bulletin, 66, 241-256.
  • 6. Butler, R.W.H. 1982. Terminology of structures in thrust belts. Journal of Structural Geology, 4, 239-245.
  • 7. Butler, R.W.H. 2019. Syn-kinematic strata influence the structural evolution of emergent fold-thrust belts. In: Hammerstein, J.A., Di Cuia, R., Cottam, M., Zamora, G. and Butler, R.W.H. (Eds), Fold and Thrust Belts: Structural Style, Evolution and Exploration. Geological Society, London, Special Publications, 490; https://doi.org/10.1144/SP490-2019-14.
  • 8. Butler, R.W.H. and Grasso, M. 1993. Tectonic controls on base- level variations and depositional sequences within thrusttop and foredeep basins: examples from the Neogene thrust belt of central Sicily. Basin Research, 5, 137-151.
  • 9. Butler, R.W.H. and Lickorish, W.H. 1997. Using high-resolution stratigraphy to date fold and thrust activity: examples from the Neogene of south-central Sicily. Journal of the Geological Society, 154, 633-643.
  • 10. Butler, R.W.H., Maniscalco, R. and Pinter, P. 2019. Syn-kinematic sedimentary systems as constraints on the structural response of thrust belts: re-examining the structural style of the Maghrebian thrust belt of Eastern Sicily. Italian Journal of Geosciences, 138, 371-389.
  • 11. Casciello, E., Esestime, P., Cesaranon, M., Pappone, G., Sindero, M. and Verges J. 2013. Lower plate geometry controlling the development of a thrust-top basin: The tectono-sedimentary evolution of the Ofanto Basin (Southern Apennines). Journal of the Geological Society, 170, 147-158.
  • 12. Czernicki, J. 1977. Margin of the Carpathians in the Rzeszów area. Geological Quarterly, 21, 483-497. [In Polish with English summary]
  • 13. DeCelles, P.G. and Giles, K.A. 1996. Foreland basin systems. Basin Research, 8, 105-123.
  • 14. Duerto, L., Escalona, A. and Mann, P. 2006. Deep structure of the Merida Andes and Sierra de Perija mountain fronts, Maracaibo Basin, Venezuela. American Association Petroleum Geologists Bulletin, 90, 505-528.
  • 15. Dziadzio, P., Maksym, A. and Olszewska, B. 2006. Miocene deposition in the eastern part of the Carpathian Foredeep in Poland. Przegląd Geologiczny, 54, 413-420. [In Polish with English summary]
  • 16. Gągała, Ł., Verges, J., Saura, E., Malata, T., Ringenbach, J.C., Werner, P. and Krzywiec, P. 2012. Architecture and orogenic evolution of the northeastern Outer Carpathians from cross-section balancing and forward modelling. Tectonophysics, 532, 223-241.
  • 17. Głuszyński, A. and Aleksandrowski, P. 2016. A deep palaeovalley in the floor of Polish Carpathian Foredeep Basin near Pilzno and its control on Badenian (Middle Miocene) evaporate facies. Geological Quarterly, 60, 493-516.
  • 18. Głuszyński, A. and Aleksandrowski, P. 2017. Alongstrike geometry variations of the Carpathian thrust front east of Tarnów (SE Poland) as intersection phenomenon related to thrust-floor palaeotopography. 19th EGU General Assembly, EGU2017, p. 5684, Proceedings from the conference held 23-28 April, 2017 in Vienna, Austria.
  • 19. Gonera, M. 1980. Miocene deposits from Zalesie near Rzeszów. Geological Quarterly, 24, 299-310.
  • 20. Gucik, S., Paul, Z., Ślączka, A. and Żytko, K. 1979. Przemyśl. Geological Map of Poland, scale 1:200 000. Państwowy Instytut Geologiczny; Warszawa.
  • 21. Hardy, S. and Poblet, J. 1994. Geometric and numerical model of progressive limb rotation in detachment folds. Geology, 22, 371-374.
  • 22. Hippolyte, J.C., Angelier, J., Roure, F. and Casero, P. 1994. Piggyback basin development and thrust belt evolution: structural and palaeostress analyses of Plio-Quaternary basins in the Southern Apennine. Journal of Structural Geology, 16, 159-173.
  • 23. Jamison, W.R. 1992. Stress controls on fold thrust style. In: McClay, K.R. (Ed.), Thrust tectonics, pp. 155-164. Springer; Dordrecht.
  • 24. Jurkiewicz, H. and Woiński, J. 1979. Mielec. Geological Map of Poland, scale 1:200 000. Państwowy Instytut Geologiczny; Warszawa.
  • 25. Konon, A. 2001. Tectonics of the Beskid Wyspowy mountains (Outer Carpathians, Poland). Geological Quarterly, 45, 179-204.
  • 26. Kotlarczyk, J. 1985. Evolution of the Carpatian tectogene in the Miocene. In: Kotlarczyk, J. (Ed.), Geotraverse Kraków-Rzeszów-Przemyśl-Ustrzyki Dolne-Komańcza-Dukla. Guide to excursion 4 of the Carpatho-Balkan Geological Association XIII Congress, pp. 21-32, Geological Institute; Kraków.
  • 27. Kováč, M., Nagymarosy, A., Oszczypko, N., Ślączka, A., Csontos, L., Marunteanu, M., Matenco, L. and Márton, E. 1998. Palinspastic reconstruction of the Carpathian-Pannonian region during the Miocene. In: Rakús, M. (Ed.), Geodynamic Development of the Western Carpathians, pp. 189- 217. GSSR; Bratislava.
  • 28. Krzywiec, P. 2001. Contrasting tectonic and sedimentary history of the central and eastern parts of the Polish Carpathian Foredeep basin - results of seismic data interpretation. Marine and Petroleum Geology, 18, 13-38.
  • 29. Krzywiec, P., Aleksandrowski, P., Florek, R. and Siupik, J. 2004. The structure of the Outer Carpathian orogenic front: an example of the Miocene Zgłobice unit between Brzesko and Wojnicz - new data, new models, new questions. Przegląd Geologiczny, 52, 1051-1059. [In Polish with English summary]
  • 30. Krzywiec, P. and Vergés, J. 2007. Role of the foredeep evaporites in wedge tectonics and formation of triangle zones: comparison of the Carpathian and Pyrenean Thrust Fronts. In: Lacombe, O., Lavé, J., Roure, F. and Vergés, J. (Eds), Thrust Belts and Foreland Basins - from Fold Kinema tics to Hydrocarbon Systems, pp. 383-394. Springer-Verlag; Berlin-Heidelberg.
  • 31. Krzywiec, P., Bukowski, K., Oszczypko, N. and Garlicki, A. 2012. Structure and Miocene evolution of the Gdów tectonic “embayment” (Polish Carpathian Foredeep) - new model based on reinterpreted seismic data. Geological Quarterly, 56, 907-920.
  • 32. Krzywiec, P., Oszczypko, N., Bukowski, K., Oszczypko-Clowes, M., Śmigielski, M., Stuart, F.M., Persano, C. and Sinclair H.D. 2014. Structure and evolution of the Carpathian thrust front between Tarnów and Pilzno (Pogórska Wola area, southern Poland) - results of integrated analysis of seismic and borehole data. Geological Quarterly, 58, 409-426.
  • 33. Książkiewicz, M. 1972. Budowa Geologiczna Polski T. IV, Tektonika, Karpaty, pp. 121-228. Wydawnictwa Geologiczne; Warszawa.
  • 34. Malata T. 2009a. Strzyżów. Detailed Geological Map of Poland. Państwowy Instytut Geologiczny; Warszawa. [In Polish]
  • 35. Malata, T. 2009b. Strzyżów. Comments on Detailed Geological Map of Poland, pp. 1-51. Państwowy Instytut Geologiczny; Warszawa. [In Polish]
  • 36. Mastella, L. and Konon, A. 2002. Jointing in the Silesian Nappe (Outer Carpathians, Poland) - paleostress reconstruction. Geologica Carpathica, 53, 315-325.
  • 37. Nemčok, M., Houghton, J.J. and Coward, M.P. 1998. Strain portioning along the western margin of Carpathians. Tectonophysics, 292, 119-143.
  • 38. Nemčok, M., Krzywiec, P., Wojtaszek, M., Ludhová, L., Klecker, R.A., Sercombe, W.J. and Coward, M.P. 2006. Tertiary development of the Polish and eastern Slovak parts of the Carpathian accretionary wedge: insights from balanced cross sections. Geologica Carpathica, 57, 355-370.
  • 39. Nescieruk, P., Paul, Z., Rączkowski, W., Szymakowska, F. and Wójcicki, A. 1996. Jasło. Comments on Geological Map of Poland, scale 1:200 000, 66 p. Państwowy Instytut Geologiczny; Warszawa.
  • 40. Nescieruk, P., Paul, Z., Ryłko, W., Szymakowska, F., Wójcik, A. and Żytko, K. 1992. Jasło. Geological Map of Poland, scale 1:200 000. Państwowy Instytut Geologiczny; Warszawa.
  • 41. Ney R. 1965. O wgłębnym przekroju wschodniej części zatoki rzeszowskiej. Geofizyka i Geologia Naftowa, 10-12, 281- 290.
  • 42. Olszewska, B. 1984. A paleoecological interpretation of the Cretaceous and Paleogene foraminifers of the Polish Outer Carpathians. Biuletyn Państwowego Instytutu geologicznego, 346, 7-56. [In Polish with Russian and English summary].
  • 43. Ori, G.G. and Friend, P.F. 1984. Sedimentary basins formed and carried piggyback on active thrust sheets. Geology, 12, 475-478.
  • 44. Oszczypko, N. 1998. The Western Carpathian Foredeep - development of the foreland basin in front of the accretionary wedge and its burial history (Poland). Geologica Carpathica, 49, 415-431.
  • 45. Oszczypko, N. 2004. The structural position and tectonosedimentary evolution of the Polish Outer Carpathians. Przegląd Geologiczny, 52, 780-791.
  • 46. Oszczypko, N. 2006. Development of the Polish sector of the Carpathian Foredeep. Przegląd Geologiczny, 54, 396-403. [In Polish with English summary]
  • 47. Oszczypko, N., Ślączka, A. and Żytko, K. 2008. Tectonic subdivision of Poland: Polish Outer Carpathians and their foredeep. Przegląd Geologiczny, 56, 927-935. [In Polish with English summary]
  • 48. Oszczypko, N. and Tomaś, A. 1985. Tectonic evolution of marginal part of the Polish Flysch Carpathians in the Middle Miocene. Geological Quarterly, 29, 109-128.
  • 49. Pescatore, T. and Ślączka, A. 1984. Evolution models of two flysch basins: The Northern Carpathians and the Southern Apennines. Tectonophysics, 106, 49-70.
  • 50. Poblet, J., McClay, K., Storiti, F. and Muñoz, J.A. 1997. Geometries of syntectonic sediments associated with single- layer detachment folds. Journal of Structural Geology, 19, 369-381.
  • 51. Połtowicz, S. and Turska-Pawica, J. 1993. Tektonika zatoki rzeszow skiej w modelowaniu grawimetrycznym. Nafta-Gaz, 6, 201-215.
  • 52. Riba, O. 1976. Syntectonic unconformities of the Alto Cardener, Spanish Pyrenees: a genetic interpretation. Sedimentary Geo logy, 15, 213-233.
  • 53. Ricci-Lucchi, F. 1986. The Oligocene to Recent foreland basins of the northern Apennines. In: Allen, P.A. and Homewood, P. (Eds), Foreland Basins. International Association of Sedimentologists Special Publications, 8, 105-140.
  • 54. Roure, F., Casero, P. and Vially, R. 1991. Growth processes and melange formation in the southern Apennines accretionary wedge. Earth and Planetary Science Letters, 102, 395-412.
  • 55. Roure, F., Howell, D.G., Guellec, S. and Casero, P. 1990. Shallow structures induced by deep-seated thrusting. In: Letouzey, J. (Ed.), Petroleum and tectonics in Mobile belts, pp. 15-30. Editions Technip; Paris.
  • 56. Sieniawska, I., Aleksandrowski, P., Rauch, M. and Koyi, H. 2010. Control of synorogenic sedimentation on back and out-of sequence thrusting: Insights from analogue modelling of an orogenic front (Outer Carpathians, southern Poland). Tectonics, 29, 1-29.
  • 57. Suppe, J. 1983. Geometry and kinematics of fault-bend folding. American Journal of Science, 283, 684-721.
  • 58. Suppe, J., Chou, G.T. and Hook, S.C. 1992. Rates of folding and faulting determined from growth strata. In: McClay, K.R. (Ed.), Thrust Tectonics, pp. 105-121. Chapman and Hall; London.
  • 59. Szczęsny, R. 2003. Stress direction in the eastern part of Silesian Nappe (Polish Outer Carpathians) reconstructed from second-order folds. Annales Societatis Geologorum Poloniae, 73, 91-101.
  • 60. Urbaniak, J. 1986. An outline of facies structure of the Miocene in the Rzeszów Embayment. Przegląd Geologiczny, 34, 27-32. [In Polish with English summary]
  • 61. Wdowiarz, S. 1976. On the relation of the Carpathians to the Carpathian Foredeep in Poland. Przegląd Geologiczny, 24, 350-357. [In Polish with English summary]
  • 62. Woiński, J. 1988. Rzeszów. Geological Map of Poland, scale 1:200 000. Państwowy Instytut Geologiczny; Warszawa.
  • 63. Zapata, T.R. and Allmendinger, R.W. 1996. Growth strata records of instantaneous and progressive limb rotation in the Precordillera thrust belt and Bermejo basin, Argentina. Tectonics, 15, 1065-1083.
  • 64. Zoetemajer, R. and Sassi, W. 1992. 2-D reconstruction of thrust evolution using the fault-bend fold method. In: McClay, K.R. (Ed.), Thrust Tectonics, pp. 133-140. Chapman and Hall; London.
Uwagi
PL
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-bf7a4f0b-2edc-40f4-9d01-e6656abd4850
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.