Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Magnetic basement in the Pomeranian segment of the Trans-European Suture Zone (NW Poland)
Języki publikacji
Abstrakty
Interpretacja danych magnetycznych w powiązaniu z danymi grawimetrycznymi oraz sejsmicznymi miała na celu uzyskanie nowych informacji o strukturze podłoża magnetycznego w pomorskim segmencie strefy TESZ w NW Polsce. Zidentyfikowano cztery prowincje magnetyczne (A, B’, B” i C), o zróżnicowanym charakterze magnetycznym, rozdzielone strefami gradientowymi (magnetycznymi lineamentami) Koszalin–Szczecinek–Bydgoszcz–Toruń (KSBT), Szczecin–Stargard Szczeciński–Inowrocław (SSPI) i Słubice–Leszno (SL). Wydzielone prowincje odpowiadają blokom strukturalnym podłoża, a lineamenty magnetyczne są związane z głównymi strefami uskokowymi. Krystaliczna skorupa prowincji magnetycznej B” prawdopodobnie wywodzi się ze wschodniej Awalonii, natomiast w obszarze B’ może stanowić klin krystalicznej skorupy platformy prekambryjskiej wbijający się w skorupę wschodniej Awalonii. Nie da się jednak wykluczyć wersji, że jest to skorupa proksymalnego lub egzotycznego terranu, łuku wyspowego albo pozostałość po pryźmie akrecyjnej. Na podstawie analizy danych magnetycznych zaproponowano tektoniczny model kaledońskiej kolizji między kontynentami wschodnią Awalonią i Baltiką, z przypuszczalnym udziałem dodatkowego bloku skorupy o niejasnym pochodzeniu. W tym modelu zamknięcie morza Tornquista miało miejsce wzdłuż zapadającej ku NE strefy subdukcji, występującej w strefie TESZ.
Magnetic data has been interpreted in conjunction with gravity data and seismic reflection and refraction profiles to provide new information about the magnetic basement structure in the Pomeranian segment of the TESZ in NW Poland. Four distinct magnetic provinces (A, B', B" and C) with significantly different magnetic character and separated by the gradient zones of Koszalin-Szczecinek-Bydgoszcz-Toruń (KSBT), Szczecin-Stargard Szcz.-Piła-Inowrocław (SSPI) and Słubice-Lesmo (SL), were recognized. These provinces are related to individual structural blocks and the identified magnetic lineaments reflect majortectonic discontinuities. The crystalline crust of magnetic province B" is of presumably the Eastern Avalonian origin whereas a crustal wedge of the EEC, indenting the Eastern Avalonian crust, may occur in magnetic province B'. However, another possibility cannot be precluded that this is a proximal or exotic terrane crust, island arc crust or a relic of an accretionary prism. The analysis of the magnetic data resulted in a tectonic model of the Caledonian collision of Eastern Avalonia and Baltica with the presumed participation of an additional crustal block of an unclear provenance. In this model the closure ofthe Tornquist Sea took place along a subduction zone occurring in the TESZ and dipping towards the northeast.
Czasopismo
Rocznik
Tom
Strony
1--72
Opis fizyczny
Bibliogr. 71 poz.
Twórcy
autor
- Państwowy Instytut Geologiczny, 00-975 Warszawa, ul. Rakowiecka 4
Bibliografia
- 1. Abramovitz, T., & Thybo, H. (1999). Pre-zechstein structures around the MONA LISA deep seismic lines in the southern horn graben area. Bulletin of the Geological Society of Denmark, 45, 99-116. f
- 2. Abramovitz, T., & Thybo, H. (2000). Seismic images of Caledonian, lithosphere-scale collision structures in the Southeastern North Sea along mona lisa profile 2. Tectonophysics, 317(1-2), 27-54. doi:10.1016/S0040-1951(99)00266-8
- 3. Abramovitz, T., & Thybo, H. (1998). Seismic structure across the Caledonian deformation front along MONA LISA profile 1 in the Southeastern North Sea. Tectonophysics, 288(1-4), 153-176. doi:10.1016/S0040-1951(97)00290-4
- 4. Aichroth, B., Prodehl, C., & Thybo, H. (1992). Crustal structure along the central segment of the EGT from seismic-refraction studies. Tectonophysics, 207(1-2), 43-64. doi:10.1016/0040-1951(92)90471-H
- 5. Arkani-Hamed, J., Langel, R. A., & Purucker, M. (1994). Scalar magnetic anomaly maps of earth derived from POGO and magsat data. Journal of Geophysical Research, 99(B12), 24,075-24,090. doi:10.1029/94jb00930
- 6. Babuška, V., & Plomerová, J. (2004). The sorgenfrei-tornquist zone as the mantle edge of Baltica lithosphere: New evidence from three-dimensional seismic anisotropy. Terra Nova, 16(5), 243-249. doi:10.1111/j.1365-3121.2004.00558.x
- 7. Bachtadse, V., Tait, J. A., & Schtz, M. (1997). Palaeogeography of Palaeozoic terranes in the Variscan and Alpine fold belts. Terra Nostra, 11, 16-20.
- 8. Balling, N. (2000). Deep seismic reflection evidence for ancient subduction and collision zones within the continental lithosphere of Northwestern Europe. Tectonophysics, 329(1-4), 269-300. doi:10.1016/S0040-1951(00)00199-2
- 9. Balling, N. (1995). Heat flow and thermal structure of the lithosphere across the Baltic shield and northern tornquist zone. Tectonophysics, 244(1-3), 13-50. doi:10.1016/0040-1951(94)00215-U
- 10. Baranov, V. (1957). A new method for interpretation of aeromagnetic maps: Pseudo-gravimetric anomalies. Geophysics, 22(2), 359-383.
- 11. Baranov, V., & Naudy, H. (1964). NUMERICAL CALCULATION of the FORMULA of REDUCTION to the MAGNETIC POLE. Geophysics, 29(1), 67-79. doi:10.1190/1.1439334
- 12. Bayer, U., Scheck, M., Rabbel, W., Krawczyk, C. M., Götze, H. -., Stiller, M., Kuder, J. (1999). An integrated study of the NE German basin. Tectonophysics, 314(1-3), 285-307. doi:10.1016/S0040-1951(99)00249-8
- 13. Berthelsen, A. (1992). Mobile Europe. A Continent Revealed: The European Geotraverse, 11-32.
- 14. Berthelsen, A. (1998). The tornquist zone northwest of the Carpathians: An intraplate pseudosuture. GFF, 120(2), 223-230. doi:10.1080/11035899801202223
- 15. Berthelsen, A., Thybo, H., Bailing, N., Normark, E., Heikkinen, P., Korhonen, H., BABEL Working Group. (1993). Deep seismic Reflection/Refraction interpretation of crustal structure along babel profiles A and B in the southern Baltic sea: Babel working group*. Geophysical Journal International, 112(3), 325-343. doi:10.1111/j.1365-246X.1993.tb01173.x
- 16. Blakely, R. J. (1995). Potential Theory in Gravity and Magnetic Applications, 441.
- 17. Blakely, R. J., & Simpson, R. W. (1986). Approximating edges of source bodies from magnetic or gravity anomalies. Geophysics, 51(7), 1494-1498. doi:10.1190/1.1442197
- 18. Bogdanova, S. V., & Gorbatschev, R. (1997). Major crustal boundaries of the East European craton cut by the TESZ. Terra Nostra, 97(11), 24-28.
- 19. Bogdanova, S. V., Pashkevich, I. K., Gorbatschev, R., & Orlyuk, M. I. (1996). Riphean rifting and major Palaeoproterozoic crustal boundaries in the basement of the East European craton: Geology and geophysics. Tectonophysics, 268(1-4), 1-21. doi:10.1016/S0040-1951(96)00232-6
- 20. Breitkreuz, C., & Kennedy, A. (1999). Magmatic flare-up at the Carboniferous/Permian boundary in the NE German basin revealed by SHRIMP zircon ages. Tectonophysics, 302(3-4), 307-326. doi:10.1016/S0040-1951(98)00293-5
- 21. Buła, Z., Jachowicz, M., & Zaba, J. (1997). Principal characteristics of the Upper Silesian block and Małopolska block border zone (southern Poland). Geological Magazine, 134(5), 669-677. doi:10.1017/S0016756897007462
- 22. Christensen, N. I., & Mooney, W. D. (1995). Seismic velocity structure and composition of the continental crust: A global view. Journal of Geophysical Research, 100(B6), 9761-9788. doi:10.1029/95JB00259
- 23. Cieśla, E., Gientka, D., Petecki, Z., Staniszewska, B., Twarogowski, J., & Wybraniec, S. (1997). Interpretacja Danych Grawimetrycmych i Magnetycmych w Zachodniej Polsce.
- 24. Clark, D. A. (1997). Magnetic petrophysics and magnetic petrology: Aids to geological interpretation of magnetic surveys. AGSO Journal of Australian Geology and Geophysics, 17(2), 83-103.
- 25. Cocks, L. R. M. (1999). The early Palaeozoic geography of Europe. Journal of the Geological Society, 157(1), 1-10. doi:10.1144/jgs.157.1.1
- 26. Cocks, L. R. M., & Fortey, R. A. (1982). Faunal evidence for oceanic separations in the Palaeozoic of Britain. Journal of the Geological Society, 139(4), 465-478. doi:10.1144/gsjgs.139.4.0465
- 27. Cocks, L. R. M., McKerrow, W. S., & Van Staal, C. R. (1997). The margins of avalonia. Geological Magazine, 134(5), 627-636. doi:10.1017/S0016756897007425
- 28. Cohen, Y., & Achache, J. (1990). New global vector magnetic anomaly maps derived from magsat data. Journal of Geophysical Research, 95(B7), 10,783-10,800. doi:10.1029/jb095ib07p10783
- 29. Cordell, L., & Grauch, V. J. S. (1985). Mapping basement magnetization zones from aeromagnetic data in the san juan basin, new Mexico. The Utility of Regional Gravity and Magnetic Anomaly Maps, 181-197.
- 30. Cymerman, Z., & Piasecki, M. A. J. (1994). The terrane concept in the Sudetes, bohemian massif. Kwartalnik Geologiczny, 38(2), 191-209.
- 31. DABROWSKI, A. (1969). Skały czynne magnetycznie na obszarze przedsudeckim. Kwart.Geol, 13(4), 889-986.
- 32. Da̧browski, A., & Karaczun, K. (1958). Mapa magnetyczna Polski 1:2 000 000. Biul.Inst.Geol., 137, 1-36.
- 33. Dadlez, R. (1982). (Permian-Mesozoic tectonics versus basement fractures along the teisseyre-tornquist zone in the territory of Poland). [Tektonika permo-mezozoiku a glebokie rozlamy strefy Teisseyre'a- Tornquista na terenie Polski.] Kwartalnik Geologiczny, 26(2), 273-284.
- 34. Dadlez, R. (1997). Epicontinental basins in poland: Devonian to Cretaceous-relationships between the crystalline basement and sedimentary infill. Kwartalnik Geologiczny, 41(4), 419-432.
- 35. Dadlez, R. (1978). Podpermskie kompleksy skalne w strefie Koszalin-Chojnice. Kwart.Geol., 22(2), 269-301.
- 36. Dadlez, R. (2000). Pomeranian Caleonides (NW Poland), fifty years of controversies: A review and a new concept. Geological Quarterly, 44(3), 221-236.
- 37. Dadlez, R. (1997). Seismic profile LT-7 (Northwest Poland): Geological implications. Geological Magazine, 134(5), 653-659. doi:10.1017/S0016756897007401
- 38. Dadlez, R. (1974). Tectonic position of western Pomerania (north-western Poland) prior to the Upper Permian. Biul.Inst.Geol., 274, 49-87.
- 39. Dadlez, R. (1993). Teisseyre-tornquist tectonic zone (TTZ) in Poland. Geophys.Pol.Acad.Sc, 20 A(255), 49-51.
- 40. Dadlez, R. (1980). Tektonika wału pomorskiego. Kwart.Geol., 24(4), 741-767.
- 41. Dadlez, R., Grad, M., & Guterch, A. (2005). Crustal structure below the Polish Basin: Is it composed of proximal terranes derived from Baltica? Tectonophysics, 411(1-4), 111-128. doi:10.1016/j.tecto.2005.09.004
- 42. Dadlez, R., Narkiewicz, M., Stephenson, R. A., Visser, M. T. M., & van Wees, J. -. (1995). Tectonic evolution of the mid-Polish trough: Modelling implications and significance for central European geology. Tectonophysics, 252(1-4), 179-195. doi:10.1016/0040-1951(95)00104-2
- 43. Dallmeyer, R. D., Franke, W., & Weber, K. (1995). Pre-Permian Geology of Central and Eastern Europe.
- 44. Dallmeyer, R. D., Giese, U., Glasmacher, U., & Pickel, W. (1999). First 40Ar/39Ar age constraints for the caledonian evolution of the trans-European suture zone in NE Germany. Journal of the Geological Society, 156(2), 279-290. doi:10.1144/gsjgs.156.2.0279
- 45. Dalziel, I. W. D. (1992). On the organization of American plates in the neoproterozoic and the breakout of laurentia. GSA Today, 2(11), 237,240-241.
- 46. Dalziel, I. W. D. (1991). Pacific margins of laurentia and east antarctica-Australia as a conjugate rift pair: Evidence and implications for an eocambrian supercontinent. Geology, 19(6), 598-601. doi:10.1130/0091-7613(1991)019<0598:PMOLAE>2.3.CO;2
- 47. Dalziel, I. W. D., Mosher, S., & Gahagan, L. M. (2000). Laurentia-Kalahari collision and the assembly of Rodinia. Journal of Geology, 108(5), 499-513. doi:10.1086/314418
- 48. De Santis, A., Kerridge, D. J., & Barraclough, D. R. (1989). A spherical cap harmonic model of the crustal magnetic anomaly field in europe observed by magsat. Geomagnetism and Palaeomagnetism, 261, 1-17.
- 49. Dziewinska, L., & Petecki, Z. (2004). Kompleksowa interpretacja badań geofizycznych północnego obrzeżenia Gór Świętokrzyskich. Instrukcje i Metody Badań Geologicznych, 58, 1-107.
- 50. Franke, D. (1995). Caledonian terranes along the southwestern border of the east European platform - evidence, speculation and open questions. Studia Geophysica Et Geodætica, 39(3), 241-256. doi:10.1007/BF02295815
- 51. Franke, D. (1994). The deformational history of the Caledonian terranes at Baltica's southwest margin. Z.Geol.Wiss., 22(1-2), 67-80.
- 52. Franke, W., Dallmeyer, R. D., & Weber, K. (1995). Geodynamic evolution. Pre-Permian Geology of Central and Eastern Europe, 579-593.
- 53. Frost, B. R., & Shive, P. N. (1986). Magnetic mineralogy of the lower continental crust. J.Geophys.Res., 91(B6), 6513-6521.
- 54. Gee, D. G., & Zeyen, H. J. (1996). EUROPROBE 1996 - Lithospheric dynamics: Origin and evolution of continents. EUROPROBE 1996 - Lithosphere Dynamics: Origin and Evolution of Continents.
- 55. Giese, U., Walter, R., & Katzung, G. (1994). Detrital composition of Ordovician sandstones from the rügen boreholes: Implications for the evolution of the Tornquist Ocean. Geologische Rundschau, 83(2), 293-308. doi:10.1007/BF00210546
- 56. Grabowska, T., & Bojdys, G. (2004). Analysis of geomagnetic field along seismic profile P4 of the international project POLONAISE'97. Tectonophysics, 383(1-2), 15-28. doi:10.1016/j.tecto.2004.02.002
- 57. Grabowska, T., & Bojdys, G. (2001). The border of the east-European craton in south-eastern poland based on gravity and magnetic data. Terra Nova, 13(2), 92-98. doi:10.1046/j.1365-3121.2001.00321.x
- 58. Grabowska, T., Bojdys, G., & Dolnicki, J. (1998). Three-dimensional density model of the earth's crust and the upper mantle for the area of Poland. Journal of Geodynamics, 25(1-2), 5-34. doi:10.1016/s0264-3707(97)00001-x
- 59. Grabowska, T., & Koblanski, A. (1992). Interpretation of magnetic anomalies along the eu-3 geotransect in Poland. Acta Geophysica Polonica, 40(2), 175-185.
- 60. Grad, M., Guterch, A., & Mazur, S. (2002). Seismic refraction evidence for crustal structure in the central part of the trans-European suture zone in Poland doi:10.1144/GSL.SP.2002.201.01.14
- 61. Grad, M., Guterch, A., & Polkowska-Purys, A. (2005). Crustal structure of the trans-European suture zone in Central Poland - reinterpretation of the LT-2, LT-4 and LT-5 deep seismic sounding profiles. Geological Quarterly, 49(3), 243-252.
- 62. Grad, M., Janik, T., Yliniemi, J., Guterch, A., Luosto, U., Tiira, T., Lund, C. - (1999). Crustal structure of the mid-Polish trough beneath the teisseyre-tornquist zone seismic profile. Tectonophysics, 314(1-3), 145-160. doi:10.1016/S0040-1951(99)00241-3
- 63. Guterch, A. (1968). Geophysical characteristics of deep structure of the earth's crust in Poland. Bull.Acad.Sc., Ser.Sc.Terre, 16, 147-152.
- 64. Guterch, A., Grad, M., Janik, T., Materzok, R., Luosto, U., Yliniemi, J., Forste, K. (1994). Crustal structure of the transition zone between Precambrian and Variscan Europe from new seismic data along LT-7 profile (NW Poland and Eastern Germany). Comptes Rendus - Academie Des Sciences, Serie II: Sciences De La Terre De Des Planetes, 319(12), 1489-1496.
- 65. Haggerty, S. E. (1979). The aeromagnetic mineralogy of igneous rocks. Canadian Journal of Earth Sciences, 16(6), 1281-1293. doi:10.1139/e79-112
- 66. Hahn, A., Kind, E. G., & Mishra, D. C. (1976). DEPTH ESTIMATION OF MAGNETIC SOURCES BY MEANS OF FOURIER AMPLITUDE SPECTRA. Geophysical Prospecting, 24(2), 287-306. doi:10.1111/j.1365-2478.1976.tb00926.x
- 67. Hamoudi, M., Cohen, Y., & Achache, J. (1998). Can the thermal thickness of the continental lithosphere be estimated from magsat data? Tectonophysics, 284(1-2), 19-29. doi:10.1016/S0040-1951(97)00166-2
- 68. Hoffman, P. F. (1991). Did the breakout of Laurentia turn Gondwanaland inside-out? Science, 252(5011), 1409-1412. doi:10.1126/science.252.5011.1409
- 69. Hoffmann, N., & Franke, D. (1997). The Avalonia-Baltica suture in NE Germany - new constraints and alternative interpretations. Z.Geol.Wiss., 25(1-2), 3-14.
- 70. Janik, T., Yliniemi, J., Grad, M., Thybo, H., Tiira, T., Gaczyński, E., Komminaho, K. (2002). Crustal structure across the TESZ along Polonaise'97 seismic profile P2 NW Poland. Tectonophysics, 360(1-4), 129-152. doi:10.1016/S0040-1951(02)00353-0
- 71. Jankowski, J., Ernst, T., Jozwiak, W., & Pawliszyn, J. (1995). Results of induction study within the Pomeranian segment of the teisseyre-tornquist tectonic zone. Acta Geophysica Polonica, 43(2), 129-136.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-83aca818-cf5d-4857-9723-e2e316c86747