Tytuł artykułu
Autorzy
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Problematyka głębokiego wiercenia na Orawie a popaleogeńska tektonika Karpat Północnych
Języki publikacji
Abstrakty
This paper presents an insight into the geology of the area surrounding the ODDP proposed drilling site, and the structural development of the Carpathians in post-Palaeogene times. Since the deep drilling is proposed to be located in the Orava region of the Northern Carpathians, on the Polish-Slovak border, the structure and origin of the Neogene Orava Basin is also addressed in the paper. The outline of geology of the Carpathian Mountains in Slovakia and Poland is presented. This outline includes the Inner Carpathian Tatra Mountains, the Inner Carpathian Palaeogene Basin, the Pieniny Klippen Belt, the Outer Carpathians, the deep structure below the Carpathian overthrust, the Orava Basin Neogene cover, the Neogene magmatism, faults and block rotations within the Inner and Outer Carpathians, and the Carpathian contemporary stress field. The outline of geology is accompanied by the results of the most recent magnetotelluric survey and the detailed description of the post-Palaeogene plate tectonics of the circum-Carpathian region. The oblique collision of the Alcapa terrane with the North European plate led to the development of the accretionary wedge of the Outer Carpathians and foreland basin. The northward movement of the Alpine segment of the Carpathian-Alpine orogen had been stopped due to its collision with the Bohemian Massif. At the same time, the extruded Carpatho/ Pannonian units were pushed to the open space, towards a bay of weak crust filled up by the Outer Carpathian flysch sediments. The separation of the Carpatho/Pannonian segment from the Alpine one and its propagation to the north was related to the development of the N-S dextral strike-slip faults. The formation of the West Carpathian thrusts was completed by the Miocene time. The thrust front was still progressing eastwards in the Eastern Carpathians. The Carpathian loop including the Pieniny Klippen Belt structure was formed. The Neogene evolution of the Carpathians resulted also in the formation of genetically different sedimentary basins. These basins were opened due to lithospheric extension, flexure, and strike-slip related processes. A possible asteno- sphere upwelling may have contributed to the origin of the Orava Basin, which represents a kind of a rift modified by strike-slip/pull-apart processes. In this way, a local extensional regime must have operated on a local scale in the Orava region, within the frame of an overall compressional stress field affecting the entire West Carpathians. Nevertheless, many questions remain open. Without additional direct geological data, which can be achieved only by deep drilling under the Orava Deep Drilling Project, these questions cannot be fully and properly answered.
W grudniu 1999 Polska dołączyła do programu wierceń kontynentalnych - International Continental Scientific Drilling Program (ICDP). W ramach tego programu jest przygotowywany projekt głębokiego wiercenia w strefie kontaktu teranu Karpat wewnętrznych i płyty północnoeuropejskiej. Praca przedstawia zarys geologii Karpat na terenie Polski i Słowacji, ze szczególnym uwzględnieniem Tatr, paleogenu wewnątrzkarpackiego, pienińskiego pasa skałkowego, zachodnich Karpat zewnętrznych, podłoża nasunięcia karpackiego na południe od Krakowa, neogeńskiego wulkanizmu i budowy geologicznej niecki orawskiej. Wiercenie "Orawa" byłoby usytuowane w rejonie Jabłonki-Chyżnego na linii przekroju sejsmicznego CELEBRATION CEL01, jak również w niedalekim sąsiedztwie głębokiego przekroju geologicznego Kraków-Zakopane i na linii przekroju Andrychów-Chyżne. Przekroje Kraków--Zakopane i Andrychów-Chyżne wykorzystują szereg wierceń Państwowego Instytutu Geologicznego i PGNiG, a także badania sejsmiczne i magnetote-luryczne. Usytuowanie wiercenia w rejonie przygranicznym pozwoli na międzynarodową współpracę z geologami i geofizykami słowackimi. Wiercenie to ma na celu wyjaśnienie szeregu problemów badawczych. Jednym z nich jest zagadnienie młodych i współczesnych ruchów tektonicznych w Karpatach. Przez obszar karpacki przebiega granica europejskiego pola plam gorąca, wyznaczona neogeńskim wulkanizmem oraz rozkładem strumienia cieplnego. Na obszarze pomiędzy Górną Orawą a Górnym Śląskiem, linia graniczna łącząca neogeńskie wulkanity Zakarpacia z andezytami rejonu przypienińskiego i bazaltami Dolnego Śląska przecina skośnie nasunięcia jednostek fliszowych Karpat Zewnętrznych. Równocześnie w rejonie Orawy do pienińskiego pasa skałkowego skośnie dochodzi oś karpackiej, ujemnej anomalii grawimetrycznej, a podłoże skonsolidowane występuje na głębokości nie większej niż 6-9 km, a więc w zasięgu głębokiego wiercenia, co sugerują wyniki badań megnetotellurycznych (Żytko, 1999) i magnetycznych. Podniesienie to, przy generalnym zapadaniu podłoża platformy europejskiej pod Karpaty ku południowi, może bya spowodowane warunkami geotermicznymi, na skutek podnoszenia się astenosfery i występowania pióropuszy płaszcza. Pióropusze te mogą bya niezależne od karpackiej kompresji i subdukcji. Z piórpuszami tymi łączy się lokalna i regionalna ekstensja w warunkach megaregionalnej kompresji. Zjawiska tego rodzaju nie są jeszcze dokładnie poznane, aczkolwiek występują w kilku miejscach na świecie (np. Panteleria na Morzu Śródziemnym). Opracowanie zagadnienia roli pióropuszy płaszcza i określenie ich relacji do kolizji i subdukcji mają zasięg globalny, a ich wyjaśnienie w rejonie karpackim pozwoli na stworzenie uniwersalnego modelu ewolucji orogenów. Nie jest wykluczone, że mamy do czynienia z orogenezą "modyfikowaną" przez pióropusz płaszcza. Powstanie niecki Orawy i Podhala mogłoby więc mieć związek z riftingiem spowodowanym wpływem pióropuszy płaszcza na pograniczu dwóch płyt. Ryft ten jest obrzeżony między innymi wyniesieniami Babiej Góry i Orawskiej Magury. Z ryftem może być związany wulkanizm ukryty pod neogeńskimi utworami niecki orawskiej, a widoczny jako wysokooporowe ciała na profilach megnetotellurycznych. Tektonikę tego obszaru komplikuje występowanie uskoków przesuwczych o różnym przebiegu i orientacji i związane z nimi tworzenie się basenów międzyprzesuwczych typu pull-apart. Proponowane wiercenie przyczyniłoby się do uzyskania odpowiedzi na postawione wyżej problemy. Dla określenia dokładnej lokalizacji wiercenia i jego właściwej interpretacji geologicznej konieczne będzie wykonanie dodatkowych prac geofizycznych. Płytka sejsmika wyjaśniłaby zasięg utworów neogeńskich i pozycję pienińskiego pasa skałkowego pod utworami neogenu, zaś głęboka sejsmika, a zwłaszcza zdjęcie 3-D, przyczyni łaby się do lepszego rozpoznania tektoniki wgłębnej.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
211--248
Opis fizyczny
Bibliogr. 211 poz., rys., tab.
Twórcy
autor
- AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Kraków, Poland
autor
- University of Wrocław, Institute of Geological Sciences, ul. Cybulskiego 30, 50-205 Wrocław, Poland
autor
- Department of Geology and Palaeontology, Comenius University, Mlynská dolina, 842 15 Bratislava, Slovak Republic
autor
- Polish Geological Institute, Carpathian Branch, ul. Skrzatów 1, 31-560 Kraków, Poland
autor
- AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Kraków, Poland
autor
- Jagiellonian University, Institute of Geological Sciences, ul. Oleandry 2a, 30-063 Kraków, Poland
autor
- Polish Oil and Gas Company, ul. Lubicz 25, 31-503 Kraków, Poland
autor
- Silesian University, ul. Będzińska 60, 41-200 Sosnowiec, Poland
autor
- Polish Geological Institute, ul. Rakowiecka 4, 00-975 Warszawa, Poland
autor
- Mineral and Energy Economy Research Institute, ul. Wybickiego 7, 30-950 Warszawa, Poland
autor
- AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Kraków, Poland
autor
- Institute of Geological Sciences, Polish Academy of Sciences, ul. Twarda 51/55, 00-818 Warszawa, Poland
autor
- Institute of Geological Sciences, Polish Academy of Sciences, ul. Twarda 51/55, 00-818 Warszawa, Poland
- Institute of Geophysics, Polish Academy of Sciences, ul. Księcia Janusza 64, 01-452 Warszawa, Poland
autor
- Department of Geology and Palaeontology, Comenius University, Mlynská dolina, 842 15 Bratislava, Slovak Republic
autor
- Jagiellonian University, Institute of Geological Sciences, ul. Oleandry 2a, 30-063 Kraków, Poland
autor
autor
- 650 New Haven Court, 945 98 California, U.S.A.
autor
- Geological Survey of Slovak Republic, Geologický Ústav Dionyza Štura, Mlynská dolina 1, 817 04 Bratislava, Slovak Republic
autor
- University of Warsaw, Department of Geology, Al. Żwirki i Wigury 93, 02-089 Warszawa, Poland
autor
- Jagiellonian University, Institute of Geological Sciences, ul. Oleandry 2a, 30-063 Kraków, Poland
autor
- AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Kraków, Poland
autor
- Jagiellonian University, Institute of Geological Sciences, ul. Oleandry 2a, 30-063 Kraków, Poland
autor
- Institute of Geological Sciences, Polish Academy of Sciences, ul. Twarda 51/55, 00-818 Warszawa, Poland
Bibliografia
- 1. Aleksandrowski, P., 1985. Structure of the Mt. Babia Góra region, Magura nappe, Western Outer Carpathians: an interference of West and East Carpathian fold trends. (In Polish, English summary). Annales Societatis Geologorum Poloniae, 55: 375-422.
- 2. Aleksandrowski, P., 1989. Structural geology of the Magura nappe in the Mt. Babia Góra region, Western Outer Carpathians. (In Polish, English summary). Studia Geologica Polonica, 96: 1-140.
- 3. Andrusov, D., 1938. Geologický výskum vnitřního bradlového pásma v Západních Karpatech. III. Tektonika. (In Czech). Rozpravy Státnego geologickego Ústavu CSR, 9: 1-135.
- 4. Andrusov, D., 1959. Geológia československých Karpát II. (In Czech). SAV, Bratislava, 376 pp.
- 5. Andrusov, D., Bystrický, J. & Fusán, O., 1973. Outline of the structure of the West Carpathians. Guide book, X Congress CBGA, GÚDŠ, Bratislava, 44 pp.
- 6. Aubrecht, R., Mišík, M. & Sýkora, M., 1997. Jurassic synrift sedimentation on the Czorsztyn Swell of the Pieniny Klippen Belt in Western Slovakia. In: Plašienka, D., Hók, J. Vozár, J. & Elecko, M. (eds), Alpine evolution of the Western Carpathians. Geological Survey of Slovak Republic, Bratislava: 53-64.
- 7. Aubrecht, R. & Túnyi, I., 2001. Original orientation of neptunian dykes in the Pieniny Klippen Belt (Western Carpathians): the first results. Contributions to Geophysics and Geodesy, 31: 557-578.
- 8. Bac-Moszaszwili, M., 1993. Structure of the western termination of the Tatra massif. (In Polish, English summary). Annales Societatis Geologorum Poloniae, 63: 167-193.
- 9. Balla, Z., l987. Tertiary paleomagnetic data for the Carpatho-Pannonian region in the light of Miocene rotation kinematics. Tectonophysics, l39: 67-98.
- 10. Baumgart-Kotarba, M., 1992. The geomorphological evolution of the intramontane Orava Basin associated with neotectonic movements, Polish Carpathians. Studia Geomorphologica Carpatho-Balcanica, 25: 3-28.
- 11. Baumgart-Kotarba, M., 1996. On origin and age of the Orava Basin, West Carpathians. Studia Geomorphologica Carpatho- Balcanica, 30: 101-116.
- 12. Baumgart-Kotarba, M., 2001. Continuous tectonic evolution of the Orava basin from Late Badenian to the present-day. Geologica Carpathica, 52: 103-110.
- 13. Baumgart-Kotarba, M., Marcak, H. & Márton, E., 2004. Rotation along the transverse transforming Orava strike-slip fault: based on geomorphological, geophysical and paleomagnetic data (Western Carpathians). Geologica Carpathica, 55: 219226.
- 14. Bąk, K., 2000. Biostratigraphy of deep-water agglutinated Foraminifera in Scaglia Rossa-type deposits, the Pieniny Klippen Belt, Carpathians, Poland. In: Hart,. M., Smart, C. & Kaminski, M. A. (eds), Proceedings of the Fifth International Workshop on Agglutinated Foraminifera. Grzybowski Foundation Special Publication, 7: 15-41.
- 15. Becker, A., 1993. Contemporary state of stress and neotectonic deformation in the Carpathian-Pannonian region. Terra Nova 5: 375-388.
- 16. Behrmann, J. H., Stiasny, S., Milicka, J. & Pereszlenyi, M., 2000. Quantitative reconstruction of orogenic convergence in the northern Carpathians. Tectonophysics, 319: 111-127.
- 17. Bielik, M., Šefara, J., Kovác, M., Bezák, V. & Plašienka, D., 2004. The Western Carpathians - interaction of Hercynian and Alpine processes. Tectonophysics, 393: 63-86.
- 18. Birkenmajer, K., 1958. Submarine erosional breaks and Late Jurassic synorogenic movements in the Pieniny Klippen Belt geosyncline. Bull. Acad. Polon. Sci., Sér., sci. chim., géol. et géogr., 8: 551-558.
- 19. Birkenmajer, K., 1977. Jurassic and Cretaceous lithostratigraphic units of the Pieniny Klippen Belt, Carpathians, Poland. Studia Geologica Polonica, 45: 1-158.
- 20. Birkenmajer, K., 1983. Strike-slip faults in the northern boundary zone of the Pieniny Klippen Belt, Carpathians. (In Polish, English summary). Studia Geologica Polonica, 77: 89-112.
- 21. Birkenmajer, K., 1986. Stages of structural evolution of the Pieniny Klippen Belt, Carpathians. Studia Geologica Polonica, 88: 7-32.
- 22. Birkenmajer, K., 1988. Exotic Andrusov Ridge: its role in plate- tectonic evolution of the West Carpathian Foldbelt. Studia Geologica Polonica, 91: 7-37.
- 23. Birkenmajer, K., 2003. Post-collisional Late Middle Miocene (Sarmatian) Pieniny Volcanic Arc, Western Carpathians. Bulletin of the Polish Academy of Sciences, Earth Sciences, 51: 79-89.
- 24. Birkenmajer, K. & Oszczypko, N., 1989. Cretaceous and Palaeogene lithostratigraphic units of the Magura Nappe, Krynica Subunit, Carpathians. Annales Societatis Geologorum Poloniae, 59: 145-181.
- 25. Birkenmajer, K. & Pécskay, Z., 1999. K-Ar dating of the Miocene andesite intrusions, Pieniny Mts, West Carpathians. Bulletin of the Polish Academy of Sciences, Earth Sciences, 47: 155169.
- 26. Birkenmajer, K. & Pécskay, Z., 2000. K-Ar dating of the Miocene andesite intrusions, Pieniny Mts, West Carpathians, Poland: a supplement. Studia Geologica Polonica, 117: 7-25.
- 27. Burchart, J., 1970. Rocks of the Goryczkowa “Crystalline Island” in the Tatra Mountains. Studia Geologica Polonica, 32: 1160.
- 28. Burda, J. & Gawęda, A., 1997. Mass-balance calculations in migmatites from the Upper Kościeliska Valley (The Western Tatra Mts. S-Poland). Mineralogia Polonica, 28: 53-68.
- 29. Burda, J. & Gawęda, A., 1999. Petrogenesis of migmatites from the Upper Kościeliska Valley (Western Tatra Mountains). Archiwum Mineralogiczne, 52: 163-194.
- 30. Chowaniec, J., 1989. Hydrogeologiczne warunki zasilania i przepływu wód podziemnych w utworach trzeciorzędowych Podhala między Zakopanem a Białym. (In Polish). Unpublished Ph. D. thesis. Centralne Archiwum Geologiczne Państwowego Instytutu Geologicznego, Warszawa, 144 ms. pp.
- 31. Chowaniec, J. & Kępińska, B., 2003. Podhale geothermal system - selected issues. In: Golonka, J. & Lewandowski, M., (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 13-23.
- 32. Chrustek, M., 2005. Morphotectonics of the Orava Basin, Western Carpathians. GeoLines, 19: 26-27.
- 33. Cieszkowski, M., 1985. Stop 21: Obidowa. In: Birkenmajer, K. (ed.), Main geotraverse of the Polish Carpathians (Cracow- Zakopane), Guide to excursion 2, Carpatho-Balkan Geological Association, 13 Congress, Cracow, Poland. Geological Institute, Warszawa: 54-58.
- 34. Cieszkowski, M., 1992. Michalczowa zone: a new unit of the Fore-Magura Zone, Outer Carpathians, South Poland. (In Polish, English summary). Geologia, Kwartalnik AGH,, 18: 1-125.
- 35. Cieszkowski, M., 1995. Marine Miocene deposits close to Nowy Targ and their importance for determining age of the Orava - Nowy Targ basin, south Poland. (In Polish, English summary). Geologia, Kwartalnik AGH, 21: 153-168.
- 36. Cieszkowski, M., 2001. Fore-Magura Zone of the Outer Carpathians in Poland. Biuletyn Państwowgo Instytutu Geologicznego, 396: 32-33.
- 37. Cieszkowski, M., 2003. The Outer Carpathians thrustbelt. In: Golonka, J. & Lewandowski, M. (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 107-110.
- 38. Cieszkowski, M., Durkovic, T., Jawor, E., Korab, T. & Sikora, W., 1981a. A new tectonic unit in the Polish and Slovak Flysch Carpathians. Abstracts, Carpatho-Balkan Geological Association, 12 Congress, Bucharest, 1981. Bucharest: 118-120.
- 39. Cieszkowski, M., Durkovic, T., Jawor, E., Korab, T. & Sikora, W., 1981b. Geological interpretation of the Obidowa-Słopnice tectonic unit in the Polish and Slovak Flysch Carpathians. Abstracts, Carpatho-Balkan Geological Association, 12 Congress, Bucharest, 1981. Bucharest: 272-274.
- 40. Cieszkowski, M., Golonka, J., Polak, A., Rajchel, J. & Ślączka, A., 2003. Olistostroms in the deep-water flysch deposits in the Polish Outer Carpathians. In: Vlahovic, I. (ed.), Abstract Book. 22nd IAS Meeting of Sedimentology - Opatija 2003. Opatija, Croatia, p. 66.
- 41. Cieszkowski, M., Oszczypko, N. & Zuchiewicz, W., 1989. Upper Cretaceous siliciclastic-carbonate turbidites at Szczawa, Magura Nappe, West Carpathians, Poland. Bulletin of the Polish Academy of Sciences, Earth Sciences, 37: 231-245.
- 42. Cieszkowski, M., Ślączka, A. & Wdowiarz, S., 1985. New data on structure of the Flysch Carpathians. Przegląd Geologiczny, 33: 313-333.
- 43. Ciulavu, D., & Bertotti, G., 1994. The Transylvanian Basin and its Upper Cretaceous Substratum: ALCAPA II. Romanian Journal of Tectonics and Regional Geology, 75: 59-65.
- 44. Csontos, L., Tari, G., Bergerat, F. & Fodor, L., 1991. Evolution of the stress fields in the Carpatho-Pannonian area during the Neogene. Tectonophysics, 199: 73-91.
- 45. Csontos, L. & Vörös, A., 2004. Mesozoic plate tectonic reconstruction of the Carpathian region. Palaeogeography, Palaeoclimatology, Palaeoecology, 210: 1-56.
- 46. Czerwiński, T., Florek, R. & Klityński, W., 2002. Geophysical and geological interpretation of regional magnetotelluric survey in the Western Polish Carpathians. Naukovij Visnik Ivano-Frankivs’kogo Natsional’nogo Technichnogo Universitetu Nafti i Gazu, 3 (4): 97-103.
- 47. Czerwiński, T. & Stefaniuk, M., 2001. Recognition of geological structure of the Carpathians as a result of magnetotelluric investigations. Slovak Geological Magazine, 7: 139-144.
- 48. Decker, K. & Peresson, H., 1996. Tertiary kinematics in the Alpine-Carpathian-Pannonian system: links between thrusting, transform faulting and crustal extension. In: Wessely, G. & Liebl, W., (eds), Oil and gas in Alpidic thrustbelts and basins of Central and Eastern Europe. Special Publications of the European Association of Geoscientists and Engineers 5. Geological Society, London: 17-21.
- 49. Doglioni, C., Moretti, I. & Roure, F., 1991. Basal lithospheric detachment, eastward mantle flow and Mediterranean geodynamics: a discussion. Journal of Geodynamics, 13: 47-65.
- 50. Dżułyński, S. & Gradziński, R., 1960. Source of Lower Triassic clastics in the Tatra Mts. Bulletin of the Polish Academy of Sciences, Earth Sciences, 8: 45-48.
- 51. Ellouz, N. & Roca, E., 1994. Palinspastic Reconstruction of the Carpathians and Adjacent Areas since the Cretaceous: a Quantitative Approach. In: Roure, F. (ed.), Peri-Tethyan Platform. Editions Technip, Paris: 51-77.
- 52. Ernst, T., Jankowski, J., Semenov, V. J., Adam, A., Hvozdara, M., Jóźwiak, W., Lefeld, J., Pawliszyn, J., Szarka, L. & Wesztergom, V., 1997. Electromagnetic soundings across the Tatra Mountains. Acta GeophysicaPolonica, 45: 33-43.
- 53. Fejdiová, O., 1971. Sedimentary petrology of the Lower Triassic quartzites from the Vysoké Tatry and Malé Karpaty envelope unit. Geologický Zborník-Geologica Carpathica, 28: 49-77.
- 54. Gawęda, A., Goławska, B., Jędrysek, M., Leichman, J., Paulo, A. & Włodyka, R., 2001. Carbonate mineralisation in the Tatra Mts. crystalline basement. Mineralogical Society of Poland, Special Papers, 18: 39-42.
- 55. Gawęda, A., Kozłowski, K. & Piotrowska, K. 1998. Tectonic development of the crystalline basement of the Polish part of the Western Tatra Mts. Acta Universitatis Carolinae, Geologica, 42: 252.
- 56. Gawęda, A., Winchester, J. A., Kozłowski, K., Narębski, W. & Holland, J. G., 2000. Geochemistry and paleotectonic setting of amphibolites from the Western Tatra Mts., southern Poland. Geological Journal, 35: 69-85.
- 57. Ghosh, S. K. & Ramberg, H., 1968. Buckling experiments on intersecting fold patterns. Tectonophysics, 5: 89-105.
- 58. Golonka, J., 1981. Objaśnienia do Mapy geologicznej Polski 1:200 000, arkusz Bielsko-Biała. (In Polish). Wydawnictwa Geologiczne, Warszawa, 80 pp.
- 59. Golonka, J., 2003. Plate tectonics of the circum-Carpathian area and the ultra deep drilling proposal. In: Golonka, J. & Lewandowski, M., (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 113-125.
- 60. Golonka, J., 2004. Plate tectonic evolution of the southern margin of Eurasia in the Mesozoic and Cenozoic. Tectonophysics, 381: 235-273.
- 61. Golonka, J., 2005. Mesozoic plate tectonics of the Inner Carpathians - rotational approach. GeoLines, 19: 42-43.
- 62. Golonka, J., Gahagan, L., Krobicki, M., Marko, F., Oszczypko, N. & Slączka, A., 2005. Plate Tectonic Evolution and Paleogeography of the Circum-Carpathian Region. In: Picha, F. & Golonka, J. (eds), The Carpathians and their foreland: Geology and hydrocarbon resources. American Association of Petroleum Geologists, Memoir, 84: 1-60.
- 63. Golonka, J. & Krobicki, M., 2001. Upwelling regime in the Carpathian Tethys: a Jurassic-Cretaceous palaeogeographic and palaeoclimatic perspective. Geological Quarterly, 45: 15-32.
- 64. Golonka, J. & Krobicki, M., 2004. Jurassic paleogeography of the Pieniny and Outer Carpathian basins. Rivista Italiana di Paleontologia e Stratigrafia, 110: 5-14.
- 65. Golonka, J., Krobicki, M., Oszczypko, N., Slączka, A. & Slomka, T., 2003. Geodynamic evolution and palaeogeography of the Polish Carpathians and adjacent areas during Neo-Cimmerian and preceding events (latest Triassic-earliest Cretaceous). In: McCann, T. & Saintot, A. (eds), Tracing Tectonic Deformation Using the Sedimentary Record. Geological Society, London, Special Publications, 208: 138-158.
- 66. Golonka, J., Krobicki, M. & Tomaś, A., 2005. PaleogeografiaKarpat centralnych i wewnętrznych - ujęcie rotacyjne. (In Polish). In: Cieszkowski, M. & Golonka, J. (eds), Wapienie organogeniczne i organodetrytyczne w Karpatach zewnętrznych i ich znaczenie dla rekonstrukcji paleogeograficznych. Seminarium naukowe, 21 kwietnia 2005, ING UJ, Kraków: 41-45.
- 67. Golonka, J. & Lewandowski, M. (eds), 2003. Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363), 184 pp.
- 68. Golonka, J., Oszczypko, N. & Slączka, A., 2000. Late Carboniferous-Neogene geodynamic evolution and palaeogeography of the circum-Carpathian region and adjacent areas. Annales Societatis Geologorum Poloniae, 70: 107-136.
- 69. Golonka, J. & Rączkowski, W., 1984. Objaśnienia do Szczegółowej mapy geologicznej Polski 1: 50 000, arkusz Piwniczna. (In Polish). Wydawnictwa Geologiczne, Warszawa, 85 pp.
- 70. Golonka, J. & Sikora, W., 1981. Microfacies of the Jurassic and Lower Cretaceous sedimentarily thinned deposits of the Pieniny Klippen Belt in Poland. (In Polish, English summary). Biuletyn Instytutu Geologicznego, 31: 7-37.
- 71. Grabowski, J. & Nemcok, M., 1999. Summary of Paleomagnetic Data from the Central West Carpathians of Poland and Slovakia: Evidence for the Late Cretaceous-Early Tertiary Transpression. Physics and Chemistry of the Earth, 24: 681-685.
- 72. Grabowski, P., 1967. Budowa geologiczna choczańskich lusek Uplazu, Kończystej i Bramy Kantaka na wschód od Doliny Kościeliskiej. (In Polish, English summary). Acta Geologica Polonica, 17: 672-696.
- 73. Gross, P., Kohler, E., Mello, J., Haško, J., Halouzka, R., Nagy, A., Kovác, P., Filo, I., Havrila, M., Maglay, J., Salaj, J., Franko, O., Zakovic, M., Pospíšil, L., Bystrická, H., Samuel, O., Snopková, P., Potfaj, M., žecová, K. & Borová, D., 1993. Geology of southern and eastern Orava. (In Slovak, English summary). Geologický Ústav Dionyza Štura, Bratislava: 1319.
- 74. Gross, P., Kohler, E. & Samuel, O., 1984. A new lithostratigraphical division of the Inner-Carpathian Paleogene. (In Slovak, English summary). Geologickepráce - Správy, 81: 103-117.
- 75. Guterch, A. & Grad, M. (reporters), 2001. New deep seismic studies of the lithosphere in Polonaise’97 and Celebration 2000 seismic experiments. Biuletyn Państwowego Instytutu Geologicznego, 396: 61.
- 76. Hefty, J., 1998. Estimation of site velocities from CEGRN GPS campaigns referred to CERGOP reference frame. Publications of the Warsaw University of Technology, Institute of Geodesy and Geodetic Astronomy, 9 (30): 67-79.
- 77. Horváth, F. & Cloetingh, S., 1996. Stress-induced late-stage subsidence anomalies in the Pannonian basin. Tectonophysics, 266: 287-300.
- 78. Hók, J., Šimon, L., Kovác, P., Elecko, M., Vass, D., Verbich, F. & Halmo, J., 1995. Tectonics ofthe Hornonitrianska kotlina Basin during Tertiary. Geologica Carpathica, 46: 191-196.
- 79. Iwanow, A. & Wieczorek, J., 1987. Problem najwyższych jednostek tektonicznych w Tatrach. (In Polish, English summary). Przegląd Geologiczny, 35 (10): 525-528.
- 80. Jachowicz, M., Bobiński, W., Bula, Z., Habryn, R., Markowiak, M., Żaba, J., Żelaźniewicz, A., 2002. Geneza i pozycja stratygraficzna podkambryjskich i podordowickich anchimetamorficznych skał w południowej Polsce - przedpole orogenu neoproterozoicznego? Raport końcowy: grant KBN 9T12B 03217. (In Polish). Unpublished report, pp. 1-118.
- 81. Janak, M., Hurai, V., Ludhova, L., O’Brien, P. J. & Horn, E. E., 1999. Dehydration melting and devolatilization during exhumation of high grade metapelites: the Tatra Mountains, Western Carpathians. Journal of Metamorphic Geology, 17: 379395.
- 82. Janak, M., Kohut, M. & Poller, U., 2001. The Tatra Mountains: an example of lower-crustal melting and multistage granite evolution during Variscan orogeny. In: Petrik, I., Kohut, M. & Broška, I. (eds), Granitic plutonism of the Western Carpathians: Characteristics and evolution. Geological Institute, Slovak Academy Sciences, Geological Survey of Slovak Republic, Bratislava: 80-92.
- 83. Jankowski, J., 1967. The marginal structures of the East European Platform in Poland on basis of data of geomagnetic field variations. Publications of the Institute of Geophysics, Polish Academy of Sciences, 4: 93-102.
- 84. Jankowski J., Ney, R. & Praus, O., 1982. Do geothermal waters occur underneath the whole arc of the North-East Carpathians? (In Polish, English summary). Przegląd Geologiczny, 4: 165-169.
- 85. Jankowski, J., Pawliszyn, J., Jóźwiak, W. & Ernst, T., 1991. Synthesis of electric conductivity surveys performed on the Polish part of the Carpathians with geomagnetic and magnetotelluric sounding methods. Publications of the Institute of Geophysics, Polish Academy of Sciences, A-19 (236): 183-214.
- 86. Jankowski, J. & Praus, O., 2003. Carpathian anomaly of electrical conductivity: history of its discovery and its interpretation. In: Golonka, J. & Lewandowski, M. (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 127-128.
- 87. Jankowski, J., Tarlowski, Z., Praus, O., Pecova, J. & Peter, V., 1985. The results of deep geomagnetic sounding in the West Carpatians. Geophysical Journal, Russian Academy of Sciences, 80: 561-574.
- 88. Janocko, J. & Kovác, M., 2003. Geotectonic background of origin of Western Carpathian sedimentary basins. In: Janocko, J. & Elecko, M. (eds), Tectono-sedimentary evolution of Western Carpathian Tertiary Basins. Mineralia Slovaca, 36: 169-180.
- 89. Jurewicz, E., 1994. Structural analysis of the Pieniny Klippen Belt at Jaworki, Carpathians, Poland. (In Polish, English summary). Studia Geologica Polonica, 106: 7-87.
- 90. Jurewicz, E., 1997. The contact between the Pieniny Klippen Belt and Magura Unit (the Male Pieniny Mts.). Geological Quarterly, 41: 315-326.
- 91. Jurewicz, E., 2002. Geometric analysis of steep-dipping dislocations within the granitoid core in the Polish part of the Tatra Mts. Annales Societatis Geologorum Poloniae, 72: 89-98.
- 92. Kępińska, B., 1997. Model geologiczno-geotermalny niecki podhalańskiej. (In Polish). Studia, Rozprawy, Monografie. Wydawnictwo CPPGSMiE PAN, Kraków, 48: 5-11.
- 93. Koszarski, A., 1999. The Jasło Nappe versus the Gorlice beds. A controversy at the front of the Magura Nappe in the Jasło-Gorlice region. (Polish Middle Carpathians). Geologica Carpathica, 50: 153-154.
- 94. Koszarski, L., Sikora, W. & Wdowiarz, S., 1974. The Flysch Carpathians. Polish Carpathians. In: Mahel, M. (ed.), Tectonics of the Carpathian-Balkan Regions. Geologický Ústav Dionyza Štura, Bratislava: 180-197.
- 95. Kotański, Z., 1959. Stratigraphy, sedimentology and paleogeography of the High-Tatric Triassic in the Tatra Mts. Acta Geologica Polonica, 9: 113-145.
- 96. Kotański, Z., 1961. Tektogeneza i rekonstrukcja paleogeografii pasma wierchowego w Tatrach. (In Polish, French summary). Acta Geologica Polonica, 11: 187-476.
- 97. Kotański, Z., 1973. Upper and Middle Subtatric nappe in the Tatra Mts. Bulletin of the Polish Academy of Sciences, Earth Sciences, 21: 75-83.
- 98. Kotański, Z., 1979. Trias tatrzański. (In Polish). Przegląd Geologiczny, 7: 369-377.
- 99. Kotański, Z., 1986a. Jeszcze raz o płaszczowinie strażowskiej, cz. 1. (In Polish). Przegląd Geologiczny, 10: 547-552.
- 100. Kotański, Z., 1986b. Jeszcze raz o płaszczowinie strażowskiej, cz. 1. (In Polish). Przegląd Geologiczny, 11: 621-628.
- 101. Kotlarczyk, J. (ed.), 1985. Geotraverse Kraków - Baranów - Rzeszów - Przemyśl - Ustrzyki Dolne - Komańcza - Dukla. Guide to Excursion 4. Carpatho-Balkan Geological Association XIII Congress, Cracow, Poland 1985. Geological Institute, Warszawa, 172 pp.
- 102. Kovác, M., Bielik, M., Pereszlényi, M., Šefara, I., Túnyi, I. & Vass, D., 1997. The Western Carpathian intramontane basins. In: Grecula, P., Hovorka, D. & Putiš, M. (eds), Geological evolution of the Western Carpathians. Mineralia Slovaca - Monograph, Bratislava: 43-64.
- 103. Kovác, M. & Hók, J., 1993. The Central Slovak Fault System: Field evidence of a strike-slip. Geologica Carpathica, 44: 155-160.
- 104. Kovác, M., Král, J., Márton, E., Plašienka, D. & Uher, P., 1994. Alpine uplift history of the Central Western Carpathians: geochronological, paleomagnetic, sedimentary and structural data. Geologica Carpathica, 45: 83-96.
- 105. Kovác, M., Nagymarosy, A., Oszczypko, N., Ślączka, A., Csontos, L., Marunteanu, M., Matenco, L. & Márton, M., 1998. Palinspastic reconstruction of the Carpathian-Pannonian region during the Miocene. In: Rakús, M. (ed.), Geodynamic development of the Western Carpathians. Geological Survey of Slovak Republic, Dionýz Štúr Publishers, Bratislava: 189217.
- 106. Kovác, M., Nagymarosy, A. Soták, J. & Šutovská, K., 1993. Late Tertiary Paleogeographic Evolution of the Western Carpathians. Tectonophysics, 226: 401-415.
- 107. Kovác, M. & Túnyi, I., 1995. Interpretácia paleomagnetických údajov zo západnej casti Centrálnych Západných Karpát. (In Slovak). Mineralia Slovaca, 27: 2l3-220.
- 108. Kozłowski, K. & Gawęda, A., 1999. Pre-Variscan metamorphic evolution of the crystalline basement of the Polish part of the Western Tatra Mountains. (In Polish, English summary). In: Jankowski, A. T. & Szczypek, T. (eds), Memorial of 25 years of geographical center at the University of Silesia, Sosnowiec. University of Silesia, Special Issue, Katowice: 91-99.
- 109. Král, J., 1977. Fission track ages of apatites from some granitoid rocks in West Carpathians. Geologica Carpathica, 28: 269276.
- 110. Krobicki, M., Kruglov, S. S., Matyja, B. A., Wierzbowski, A., Aubrecht, R., Bubniak, A. & Bubniak, I., 2003. Relation between Jurassic klippen successions in the Polish and Ukrainian parts of the Pieniny Klippen Belt. Mineralia Slovaca, 35: 56-58.
- 111. Krs, M. & Roth, Z., 1979. Insubrický karpatský trežohorný blokový systém, jeho vznik a rozloženie. (In Slovak). Geologica Carpathica, 30: 3-17.
- 112. Kruczyk, J., Kądziałko-Hofmokl, M., Lefeld, J. Pagac, P. & Túnyi, I., 1992. Paleomagnetism of Jurassic sediments as evidence for oroclinal bending of the Inner West Carpathians. Tectono- physics, 206: 315-324.
- 113. Kruglov, S. S., 1989. Geodynamics of the Ukrainian Carpathians. Geologica Carpathica, 40: 101-123.
- 114. Krzywiec, P. & Jochym, P., 1997. Characteristics of Miocene subduction of the Polish Carpathians: Results of flexural modelling. (In Polish, English summary). Przegląd Geologiczny, 45 (8): 785-792.
- 115. Książkiewicz, M., 1956. Geology of the Northern Carpathians. Geologische Rundschau, 45: 396-411.
- 116. Książkiewicz, M., 1977. The Tectonics of the Carpathians. In: Pożaryski, W. (ed.), Geology of Poland, IV. Tectonics. Wydawnictwa Geologiczne, Warszawa: 476-620.
- 117. Lefeld, J. (ed.), 1985. Jurassic and Cretaceous lithostratigraphic units in the Tatra Mountains. Studia Geologica Polonica, 84: 82-93.
- 118. Lefeld, J., 1999. Tectonics of the Subtatric Units, Eastern Tatra Mts. Studia Geologica Polonica, 115: 139-166.
- 119. Lefeld, J. & Jankowski, J., 1985. Model of deep structure of the Polish Inner Carpathians. Publications of the Institute of Geophysics, Polish Academy of Sciences, A-16 (175): 71-100.
- 120. Lewandowski, M., Krobicki, M., Matyja, B. A. & Wierzbowski, A., 2003. Palaeogeography and dynamics of the Eastern Pieniny Klippen Belt (Carpathians, Southwestern Ukraine) on the basis of palaeomagnetic data. In: Golonka, J. & Lewandowski, M. (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 137-142.
- 121. Lexa, J., Bzák, V., Elecko, M., Mello, J., Polák, M., Potfaj, M. & Vozár, J. (eds), 2000. Geological map of the Western Carpathians and adjacent areas, 1: 500,000. Geol. Survey of Slovak Republic, Bratislava.
- 122. Lexa, J., Konečný, V., Kaliciak, M. & Hojstricová, V. 1993. Distribúcia vulkanitov karpato-panónskeho regiónu v priestore a case. (In Slovak). In: Rakús, M. (ed.), Geodynamický model a hlbinná stavba Západných Karpát. Konf - symp. - sem. Geologický Ústav Dionyza Štura, Bratislava: 57-69.
- 123. Linzer, H.-G., 1996. Kinematics of retreating subduction along the Carpathian arc, Romania. Geology, 24: 167-170.
- 124. Mader, D., 1982. Evolution of Palaeoecology and Palaeoenvironment of Permian and Triassic Fluvial Basins in Europe. Volume 1. Western and Eastern Europe. Gustav Fischer Verlag, Stuttgart-New York, 738 pp.
- 125. Mahel, M., 1974. The Inner Carpathians. In: Mahel, M. (ed.), Tectonics of the Carpathian-Balkan Regions. Geologický Ústav Dionyza Štura, Bratislava: 91-133.
- 126. Malata, E., Malata, T. & Oszczypko, N., 1996. Litho- and biostratigraphy of the Magura Nappe in the eastern part of the Beskid Wyspowy Range (Polish Western Carpathians). Annales Societatis Geologorum Poloniae, 66: 269-283.
- 127. Małkowski, S., 1958. Przejawy wulkanizmu w dziejach geologicznych okolic Pienin. (In Polish, English summary). Prace Muzeum Ziemi, 1: 105-113.
- 128. Marko, F., 1996. Dynamic analysis of faulting in the Central- Carpathian Paleogene Basin, based on structural investigations in the Levocske Vrchy Mts. In: Sotak, J. (ed.), Geological assessment of the Levočske vrchy Mts. - research report. Geofond, Bratislava: 399-462.
- 129. Marko, F., 2003. Slickensides and related paleostress field in the western part of the Pieniny Klippen Belt. In: Golonka, J. & Lewandowski, M. (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 145-146.
- 130. Marko, F., Fodor, L. & Kovác, M., 1991. Miocene strike-slip faulting and block rotation in Brezovské Karpaty Mts. (Western Carpathians). Mineralia Slovaca, 23: l89-200.
- 131. Marschalko, R., 1968. Facies distributions, paleocurrents and paleotectonics of the Paleogene flysch of Central West-Carpathians. Geologica Carpathica, 19: 69-94.
- 132. Márton, E., 2003. Western Carpathians: Tertiary paleomagnetism and rotations. In: Golonka, J. & Lewandowski, M. (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 147-148.
- 133. Márton, E. & Fodor, L., 1995. Combination of paleomagnetic and stress data - a case study from North Hungary. Tectonophysics, 242: 99-114.
- 134. Márton, E., Tokarski, A. K. & Halasz, D., 2004. Late Miocene counterclockwise rotation of the Pieniny andesites at the contact of the Inner and Outer Western Carpathians. Geologica Carpathica, 55: 411-419.
- 135. Mastella, L., Ozimkowski, W. & Szczęsny, R., 1988. Tectonics of the northwestern Podhale flysch. (In Polish, English summary). Przegląd Geologiczny, 36: 566-572.
- 136. Matějka, A. & Roth, Z., 1950. Remark on the main tectonic units of the Magura Flysch in Czechoslovakia. (In Czech, English summary). Vestnik Statneho Geologickeho Ústavu, 25: 301308.
- 137. Matenco, L. & Bertotti, G., 2000. Tertiary tectonic evolution of the external East Carpathians (Romania). Tectonophysics, 316: 255-286.
- 138. Matenco, L., Zoetemeijer, R., Cloetingh, S. & Dinu, C., 1997. Lateral variations in mechanical properties of the Romanian external Carpathians: inferences of flexure and gravity modelling. Tectonophysics, 282: 147-166.
- 139. Meszaros, N., 1996. Stratigrafia regiunii Turnu Rosu-Porcesti. (In Romanian). Convergente transilvane, 4: 42-45, Sibiu.
- 140. Michalik, M. & Skublicki, £., 1999. Phosphate accessory minerals in High Tatra granitoids. Geologica Carpathica, 50, Special Issue: 123-125.
- 141. Mišík, M., 1994. The Czorsztyn submarine ridge (Jurassic-Lower Cretaceous, Pieniny Klippen Belt): an example of a pelagic swell. Mitteilungen der Osterreichische Geologische Gesellschaft, 86: 133-140.
- 142. Moryc, W. & Jachowicz, M., 2000. Precambrian deposits in the Bochnia-Tarnów-Dębica area (southern Poland). (In Polish, English summary). Przegląd Geologiczny, 48: 601-606.
- 143. Nagy, A., Vass, D., Petrik, F. & Pereszlényi, M., 1996. Tectogenesis of the Orava Depression in the light of latest biostratigraphic investigations and organic matter alteration studies. Slovak Geological Magazine, 1/96: 49-58.
- 144. Nagymarosy, A. & Báldi-Beke, M., 1993. The Szolnok unit and its probabale paleogeographic position. Tectonophysics, 226: 457-470.
- 145. Nemcok, M. & Nemcok, J., 1994. Late Cretaceous deformation of the Pieniny Klippen Belt, West Carpathians. Tectonophysics, 239: 81-109.
- 146. Nemcok, M., Nemcok, J., Wojtaszek, M., Ludhova, L., Klecker, R. A., Sercombe, W. J., Coward, M. P. & Keith, F. K., Jr., 2000. Results of 2D balancing along 20° and 21°30’ longitude and pseudo-3D in the Smilno tectonic window: implications for shortening mechanisms of the West Carpathian accretionary wedge. Geologica Carpathica, 51: 281-300.
- 147. Nemcok, M., Pospišil, L., Lexa, J. & Donelick, R. A., 1998. Tertiary subduction and slab break-off model of the Carpathian- Pannonian region. Tectonophysics, 295: 307-340.
- 148. Orlický, O.,1996. Paleomagnetism of neovolcanics of the East- Slovak lowlands and Zemplínske vrchy Mts.: A study of the tectonics applying the paleomagnetic data (W. Carpathians). Geologica Carpathica, 47: 13-20.
- 149. Oszast, J. & Stuchlik, L.,1977. The Neogene vegetation of the Podhale (West Carpathians, Poland). (In Polish, English summary). Acta Palaeobotanica, 18: 45-86.
- 150. Oszczypko, N., 1992. Late Cretaceous through Paleogene evolution of Magura Basin. Geologica Carpathica, 43: 333-338.
- 151. Oszczypko, N., 1997. The early-middle Miocene Carpathian peripheral foreland basin (Western Carpathians, Poland). In: Krobicki, M. & Zuchiewicz, W., (eds), Dynamics of the Pannonian-Carpathian-Dinaride system; PANCARDI 97. Przegląd Gelogiczny, 45: 1054-1063.
- 152. 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.
- 153. Oszczypko, N., 1999. From remnant oceanic basin to collision- related foreland basin - a tentative history of the Outer Western Carpathians. Geologica Carpathica, 40: 161-163.
- 154. Oszczypko, N., 2001. Magura Unit - general geology. In: Birkenmajer, K. & Krobicki, M. (eds), Carpathian palaeogeography and geodynamics: a multidisciplinary approach: Field trip C. 12th Meeting of the Association of European Geological Societies, Kraków 2001. Państwowy Instytut Geologiczny, Kraków: 173-177.
- 155. Oszczypko, N., Golonka, J., Malata, T., Poprawa, P. Slomka, T. & Uchman, A., 2003. Tectonostratigraphic evolution of the Outer Carpathian basins (Western Carpathians, Poland). Mineralia Slovaca, 35: 17-20.
- 156. Oszczypko, N., Krzywiec, P., Popadyuk, I. & Peryt, T., 2005. Carpathian Foredeep Basin (Poland and Ukraine): Sedimentary, Structural, and Geodynamic Evolution. In: Picha, F. & Golonka, J. (eds), The Carpathians and their foreland: Geology and hydrocarbon resources. American Association of Petroleum Geologists, Memoir, 84: 1-58.
- 157. Oszczypko, N., & Tomaś, A., 1985. Tectonic evolution of marginal part of the Polish Flysch Carpathians in the Middle Miocene. Kwartalnik Geologiczny, 29: 109-128.
- 158. Oszczypko, N., Zając, R., Garlicka, I., Mencik, E., Dvorak, J. & Matejovská, O., 1989. Geological map of the substratum of the Tertiary of the Western Outer Carpathians and their Foreland. In: Poprawa, D. & Nemcok, J. (eds), Geological Atlas of the Western Outer Carpathians and their Foreland, 1:500,000. Państwowy Instytut Geologiczny, Warszawa.
- 159. Oszczypko, N. & Zuchiewicz, W., 2000. Jointing in Eocene flysch strata of the mid-eastern Magura Nappe, Polish outer Carpathians: implications for the timing of deformation. Slovak Geological Magazin, 6: 441-456.
- 160. Pescatore, T. & Slączka, A., 1984. Evolution models of two flysch basins: the Northern Carpathians and the Southern Apennines. Tectonophysics, 106: 49-70.
- 161. Picha, F. J., 1996. Exploring for hydrocarbons under thrust belts: a challenging new frontier in the Carpathians and elsewhere. American Association of Petroleum Geologists, Bulletin, 89: 1547-1564.
- 162. Picha, F., Stráník, Z. & Krejcí, O., 2005. Geology and Hydrocarbon Resources of the Outer West Carpathians and their Foreland, Czech Republic. In: Picha, F. & Golonka, J. (eds), The Carpathians and their foreland: Geology and hydrocarbon resources. American Association of Petroleum Geologists, Memoir, 84: 1-123.
- 163. Plašienka, A., 1999. Tectonochrology andpaleotectonic model of the Jurassic-Cretaceous evolution of the Central Western Carpathians. (In Slovak, English summary). Veda, Bratislava, 127 pp.
- 164. Plašienka, D., Grecula, P., Putiš, M., Kovác, M. & Hovorka, D., 1997. Evolution and structure of the Western Carpathians: an overview. In: Grecula, P., Hovorka, D. & Putiš, M. (eds), Geological evolution of the Western Carpathians. Mineralia Slovaca, Monograph, Bratislava: 1-24.
- 165. Poller, U., Todt, W., Kohut, M. & Janak, M., 2001. Nd, Sr, Pb isotope study of the Western Carpathians: implications for the Paleozoic evolution. Schweizerische Mineralische Petrographische Mitteilungen, 81: 159-174.
- 166. Pomianowski, P., 1988. Thermal anomalies above the contact zone of the Pieniny Klippen Belt and the Podhale Flysch. (In Polish, English summary). Przegląd Geologiczny, 36 (2): 94-97.
- 167. Pomianowski, P., 2003. Tectonics of the Orava-Nowy Targ Basin - results of the combined analysis of the gravity and geoelectrical data. (In Polish, English summary). Przegląd Geologiczny, 51: 498-506.
- 168. Poprawa, P., Malata, T. & Oszczypko, N., 2002. Tectonic evolution of the Polish part of Outer Carpathian’s sedimentary basins - constraints from subsidence analysis. (In Polish, English summary). Przegląd Geologiczny, 50: 1092-1108.
- 169. Potfaj, M., 2003. Geology of the Slovakian part of the Orava - and overview. In: Golonka, J. & Lewandowski, M. (eds), Geology, geophysics, geothermics and deep structure of the West Carpathians and their basement. Publications of the Institute of Geophysics, Polish Academy of Sciences, Monographic Volume, 28 (363): 51-56.
- 170. Póka, T., 1988. Neogene and Quaternary Volcanism of the Carpathian-Pannonian Region: Changes in Chemical Composition and its Relationship to Basin Formation. In: Royden, L. & Horváth, F., (eds), The Pannonian Basin: A study in basin evolution. American Association of Petroleum Geologists, Memoir, 45: 257-278.
- 171. Ratschbacher, L., Frisch, W., Linzer, H.-G., Sperner, B., Mes- chede, M., Decker, K., Nemcok, M., Nemcok, J. & Grygar, R., 1993. The Pieniny Klippen Belt in the Western Carpathians of northeastern Slovakia: structural evidence for transpression. Tectonophysics, 226: 471-483.
- 172. Ratschbacher, L., Merle, G., Davy, P. & Cobbold, P., 1991. Lateral extrusion in the Eastern Alps. Part I: Boundary conditions and experiments scaled for gravity. Tectonics, 10: 245-266.
- 173. Roniewicz, P., 1966. Lower Werfenian (Seisian) clastics in the Tatra mountains. (In Polish, English summary). Acta Geologica Polonica, 16: 1-90.
- 174. Roth, Z., Benešová, E., Cechovic, V., Eliáš, M., Hanzlíková, E., Chmelík, F., Matějka, A. & Pícha, F., 1963. Vysvetlivky k prehladnej geologickej mape ČSSR 1: 200 000, M-34-XX Trstená. (In Slovak). Geofond, Bratislava, 59 pp.
- 175. Roure, F., Roca, E. & Sassi, W., 1993. The Neogene evolution of the outer Carpathian flysch units (Poland, Ukraine and Romania): kinematics of a foreland/fold-and-thrust belt system. Sedimentary Geology, 86: 177-201.
- 176. Royden, L. H., 1985. Vienna Basin: a thin skinned pull-apart basin. In: Biddle, K. & Christie Blick, N. (eds), Strike-slip deformation, basin formation, and sedimentation. Society of Economic Paleontologists and Mineralogists, Special Publication, 37: 319-338.
- 177. Royden, L. H., 1988. Late Cenozoic tectonics of the Pannonian basin system. In: Royden, L. H. & Horváth, F., (eds), The Pannonian Basin: A study in basin evolution. American Association of Petroleum Geologists, Memoir, 45: 27-48.
- 178. Royden, L. H., Horvath, F. & Burchfiel, B. C., 1982. Transform faulting, extension and subduction in the Carpathian Pannonian region. Geological Society of America Bulletin, 93: 717-725.
- 179. Royden, L. H. & Karner, G. D., 1984. Flexure of lithosphere beneath Apennine and Carpathian foredeep basins: Evidence for insufficient topographic load. American Association of Petroleum Geologists, Bulletin, 68: 704-712.
- 180. Sandulescu, M., Stefanescu, M., Butac, A., Patrut, I. & Zaharescu, P. M., 1981. Genetical and structural relations between Flysch and Molasse (The East Carpathians Model). Institute of Geology and Geophysics, Romania, Bucharest, 95 pp.
- 181. Skjernaa, L., 1975. Experiments on superimposed buckle folding. Tectonophysics, 27: 255-270.
- 182. Smirnov, S. E., 1973. Paleogene of the Marmarosh and Pieniny zones of the Ukrainian Carpathians. (In Russian) Nedra Press, Moskva, 120 pp.
- 183. Sokołowski, S., 1973. Geologia paleogenu i mezozoicznego podłoża południowego skrzydła niecki podhalańskiej w profilu głębokiego wiercenia w Zakopanem. (In Polish, English summary). Biuletyn Instytutu Geologicznego, 265: 5-74.
- 184. Soták, J. & Janocko, J., 2001. Central-Carpathian Paleogene Basin -an outline to sedimentology, sequence stratigraphy and basin history. In: Janocko, J. & Soták, J. (eds), Sedimentary sequences and depositional systems of the Central-Carpathian Paleogene Basin. Guidebook to IAS field trip, Slovakia 2001. Cassovia Print, Košice: 1-32.
- 185. Sperner, B., 1996. Computer programs for the kinematic analysis of brittle deformation structures and the Tertiary tectonic evolution of the Western Carpathians (Slovakia). Tubinger Ge- owissenschaftliche Arbeiten, 27: 1-120.
- 186. Sperner, B., Ratschbacher, L. & Nemcok, M., 2002. Interplay between subduction retreat and lateral extrusion: Tectonics of the Western Carpathians. Tectonics, 21: 1051.
- 187. Stanley, W. D., 1988. Comparison of geoelectric/tectonic models for suture zones in western U.S. and Eastern Europe. Are black shales a possible source of high conductivities?. Physics of Earth and Planetary Interiors, 53: 228-239.
- 188. Ślączka, A., 1970. Geology of the Dukla Unit. (In Polish, English summary). Prace Państwowego Instytutu Geologicznego, 63: 1-97.
- 189. Ślączka, A., 1976. New data on structure of the basement of the Carpathian south of Wadowice (in Polish with English summary). Annales Societatis Geologorum Poloniae, 46: 337350.
- 190. Ślączka, A., 1996a. Oil and gas in the northern Carpathians. In: Wessely, G. & Liebl, W. (eds), Oil and gas in Alpidic thrust- belts and basins of Central and Eastern Europe. Special Publications of the European Association of Geoscientists and Engineers, 5. Geological Society, London: 187-195.
- 191. Ślączka, A., 1996b. Oil and gas in the Ukrainian part of the Carpathians and their foredeep. In: Wessely, G. & Liebl, W. (eds), Oil and gas in Alpidic thrustbelts and basins of Central and Eastern Europe. Special Publications of the European Association of Geoscientists and Engineers, 5. Geological Society, London: 17-21.
- 192. Ślączka, A. & Kaminski, M. A., 1998. A Guidebook to excursions in the Polish Carpathians: Field Trips for Geoscientists. Grzybowski Foundation, Special Publication, 6: 1-173.
- 193. Slączka, A., Kruglow, S., Golonka, J., Oszczypko, N. & Popa- dyuk, I., 2005. The General Geology of the Outer Carpathians, Poland, Slovakia, and Ukraine. In: Picha, F. & Golonka, J. (eds), The Carpathians and their foreland: Geology and hydrocarbon resources. American Association of Petroleum Geologists, Memoir, 84: 1-70.
- 194. Švabenická, L., Bubik, M., Krejci, O. & Stranik, Z., 1997. Stratigraphy of Cretaceous sediments of the Magura Group of Nappes in Moravia (Czech Republic). Geologica Carpathica, 48: 179-191.
- 195. Tari, G., &. Horvath, F., 2005. Eoalpine evolution of the Pannonian Basin: a brief oveview. In: Picha, F. & Golonka, J. (eds), The Carpathians and their foreland: Geology and hydrocarbon resources. American Association of Petroleum Geologists, Memoir, 84: 1-14.
- 196. Tari, G., Horváth, F. & Rumpler, J., 1992. Styles of extension in the Pannonian basin. Tectonophysics, 208: 203-216.
- 197. Tokarski, A. K. & Zuchiewicz, W., 1998. Fractured clasts in the Domański Wierch series: Contribution to structural evolution of the Orava Basin (Carpathians, Poland) during Neogene through Quaternary times. (In Polish, English summary). Przegląd Geologiczny, 46: 62-66.
- 198. Tomek, C. & Hall, J., 1993. Subducted continental margin imaged in the Carpathians of Czechoslovakia. Geology, 21: 535-538.
- 199. Uchman, A., 1993. Lower Jurassic carbonate sedimentation controlled by tilted blocks in the Choc Unit in the Tatra Mts., Poland. Zentralblatt fur Geologie und Paläontologie, I, 7/8: 875-883, Stuttgart.
- 200. Vanko, J., 1988. Mapa recentných vertikálnych pohybov Západných Karpát na Slovensku v epochu 1952-1977. (In Slovak). Geodetický a kartografický obzor, 34 (76): 216-222, Bratislava.
- 201. Vass, D., 1998. Neogene geodynamic development of the Carpathian arc and associated basins. In: Rakús, M. (ed.), Geodynamic development of the Western Carpathians. Geological Survey of Slovak Republic, Dionýz Štúr Publishers, Bratislava: 155-158.
- 202. Watycha, L., 1977. Objaśnienia do Szczegółowej Mapy Geologicznej Polski, 1: 50 000, arkusz Czarny Dunajec. (In Polish). Wydawnictwa Geologiczne, Warszawa, 105 pp.
- 203. Wdowiarz, S., 1976, On the relation of the Carpathians to the Carpathian Foredeep in Poland. (In Polish, English summary). Przegląd Geologiczny, 6: 350-357.
- 204. Wdowiarz, S., 1985. On some aspects of the geological structure and oil and gas accumulation of the Carpathian Synclinorium. (In Polish, English summary). Biuletyn Instytutu Geologicznego, 350: 5-52.
- 205. Wieczorek, J., 2000. Mesozoic evolution of the Tatra Mountains (Carpathians). Mitteilungen der Gesellschaft der Geologie undBergbaustudenten in Wien, 44: 241-262.
- 206. Wierzbowski, A., Jaworska, M. & Krobicki, M., 1999. Jurassic (Upper Bajocian-lowest Oxfordian) ammonitico rosso facies in the Pieniny Klippen Belt, Carpathians, Poland: its fauna, age, microfacies and sedimentary environment. Studia Geologica Polonica, 115: 7-74.
- 207. Zoetemeijer, R., Tomek, C. & Cloething, S., 1999. Flexural expression of European continental lithosphere under the Western Outer Carpathians. Tectonics, 18: 843-861.
- 208. Zuchiewicz, W., 1998. Quaternary tectonics of the Outer West Carpathians, Poland. Tectonophysics, 297: 121-132.
- 209. Zuchiewicz, W., Tokarski, A. K, Jarosiński, M. & Márton, E., 2002. Late Miocene to present day structural development of the Polish segment of the Outer Carpathians. EGU Stephen Mueller Special Publication Series, 3: 185-202.
- 210. Żytko, K., 1997. Electrical conductivity anomaly of the northern Carpathians and the deep structure of the orogen. Annales Societatis Geologorum Poloniae, 67: 25-44.
- 211. Żytko, K., 1999. Symmetrical pattern of the late Alpine features of the northern Carpathian basement, their foreland and hinterland; orogen and craton suture. (In Polish, English summary). Prace Państwowego Instytutu Geologicznego, 168: 165-194.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS6-0025-0044