PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Middle Triassic evolution of the northern Peri-Tethys area as influenced by early opening of the Tethys Ocean

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Ewolucja środkowotriasowa północnej Paratetydy i jej związki z rozwojem Oceanu Tetydy
Języki publikacji
EN
Abstrakty
EN
During Middle Triassic times, the Germanic or northern Peri-Tethys Basin pertained to the western Tethys Ocean. The basin was closed from the north and open toward the Tethys by tectonically controlled depressions (gates). The gates were opened in different times. The marine incursions broke first (as early as in late Scythian time) through the eastern gates and from the Polish Basin advanced gradually to the west. Semiclosed disposition of the basin resulted in its distinctive environmental diversification. Open marine environments developed along the southeastern margins which should be regarded as an integrate part of the Tethys Ocean rather than the epicontinental sea. Northward and westward from the Silesian and Carpathian domains the environments became more restricted. This resulted in significant facies diachronity between the western and eastern parts of the basin. As indicated by the faunal diversity, facies variability and geochemical properties of the sediments, during almost entire Anisian time the open marine sedimentation dominated in the eastern part while the western part displayed restricted circulation, typical for the semi-closed, evaporitic basin. The circulation reversed in Ladinian time when the westward shift of the tethyan spreading center gave rise to opening of the western gate. Meanwhile, the eastern and northern parts of the basin were uplifted and underwent emersion by the end of the Ladinian. Evolution of the southern parts of the Germanic Basin (Silesia, Holy Cross Mts., SW Germany) has been directly influenced by the Tethys rifts. The crustal motion was transmitted from the Tethys rift onto its northern periphery by reactivated Hercynian master faults. The Northern Germany and the North Sea basins were controlled by the North Atlantic-Arctic rift system. The central part of the basin was dominated by thermal subsidence. Despite of the intense synsedimentary tectonism affecting the basin, the distinguished 3rd order depositional sequences resulted from eustatic controls. The concordance between the tethyan and peritethyan sequence stratigraphy argues for the overregional, eustatic nature of the sequences. Faunal migration from the Tethys into its northern periphery followed generally the rift-controlled opening of the seaways within the Tethys. The first tethyan faunas which appeared in the south-eastern part of the Polish Basin as early as in Induan time came from the eastern branch of the Tethys Ocean (Paleo-Tethys). The next migration waves proceeded by western branches of the spreading ocean (Neo-Tethys) and entered the Germanic Basin through the Silesian-Moravian Gate (in Anisian time) and through the Western Gate from Ladinian time onward.
PL
W czasie środkowego triasu basen germański należał do północnego obrzeżenia Oceanu Tetydy nazywanego północną Perytetydą. Taka pozycja paleogeograficzna wskazuje że basen germański należy traktować raczej jako integralną część zachodniej Tetydy niż jako typowy basen epikontynentalny. Bezpośrednie połączenie między obszarem germańskim a Tetydą utrzymywane było przez system tektonicznie generowanych obniżeń (bram) rozwiniętych w obrębie speneplenizowanego lądu windelicko-bohemskiego stanowiącego strukturalną barierę między otwartym oceanem i jego strefą peryferyjną. Przez większą część środkowego triasu basen germański wykazywał cechy basenu półzamkniętego o ograniczonej i jednokierunkowej cyrkulacji. Taki układ hydrologiczny powodował ewaporacyjny wzrost zasolenia wód basenu w miarę oddalania się od strefy dopływu wód oceanicznych. Znajduje to potwierdzenie w wyraźnym ubożeniu zespołów fauny zasiedlającej zbiornik jak i w zapisie izotopów stabilnych węgla i tlenu. Otwieranie bram miało charakter diachroniczny i postępowało ze wschodu na zachód. Najwcześniej, bo już w środkowej części wczesnego triasu otwarta była tzw. Brama Wschodniokarpacka. W anizyku głównym połączeniem była Brama Morawsko-Śląska a w ladynie Brama Zachodnia. Diachronizm w otwieraniu bram był pochodną migracji głównej strefy spreadingu tetydzkiego, która przemieszczała się ze wschodu na zachód. Wyróżnione dla basenu germańskiego sekwencje depozycyjne trzeciego rzędu wykazują dobrą korelację z sekwencjami z basenów alpejskich co pozwala stwierdzić, że cykle transgresywno-regresywne w basenie germańskim kontrolowane były głównie przez wahania eustatyczne. Subtropikalna pozycja paleogeograficzna północnej Perytetydy warunkowała jej gorący i półsuchy klimat. Okresowe zwilgotnienia w późnym ladynie i w karniku były pochodną przebudowy tektonicznej i intensywnej działalności wulkanicznej w obrębie Tetydy.
Rocznik
Strony
1--48
Opis fizyczny
Bibliogr. 212 poz., fot., rys., wykr.
Twórcy
autor
  • Institute of Geological Sciences, Jagiellonian University, Oleandry Str. 2a, 30-063 Cracow, Poland, szulc@ing.uj.edu.pl
Bibliografia
  • 1. Adlis, D. S., Grossman, E. L., Yancey, T. E. & McLerran, R. D., 1988. Isotope Stratigraphy and Paleodepth Changes of Pensy lvanian Cyclical Sedimentary Deposits. Palatos, 3: 487-506.
  • 2. Aigner, T., 1985. Storm Depositional Systems. In: Friedman, G. M., Neugebauer, H. J., Seilacher, A. (eds.), Lecture Notes in Earth Sciences, 3. Springer, Berlin, 174 pp.
  • 3. Aigner, T. & Bachmann, G., 1989. Dynamic stratigraphy of an evaporite-to-red bed sequence, Gipskeuper (Triassic), southwest German Basin. Sedimentary’ Geology, 62: 5-25.
  • 4. Aigner, T. & Bachmann, G., 1992. Sequence-stratigraphic framework of the German Triassic. Sedimentary Geology, 80: 115-135.
  • 5. Assmann, P., 1926. Die Tiefbohrung “Oppeln”. Jahrbuch der Preussischen Geologischen Landesanstalt, 46: 373-395.
  • 6. Assmann, P., 1927. Die Decapodenkrebse des deustchen Muschelkalks. Jahrbuch der Preussischen Geologischen Landesanstalt, 48: 332-356.
  • 7. Assmann, P., 1933. Die Stratigraphie der oberschlesischen Trias. Teil 1: Der Buntsandstein. Jahrbuch der Preussischen Geologischen Landesanstalt, 53: 731-757.
  • 8. Assmann, P., 1937. Revision der Fauna de Wirbellosen der oberschlesischen Trias. Abhandlungen der Preussischen Geologischen Landesanstalt. N.F., 170: 1-134.
  • 9. Assmann, P„ 1944. Die Stratigraphie der oberschlesischen Trias. Teil 2: Der Muschelkalk. Abhandlungen des Reichsamts für Bodenforschung, 2: 1-124.
  • 10. Bachmann, G., 1998. The Germanic Triassic: General. In: Bachmann, G., Beutler, G. & Lerche, I. (eds.), Epicontinental Triassic International Symposium. Halle 1998 - Excursions. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 6: 19-22.
  • 11. Bachmann, G. & Gwinner, M. P„ 1971. Algen-Stromatolithen von der Grenze Unterer/Mittlerer Keuper (Obere Trias) bei Schwäbisch Hall. (Nordwürttemberg, Deutschland). Neues Jahrbuch für Geologie und Paläontologie. Monasthefte, 7-12: 165-181.
  • 12. Backhaus, E. & Schulte, M., 1993. Geochemische Faziesanalyse im Unteren Muschelkalk (Popppenhausen/Rhön) mit Hilfe des Sr/Ca-Verhältnisses. ln: Hagdorn, H. & Seilacher A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 65-72.
  • 13. Baud, A., 1987. Stratigraphie et sediméntologie des calcaires de Saint Triphon (Trias, Préalps, Suisse et France). Mémoires de Géologie Lausanne, 1: 1-322.
  • 14. Baud, A. & Megard-Galli, J., 1975. Evolution ďun bassin carbonate du domaine alpin durant la phase pré-oceanique: cycles et sequénces dans le Trias de la zone brianęonnaise des Alps Occidentales et des Préalps. In: 9th Congress international on Sedimentology, Nice, pp. 45-50.
  • 15. Baud, A., Stampili, G. & Steen, D., 1991. The Triassic Aghdarband Group: Volcanism and geological evolution. Abhandlungen der Geologischen Bundesanstalt, 38: 125-137.
  • 16. Bechstädt, T. & Brandner, R., 1970. Das Anis zwischen St. Vigil und dem Hoehlensteintal (Pragser - und Olanger Dolomiten, Südtirol). In: Festband des Geol. Inst. 300-Jahr-Feier Universität Innsbruck, pp. 9-103.
  • 17. Bechstädt, T., Brandner, R. & Mostler, H., 1976. Das Frühstadium der alpinen Geosynklinalentwicklung im westlichen Drauzug. Geologische Rundschau, 65: 616-648.
  • 18. Bechstädt, T., Brandner, R., Mostler, H. & Schmidt, K., 1978. Aborted Rifting in the Triassic of the Eastern and Southern Alps. Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen, 156: 157-178.
  • 19. Bechstädt, T. & Dohler-Hirner, B., 1983. Lead-Zinc Deposits of Bleiberg-Kreuth. American Association Petroleum Geologists, Memoir, 43: 55-63.
  • 20. Bertelsen, F. 1980. Lithostratigraphy and depositional history of the Danish Triassic. Danska Geologiske Undersøgelse, ser. B. 4: 1-59.
  • 21. Bertling, M. 1995. Autoecological case study of late Jurassic Thamnasteria (Scleractinia) species with small corallites. In: Lathuiliere, J & Geister, J. (eds.). Coral Reefs in the Past, Present and Future. Proceedings of the 2"d European Meeting of International Society for Reef Studies, Luxemburg, 1994, pp. 111-116.
  • 22. Bialik, A., Trammer, J. & Zapaśnik, T., 1972. Synsedimentary disturbances in Middle Triassic carbonates of the Holy Cross Mts. Acta Geologica Polonica, 22: 265-274.
  • 23. Bilan, W., 1976. The stratigraphy of the Upper Triassic deposits of the eastern margin of the Upper Silesian Coal Basin. (In Polish, English abstract). Zeszyty Naukowe AGH - Geologia, 2: 1-73.
  • 24. Bodzioch, A., 1991. Stop B14. In: Hagdom, FI., Simon, T. & Szulc J. (eds.), Muschelkalk. A Field Guide. Goldschneck, Stuttgart, pp. 69-71.
  • 25. Bodzioch, A., 1994. Paleoecology of hexactinellid sponges from the epicontinental Triassic of Poland. In: Van Soest, R., Van Kempen, T. & Braekman, J.-C. (eds.), Sponges in Time and Space. Balkema, Rotterdam, pp. 35-44.
  • 26. Bodzioch, A. & Kwiatkowski, S., 1992. Sedimentation and early diagenesis of Cavernous Limestone (Roet) of Gogolin, Silesian - Kraków Region. Annales Societatis Geologorum Poloniae, 62: 223-254.
  • 27. Bogacz, K., Dżułyński, S., Harańczyk, C. & Sobczyński, P., 1975. Origin of the ore-bearing dolomite in the Triassic of the Cracow-Silesian Pb-Zn ore district. Rocznik Polskiego Towarzystwa Geologicznego, 45: 139-155.
  • 28. Bourne, A. G., 1964. Birth of an island. Discovery, 25: 16-19. Brack, P. & Rieber, H., 1994. The Anisian/Ladinian boundary: Retrospective and new constraints. Albertiana, 13: 25-36.
  • 29. Brack, P., Rieber, H. & Ulrichs, M., 1999. Pelagic successions in the Southern Alps and their correlation with the Muschelkalk. In: Bachmann, G. H. & Lerche, I. (eds.), Epicontinental Triassic. Zentralblat für Geologie und Paläeontologie, T. I., H. 7-8: 853-874.
  • 30. Brandner, R., 1984. Meeresspiegelschwankungen und Tektonik in der Trias der NW-Tethys. Jahrbuch der Geologischen Bundesanstalt, 126: 435-475.
  • 31. Bromley, R. G. & Ekdale, A. A., 1984. Chondrites: a trace fossil indicator of anoxia in sediment. Science, 224: 872-874.
  • 32. Brunet, M-F., 1986. La subsidence dans les trois bassins sedimentaires francais (Paris, Aquitaine, Sud-Est). Bulletin de Centre de Récherches Elf Exploration Production, 10: 23-32.
  • 33. Buch von, L., 1849. Über schlesischen und italienischen Muschelkalk. Zeitschrift der Deutschen Geologischen Gesselschaft, 1: 246-247.
  • 34. Budai, T. & Haas, J., 1997. Triassic sequence stratigraphy of the Balaton Highland, Hungary. Acta Geologica Hungarica, 40: 307-335.
  • 35. Budurov, K. & Zagorchev, I., 1998. Peri-Tethyan epicontinental Triassic evolution in Bulgaria. Epicontinental Triassic International Symposium Halle 1998 - Abstracts. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 5: 30-31.
  • 36. Bukowski von, G., 1895. Cephalopodenfunde in dem Muschelkalk von Braic in Süddalmatien. Verhandlungen der Königlich-Kaiserlichen Reichsanstalt, 12: 319-323.
  • 37. Carey, S. N. & Sigurdsson, H., 1982. Influence of particle aggregation on deposition of distal tephra from the May 18, 1980 Eruption of Mount St. Helen volcano. Journal of Geophysical Research, 87: 7061-7072.
  • 38. Carrillat, A., Martini, R., Zaninetti, L., Cirilli, S., Gandin, A. & Vrielynck, B., 1999. The Muschelkalk (Middle to Upper Triassic) of the Monte di Santa Giusta (NW Sardinia): sedimentology and biostratigraphy. Eclogae Geologicae Helvetiae, 92: 81-97.
  • 39. Cech, F. & Zeman, J., 1988. Genesis of Meso-Cenozoic sedimentary basins of Bohemian Massif in Alpine-Carpathian Foreland. Geologicky Zbornik - Geologica Carpathica, 39: 643-654.
  • 40. Chromow, S. P., 1973. Meteorologia i klimatologia. Państwowe Wydawnictwa Naukowe, Warszawa, 487 pp.
  • 41. Courel, L. (coordinator of the authors group), 1984. Trias. Synthese géologique du sud est de la France. Bureau de Récherches Géologiques et Minieres, Mémoires, 125: 61-118.
  • 42. Courel, L., Bourquin, S., Baud, A., Jacquin, T. & Vannier, F., 1992. Sequence stratigraphy of the Triassic series on the western Peri-Tethyan margin (France, Switzerland): role of tectonic subsidence and eustasy on the stratal pattern and lithology of depositional sequences and systems tracts. In: Sequence Stratigraphy of European Basins. CNRS-IFP, Dijon, France. Abstracts Volume., pp. 121-122.
  • 43. Courel, L., Poli, E., Le Strat, P., Jacquin, T., Baud, A. & Vannier, F., (in print). Sequence Stratigraphy along a Triassic transect on the western Peritethyan margin in the Ardeche Basin of SE France; correlations with Subalpine and Germanic realms. Society of Economic Paleontologists and Mineralogists, Special Publication, 60.
  • 44. Cros, P. & Szabo, I., 1984. Comparison of the Triassic volcanogenic formations in Hungary and in the Alps. Paleogeographic criteria. Acta Geologica Hungarica. 27: 265-276.
  • 45. Dadlez, R., 1989. Epicontinental basins of the Permian and Mesozoic in Poland. (In Polish, English summary). Kwartalnik Geologiczny, 33: 175-198.
  • 46. Dcbelmas, J., 1986. L’héritage hercynien a l’origine des grandes bassins sédimentaires francais. Bulletin de Céntre de Récherches Elf Exploration Production, 10: 151-161.
  • 47. Deczkowski, Z. & Gajewska, L, 1977. Early Cimmerian and Laramian structural blocks of the Foresudetic monocline. (In Polish, English summary). Kwartalnik Geologiczny, 21: 467- 479.
  • 48. Dercourt, J., Ricou, L. & Vrielynck, B. (eds.), 1993. Atlas Tethys Paleoenvironmental Maps. Gauthier-Villars, Paris.
  • 49. De Zanche, V., Franzin, A., Gianolla, P., Mietto, P. & Siorpaes, Ch., 1992. The Piz da Peres section (Valdaora-Olang, Pusteria Valley, Italy). A reappraisal of Anisian stratigraphy in the Dolomites. Eclogae Geologicae Helvetiae, 85: 127-143.
  • 50. Diedrich, C., 1998. Vertebrate Tracks of the Ooltih-Zone (Bithyn, Lower Muschelkalk) from the Middle Teutoburger Wald (NW-Germany) and their Stratigraphical and Palaeogeographical Significance. Epicontinental Triassic International Symposium Halle 1998 - Abstracts. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 5: 36-37.
  • 51. Dittrich, D., 1989. Der Schilfsandstein als synsedimentär-tektonisch geprägtes Sediment - eine Umdeutung bisheriger Befunde. Zeitschrift der Deutschen Geologischen Gesselschaft, 140: 295-310.
  • 52. Doglioni, C., 1992. Main differences between thrust belts. Terra Nova, A: 152-164.
  • 53. Dromart, G., Monier, P., Curial, A., Moretto, R., & Bruhlet, J., 1992. Transgressive-regressive cycles through Triassic deposits of Bresse and Jura areas, eastern France. In: Sequence Stratigraphy of European Basins. CNRS-IFP, Dijon, France. Abstracts Volume., pp. 126-127.
  • 54. Dualeh, A., R., A., 1995. Charakteristik, Entstehung und geologische Bedeutung der Querplattung im Wellenkalk von Rüdersdorf. Berliner Geowissenschaftliche Abhandlungen, A, 168: 249-257.
  • 55. Dvořak, J., 1985. Horizontal movements on deep faults in the Proterozoic Basement of Moravia (Čechoslovakia). Jahrbuch der Geologischen Bundesanstalt, 27: 551-556.
  • 56. Einsele, G. & Schönenberg, R., 1964. Epirogen-tektonische Grundzüge des süddeustchen Beckens und seiner südöstlichen Randgebiete im Mesozoikum. Publications du Service Géologique de Luxembourg, 14: 139-164.
  • 57. Ekdale, A. A., Bromley, R. R. G., Bockelie, J. F., Drösser, M. L. & Bottjer, D., 1991. “Ichnofabric” it is! Palaois, 6: 100-101.
  • 58. Flügel, E., 1982. Evolution of Triassic reefs: current concepts and problems. Facies, 6: 297-328.
  • 59. Flügel, E. & Flügel-Kahler, E., 1992. Phanerozoic reef evolution: basic questions and data base. Facies, 26: 167-278.
  • 60. Fois, E. & Gaetani, M., 1984. The recovery of reef-building communities and the role of Cnidarians in carbonate sequences of the Middle Triassic (Anisian) in the Italian Dolomites. Palaeontographica Americana, 54: 191-200.
  • 61. Friedei, G. & Schweizer, V., 1988. Zur Stratigraphie der Sulfatfazies im Mittleren Muschelkalk von Baden-Württemberg (Süddeutschland). Jahreshefte des Geologischen Landesamtes Baden-Württemberg, 31: 69-88.
  • 62. Frisch, U. & Kockel, F., 1998. Early Cimmerian Movements in NW Germany. Epicontinental Triassic International Symposium Halle 1998 - Abstracts. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 5: 52.
  • 63. Frisia-Bruni, S., Jadoul, F. & Weissert, H., 1989. Evinosponges in the Triassic Esino Limestone (Southern Alps): documentation of early lithification and late diagenetic oveiprint. Sedimentology, 36: 685-699.
  • 64. Füchtbauer, H. & Richter, D. K., 1983. Relations between submarine fissures, internal breccias and mass flows during Triassic and earlier rifting periods. Geologische Rundschau, 72: 53- 66.
  • 65. Fürsich, F. T., 1974. Ichnogenous Rhizocorallium. Palaeontologische Zeitschrift, 48: 16-28.
  • 66. Fuglewicz, R., 1980. Stratigraphy and palaeogeography of Lower Triassic in Poland on the basis of megaspores. Acta Geologica Polonica, 30: 417-469.
  • 67. Gajewska, L, 1971. Muschelkalk of the western Poland. (In Polish, English abstract). Kwartalnik Geologiczny, 15: 77-86.
  • 68. Gajewska, L, 1977. Muschelkalk and Keuper. (In Polish, English abstract). In: Marek. S., (ed.), Geological structure of the eastern part of the Mogilno-Łódz Trough (Gopło-Ponętów-Pabianice Zone). Instytut Geologiczny, Prace, 80: 50-54.
  • 69. Gajewska, L, 1978. Keuper stratigraphy and lithology in NW Poland. (In Polish, English abstract). Instytut Geologiczny, Prace, 87: 6-54.
  • 70. Gaupp, R., Voigt, T., Lützner, H., Müller, H. & Föhlisch, K., 1998. Stratigraphy and Sedimentological Evolution of Lower and Middle Triassic Deposits in the SE Part of the Germanic Triassic Basin. In: Bachmann, G., Beutler, G. & Lerche, 1., (eds.). Epicontinental Triassic International Symposium Halte 1998 - Excursions. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 6: 99-120.
  • 71. Gaździcki, A., Trammer j. & Zawidzka, K., 1975. Foraminifers from the Muschelkalk of southern Poland. Acta Geologica Polonica, 25: 286-298.
  • 72. Geluk, M., 1998. Palaeogeographical and Structural Development of the Triassic in the Netherlands and Adjacent Areas. Epicontinental Triassic International Symposium Halle 1998 - Abstracts. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 5: 55-56.
  • 73. Geluk, M. & Rohling, H.-G., 1997. High-resolution stratigraphy of the Lower Triassic “Buntsandstein” in the Netherlands and Northwest Germany. Geologie en Mijnbouw, 76: 227-246.
  • 74. Geluk, M., Rohling, H.-G. & Szulc, J., (in prep.) Early Triassic (Induan-early Anisian) sedimentation and rift tectonics in NW Europe.
  • 75. Geyer, O. F. & Gwinner, M. P., 1986. Geologie von Baden-Württemberg. Schweitzerbart’sche, Stuttgart, 472 pp.
  • 76. Głazek, J., Trammer, J. & Zawidzka, K., 1973. The Alpine microfacies with Glomospira densa (Pantie) in the Muschelkalk of Poland and some related paleogeographical and geotectonic problems, Teto Geologica Polonica, 23: 463-482.
  • 77. Głazek, J. & Roniewicz, P.. 1976. Clastic dykes of the Buntsandstein in the Holy Cross Mts. (In Polish, English abstract). Przegląd Geologiczny, 24: 456-458.
  • 78. Głowacki, E. & Senkowiczowa, H., 1969. Some notes on the Triassic from the SE Poland. (In Polish, English abstract). Kwartalnik Geologiczny, 13: 338-355
  • 79. Götz, A., 1995. Feinstratigraphie und Mikrofazies der Oolithbänke (Unterer Muschelkalk, Trias) Mitteldeustchlands und angrenzender Gebiete. Dissertation TU Darmstadt, 115 pp.
  • 80. Götz, A., 1996. Palynofazielle Untersuchungen zweier Gelände-Profile im Unteren Muschelkalk Osthessens und Westthüringens. Geologisches Jahrbuch Hessen, 124: 87-96.
  • 81. Gradstein, F. M., Agterberg, F. P., Ogg, J. G., Hardenboi, .1., Van Veen, P., Thierry, J. & Huang, Z., 1995. A Triassic, Jurrasic and Cretaceous Time Scale. Society of Economic Paleontologists and Mineralogists, Special Publication, 54: 95-126.
  • 82. Grodzicka-Szymanko, W. & Orłowska-Zwolińska, T., 1972. Upper Triassic stratigraphy of the NE margin of the Upper Silesian Coal Basin. (In Polish, English abstract). Kwartalnik Geologiczny, 16: 216-231.
  • 83. Grossman, E. L., Zhang, C. & Yancey, T. E., 1991. Stable-isotope stratigraphy of brachiopods from Pennsylvanian shales in Texas. Geological Society of America, Bulletin, 103: 953-965.
  • 84. Gwinner, M. P., 1978. Geologie der Alpen. Schweitzerbart’sche, Stuttgart, 480 pp.
  • 85. Hagdorn, H., 1985. Immigration of crinoids into the German Muschelkalk Basin. In: Bayer, U. & Seilacher, A, (eds.), Lecture Notes in Earth Sciences, 1. Springer, Berlin, pp. 165-176.
  • 86. Hagdorn, H., 1991. The Muschelkalk in Germany - An Introduction. ln: Hagdorn, H., Simon, T. & Szulc, J. (eds.), Muschelkalk. A Field Guide. Goldschneck, Stuttgart, 80 pp.
  • 87. Hagdorn, H., 1996a. Trias-Seelilien. Geologische-Paläontologische Mitteilungen Innsbruck. 21: 1-17.
  • 88. Hagdorn, H., 1996b. Paläoekologie der Trias-Seelilien Dadocrinus. Geologische-Paläontologische Mittelungen Innsbruck, 21: 19-45.
  • 89. Hagdorn, H. & Głuchowski, E., 1993. Paleobiogeography and Stratigraphy of Muschelkalk Echinodcrms (Crinoidea, Echinoidea) in Upper Silesia. In: Hagdorn, H. & Seilacher A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 165-176.
  • 90. Hagdorn, H., Głuchowski, E. & Boczarowski, A., 1996. The crinoid fauna of the Diplopora Dolomite (Middle Muschelkalk, Upper Anisian) at Piekary Śląskie in Upper Silesia. Geologisch-Paläontologische Mittelungen, Innsbruck, 21: 47-87.
  • 91. Hagdorn, H., Hickethier, H., Hom, M. & Simon T., 1987. Profile durch den hessischen, unterfränkischen und baden-württembergischen Muschelkalk. Geologisches Jahrbuch Hessen, 115: 131-160.
  • 92. Hagdorn, H., Hom, M. & Simon T., 1998. Muschelkalk. In: Bachmann, G., Beutler, G. & Lerche, I. (eds.). Epicontinental Triassic International Symposium Halle 1998 - Excursions. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 6: 35- 44.
  • 93. Hagdorn, H., Konrad, G. & Török, A., 1997. Crinoids from the Muschelkalk of the Mecsek Mountains and their stratigraphical significance. Acta Geologica Hungarica, 40: 391-410.
  • 94. Hagdorn, H. & Ockert, W., 1993. Encrinus liliformis im Trochitenkalk Süddeutschlands, ln: Hagdom, H. & Seilacher, A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 243-260.
  • 95. Hagdorn, H. & Simon, T., 1993. Ökostratigraphische Leitbänke im Oberen Muschelkalk. In: Hagdorn, H. & Seilacher, A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 193-208.
  • 96. Hagdorn, H., Szulc, L, Bodzioch, A. & Morycowa, E., 1999. Riffe aus dem Muschelkalk. In: Hauschke, N. & Wilde, V. (eds.), Trias. Europa am Beginn des Erdmittelalters. Wissenschaftlicher Verlag Dr. F. Pfeil, München, pp. 309-320.
  • 97. Hakeneberg, M. & Świdrowska, J., 1998. (In Polish, English summary). Development of the SE part of the Polish Trough and its relation to the bounding faults (Permian - late Jurassic). Przegląd Geologiczny, 46: 503-508.
  • 98. Haq, B. U., Hardenbol, J. & Vail, P. R., 1987. Chronology of fluctuating sea levels since the Triassic. Science, 235: 1156-1167.
  • 99. Herbich, E., 1981. A tectonic analysis of the fault network of the Upper Silesia Coal Basin (In Polish, English summary). Annales Societatis Geologorum Poloniae, 51: 383 434.
  • 100. Hoefs, J., 1997. Stable Isotope Geochemistry. Springer, Heidelberg, 201 pp.
  • 101. James, N.P. & Mcintyre, J.G., 1985. Carbonate depositional environments, modern and ancient. Part 1. Quaterly Journal of the Colorado School of Mines, 80: 1-70.
  • 102. Jowett, E. C., 1986. Genesis of Kupferschiefer Cu-Ag Deposits by Convective Flow of Rotliegende Brines during Triassic Rifting. Economic Geology, 81: 1823-1837.
  • 103. Kaim, A., 1997. Brachiopod-bivalve assemblages of the Middle Triassic Terebratula Beds, Upper Silesia, Poland. Acta Palaeontologica Polonica, 42: 333-359.
  • 104. Kalkowsky, E., 1908. Oolith und Stromatolith im norddcustchen Buntsandstein. Zeitschrift der Deutschen Geologischen Gesselschaft, 60: 68-125.
  • 105. Kaźmierczak, J. & Pszczółkowski, A., 1969. Burrows of Enteropneusta in Muschelkalk (Middle Triassic) of the Holy Cross Mountains, Poland. Acta Palaeontologica Polonica, 14: 299- 320.
  • 106. Kędzierski, J., 1996. Środkowotriasowe konodonty depresji północno-sudeckiej - stratygrafia i analiza paleośrodowiskowa. (In Polish). Unpubl. MSci. Thesis, Cracow University, 50 pp.
  • 107. Kędzierski, J. & Szulc, .1., 1996. Anisian conodonts of the Lower Silesia and their. significance for reconstruction of the Muschelkalk transgression in the eastern part of the Germanic Basin. In: 6th European Conodont Symposium. Abstracts. Institute of Paleobiology PAN, Warszawa, pp. 28.
  • 108. Knaust, D., 1998. Trace fossils and ichnofabrics on the Lower Muschelkalk carbonate ramp (Triassic) of Germany: tool for high resolution sequence stratigraphy. Geologische Rundschau, 87: 21-31.
  • 109. Knaust, D., Szulc, J. & Uchman, A., 1999. Spurenfossilien in der Germanischen Trias und deren Bedeutung. In: Hauschke, N & Wilde, V. (eds.), Trias. Europa am Beginn des Erdmittelalters. Wissenschaftlicher Verlag Dr.F.Pfeil, München, pp. 229-238.
  • 110. Kolosvary, G., 1958. Corals from the Upper Anisian of Hungary. Journal of Paleontology, 32: 636.
  • 111. Konrad, G., 1998. Synsedimentary tectonic events in Middle Triassic evolution of the SE Transdanubian part of the Tisza Unit. Acta Geologica Hungarica, 41: 327-342.
  • 112. Korte, C., Kozur, H. & Veizer, J., 1998. 87Sr/86Sr, l8O and 13C of the Muschelkalk: Comparison to Tethys. Epicontinental Triassic International Symposium, Halle 1998 -Abstracts. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 5: 93-94.
  • 113. Kostecka, A., 1978. The Lower Muschelkalk carbonate rocks of the south-western margin of the Holy Cross Mts. (Central Poland). Rocznik Polskiego Towarzystwa Geologicznego, 47: 211-243.
  • 114. Kotlicki, S., 1974. Stratigraphic position of the Triassic sediments in the Upper Silesian Region. Bulletin de TAcademie Polonaise de Sciences, s. Sciences de la Térre, 22: 161-166.
  • 115. Kozur, H., 1974. Probleme der Triasgliederung und Parallerisierung der germanischen und tethyalen Trias. Teil I: Abgrenzung und Gliederung der Trias. Freiberger Forschungshefte, C 298: 139-198.
  • 116. Kozur, H., 1999. The correlation of the Germanic Buntsandstein and Muschelkalk with the Tethyan Scale. In: Bachmann, G. H. & Lerche, I., (eds.), Epicontinental Triassic. Zentralblat für Geologie und Paläeontologie, T.L, H. 7-8: 701-726.
  • 117. Krainer, K. & Lutz, D., 1995. Middle Triassic Basin Evolution and Stratigraphy in the Carnic Alps (Austria). Facies, 33: 167-184.
  • 118. Krystyn, L., 1983. Das Epidauros-Profil (Griechenland) - ein Beitrag zur Conodonten-Standartzonierung des tethyalen Ladin unf Unterkarn. In: Zapfe, H. (ed.) Neue Beiträge zur Biostratigraphie der Tethys-Trias. Schriftenreihe der Erdwissenschaftlichen Komission der österreichische Akademie der Wissenschaften, 5: 231-258.
  • 119. Langbein, R. & Stepansky, M., 1996. Beiträge zur Geochemie des Muschelkalks in Thüringen. Geowissenschaftliche Mitteilungen von Thüringen. Beiheft 5: 111-129.
  • 120. Linek, O., 1961. Leben-Spuren niederer Tiere (Evertebraten) aus dem württembergischen Stubensandstein (Trias - Mittl. Keuper 4) verglichen mit anderen Ichnocoenosen des Keupers. Stuttgarter Beiträge für Naturkunde, 66: 1-29.
  • 121. Lukas, V., 1993. Sedimentologie und Paläogeographie der Terebratelbänke (Unterer Muschelkalk, Trias) Hessens. In: Hagdorn, H. & Seilacher, A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 79-84.
  • 122. Macquar, J.- C., 1984. Mineralisations triassiques en Pb, Zn, Ba (Cu, Fe) du Bassin subalpin: typologie, chronologie, controles et models. Bureau de Récherches Géologiques et Minieres, Mémoires, 125: 112-117.
  • 123. Marfil, R., Hall, A., Garcia-Gil, S. & Stamatakis, M. G., 1998. Petrology and geochemistry of diagenetically altered tuffaceous rocks from the Middle Triassic of Central Spain. Journal of Sedimentary Research, 68: 391-403.
  • 124. Martini, I. P., Rau, A. & Tongiorgi, M., 1986. Syntectonic sedimentation in a Middle Triassic rift, Northern Appenines, Italy. Sedimentary Geolology, 47: 191-219.
  • 125. Masaryk, P., Lintnerova, O. & Michalik, J., 1993. Sedimentology, lithofacies and diagenesis of the sediments of the Reifling intraplatform basin in the Central Western Carpathians. Geologica Carpathica, 44: 233-249.
  • 126. Megard-Galli, J. & Baud, A., 1977. Le Trias moyen et superieur des Alpes nord-occidentales: données nouvelles et corrélations stratigraphiques. Bureau de Récherches Géologiques et Minieres, Bulletin, Sect. IV, 3: 233-250.
  • 127. Megard-Galli, J. & Faure, J.-L., 1988. Tectonique distensive et sédimentation au Ladinien superieur - Carnien dans la zone brianęonnaise. Bulletin de la Societe géologique de France. (8) t.IV/5: 705-715.
  • 128. Milewska, Z. & Moryc, W., 1981. Mikrofauna triasu Przedgórza Karpat. (In Polish). In: Materiały VKrajowej Konferencji Paleontologów, Kielce-Sosnowiec 1981, pp. 15-24.
  • 129. Mojsisovics, E., 1882. Die Cepahlopoden der Mediterranen Triasprovinz. Abhandlungen der Königlich-Kaiserlichen Geologischen Reichstanstalt, 10: 1-322.
  • 130. Moryc, W., 1971. Triassic of the middle Carpathians Foreland. (In Polish, English summary). Rocznik Polskiego Towarzystwa Geologicznego, 41: 419-486.
  • 131. Morycowa, E., 1988. Middle Triassic Scleractinia from the Cracow - Silesia region, Poland. Acta Palaeontologica Polonica, 33: 91-121.
  • 132. Mostler, H., 1993. Das Germanische Muschelkalkbecken und seine Beziehungen zum tethyalen Muschelkalkmeer. In: Hagdom, H. & Seilacher, A. (eds), Muschelkalk. Goldschneck, Stuttgart, pp. 11-14.
  • 133. Muehlenbachs, K., 1986. Alteration of the oceanic crust and the 18 history of seawater. In: Valley, H.P., Taylor, J. & O’Neil, .1. R., (eds.), Stable Isotopes in High Temperature Geological Processes. Reviews in Mineralogy, 16: 425-444.
  • 134. Müller, A. H., 1970. Neue Funde seltener Ceratiten aus dem germanischen Muschelkalk und Keuper. Monatsberichte der Deutschen Akademie der Wissenschaften Berlin, 12: 632- 642.
  • 135. Mundil, R., Brack, P„ Meier., M„ Rieber, H. & Oberli, H., 1996. High resolution U-Pb dating of Triassic volcanisctaics: timescale calibration and tunung parameters for carbonate sedimentation. Earth and Planetary Science Letters, 141: 137- 151.
  • 136. Muttoni, H., Kent, D. V., Meęo, S., Balini, M., Nicora, A., Rettori, R. Gaetani, M. & Krystyn, L., 1998. Towards a better definition of the Middle Triassic magnetostratigraphy and biostratigraphy in the Tethyan realm. Earth and Planetary Science Letters, 164: 285-302.
  • 137. Narkiewicz, K., 1999. Conodont biostratigraphy of the Muschelkalk (Middle Triassic) in the central part of the Polish Lowland. Geological Quarterly, 43: 313-324.
  • 138. Nawrocki, J., 1997. Permian to Early Triassic magnetostratigraphy from Central European Basin in Poland: Implications on regional and worldwide correlations. Earth and Planetary Science Letters, 152: 37-58.
  • 139. Nawrocki, J. & Szulc, J., 2000. The Middle Triassic magnetostratigraphy from the Peri-Tethys Basin in Poland. (In Polish, English abstract), Przegląd Geologiczny, 48: 236-238.
  • 140. Ockert, W., 1993. Die Zwergfaunaschichten (Unterer Hauptmuschelkalk, Trochitenkalk, mol) im nordöstlichen Baden- Württemberg. In: Hagdorn, H. & Seilacher, A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 117-130.
  • 141. Orłowska-Zwolińska, T., 1977. Palynological correlation of the Bunter and Muschelkalk in selected profiles from Western Poland. Acta Geologica Polonica, 27: 417-430.
  • 142. Orłowska-Zwolińska, T., 1983. Palynostratgraphy of the epicontinental Upper Triassic in Poland. (In Polish, English summary), Instytut Geologiczny, Prace, 104: 5-72.
  • 143. Orłowska-Zwolińska, T., 1984. Palynostratigraphy of the Buntsandstein in sections of western Poland. Acta Paleontologica Polonica, 29: 161-194.
  • 144. Orłowska-Z wolińska, T., 1985. Palynological zones of the Polish epicontinental Triassic. Bulletin de l'Academie Polonaise de Sciencés, s. Sciencés de la Térre, 35: 107-117.
  • 145. Palfy, J. & Török, A., 1992. Comparison of Alpine and Germanotype Middle Triassic Brachiopod Faunas from Hungary, with remarks on Coenothyris vulgaris (Schlotheim 1820). Annales Univesitatis Scientarium Budapestinensis de Rolando Eötvös Nominatae, Sectio Geologica, 29: 303-323.
  • 146. Parnes, A., 1965. Triassic ammonites from Israel. Geological Survey of Israel Bulletin, 33: 1-78.
  • 147. Parrish, J. M., Dubiel, F. R. & Parrish, J. T., 1989. Triassic monsoonal paleoclimate in Pangea: Evidence from Chinle Formation, southwestern United States. In: 28th International Geological Congress, Washington, Abstracts, 2: 575-576.
  • 148. Paul, J. & Ahrendt, H., 1998. Provenance of Clastic Triassic Sediments (Germanic Basin, Central Europe). Epicontinental Triassic International Symposium, Halle, 1998 - Abstracts. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 5: 136- 137.
  • 149. Pieńkowski, G., 1989. Sedimentological criteria for delimitating Zechstein/Buntsandstein and Permian/Triassic boundaries in Poland (In Polish, English summary), Przegląd Geologiczny, 37: 237-247.
  • 150. Polack, J. B., Toon, O. B., Sagan, J., Summers, A., Baldwin, B. & Camp, W. V., 1976. Volcanic explosions and climatic change: a theoretical assesment. Journal of Geophysical Research, 94: 1071-1083.
  • 151. Reitner, J., 1993. Modern cryptic microbialite/metazoan facies from Lizard Island (Great Barrier Reef, Australia), formation and concepts. Facies, 29: 3-40.
  • 152. Richter-Bemburg, G., 1974. Stratigraphische Synopsis des deutschen Buntsandsteins. Geologisches Jahrbuch, Reihe A, 25: 127-132.
  • 153. Ricou, J., 1963. Esquisse paleogeographique de la France aux temps triassiques. Bureau de Récherches Géologiques et Minieres, Bulletin, Bulletin, 15: 715-734.
  • 154. Riech, V., 1978. Zur Coelestinbildung im germanischen Muschelkalk Süddeutschlands. Geologisches Jahrbuch. Reihe D, 29: 1-77.
  • 155. Riedel, P., 1991. Korallen in der Trias der Tethys. Mitteilungen der Gesselschaft der Geologie- und Bergbaustudenten Österreichs, 37: 97-118.
  • 156. Rojek, M., 1996. Studium porównawcze dysaerobowych paleośrodowisk warstw gogolińskich i terebratulowych osadów wapienia muszlowego na Śląsku Opolskim. (In Polish). Unpublished M. Sci. Thesis, Cracow University, 47 pp.
  • 157. Rothe, M., 1993. Die Wüste im Wasser: Zur Fazies, Geochemie und Diagenese des Mittleren Muschelkalks in N-Bayern. In: Hagdorn, H. & Seilacher, A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 111-115.
  • 158. Rüffer, T., 1995. Entwicklung einer Karbonat-Platform: Fazies, Kontrolfaktoren und Sequenzstratigraphie in der Mitteltrias der westlichen Nördlichen Kalkalpen (Tirol, Bayern). Gaea heidelbergensis, 1: 1-283.
  • 159. Rüffer, T., 1996. Seismite im Unteren Muschelkalk westlich von Halle. Hallesches Jahrbuch für Geowissenschaften, 18: 119-130.
  • 160. Rüffer, T. & Bechstädt, T., 1998. Triassic Sequence Stratigraphy in the Western part of Northern Calcareous Alps (Austria). Society of Economic Paleontologists and Mineralogists, Special Publication, 60: 751-761.
  • 161. Rüffer, T. & Zühlke, R., 1995. Sequence Stratigraphy and Sea-Level Changes in the Early to Middle Triassic of the Alps: A Global Comparison. In: Haq, B.,U. (ed.), Sequence Stratigraphy and Depositional Response to Eustatic, Tectonic and Climatic Forcing. Kluwer Academic Publ., Dordrecht, pp. 161-207.
  • 162. Sarg, J. F., 1988. Carbonate sequence stratigraphy. Society of Economic Paleontologists and Mineralogists, Special Publication, 42: 155-181.
  • 163. Schubert, J. K. & Bottjer, D. J., 1992. Early Triassic stromatolites as post-mortem extinction disaster forms. Geology, 20: 883- 886.
  • 164. Schüller, F., Beutler, G. & Frantzke, H. J., 1989. Über synsedimentäre Bruchtektonik an der Grenze Unterer/Mittlerer Buntsandstein auf der Hermundurischen Scholle. Hallesches Jahrbuch für Geowissenschaften, 14: 49-54.
  • 165. Schwarz, H.-U., 1970. Zur Sedimentologie und Fazies des Unteren Muschelkalkes in Südwestdeutschland und angrenzenden Gebieten. Dissertation of the Tübingen University, 297 pp.
  • 166. Sengör, A. M. C., 1984. The Cimmeride orogenic system and the tectonics of Eurasia. Geological Society of America, Special Paper, 195: 1-89.
  • 167. Sengör, A. M. C., Cin, A., Rowley, D. B. & Nie, S-Y., 1993. Space-time patterns of magmatism along the Tethysside: A preliminary study. Journal of Geology, 101: 51-84.
  • 168. Senkowiczowa, H., 1962. Alpine fauna in the Röt and Muschelkalk sediments of Poland. (In Polish, English summary). In: Księga Pamiątkowa ku czci Prof. J. Samsonowicza. Wydawnictwo PAN, Warszawa, pp. 239-252.
  • 169. Senkowiczowa, H., 1970. Triassic (without Rhaetian). (In Polish, English summary). In: Mesozoic stratigraphy of the Holy Cross Mts. area. Instytut Geologiczny, Prace, 56: 7-41.
  • 170. Senkowiczowa, H. & Popiel-Barczyk, E. 1993. Brachiopods from Terebratula Bed from the Upper Muschelkalk in the Grotow P-11 borehole (SW Poland). Geological Quarterly, 37: 579- 592.
  • 171. Senowbaryi-Daryan, B., Zühlke, R., Bechstädt, T. & Flügel, E., 1993. Anisian (Middle Triassic) buildups of the Northern Dolomites (Italy): the recovery of reef communities after the Permian/Triassic crisis. Facies, 28: 40-65.
  • 172. Sigurdsson, H., 1990. Evidence of volcanic loading of the atmosphere and climate response. Palaeogeography Palaeoclimatology Paleoeocology, 89: 277-289.
  • 173. Simon, T., 1998. Stops 3 and 4. In: Bachmann, G., Beutler, G. & Lerche, I. (eds.), Epicontinental Triassic International Symposium Halle 1998 - Excursions. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 6: 169-171.
  • 174. Simms, M. J. & Ruffel, A. H., 1990. Climatic and biotic change in the late Triassic. Journal of Geological Society London, 147: 321-327.
  • 175. Spötl, C., 1988. Evaporitische Fazies der Reichenhaller Formation (Skyth/Anis) im Haller Salzberg (Nördliche Kalkalpen, Tirol). Jahrbuch der Geologischen Bundesanstalt, 131: 153-168.
  • 176. Stanley, S.M., 1988. The history of early Mesozoic reef communities: a three steps process. Palatos, 3: 170-183.
  • 177. Strunck, P., Gaupp, R. & Steffan, M.. 1998. Halokinesis of Late Permian Salt During the Early Triassic (Northern Germany). Epicontinental Triassic International Symposium Halle 1998 - Abstracts. Hallesches Jahrbuch für Geowissenschaften, Reihe B, 5: 166-167.
  • 178. Swennen, R., Viaene, W., Jacobs, L. & Van Orsmael, J., 1981. Occurrence of calcite pseudomorphs after gypsum in the Lower Carboniferous of the Vesder Region (Belgium). Bulletin de la Societe Beige de Geologie, Paleontologie et Hydrologie, 90: 231-247.
  • 179. Szente, I., 1997. Bivalve assemblages from the Middle Triassic Muschelkalk of the Mecsek Mts, South Hungary: An overview. Acta Geologica Hungarica, 40: 411-424.
  • 180. Szulc, J., 1990. Diagenesis. IAS International Workshop - Field Seminar. In: The Muschelkalk - Sedimentary Environments, Facies and Diagenesis. Excursion Guidebook and Abstracts, Cracow - Opole, pp. 26-28.
  • 181. Szulc, J., 1991. The Muschelkalk in Lower Silesia. In: Hagdorn, H., Simon, T. & Szulc, J. (eds.), Muschelkalk. A Field Guide. Goldschneck, Stuttgart, pp. 58-61.
  • 182. Szulc, J., 1993. Early alpine tectonics and lithofacies succession in the Silesian part of the Muschelkalk Basin. A synopsis. In: Hagdorn, H., and Seilacher, A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 19-28.
  • 183. Szulc, J., 1995. Schemat stratygrafii sekwencyjnej triasu pozaalpejskiego Polski: uwarunkowania eustatyczne i tektoniczne. (In Polish). In: IV Krajowe Spotkanie Sedymentologów P.T.G., Kraków, pp. 112-113.
  • 184. Szulc, J., 1997a. Tectonic vs. Eustatic Controls of the Germanic Basin in Triassic. In: Peri-Tethys Programme Animal Meeting Abstracts. Rabat-Morocco, pp. 86-87.
  • 185. Szulc.J., 1997b. Middle Triassic (Muschelkalk) sponge-microbial stromatolites, diplopores and Girvanella-oncoids from the Silesian Cracow Upland. In: 3ld Regional Symp. of International Fossil Algae Association and 3'd International. Meeting of 1GCP 380, Guidebook and Abstracts, Cracow, pp. 10-15.
  • 186. Szulc, J., 1998. Paleokras w osadach węglanowych Śląska i jego uwarunkowania paleośrodowiskowe. (In Polish). In: Szynkiewicz, A., (ed.) Materiały 32 Sympozjum Speleologicznego Polskiego Towarzystwa Przyrodników. Kamień Śląski, pp. 8-9.
  • 187. Szulc, J., 1999. Anisian - Camian evolution of the Germanie basin and its eustatic, tectonic and climatic controls. In: Bachmann, G. H. & Lerche, L, (eds.), Epicontinental Triassic. Zentralblat für Geologie und Paläeontologie, T. L, H. 7-8: 813-852.
  • 188. Szyperko-Teller, A., 1982. Lithostratigraphy of the Buntsandstein in the western Pomerania. (In Polish, English summary). Kwartalnik Geologiczny, 26: 341-368.
  • 189. Szyperko-Teller, A., 1997. Lower Triassic - sedimentation, paleogeography and paleotectonics. (In Polish, English summary). In: Marek, S. & Pajchlowa, M. (eds.), The epicontinental Permian and Mesozoic in Poland. Państwowy Instytut Geologiczny, Prace, 153: 12-132.
  • 190. Szyperko-Teller, A. & Moryc, W., 1988. Evolution the Buntsandstein Basin in Poland. (In Polish, English summary). Kwartalnik Geologiczny, 32: 53-72.
  • 191. Taylor, A. M., Gawthorpe, R. L. & Goldring, R., 1993. Description and analysis of bioturbation and ichnofabric. Journal of the Geological Society London, 150: 141-148.
  • 192. Theveniaut, H., Besse, J., Edel, J. B., Westphal, M. & Düringer, Ph., 1992. A Middle Triassic paleomagnetic pole for the Eurasian plate from Heming (France). Geophysical Research Letters, 19: 77-780.
  • 193. Thorarinsson, S. & Vonnegut, B., 1964. Whirlwinds produced by the eruption of Surtsey Volcano. American Meteorological Society, Bulletin, 45: 440-444.
  • 194. Török, A., 1997. Triassic ramp evolution in Southern Hungary and its similarities to the Germano-type Triassic. Acta Geologica Hungarica, 40: 367-390.
  • 195. Trammer, J., 1975. Stratigraphy and facies development of the Muschelkalk in the south-western Holy Cross Mts. Acta Geologica Polonica, 25: 179-216.
  • 196. Trammer, J., 1979. The isochronous synsedimentary movements at the Anisian/Ladinian boundary in the Muschelkalk Basin and the Alps. Rivista Italiana di Paleontologia e Stratigraphia, 85: 931-936.
  • 197. Van der Zwan, C. J. & Spaak. P., 1992. Lower to Middle Triassic sequence stratigraphy and climatology of the Netherlands, a model. Palaeogeography Palaeoclimatology Palaeoecology, 91: 277-290.
  • 198. Vauchez, A., Barroul, G. & Tommasi, A., 1997. Why do continents break-up parallel to ancient orogenic belts? Terra Nova, 9: 62-66.
  • 199. Veevers, J. J., 1989. Middle/Late Triassic (230 ± 5 Ma) singularity in the stratigraphic magmatic history of the Pangean heat anomaly. Geology, 17: 784-787.
  • 200. Veizer, J., 1994. Depositional and diagenetic history of limestones: stable and radiogenic isotopes. In: Clauer, N. & Chaudhuri, S., (eds.), Isotopic signatures and sedimentary records. Springer, Heidelberg, pp. 189-241.
  • 201. Visscher, H., Brugman, W. A. & van Houte, M., 1993. Chronostratigraphical and sequence stratigraphical interpretation of the palynomorph record from the Muschelkalk of the Obemsees Well, South Germany. In: Hagdom, H. & Seilacher, A. (eds.), Muschelkalk. Goldschneck, Stuttgart, pp. 145-152.
  • 202. Voigt, T. & Linnemann, U., 1996. Resedimentation im Unteren Muschelkalk - das Profil am Jenzig bei Jena. Beiträge für Geologie von Thüringen. N.F., 3: 153-167.
  • 203. Walther, K., 1927. Zwölf Tafeln der verbreitetsten Fossilien aus Muschelkalk der Umgebung von Jena. Fischer. Jena, 36 pp.
  • 204. Warrington, G., 1970. The stratigraphy and paleontology of the “Keuper” Series of the central Middlands of England. The Quaterly Journal of the Geological Society London, 126: 183-223.
  • 205. Wierer, J, F., 1997. Vergleichende Untersuchungen an Megasporenvergesselschaftungen der alpinen und germanischen Mittel- und Obertrias. Münchener Geowissenschaftliche Abhandlungen, R. A., 35: 1-176.
  • 206. Wohlburg, J., 1969. Die epirogenetischen Phasen der Muschelkalk- und Keuperentwicklung NW-Deutschlands mit einem Rückblick auf den Buntsandstein. Geotektonische Forschungen, 32: 1-65.
  • 207. Yilmaz, P. O., Norton, I. O., Leary, D. & Chudila, R. J., 1996. Tectonic evolution and paleogeography of Europe. In: Ziegler, P. A. & Horvath, F. (eds.), Peri-Tethys Memoir 2: Structure and Prospects of Alpine Basins and Forelands. Mémoires du Museum National d'Histoire Naturelle, 170: 47-60.
  • 208. Zacher, W. & Lupu, M., 1999. Pitfalls on the race for an ultimate Tethys model. International Journal of Earth Sciences (Geol. Rdsch.), 88: 111-115.
  • 209. Zawidzka, K., 1975. Conodont stratigraphy and sedimentary environment of the Muschelkalk in Upper Silesia. Acta Geologica Polonica, 25: 217-257.
  • 210. Żaba, J., 1996. Late Carboniferous strike slip activity at the boundary zone of Upper Silesia and Małopolska Blocks. (In Polish, English summary). Przegląd Geologiczny, 44: 173-180.
  • 211. Ziegler, P. A., 1988. Evolution of the Arctic-North Atlantic and the western Tethys. American Association of Petroleum Geologists, Memoir, A3: 1-198.
  • 212. Ziegler, P. A., 1990. Geological Atlas of Western and Central Europe. Shell Intern. Petrol. Maatsch. B.V.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS6-0028-0017
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.