PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Powiadomienia systemowe
  • Sesja wygasła!
Tytuł artykułu

Event stratigraphy of the Badenian selenite evaporites (Middle Miocene) of the northern Carpathian Foredeep

Autorzy
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The Middle Miocene (Badenian) evaporites of the northern Carpathian Foredeep were deposited in a salina-type basin. Calcium sulphate sediments were deposited mainly on the broad northern margins of the basin, on vast evaporite shoals (mainly as fine-grained microbialite gypsum) and in large shallow saline pans (as coarse-crystalline selenites). 125 sections of these primary deposits, exposed from Moldova, Ukraine, Poland to the Czech Republic, were subjected to stratigraphic analysis based principally on the methodology of event and high-resolution stratigraphy. Due to an extremely gentle relief and a predominantly aggradational type of deposition, typical of a salina basin, the environmental changes or events were recorded nearly instantaneously in the whole area. Some events, such as water-level or brine-level fluctuations (emersions and floods, which can be very rapid in a salina basin),fluctuations in the average pycnocline level, aeolian dust or ash falls, accretion of specific gypsum microbialites, produced sets of marker beds which are perfectly correlated over distances of tens to hundreds of kilometres. Some thin grass-like selenite beds, representing deposits of shallow flat-bottomed saline pans, were correlated precisely over such great distances and are interpreted as isochronous or near-isochronous. Each bed was presumably deposited during the average pycnocline level highstands in the saline pan. The thick-bedded selenite units do not show long-distance bed-by-bed correlation, presumably because they were deposited in deeper pans in which the pycnocline fluctuations were recorded by bedding planes (i.e. by intercalations of fine-grained gypsum or dissolution surfaces) only on the shallow slopes or swells. However some apparent growth zones in the gypsum crystals from such selenite units were correlated throughout the basin, proving that the selenite growth However some apparent growth zones in the gypsum crystals from such selenite units were correlated throughout the basin, proving that the selenite growth was isochronous.
Rocznik
Strony
9--29
Opis fizyczny
Bibliogr. 130 poz., rys., [7] k. tabl.
Twórcy
autor
  • Institute of Geology, Warsaw University, Al. Żwirki i Wigury 93, PL-02-089 Warszawa, Poland
Bibliografia
  • 1. AIGNER, T. & BACHMANN, G.H. 1989. Dynamic stratigraphy of evaporite-to-red bed sequence, Gipskeuper (Triassic), southwest German Basin. Sedimentary Geology, 62, 5-25.
  • 2. AKERMAN, K. & NIELUBOWICZ, R. 1951. Short description of principal industrial gypsum and anhydrite beds in Poland. Przemysł Chemiczny, 7, 537-544. [In Polish with English abstract]
  • 3. ALEXANDROWICZ, S.W. 1997. Lithostratigraphy of the Miocene deposits in the Gliwice area (Upper Silesia, Poland). Bulletin of the Polish Academy of Sciences, Earth Sciences, 45, 167-179.
  • 4. ANDERSON, A.T.JR. 1984. Probable relations between plagioclase zoning and magma dynamics, Fuego Volcano, Guatemala. American Mineralogists, 69, 660-676.
  • 5. ANDERSON, R.Y., DEAN, W.E., BRADBURY, J.P. & LOVE, D. 1985. Meromictic lakes and varved lake sediments in North America. U.S. Geological Survey Bulletin, 1607, 1-18.
  • 6. ANDREYEVA-GRIGOROVICH, A.S., OSZCZYPKO, N., SAVITSKAYA, N.A., ŚLĄCZKA, A. & TROFIMOVICH, N.A. 2003. Correlation of Late Badenian salts of the Wieliczka, Bochnia and Kalush areas (Polish and Ukrainian Carpathian Foredeep). Annales Societatis Geologorum Poloniae, 73, 67-89.
  • 7. ARAKEL, A.V. 1980. Genesis and diagenesis of Holocene evaporitic sediments in Hutt and Leeman Lagoons, Western Australia. Journal of Sedimentary Petrology, 50, 1305-1326.
  • 8. BĄBEL, M. 1987. Giant gypsum intergrowths from the Middle Miocene evaporites of southern Poland. Acta Geologica Polonica, 37, 1-20.
  • 9. — 1991. Crystallography and genesis of the giant intergrowths of gypsum from the Miocene evaporites of Poland. Archiwum Mineralogiczne, 44, 103-135. Warszawa.
  • 10. — 1996. Wykształcenie facjalne, stratygrafia oraz sedymentacja badeńskich gipsów Ponidzia. In: P.H. KARNKOWSKI (Ed.), Analiza basenów sedymentacyjnych a nowoczesna sedymentologia. Materiały 5 Krajowego Spotkania Sedymentologów, pp. B1-B26. Warszawa.
  • 11. — 1999a. Facies and depositional environments of the Nida Gypsum deposits (Middle Miocene, Carpathian Foredeep, southern Poland). Geological Quarterly, 43, 405-428.
  • 12. — 1999b. History of sedimentation of the Nida Gypsum deposits (Middle Miocene, Carpathian Foredeep, southern Poland). Geological Quarterly, 43, 429-447.
  • 13. — 1999c. Two possible saline cyclothems in the Badenian evaporites of the Carpathian foreland basin. Biuletyn Państwowego Instytutu Geologicznego, 387, 87-88.
  • 14. — 2000. Anisotropic development of equivalent gypsum crystal faces promoted by chiral organic compounds. In: N.P YUSHKIN, V.P. LUTOEV, M.F. SAMOTOLKOVA, M.V. GAVRILIUK & G.V. PONOMAREVA (Eds), Mineralogy and life: biomineral homologies. 3 International Seminar “Mineralogy and life”, pp. 132-133. Geoprint; Syktyvkar.
  • 15. — 2004a. Models for evaporite, selenite and gypsum microbialite deposition in ancient saline basins. Acta Geologica Polonica, 54, 219-249.
  • 16. — 2004b. Badenian evaporite basin of the northern Carpathian Foredeep as a drawdown salina basin. Acta Geologica Polonica, 54, 313-337.
  • 17. — 2005 in press. Selenite - gypsum microbialite facies and sedimentary evolution of the Badenian evaporite basin of the northern Carpathian Foredeep. Acta Geologica Polonica, 55.
  • 18. BĄBEL, M. & BOGUCKIY, A. 1999. Basin-wide isochronic correlation of the Badenian shallow-water gypsum strata in Ukraine, Poland and the Czech Republic. Biuletyn Państwowego Instytutu Geologicznego, 387, 89-90.
  • 19. BĄBEL, M., BOGUCKIY, A. & VOLOSHIN, P. 1998. Isochronic correlation of the Miocene evaporites of Carpathian Foredeep over a distance of several hundred kilometres. In: 15 IAS Congress (Alicante, Spain), Abstracts, pp. 161-162. Publicaciones de la Universidad de Alicante, Compobell, S.L.; Murcia.
  • 20. BJÖRCK, S., WOHLFARTH, B. & POSSNERT, G. 1995. 14C AMS mesurements from the Late Weichselian part of the Swedish Time Scale. Quaternary International, 27, 11-18.
  • 21. BOBROVNIK, D.P. 1957. Volcanic tuffs revealed in some places of the South-Western borders of the Russian platform. Geologicheskiy Sbornik Lvovskovo Geologicheskovo Obshchestva [Geological Review of the Lvov Geological Society], 4, 143-154. [In Russian]
  • 22. — 1962. Mineralogy of gypsum-anhydrite from the sulphur deposits in the Precarpathians. Mineralogical Sbornik, Lvov Geological Society, 16, 261-272. [In Russian with English summary]
  • 23. BOBROWSKI, W. 1963. Gypsum in the eastern bank of the Nida river valley. Biuletyn Instytutu Geologicznego (not numbered), pp. 1-29. [In Polish with English summary]
  • 24. BUKOWSKI, K. 1999. Comparison of the Badenian saliferous series from Wieliczka and Bochnia in the light of new data. Prace Państwowego Instytutu Geologicznego, 168, 43-56. [In Polish with English summary]
  • 25. CATUNEANU, O. 2002. Sequence stratigraphy of clastic systems: concepts, merits, and pitfalls. Journal of African Earth Sciences, 35, 1-43.
  • 26. CODY, A.M. & CODY, R.D. 1991. Chiral habit modification of gypsum from epitaxial-like adsorption of stereospecific growth inhibitors. Journal of Crystal Growth, 113, 508-519.
  • 27. COHEN, Y., KRUMBEIN, W.E., GOLDBERG, M. & SHILO, M. 1977. Solar Lake (Sinai). 1. Physical and chemical limnology. Limnology and Oceanography, 22, 597-608.
  • 28. D’ARGENIO, B., FERRERI, V., RASPINI, A., AMODIO, S. & BUONOCUNTO, F.P. 1999. Cyclostratigraphy of a carbonate platform as a tool for high-precision correlation. Tectonophysics, 315, 357-384.
  • 29. DRONKERT, H. 1985. Evaporite models and sedimentology of Messinian and Recent evaporites. GUA Papers of Geology, Ser. 1, No. 24, 1-283. Utrecht.
  • 30. DZHINORIDZE, N.M. & RAEVSKIY, V.I. 1977. Basic peculiarities of the Tortonian salt formation of the Carpathian region. In: A.L. YANSHIN & M.A. ZHARKOV (Eds), Problems of salt formation, v. 1, pp. 257-261. Nauka, Sibirskoe Otdelenie; Novosibirsk. [In Russian]
  • 31. ECKSTEIN, Y. 1970. Physicochemical limnology and geology of a meromictic pond on the Red Sea shore. Limnology and Oceanography, 15, 363-372.
  • 32. EINSELE, G. 1998. Event stratigraphy: recognition and interpretation of sedimentary event horizons. In: P. DOYLE & M.R. BENNETT (Eds), Unlocking the stratigraphical record: Advances in modern stratigraphy, pp. 145-193. John Wiley & Sons Ltd.; Chichester.
  • 33. EINSELE, G., CHOUGH, S.K. & SHIKI, T. 1996. Depositional events and their records – an introduction. Sedimentary Geology, 104, 1-9.
  • 34. ERNST, G., SCHMID, F., SEIBERTZ, E., KELLER, S. & WOOD, C.J. 1983. Event-Stratigraphie im Cenoman und Turon von NW Deutschland. Zitteliana, 10, 531-554. München.
  • 35. FERSMAN, A.J. 1919. On mineralogical and geological investigations of the Saki lake. In: D.S. BELYANKIN (Ed.), Academician A. J. Fersman, Collected works, v. 1, pp. 809-822. Izdatelstvo Akademii Nauk USSR; Moscow 1952. [In Russian]
  • 36. GARLICKI, A. 1968. Autochthonous salt series in the Miocene of the Carpathian Foredeep, between Skawina and Tarnów. Biuletyn Instytutu Geologicznego, 215, 5-77. [In Polish with English summary]
  • 37. — 1979. Sedimentation of Miocene salts in Poland. Geological Transactions [Prace Geologiczne, Polska Akademia Nauk, Oddział w Krakowie], 119, 1-67. [In Polish with English summary]
  • 38. — 1994. Comparison of salt deposits in Upper Silesia and Wieliczka (southern Poland). Przegląd Geologiczny, 42, 752-753. [In Polish with English summary]
  • 39. GĄSIEWICZ, A. & CZAPOWSKI, G. 1995. Cykliczność sedymentacji utworów ewaporatowych badenu zapadliska przedkarpackiego – dyskusja. Przegląd Geologiczny, 43, 335-338.
  • 40. GEISLER-CUSSEY, D. 1986. Approche sédimentologique et géochimique des mécanismes générateurs de formations évaporitiques actuelles et fossiles. Marais salants de Camargue et du Levant espagnol, Messinien mediterraneen et Trias lorrain. Sciences de la Terre, Mémoires, 48, 1-268. Nancy.
  • 41. GLENN, C.R. & KELTS, K. 1991. Sedimentary rhythms in lake deposits. In: G. EINSELE & A. SEILACHER (Eds), Cycles and events in stratigraphy, pp. 188-221. Springer; Berlin.
  • 42. GRISSINO-MEYER, H.D. 2005. Ultimate tree-ring pages. http://web.utk.edu/~grissino/
  • 43. GUNATILAKA, A. 1975. Some aspects of the biology and sedimentology of laminated algal mats from Mannar Lagoon, north-west Ceylon. Sedimentary Geology, 14, 275-300.
  • 44. GURZHIY, D.V. 1969. Lithology of Forecarpathian molasses, pp. 1-204. Naukova Dumka; Kiev. [In Russian]
  • 45. HARDIE, L.A. & EUGSTER, H.P. 1971. The depositional environment of marine evaporites: a case for shallow, clastic accumulation. Sedimentology, 16, 187-220.
  • 46. HOFFMAN, P. 1967. Algal stromatolites: use in stratigraphic correlation and paleocurrent determination. Science, 157, 1043-1045.
  • 47. KAMIEŃSKI M. & GLIŃSKA, S. 1966. On tuffites with halite from the salt mine of Bochnia. Archiwum Mineralogiczne, 26, 77-89. [for 1965] [In Polish with English summary]
  • 48. KASPRZYK, A. 1989a. Lithology of the Miocene sulfate deposits in the Staszów region. Kwartalnik Geologiczny, 33, 241-268. [In Polish with English summary]
  • 49. — 1989b. Content of strontium in Miocene gypsum rocks of the Staszów area. Przegląd Geologiczny, 37, 201-207. [In Polish with English summary]
  • 50. — 1993. Lithofacies and sedimentation of the Badenian (Middle Miocene) gypsum in the northern part of the Carpathian Foredeep, southern Poland. Annales Societatis Geologorum Poloniae, 63, 33-84.
  • 51. — 1994a. Distribution of strontium in the Badenian (Middle Miocene) gypsum deposits of the Nida area, southern Poland. Geological Quarterly, 38, 497-512.
  • 52. — 1994b. Cyclicity of sedimentation of the Badenian evaporate deposits in the Carpathian Foredeep (southern Poland). Przegląd Geologiczny, 42, 349-356.
  • 53. — 1995a. Correlation of sulphate deposits of the Carpathian Foredeep at the boundary of Poland and Ukraine. Geological Quarterly, 39, 95-108.
  • 54. — 1995b. Cykliczność sedymentacji utworów ewaporatowych badenu zapadliska przedkarpackiego – replika. Przegląd Geologiczny, 43, 339-341.
  • 55. — 2003. Sedimentological and diagenetic patterns of anhydrite deposits in the Badenian evaporite basin of the Carpathian Foredeep, southern Poland. Sedimentary Geology, 158, 167-194.
  • 56. KASPRZYK, A. & ORTÍ, F. 1998. Palaeogeographic and burial controls on anhydrite genesis: the Badenian basin in the Carpathian Foredeep (southern Poland, western Ukraine). Sedimentology, 45, 889-907.
  • 57. KAUFFMAN, E.G. 1988. Concepts and methods of high-resolution event stratigraphy. Annual Review of Earth and Planetary Sciences, 16, 605-654.
  • 58. KAUFFMAN, E.G., ELDER, W.P. & SAGEMAN, B.B. 1991. High-resolution correlation: a new tool in chronostratigraphy. In: G. EINSELE & A. SEILACHER (Eds), Cycles and events in stratigraphy, pp. 795-819. Springer; Berlin.
  • 59. KENDALL, C.G.S.C. & SKIPWITH, P.A.D’E. 1968. Recent algal mats of a Persian Gulf lagoon. Journal of Sedimentary Petrology, 38, 1040-1058.
  • 60. KHRUSHCHOV, D.P. & PETRICHENKO, O.I. 1979. Evaporite formations of Central Paratethys and conditions of their sedimentation. Annales Géologiques des Pays Helléniques, Tome hors série, No. 2, 595-612. Athens.
  • 61. KIRKLAND, D.W. 2003. An explanation for the varves of the Castile evaporites (Upper Permian), Texas and New Mexico, USA. Sedimentology, 50, 899-920.
  • 62. KLIMCHOUK, A.B., TURCHINOV, I.I. & ANDREJCHOUK, V.N. 1995. Structural prerequisites of speleogenesis in gypsum in the Western Ukraine, pp. 1-105. Ukrainian Speleological Association; Kiev. [In Russian with English summary]
  • 63. KORENEVSKIY, S.M., ZAHAROVA, V.M. & SHAMAHOV, V.A. 1977. Miocene halogenic formations of Carpathian Foreland. Trudy Vsesoyuznovo Nauchno-Issledovatelnovo Geologicheskovo Instituta, Novaya Ser., 271, 1-248. Nedra; Leningrad.
  • 64. KRACH, W. 1956. The faunistic analysis of the Miocene profile in Krywałd in Upper Silesia. Biuletyn Instytutu Geologicznego, 107, 123-144. [In Polish with English summary]
  • 65. KRAJEWSKI, R. 1962. O budowie i powstaniu złoża siarki w Piasecznie. Wszechświat, No. 4, 85-91. Kraków.
  • 66. KREUTZ, S. 1925. Sur la protection de la nature inanimée. Ochrona Przyrody, No. 5, 58-68. Kraków. [In Polish]
  • 67. KRIJGSMAN, W., FORTUIN, A.R., HILGEN, F.J. & SIERRO, F.J. 2001. Astrochronology for the Messinian Sorbas basin (SE Spain) and orbital (precessional) forcing for evaporite cyclicity. Sedimentary Geology, 140, 43-60.
  • 68. KUBICA, B. 1985. The chemical series. In: K. PAWŁOWSKA (Ed.), Geology of the Tarnobrzeg native sulphur deposit. Prace Instytutu Geologicznego, 114, 34-54. [In Polish with English summary]
  • 69. — 1992. Lithofacial development of the Badenian chemical sediments in the northern part of the Carpathian Foredeep. Prace Państwowego Instytutu Geologicznego, 133, 1-64. [In Polish with English summary]
  • 70. — 1994. Lithogeophysical correlation of the Badenian chemical deposits of the Carpathian Foredeep (southern Poland). Przegląd Geologiczny, 42, 759-765. [In Polish]
  • 71. KUDRIN, L.N. 1955. The Upper Tortonian gypsum of the southwest margin of Russian Platform. Uchenye Zapiski Lvovskovo Gosudarstvennovo Universiteta im. Ivana Franko, Ser. Geologicheskaya, 35, 129-161. [In Russian]
  • 72. — 1960. On the Upper-Tortonian bar between the salt-bearing basin and the open sea within the limits of the south-western outlying districts of the Russian Platform. Doklady Akademii Nauk SSSR, 131, 909-912. [In Russian]
  • 73. KWIATKOWSKI, S. 1970. Origin of alabasters, intraformational breccias, folds and stromatolites in Miocene gypsum of Southern Poland. Bulletin de l’Académie Polonaise des Sciences, Sér. Sciences Géologiques et Géographiques, 18, 37-42.
  • 74. — 1972. Sedimentation of gypsum in the Miocene of southern Poland. Prace Muzeum Ziemi, 19, 3-94. Warszawa. [In Polish with English summary]
  • 75. LACROIX, A. 1897. Le gypse de Paris et les minéraux qui l’accompagnent (première contribution a la minéralogie du basin de Paris). Nouvelles Archives du Muséum d’Histoire Naturelle, Paris, Sér. 3, 9, 1-296.
  • 76. LADYZHENSKIY, N.P. & ANTIPOV, V.I. 1961. Geological structure and gas- and oil-bearing of the Soviet Forecarpathians, pp. 1-267. Gostoptechizdat; Moscow. [In Russian]
  • 77. LOGAN, B.W. 1987. The MacLeod evaporite basin, western Australia. Holocene environments, sediments and geological evolution. AAPG Memoir, 44, pp. 1-140. Tulsa.
  • 78. LONGMORE, M.E., LULY, J.G. & O’LEARY, B.M. 1986. Cesium-137 redistribution in the sediments of the playa, Lake Tyrrel, northwestern Victoria. II. Pattern of cesium-137 and pollen redistribution. Palaeogeography, Palaeoclimatology, Palaeoecology, 54, 197-218
  • 79. MAGEE, J.W. 1991. Late Quaternary lacustrine, groundwater, aeolian and pedogenic gypsum in the Prungle Lakes, southeastern Australia. Palaeogeography, Palaeoclimatology, Palaeoecology, 84, 3-42.
  • 80. MÁTL, V. 1981. Ložiska sádrovce opavské pánve. Geologický Průzkum, 23, 346-350. Praha.
  • 81. MEYERS, W.J. 1978. Carbonate cements: their regional distribution and interpretation in Mississippian Limestones of southwestern New Mexico. Sedimentology, 25, 371-400.
  • 82. NIELUBOWICZ, R. 1961. Remarks concerning the stratigraphy of several Miocene gypsum layers in the west zones of Subcarpathian Depression. Cement-Wapno-Gips, 16/26, 68-77. Kraków. [In Polish with French abstract]
  • 83. NIEMCZYK, J. 1988. Cyclothems in Miocene Evaporite Seriers on the Carpathian border between Broniszów and Mała. Zeszyty Naukowe AGH, 1118, Geologia, Kwartalnik, 12, 109-115. [for 1986] [In Polish with English summary]
  • 84. — 1995. Geological section at Krzyżanowice near Pińczów as a base for lithostratigraphy of the Gypsum Formation of the Nida region (Southern Poland). Geologia, Kwartalnik AGH, 21, 183-196. [In Polish with English abstract]
  • 85. NOWAK, T.W. & POŁTOWICZ, S. 2000. Miocene deposits at Broniszów, Glinik and Mała area (the Middle Carpathians). Geologia, Kwartalnik AGH, 26, 375-396. [In Polish with English summary]
  • 86. NYSTUEN, J.P. 1998. History and development of sequence stratigraphy. In: F.M. GRADSTEIN, K.O. SANDVIK & N.J. MILTON (Eds), Sequence stratigraphy – concepts and applications. Norwegian Petroleum Society, Special Publication, 8, pp. 31-116. Elsevier; Amsterdam.
  • 87. OREN, A. 1999. Microbiological studies in the Dead Sea: future challenges toward the understanding of life at the limit of salt concentrations. Hydrobiologia, 405, 1-9.
  • 88. ORTÍ CABO, F., PUEYOMUR, J.J., GEISLER-CUSSEY, D. & DULAU, N. 1984. Evaporitic sedimentation in the coastal salinas of Santa Pola (Alicante, Spain). Revista d’Investigacions Geologiques, 38-39, 169-220.
  • 89. PERYT, T.M. 1996. Sedimentology of Badenian (middle Miocene) gypsum in eastern Galicia, Podolia and Bukovina (West Ukraine). Sedimentology, 43, 571-588.
  • 90. — 2000. Resedimentation of basin centre sulphate deposits: Middle Miocene Badenian of Carpathian Foredeep, southern Poland. Sedimentary Geology, 134, 331-342.
  • 91. — 2001. Gypsum facies transitions in basinal-marginal evaporites: middle Miocene (Badenian) of west Ukraine. Sedimentology, 48, 1103-1119.
  • 92. PERYT, T.M., HAŁAS, S., KAROLI, S. & PERYT, D. 1997a. Isotopic record of environmental changes during deposition of Badenian (Middle Miocene) gypsum at Kobeřice near Opava (Czech Republic). Przegląd Geologiczny, 45, 807-810. [In Polish with English summary]
  • 93. PERYT, T.M., JASIONOWSKI, M., KAROLI, S., PETRICHENKO, O.I., POBEREGSKI, A.V. & TURCHINOV, I.I. 1998. Correlation and sedimentary history of the Badenian gypsum in the Carpathian Foredeep (Ukraine, Poland, and Czech Republic). Przegląd Geologiczny, 46, 729-732. Warszawa.
  • 94. PERYT, T.M., KAROLI, S., PERYT, D., PETRICHENKO, O.I., GEDL, P., NARKIEWICZ, W., ĎURKOVIČOVÁ, J. & DOBIESZYŃSKA, Z. 1997b. Westernmost occurrence of the Middle Miocene Badenian gypsum in central Paratethys (Kobeřice, Moravia, Czech Republic). Slovak Geological Magazine, 3, 105-120.
  • 95. PERYT, T.M., SZAFRAN, J. JASIONOWSKI, M., HALAS, S., PERYT, D., POBEREZHSKYY, A., KAROLI, S. & WÓJTOWICZ, A. 2002. S and O isotope composition of the Badenian (Middle Miocene) sulphates in the Carpathian Foredeep. Geologica Carpathica, 53, 391-398.
  • 96. PETRICHENKO, O.I., PERYT, T.M. & POBEREGSKY, A.V. 1997. Pecularities of gypsum sedimentation in the Middle Miocene Badenian evaporite basin of Carpathian Foredeep. Slovak Geological Magazine, 3, 91-104.
  • 97. PITTET, B. & STRASSER, A. 1998. Long-distance correlation by sequence stratigraphy and cyclostratigraphy: examples and implications (Oxfordian from the Swiss Jura, Spain, and Normandy). Geologische Rundschau, 86, 852-874.
  • 98. POBEREZHSKYY, A.V. 2000. The physical-chemical parameters of conditions of gypsum sedimentation in the Badenian evaporite basin of the Carpathian Foredeep. Geologiia i Geochimiia Goryuchikh Kopalyn, 4, 38-55. Lviv. [In Ukrainian with English summary]
  • 99. POŁTOWICZ, S. 1993. Palinspastic palaeogeography reconstruction of Badenian saline sedimentary basin in Poland. Zeszyty Naukowe AGH, 1559, Geologia, Kwartalnik, 19, 174-178, 203-233. [In Polish with English summary]
  • 100. PRYSJAZHNJUK, V.A. 1998. Tyrassian suite of Precarpathian region. Geologichnii Zhurnal, [Geological Journal, National Academy of Sciences of Ukraine], No. 1-2, 130-136. Kiev.
  • 101. RICHTER-BERNBURG, G. 1973. Facies and paleogeography of the Messinian evaporites on Sicily. In: C.W. DROOGER (Ed.), Messinian events in the Mediterranean, pp. 124-141. North-Holland Publishing Company; Amsterdam.
  • 102. — 1985. Zechstein-Anhydrite. Fazies and Genese. Geologisches Jahrbuch, A, 85, 1-85.
  • 103. RODRÍGUEZ-ARANDA, J.P., ROUCHY, J.M., CALVO, J.P., ORDÓÑEZ, S. & GARCÍA DEL CURA, M.A. 1995. Unusual twinning features in large primary gypsum crystals formed in salt lake conditions, middle Miocene, Madrid Basin, Spain – palaeoenvironmental implications. Sedimentary Geology, 95, 123-132.
  • 104. ROMAN, A. 1998. Wykształcenie i sedymentacja badeńskich gipsów okolic Racławic na Wyżynie Miechowskiej, pp. 1-69. MSc Thesis; University of Warsaw.
  • 105. RÖGL, F. 1999. Mediterranean and Paratethys. Facts and hypotheses of an Oligocene to Miocene paleogeography (short overview). Geologica Carpathica, 50, 339-349.
  • 106. ROSELL, L., ORTÍ, F., KASPRZYK, A., PLAYA, E. & PERYT, T.M. 1998. Strontium geochemistry of Miocene primary gypsum: Messinian of southeastern Spain and Badenian of Poland. Journal of Sedimentary Research, 68, 63-79.
  • 107. ROUCHY, J.M. 1982. La genèse des évaporites messiniennes de Méditerrannée. Mémoires du Muséum National d’Histoire Naturelle, Sér. C, Sciences de la Terre, 50, pp. 1-267. Paris.
  • 108. ROVERI, M., LANDUZZI, A., BASSETTI, M.A., LUGLI, S., MANZI, V., RICCI-LUCCHI, F. & VAI, G.B. 2004. The record of Messinian events in the Northern Apennines Foredeep Basins. Field trip guide book, B19, pp. 1-48. 32 International Geological Congress, Florence, Italy. APAT; Roma.
  • 109. SCHREIBER, B.C. 1988. Subaqueous evaporite deposition. In: B.C. SCHREIBER (Ed.), Evaporites and hydrocarbons, pp. 182-255. Columbia University Press; New York.
  • 110. — 1997. Field trip to Eraclea Minoa: Upper Messinian. In: International Conference on Neogene Mediterranean Paleoceanography (Erice, Italy), Excursion Guidebook, pp. 72-80. Societa Geologica Italiana, Milano; ESCO Secretariat, Zürich.
  • 111. SCHREIBER, B.C., CATALANO, R. & SCHREIBER, E. 1977. An evaporitic lithofacies continuum: latest Miocene (Messinian) deposits of Salemi Basin (Sicily) and a modern analog. In: J.H. FISHER (Ed.), Reefs and evaporites – concepts and depositional models. Studies in Geology, 5, pp. 169-180. American Association of Petroleum Geologists; Tulsa.
  • 112. SCHREIBER, B.C., FRIEDMAN, G., DECIMA, A. & SCHREIBER, E. 1976. Depositional environments of Upper Miocene (Messinian) evaporite deposits of the Sicilian Basin. Sedimentology, 23, 729-760.
  • 113. SCHWARZACHER, W. 2000. Repetitions and cycles in stratigraphy. Earth-Science Reviews, 50, 51-75.
  • 114. SHAPIRO, R.S. & AWRAMIK, S.M. 2000. Microbialite morphostratigraphy as a tool for correlating Late Cambrian-Early Ordovician sequences. Journal of Geology, 108, 171-180.
  • 115. SONNENFELD, P. 1984. Brines and evaporites, pp. 1-613. Academic Press Inc.; Orlando.
  • 116. SONNENFELD, P. & HUDEC, P.P. 1985. Origin of clay films in rock salt. Sedimentary Geology, 44, 113-120.
  • 117. STRASSER, A. 1994. Milankovitch cyclicity and high-resolution sequence stratigraphy in lagoonal-peritidal carbonates (Upper Tithonian-Lower Berriasian, French Jura Mountains). In: P.L. DE BOER & D.G. SMITH (Eds), Orbital forcing and cyclic sequences. Special Publication of the International Association of Sedimentologists, 19, pp. 285-301. Blackwell; Oxford.
  • 118. STRASSER, A., PITTET, B., HILLGÄRTNER, H. & PASQUIER, J.-B. 1999. Depositional sequences in shallow carbonate-dominated sedimentary systems: concepts for a high-resolution analysis. Sedimentary Geology, 128, 201-221.
  • 119. TRASHLIEV, S. 1969. Conditions and duration of the building up of the evaporite formation in the Tortonian in north-western Bulgaria. Bulletin of the Geological Institute, Ser. Metallic and Non-metallic Mineral Deposits [Izvestiya na Geologicheskiya Institut, Ser. Rudni i Nerudni Polezni Iskopaemi], 13, 143-156. Sofia. [In Bulgarian with English summary]
  • 120. TURCHINOV, I.I. 1999. The Badenian (Middle Miocene) gypsum section in Kryvche (Podolia, west Ukraine). Biuletyn Państwowego Instytutu Geologicznego, 387, 70-74.
  • 121. WALA, A. 1961. Litologia mioceńskiej serii ewaporatów w okolicy Pińczowa. Sprawozdania z Posiedzeń Komisji, Polska Akademia Nauk, Oddział w Krakowie, No. 1-6, 275-280.
  • 122. — 1962. Charakterystyka petrograficzna profili serii gipsowej w okolicy Buska, Wiślicy i Gartatowic oraz próba korelacji ich z profilem w Gackach koło Pińczowa. Sprawozdania z Posiedzeń Komisji, Polska Akademia Nauk, Oddział w Krakowie, No. 1-6, 269-271.
  • 123. — 1963. Korelacja litostratygraficzna serii gipsowej obszaru nad nidziańskiego. Sprawozdania z Posiedzeń Komisji, Polska Akademia Nauk, Oddział w Krakowie, No. 7-12, 530-532. [for 1962]
  • 124. — 1979. Badania litologiczne mioceńskich warstw gipsowych i ilastych z wierceń w rejonie Winiar. In: Sprawozdanie z prac badawczych mioceńskiej serii gipsowej w obszarze Niecki Nidy, zał. 4, pp. 1-31. Unpublished. Archiwum Przedsiębiorstwa Geologicznego. Kraków.
  • 125. — 1980. Litostratygrafia gipsów nidziańskich (fm). In: Sympozjum naukowe „Gipsy niecki nidziańskiej i ich znaczenie surowcowe”, pp. 5-10. Kraków.
  • 126. WARREN, J.K. 1982. The hydrological setting, occurrence and significance of gypsum in late Quaternary salt lakes in South Australia. Sedimentology, 29, 609-637.
  • 127. — 1999. Evaporites. Their evolution and economics, pp. 1-438. Blackwell Sci.; Oxford.
  • 128. WIESE, F. & KRÖGER, B. 1998. Evidence for a shallowing event in the Upper Turonian (Cretaceous) Mytiloides scupini Zone of northern Germany. Acta Geologica Polonica, 48, 265-284.
  • 129. WIEWIÓRKA, J. 1979. Tuffit conductive levels as found in the Wieliczka salt mine. Sprawozdania z Posiedzeń Komisji, Polska Akademia Nauk, Oddział w Krakowie, 21/1, 176-178. [for 1977]
  • 130. WYSZYŃSKI, O.W. 1937. Wiercenia poszukiwawcze koncernu „Małopolska” w Wowni. Przemysł Naftowy, 12, 88-92. Lwów.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-1003-3647
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.