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The term “re-flooding window” was recently proposed as a time-interval connected with the transgressive stage of present day peri-reefal development. In the analysis presented here, a fossil record of a re-flooding window has been recognized. Nine Late Silurian carbonate sections exposed on the banks of the Dnister River in Podolia (Ukraine) have been correlated base on bed-by-bed microfacies analysis and spectral gamma ray (SGR) measurements. Correlated were sections representing settings ranging from the inner part of a shallow-water carbonate platform to its slope, through an organic buildup. The reconstructed depositional scenario has been divided into six development stages, with the first three representing a regressive interval and the latter three a transgressive interval of the basin’s history. The re-flooding window has been identified at the beginning of a transgressive part of the succession. Surprisingly, it is characterized by an extremely fast growth of a shallow, tide-dominated platform and by deposition of calciturbiditic layers in a more basinal area. The interpreted succession is a small-scale model illustrating the reaction of carbonate depositional sub-environments to sea level changes and determining the facies position of the stromatoporoid buildups within the facies pattern on a Silurian shelf. The use of SGR analyses in shallow water, partly high-energy, carbonate facies, both for correlation purposes and for identifying depositional systems, is a relatively new method, and thus can serve as a reference for other studies of similar facies assortment.
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Tom
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297--318
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Bibliogr. 81 poz., fot., rys., [2] k. tabl.
Twórcy
autor
- Institute of Geology, University of Warsaw, Al. Żwirki i Wigury 93; PL-02-089 Warszawa, Poland
autor
- Institute of Geology, University of Warsaw, Al. Żwirki i Wigury 93; PL-02-089 Warszawa, Poland
autor
- Institute of Geology, University of Warsaw, Al. Żwirki i Wigury 93; PL-02-089 Warszawa, Poland
Bibliografia
- 1. Abushik, A.F. and Evdokimova, I.O. 1999. Lagoonal to normal marine Late Silurian – Early Devonian ostracode assemblages of the Eurasian Arctic. Acta Geologica Polonica, 49, 133–143.
- 2. Adams, J.A.S. and Weaver, C.E. 1958. Thorium to uranium ratios as indicators of sedimentary processes; example of concept of geochemical facies. AAPG Bulletin, 42, 387–430.
- 3. Aigner, T. 1985. Storm depositional systems. Lecture Notes in Earth Sciences, 3, 1–174.
- 4. Baarli, B.G., Johnson, M.E. and Antoshkina, A.I. 2003. Silurian stratigraphy and palaeogeography of Baltica. In: E. Landing and M.E. Johnson (Eds), Silurian Lands and Seas: paleogeography outside of Laurentia. New York State Museum Bulletin, 493, 3–34.
- 5. Bábek, O., Přikryl, T. and Hladil, J. 2007. Progressive drowning of carbonate platform in the Moravo-Silesian Basin (Czech Republic) before the Frasnian/Famennian event: facies, compositional variations and gamma-ray spectrometry. Facies, 53, 293–316.
- 6. Bjerkéus, M. and Eriksson, M. 2001. Late Silurian reef development in the Baltic Sea. GFF, 123, 169–179.
- 7. Bosellini, A. 1984. Progradation geometries of carbonate platforms: examples from the Triassic of the Dolomites, northern Italy. Sedimentology, 31, 1–24.
- 8. Carpentier, M., Weis, D. and Chauvel, C. 2013. Large U loss during weathering of upper continental crust: the sedimentary record. Chemical Geology, 340, 91–104.
- 9. Cherns, L. 1983. The Hemse-Eke boundary: facies relationships in the Ludlow of Gotland, Sweden. Sveriges Geol Undersökn, C 800, 1–45.
- 10. Davies, G.R. and Smith Jr, L.B. 2006. Structurally controlled hydrothermal dolomite reservoir facies: an overview. AAPG Bulletin, 90, 1641–1690.
- 11. Droxler, A.W. and Schlager, W. 1985. Glacial versus interglacial sedimentation rates and turbidite frequency in the Bahamas, Geology, 13, 799–802.
- 12. Drygant, D. 1984. Correlation and conodonts of the Silurian–Lower Devonian deposits of Volyn and Podolia. Kiev Naukova Dumka, 1–192. [In Russian]
- 13. Du, X., Rate, A.W. and Gee M.A.M. 2012. Redistribution and mobilization of titanium, zirconium and thorium in an intensely weathered lateritic profile in Western Australia. Chemical Geology, 330-331, 101–115.
- 14. Durrance, E.M. 1986. Radioactivity in geology (principles and applications), 441 pp. Ellis Horwood Ltd. Halsted (Press John Wiley and Sons); Chichester.
- 15. Dypvik, H. and Eriksen, D.O. 1983. Natural radioactivity of clastic sediments and the contributions of U, Th and K. Journal of Petroleum Geology, 5, 409–416.
- 16. Einasto, R.Z., Abushik, A.F., Kaljo, D.P., Koren’, T.N., Modzalevskaya, T.L. and Nestor, H.Z. 1986. Silurian sedimentation and the fauna of the East Baltic and Podolian marginal basins: a comparison. In: D.P. Kaljo and E. Klaamann (Eds), Theory and Practice of Ecostratigraphy. Institute of Geology, Academy of Sciences of the Estonian SSR, Tallinn, pp. 65–72.
- 17. Einasto, R.Z. and Radionova, M. 1988. Stromatolites and oncolites in the Ordovician and Silurian carbonate facies of Pribaltika. In: V.N. Dubotalov and T.A. Moskalenko (Eds), Calcareous algae and stromatolites, pp. 145–158. Nauka, Sibirskoje Otdelenije; Novosibirsk. [In Russian]
- 18. Emery, D. and Myers, K.J. 1996. Sequence stratigraphy, 297 pp. Blackwell Science; Oxford.
- 19. Fahraeus, L.E., Slatt, R.M. and Nowlan, G.S. 1974. Origin of carbonate pseudopellets. Journal of Sedimentary Petrology, 44, 27–29.
- 20. Feng, J-L. 2011. Trace elements in ferromanganese concretions, gibbsite spots, and the surrounding terra rossa over-lying dolomite: their mobilization, redistribution and fractionation. Journal of Geochemical Exploration, 108, 99–111.
- 21. Fernandez-Caliani, J.C. and Cantano, M. 2010. Intensive kaolinization during a lateritic weathering event in South-West Spain. Mineralogical and geochemical inferences from a relict paleosoil. Catena, 80, 23–33.
- 22. Flodén, T., Bjerkéus, M., Tuuling, I. and Eriksson, M. 2001. A Silurian reefal succession in the Gotland area, Baltic Sea. GFF, 123, 137–152.
- 23. Flügel, E. 2004. Microfacies of carbonate rocks – analysis, interpretation and application, 976 pp. Springer; Berlin.
- 24. Galan, E., Fernandez-Caliani, J.C., Miras, A., Aparicio, P., and Marquez, M.G. 2007. Residence and fractionation of rare earth elements during kaolinization of alkaline peraluminous granites in NW Spain. Clay Minerals, 42, 341–352.
- 25. Gritsenko, V.P., Istchenko, A.A., Konstantinenko, L.I. and Tsegelnyuk, P.D. 1999. Animal and plant communities of Podolia. In: A.J. Boucot and J.D. Lawson (Eds), Palaeocommunities: a case study from the Silurian and Lower Devonian, pp. 462–487. Cambridge University Press; Cambridge, New York, Melbourne.
- 26. Gu, J., Huang, Z., Fan, H., Jin, Z., Yan, Z., and Zhang, J. 2013. Mineralogy, geochemistry, and genesis of lateritic bauxite deposits in the Wuchuan-Zheng’an-Daozhen area, Northern Guizhou Province, China. Journal of Geochemical Exploration, 130, 44–59.
- 27. Handford, C.R. and Loucks, R.G. 1993. Carbonate depositional sequences and systems tracts—responses of carbonate platforms to relative sea-level change. In: R.G. Loucks and R. Sarg (Eds), Carbonate Sequence Stratigraphy; Recent Advances and Applications. American Association of Petroleum Geologists Memoir, 57, 3–41.
- 28. Hesselbo, S.P. 1996. Spectral gamma-ray logs in relation to clay mineralogy and sequence stratigraphy, Cenozoic of the Atlantic margin, offshore New Jersey. In: G.S. Mountain, K.G. Miller, P. Blum, C.W. Poag, and D.C. Twitchell (Eds), Proceedings of the Ocean Drilling Program: Scientific Results, 150. College Station, TX, 411–422.
- 29. Hubmann, B. and Suttner, T. 2007. Siluro-Devonian Alpine reefs and pavements. In: J.J. Alvaro, M. Aretz, F. Boulvain, Munnecke, D. Vachard, and E. Vennin (Eds), Palaeozoic reefs and bioaccumulations: climatic and evolutionary controls. Geological Society of London, Special Publications, 275, 95–107.
- 30. Huff, W.D., Bergström, S.M. and Kolata, D.R. 2000. Silurian K-bentonites of the Dniestr Basin, Podolia, Ukraine. Journal of the Geological Society of London, 157, 493–504.
- 31. James, N.P., Kendall, A. and Pufahl, P.K. 2010. Introduction to biological and chemical sedimentary facies models. In: N.P. James and R.W. Dalrymple (Eds), Facies Models 4, pp. 323–339. The Geological Association of Canada.
- 32. Jorry, S.J., Droxler, A.W. and Francis, J.M. 2010. Deepwater carbonate deposition in response to re-flooding of carbonate bank and atoll-tops at glacial terminations. Quaternary Science Reviews, 29, 2010–2026.
- 33. Kaljo, D. 1970. Silur Estonii (The Silurian of Estonia). Academy of Sciences of the Estonian SSR, Tallin, 343 pp. [In Russian with English abstracts]
- 34. Kaljo, D. 1977. Facii i fauna Silura Pribaltiki (Facies and fauna of the Baltic Silurian). Academy of Sciences of the Estonian SSR, Tallin, 286 pp. [In Russian with English abstracts]
- 35. Kaljo, D., Grytsenko, V., Martma, T. and Mõtus, M-A. 2007. Three global carbon isotope shifts in the Silurian of Podolia (Ukraine): stratigraphical implications. Estonian Journal of Earth Sciences, 56, 205–220.
- 36. Kershaw, S. 1990. Stromatoporoid palaeobiology and taphonomy in a Silurian biostrome on Gotland, Sweden. Palaeontology, 33, 681–705.
- 37. Kershaw, S., Li, Y. and Guo, L. 2007. Micritic fabric define sharp margins of Wenlock patch reefs (middle Silurian) in Gotland and England. In: J.J. Alvaro, M., Aretz, F. Boulvain, A. Munnecke, D. Vachard and E. Vennin (Eds), Palaeozoic reefs and bioaccumulations: climatic and evolutionary controls. Geological Society of London Special Publications, 275, 87–94.
- 38. Kiipli, E. and Kiipli, T. 2006. Carbonate distribution in the East Baltic deep shelf in the late Ordovician-early Silurian. GFF, 128, 147–152.
- 39. Koren’, T.N., Abushik, A.F., Modzalevskaya, T.L. and Predtechensky, N.N. 1989. Podolia. In: C.H. Holland and M.G.A. Bassett (Eds), Global standard for the Silurian System. Natural Museum Wales Geological Service, 9, 141–149.
- 40. Laufeld, S. and Bassett, M.G. 1981. Gotland: the anatomy of a Silurian carbonate platform. Episodes, 2, 23–27.
- 41. Łuczyński, P., Skompski, S. and Kozłowski, W. 2009. Sedimentary history of Upper Silurian biostromes of Podolia (Ukraine) based on stromatoporoid morphometry. Palaeogeography, Palaeoclimatology, Palaeoecology, 271, 225–239.
- 42. Łuczyński, P., Skompski, S. and Kozłowski, W. 2014. Stromatoporoid beds and flat-pebble conglomerates interpreted as tsunami deposits in the Upper Silurian of Podolia, Ukraine. Acta Geologica Polonica, 64, 261–280.
- 43. Lüning, S. and Kolonic, S. 2003. Uranium spectral gamma-ray response as a proxy for organic richness in black shales: applicability and limitations. Journal of Petroleum Geology , 26, 153–174.
- 44. Manten, A.A. 1971. Silurian reefs of Gotland. Developments in Sedimentology, 13, 271 pp. Elsevier; Amsterdam.
- 45. McLennan, S.M., Hemming, S., McDaniel, D.K. and Hanson, G.N. 1993. Geochemical approaches to sedimentation, provenance and tectonics. In: M.J. Johnsson and A. Basu (Eds), Processes Controlling the Composition of Clastic Sediments, Special Papers of the Geological Society of America, 284, 21–40.
- 46. Meyers, W.J., Lu, F.H. and Zachariah, J.K. 1997. Dolomitization of mixed evaporative brines and freshwater, Upper Miocene carbonates, Nijar, Spain. Journal of Sedimentary Research, 67, 898–912.
- 47. Munnecke, A. 2007. Silurian. In: E. Vennin, M., Aretz, F., Boulvain and A. Munnecke (Eds), Facies from Palaeozoic reefs and bioaccumulations, Mémoires du Muséum National d’Histoire Naturelle, 195, 113–170.
- 48. Narkiewicz, M. 1988. Turning points in sedimentary development in the Late Devonian in southern Poland. In: N.J. McMillan, A.F. Embry and D.J. Glass (Eds), Devonian of the World, Canadian Society of Petroleum Geologists Memoir, 14, 619–635.
- 49. Narkiewicz, M. 1990. Mesogenetic dolomitization in the Givetian to Frasnian of the Holy Cross Mountains, Poland. Bulletin of the Polish Academy of Sciences, Earth Sciences, 38, 101–110
- 50. Nestor, H. and Einasto, R. 1977. Facies sedimentary model of the Silurian Paleobaltic pericontinental basin. In: D. Kaljo (Ed.), Facies and fauna of the Baltic Silurian. Institute of Geology, Academy of Sciences of the Estonian SSR, Tallin, 17–23.
- 51. Nestor, H. and Einasto, R. 1997. Ordovician and Silurian sedimentary basin. In: A. Raukas and A. Teedumäe (Eds), Geology and mineral resources of Estonia. Estonian Academy Publishers, Tallin, 192–195.
- 52. Neumann, A.C. and Macintyre, I.G. 1985. Reef response of sea level rise: keep-up, catch-up or give-up. In: J.L. Gabrie, B. Toffart, and C. Salvat (Eds), Proceedings of the Fifth International Coral Reef Congress, Tahiti, 27 May – 1 June 1985, Volume 3. pp 105–110.
- 53. Nikiforova, O.I. and Predtechensky, N.N. 1968. A guide to the geological excursion on Silurian and Lower Devonian deposits of Podolia (Middle Dniestr River). In: Proceedings of the 3rd international symposium on Silurian-Devonian boundary and Lower and Middle Devonian stratigraphy, Leningrad, pp. 1–58.
- 54. Nikiforova, O.I., Predtechensky, N.N., Abushik, A.F., Ignatovitch, M.M., Modzalevskaya, T.L., Berger, A.Y., Novoselova, L.S. and Burkov, Y.K. 1972. Opornyj razrez silura i nizhnego devona Podolii, pp. 1–262. Nauka; Kiev
- 55. Peryt, T.M. 1984. Sedimentation and early diagenesis of the Zechstein Limestone in western Poland. Prace Instytutu Geologicznego, 109, 1–80.
- 56. Predtechensky, N.N., Koren’, T.N., Modzalevskaya, T.L., Nikiforova, O.I., Berger, A.Y. and Abushik, A.F. 1983. Cyclicity of deposition and changes of ecological assemblages of fauna in the Silurian of Podolia. Trudy Paleontologicheskogo Instituta Akademii Nauk SSSR, 194, 61–74. [In Russian]
- 57. Racki, G. 1993. Evolution of the bank to reef complex in the Devonian of the Holy Cross Mountains. Acta Palaeontologica Polonica, 37, 87–182.
- 58. Racki, G., Baliński, A., Wrona, R., Małkowski, K., Drygant, D. and Szaniawski, H. 2012. Faunal dynamics across the Silurian-Devonian positive isotope excursions (δ13C, δ18O) in Podolia, Ukraine: Comparative analysis of the Ireviken and Klonk events. Acta Palaeontologica Polonica, 57, 795–832.
- 59. Racki, G., Racka, M., Matyja, H. and Devleeschouwer, X. 2002. The Frasnian/Famennian boundary interval in the South Polish-Moravian shelf basins: Integrated eventstratigraphical approach. Palaeogeography, Palaeoclimatology, Palaeoecology, 181, 251–297.
- 60. Ragland, P.C., Billings, G.K. and Adams, J.A.S. 1967. Chemical fractionation and its relationship to the distribution of thorium and uranium in a zoned granite batholith. Geochimica et Cosmochimica Acta, 31, 17–32.
- 61. Ruppel, S.C. and Cander, H.S. 1988. Dolomitization of shallow-water platform carbonates by seawater and seawaterderived brines: San Andres Formation (Guadalupian), west Texas. SEPM Special Publications: Sedimentology and geochemistry of dolostones, pp. 245–262.
- 62. Samtleben, C., Munnecke, A. and Bickert, T. 2000. Development of facies and C/O-isotopes in transects through the Ludlow of Gotland: evidence for global and local influences on a shallow-marine environment. Facies, 43, 1–38.
- 63. Schlager, W. 2003. Benthic carbonate factories of the Phanerozoic . International Journal Earth Sciences (Geologische Rundschau), 92, 445–464.
- 64. Schlager, W. 2005. Carbonate sedimentology and sequence stratigraphy. Concepts in Sedimentology and Paleontology, 8, 1–200.
- 65. Schlager, W., Reimer, J. and Droxler, A. 1994. Highstand shedding of carbonate platforms. Journal of Sedimentary Research, B64, 270–281.
- 66. Skompski, S., Łuczynśki, P., Drygant, D. and Kozłowski, W. 2006. Silurian of Podolia; Kamieniec Podolski–Kubachivka Quarry; Skala Podolska –Bridok Quarry. In: A. Wysocka and M. Jasionowski (Eds), II Polish Sedimentological Conference Guide. Instytut Geologii Podstawowej UW, Warszawa, 93–108. [In Polish]
- 67. Skompski, S., Łuczynśki, P., Drygant, D. and Kozłowski, W. 2008. High-energy sedimentary events in lagoonal successions of the Upper Silurian of Podolia, Ukraine. Facies, 54, 277–296.
- 68. Spirakis, C.S. 1996. The roles of organic matter in the formation of uranium deposits in sedimentary rocks. Ore Geology Reviews, 11, 53–69.
- 69. Środoń, J., Paszkowski, M., Drygant, D., Anczkiewicz, A. and Banaś, M. 2013. Thermal history of lower Paleozoic rocks on the Peri-Tornquist margin of the East European Craton (Podolia, Ukraine) inferred from combined XRD, K-Ar, and aft data. Clays and Clay Minerals, 61, 107–132.
- 70. Szulczewski, M. 1968. Slump structures and turbidites in Upper Devonian limestones of the Holy Cross Mts. Acta Geologica Polonica, 18, 303–330.
- 71. Taboada, T., Martinez-Cortizas, A., Garcia, C. and Garcia-Rodeja, E. 2006. Uranium and thorium in weathering and pedogenetic profiles developed on granitic rocks from NW Spain. Science of the Total Environment, 356, 192–206.
- 72. Tsegelnjuk, P.D. 1974. Dnistrovskij opornyj razriz siluru. In: D.E. Aizenverg (Ed), Stratigrafija URSR – Silur, 6, 63–110. Naukova Dumka; Kiev.
- 73. Tsegelnjuk, P.D., Gritsenko, V.P., Konstantinenko, L., Ishchenko, A.A., Abushik, A.F., Bogoyavlenskaya, O.V., Drygant, D.M., Zaika-Novatsky, V.S., Kadlets, N.M., Kiselev, G.N. and Sytova, V.A. 1983. The Silurian of Podolia. The guide to excursion, 224 pp. Naukova Dumka; Kiev. [In Russian]
- 74. Tucker, M. and Wright, V.P. 1990. Carbonate Sedimentology, 482 pp. Blackwell Scientific Publications; Oxford.
- 75. Tuuling, I. and Floden, T. 2011. Seismic stratigraphy, architecture and outcrop pattern of the Wenlock-Pridoli sequence offshore Saaremaa, Baltic Sea. Marine Geology, 281, 14–26.
- 76. Vannier, J, Wang, S.Q and Coen, M. 2001. Leperditicopid arthropods (Ordovician-Late Devonian): functional morphology and ecological range. Journal of Palaeontology, 75, 75–95.
- 77. Wagner, R. and Peryt, T.M. 1997. Possibility of sequence stratigraphic subdivision of the Zechstein in the Polish Basin. Kwartalnik Geologiczny, 41, 457–474.
- 78. Ward, W.C. and Halley, R.B. 1985. Dolomitization in a mixing zone of near-seawater compensation, Late Pleistocene, North-eastern Yucatan. Journal of Sedimentary Petrology, 55, 407-420.
- 79. Watkins, R. 1992. Paleoecology of a low-diversity Silurian community from the Tofta Beds of Gotland. Paläontologische Zeitschrift, 66, 405–413.
- 80. Whalen, M.T., Eberli, G.P., Van Buchem, F.S.P., Mountjoy, E.W. and Homewood, P.W. 2000. Bypass margins, basin-restricted wedges, and platform-to-basin correlation, Upper Devonian, Canadian Rocky Mountains: Implications for sequence stratigraphy of carbonate platform systems. Journal of Sedimentary Research, 70, 913–936.
- 81. Wilson, R.C. 1967. Particle nomenclature in carbonate sediments. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte, 498–510.
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