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Języki publikacji
Abstrakty
Lithic fragments including quartz grains occur infrequently in the shallow-marine limestone sequence of the Fatra Formation deposited in the tensional intra-shelf depression of the Central Western Carpathians during the Rhaetian. Nevertheless, their study can bring data answering questions of sources, palaeogeodynamic arrangement, and processes at the end of the Triassic. In this study, we examined optically the cathodoluminescence (CL) colours of single quartz grains from the Kardolína section (Tatra Mts, Slovakia). These colours reveal a dominance of grains derived from regionally metamorphosed and plutonic rocks. Grains of hydrothermal and pegmatite origin are less frequent. Some of the quartz grains show recycled cement rims suggesting at least a second cycle origin. This sedimentary basin was situated near to the passive margin formed by the Variscan consolidated terrains of the Vindelician Highlands. Our study of the CL colours of quartz grains contributes to the elucidation of the nature of the rocks of the vanished Vindelician mountain belt.
Czasopismo
Rocznik
Tom
Strony
103--114
Opis fizyczny
Bibliogr. 42 poz., rys.
Twórcy
autor
- Earth Science Institute of the Slovak Academy of Sciences, Dúbravská cesta 9, P.O. BOX 106, 840 05 Bratislava, Slovakia
autor
- Earth Science Institute of the Slovak Academy of Sciences, Dúbravská cesta 9, P.O. BOX 106, 840 05 Bratislava, Slovakia
Bibliografia
- 1. Augustsson, C. and Bahlburg, H. 2003. Cathodoluminescence spectra of detrital quartz as provenance indicators for Paleo zoic metasediments in southern Andean Patagonia. Journal of South American Earth Sciences, 16, 15–26.
- 2. Augustsson, C. and Reker, A. 2012. Cathodolumenescence spectra of quartz as provenance indicators revisited. Journal of Sedimentary Research, 82, 559–570.
- 3. Boggs, S. Jr. 2009. Petrology of sedimentary rocks, 600 pp. Cambridge University Press; New York.
- 4. Boggs, S. Jr. and Krinsley, D. 2006. Application of cathodoluminescence imaging to the study of sedimentary rocks, 165 pp. Cambridge University Press; New York.
- 5. Čerňanský, A., Klein, N., Renesto, S., Michalík, J., Šurka, J. and Sentpetery, M. 2020. The first skeletal evidence of an Upper Triassic (Rhaetian) diapsid reptile from the Western Carpathians (Strážov Highlands, Slovakia). Geologica Carpathica, 71, 134–149.
- 6. Feist-Burkhardt, S., Götz, A.E., Szulc, J., Borkhataria, R., Geluk, M., Haas, J., Hornung, J., Jordan, P., Kempf, O., Michalík, J., Nawrocki, J., Reinhardt, L., Ricken, W., Röhling, H.-G., Rüffer, T., Török, Á. and Zühlke, R. 2008. Triassic. In: McCann, T. (Ed.), The Geology of Central Europe. Volume 2: Mesozoic and Cenozoic, 749–821. Geological Society; London.
- 7. Folk, R.L. 1959. Practical petrographic classification of limestones. AAPG Bulletin, 43, 1–38.
- 8. Folk, R.L. 1962. Spectral subdivision of limestone types. In: Ham, W.E. (Ed.), Classification of carbonate rocks – a symposium, 62–84. The American Association of Petroleum Geologists; Tulsa.
- 9. Gaździcki, A. 1983. Foraminifers and biostratigraphy of Upper Triassic and Lower Jurassic of the Slovakian and Polish Carpathians. Palaeontologia Polonica, 44, 109–169.
- 10. Gaździcki, A., Michalík, J., Planderová, E. and Sýkora, M. 1979. An Upper Triassic–Lower Jurassic sequence in the Krížna nappe (West Tatra mountains, West Carpathians, Czechoslovakia). Západné Karpaty, séria geológia, 5, 119–148.
- 11. Götte, Th. and Richter, D.K. 2006. Cathodoluminescence characterization of quartz particles in mature arenites. Sedimentology, 53, 1347–1359.
- 12. Götze, J. 1996. Kathodolumineszenz von Quarz – Grundlagen und Anwendung in den Geowissenschaften. Aufschluss, 47, 145–164.
- 13. Götze, J., Plötze, M. and Habermann, D. 2001. Origin, spectra characteristics and practical applications of the cathodoluminescence (CL) of quartz – a review. Mineralogy and Petrology, 71, 225–250.
- 14. Götze, J. and Zimmerle, W. 2000. Quartz and silica as guide to provenance in sediments and sedimentary rocks. Contributions to Sedimentary Geology, 21, 1–91.
- 15. Leila, M., Moscariello, A. and Šegvić, B. 2018. Geochemical constraints on the provenance and depositional environment of the Messinian sediments, onshore Nile Delta, Egypt: Implications for the late Miocene paleogeography of the Mediterranean. Journal of African Earth Sciences, 143, 215–241.
- 16. Lintnerová, O., Michalík, J., Uhlík, P., Soták, J. and Weissová, Z. 2013. Latest Triassic climate humidification and kaolinite formation (Western Carpathians, Tatric Unit of the Tatra Mts.). Geological Quarterly, 57, 701–728.
- 17. Marshall, D.J. 1988. Cathodoluminescence of geological materials, 138 pp. Unwin Hyman; London.
- 18. Matter, A. and Ramseyer, K. 1985. Cathodoluminescence microscopy as a tool for provenance studies of sandstones. In: Zuffa, G.G. (Ed.), Provenance of arenites, 191–211. D. Reidel Publishing Company; Dordrecht.
- 19. Michalík, J. 1974. Zur Paläogeographie der rätischen Stufe des westlichen Teils der Krížna-Decke in den Westkarpaten. Geologický Zborník – Geologica Carpathica, 25, 257–285.
- 20. Michalík, J. 1977. Paläogeographische Untersuchungen der Fatra-Schichten (Kössen-Formation) des nördlichen Teiles des Fatrikums in den Westkarpaten. Geologický Zborník – Geologica Carpathica, 28, 71–94.
- 21. Michalík, J. 1982. Uppermost Triassic short-lived bioherm com plexes in the fatric, western Carpathians. Facies, 6, 129–145.
- 22. Michalík, J. 1993. Mesozoic tensional basins in the Alpine-Carpathian shelf. Acta Geologica Hungarica, 36, 395–403.
- 23. Michalík, J. 1994. Notes on the paleogeography and paleotectonics of the Western Carpathian area during the Mesozoic. Mitteilungen der Österreichischen Geologischen Gesellschaft, 86, 101–110.
- 24. Michalík, J., Biroň, A., Lintnerová, O., Götz, A.E. and Ruckwied, K. 2010. Climate change at the Triassic/Jurassic boundary in the northwestern Tethyan realm, inferred from sections in the Tatra Mountains (Slovakia). Acta Geologica Polonica, 60, 535–548.
- 25. Michalík, J., Kátlovský, V. and Hluštík, A. 1988. Plant remains in the Tomanová Formation (Uppermost Triassic, West Carpathians): their origin, composition and diagenetic alteration. Geologický Zborník – Geologica Carpathica, 39, 523–537.
- 26. Michalík, J., Lintnerová, O., Gaździcki, A. and Soták, J. 2007. Record of environmental changes in the Triassic–Jurassic boundary interval in the Zliechov Basin, Western Carpathians. Palaeogeography, Palaeoclimatology, Palaeoecology, 244, 71–88.
- 27. Michalík, J., Lintnerová, O., Wójcik-Tabol, P., Gaździcki, A., Grabowski, J., Golej, M., Šimo, V. and Zahradníková, B. 2013. Paleoenvironments during the Rhaetian transgression and the colonization history of marine biota in the Fatric Unit (Western Carpathians). Geologica Carpathica, 64, 39–62.
- 28. Michalík, J., Planderová, E. and Sýkora, M. 1976. To the stratigraphic and paleogeographic position of the Tomanová-formation in the uppermost Triassic of the West Carpathians. Geologický Zborník – Geologica Carpathica, 27, 299–318.
- 29. Niedźwiedzki, G. 2005. A new find of dinosaur footprints in the Upper Triassic of the Tatra Mountains, southern Poland. Przegląd Geologiczny, 53, 410–413.
- 30. Niedźwiedzki, G. 2011. A Late Triassic dinosaur-dominated ichnofauna from the Tomanová Formation of the Tatra Mountains, Central Europe. Acta Palaeontologica Polonica, 56, 291–300.
- 31. Omer, M.F. 2015. Cathodoluminescence petrography for provenance studies of the sandstones of Ora Formation (Devonian–Carboniferous), Iraqi Kurdistan Region, northern Iraq. Journal of African Earth Sciences, 109, 195–210.
- 32. Onoue, T., Michalík, J., Shirozu, H., Yamashita, M., Yamashita, K., Kusaka, S. and Soda, K. 2022. Extreme Continental weathering in the northwestern Tethys during the end-Triassic mass extinction. Palaeogeography, Palaeoclimatology, Palaeoecology, 594, 110934.
- 33. Ramseyer, K. 1983. Bau eines Kathodenlumineszenz-Mikroskopes und Diagenese-Untersuchungen an permischen Sedimenten aus Oman. Unpublished PhD Thesis, 152 pp. University of Bern; Bern.
- 34. Ramseyer, K., Baumann, J., Matter, A. and Mullis, J. 1988. Cathodoluminescence colours of α-quartz. Mineralogical Magazine, 52, 669–677.
- 35. Sales de Oliveira, C.E., Pe-Piper, G., Piper, D.J.W., Zhang, Y. and Corney, R. 2017. Integrated methodology for determining provenance of detrital quartz using optical petrograph ic microscopy and cathodoluminescence (CL) properties. Marine and Petroleum Geology, 88, 41–53.
- 36. Sawatzky, C. and Pe-Piper, G. 2012. Provenance identification of detrital quartz using hot-cathode cathodoluminescence: An atlas of source rocks, 149 pp. Geological Survey of Canada; Halifax.
- 37. Sawatzky, C.C. and Pe-Piper, G. 2013. Detrital quartz sources in the Scotian Basin, eastern Canada, using hot-cathode cathodoluminescence: Availability of coarse-grained sand for reservoirs. AAPG Bulletin, 97, 1503–1520.
- 38. Sippel, R.F. 1968. Sandstone petrology, evidence from luminescence petrography. Journal of Sedimentary Petrology, 38, 530–554.
- 39. Sprunt, E.S. 1981. Causes of quartz cathodoluminescence colors. Scanning Electron Microscopy, 1, 525–535.
- 40. Tomašových, A. 2004. Microfacies and depositional environment of an Upper Triassic intra-platform carbonate basin: the Fatric Unit of the West Carpathians (Slovakia). Facies, 50, 77–105.
- 41. Tomašových, A. and Michalík, J. 2000. Rhaetian/Hettangian passage beds in the carbonate development in the Krížna Nappe (central Western Carpathians, Slovakia). Slovak Geological Magazine, 6, 241–249.
- 42. Zinkernagel, U. 1978. Cathodoluminescence of quartz and its application to sandstone petrology. Contributions to Sedimentology, 8, 1–69.
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b4a03c73-8247-46e6-80da-3aa9a9e4f749