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The Neogene basaltoid intrusions found in the S-7 borehole in the Sumina area (USCB) caused transformations of the adjacent Carboniferous rocks. The mineral and chemical compositions of the basaltoides are similar to those of the Lower Silesian basaltoides. The transformations that took place in the vicinity of the intrusion were manifested in the formation of natural coke, the secondary mineralization of these rocks (calcite, chlorite, zeolites and barite) and in the specific distribution of rare earths (REY). Among REY, the light elements (LREY) had the highest share, while the heavy elements (HREY) had the lowest share. Regardless of the lithological type of the analyzed rock, with increasing distance from the intrusion, the percentage of MREY and HREY elements increases at the expense of the light elements LREY. All analyzed distribution patterns of the REYs are characterized by the occurrence of anomalies, which often show a significant correlation with the distance of sampling points from the basaltoid intrusion. The specific distribution of REYs in the vicinity of the intrusion of igneous rocks is an indication of the impact of hydrothermal solutions associated with the presence of basaltoides on the rocks closest to them located at a temperature of over 200°C
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Tom
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31--49
Opis fizyczny
Bibliogr. 37 poz., rys., tab.
Twórcy
autor
- Silesian University of Technology, Faculty of Mining, Safety Engineering and Industrial Automation, Department of Applied Geology, Akademicka 2 Street, 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Faculty of Mining, Safety Engineering and Industrial Automation, Department of Applied Geology, Akademicka 2 Street, 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Faculty of Mining, Safety Engineering and Industrial Automation, Department of Applied Geology, Akademicka 2 Street, 44-100 Gliwice, Poland
autor
- Silesian University of Technology, Planning, Financial Analyses and Controlling Office, Akademicka 2 Street, 44-100 Gliwice, Poland
Bibliografia
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- 2. Bau, M. 1996. Controls of the fractionation of isovalent trace elements in magmatic and aqueous systems: evidence from Y/Ho, Zr/Hf, and lanthanide tetrad effect. Contributions to Mineralogy and Petrology, 123, 323-333.
- 3. Bau, M. and Dulski, P. 1996. Distribution of yttrium and rare-earth elements in the Penge and Kuruman iron-formations, Transvaal Supergroup, South Africa. Precambrian Research, 79, 37-55.
- 4. Bau, M., Schmidt, K., Koschinsky, A., Hein, J., Kuhn, T. and Usui, A. 2014. Discriminating between different genetic types of marine ferro-manganese crusts and nodules based on rare earth elements and yttrium. Chemical Geology, 381, 1-9.
- 5. Chodyniecka, L. and Sankiewicz, J. 1972. Magmatic intrusion in Lower Namurian in the Marklowice region, Upper Silesia Coal Basin Poland (in Polish with English summary). Rocznik Polskiego Towarzystwa Geologicznego, 42, 309- 326.
- 6. Chodyniecka, L. and Sankiewicz, J. 1978. Basalts from the Suminy area (Rybnik coal basin) (in Polish with English summary). Geological Quarterly, 22, 1, 119-128.
- 7. Chodyniecka, L. and Hanak, B. 2000. Intruzja z pokładu 414/3 w kopalni „Sośnica” (GZW) i jej wpływ na otaczający ją węgiel (in Polish). Zeszyty Naukowe Politechniki Śląskiej, Górnictwo, 246, 55-71.
- 8. Dai, S., Seredin, V.V.,Ward, C.R., Hower, J.C., Xing, Y., Zhang, W., Song, W. and Wang, P. 2015. Enrichment of U-Se-Mo-Re-V in coals preserved within marine carbonate successions: geochemical and mineralogical data from the Late Permian Guiding Coalfield, Guizhou, China. Mineral. Deposita, 50, 159-186.
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- 12. Gabzdyl, W., Pozzi, M. and Probierz K. 1992. Aspects of volcanism in the western part of Upper Silesian Coal Basin (Poland) and its influence on coal. Acta Montana, seria: B Praha, 2, 86, 24-34.
- 13. Gromet, L.P., Dymek, R.F., Haskin, L.A. and Korotev, R.L. 1984. The “North American shale composite”: its compilation, major and trace element characteristics. Geochim. Cosmochim. Acta, 48, 2469-2482.
- 14. Hower, J.C., Ruppert, L.F. and Eble, C.F. 1999. Lanthanide, yttrium, and zirconium anomalies in the fire clay coal bed, Eastern Kentucky. International Journal of Coal Geology, 39, 141-153.
- 15. Hower, J.C., Dai, S., Seredin, V.V., Zhao, L., Kostova, I.J., Silva, L.F.O., Mardon, S.M. and Gurdal, G. 2013. A Note on the Occurrence of Yttrium and Rare Earth Elements in Coal Combustion Products. Coal Combustion and Gasification Products, 5, 39-47.
- 16. Hower, J.C., Groppo, J.G., Henke, K.R., Hood, M.M., Eble, C.F., Honaker, R.Q., Zhang, W. and Qian, D. 2015a. Notes on the potential for the concentration of rare earth elements and yttrium in coal combustion fly ash. Minerals, 5, 356- 366.
- 17. Hower, J.C., Eble, C.F., O’Keefe, J.M.K., Dai, S., Wang, P., Xie, P., Liu, J., Ward, C.R. and French, D. 2015b. Petrology, palynology, and geochemistry of Gray Hawk Coal (Early Pennsylvanian, Langsettian) in Eastern Kentucky, USA. Minerals, 5, 592-622.
- 18. Jochemczyk, L. 1984. Skała ultramaficzna z warstw rudzkich rejonu Zebrzydowic (Rybnicki Okręg Węglowy). Przegląd Geologiczny, 8-9, 443-445.
- 19. Kapuściński, T., Probierz, K., Kubik, A., Strzałkowska, E. and Drobiazgiewicz W. 1990. O występowaniu intruzji magmowej w warstwach siodłowych kopalni „Sośnica” (Górnośląskie Zagłębie Węglowe) i jej wpływie na węgiel pokładu 501/3. Zeszyty Naukowe Politechniki Śląskiej, Górnictwo, 187, 97-115.
- 20. Komorek, J., Lewandowska, M. and Probierz, K. 2010. Peculiarites of petrographic composition of coking coals in southwest part of Upper Silesian Coal Basin (Poland) as a results of thermal metamorphism influence. Archive of Mining Sciences, 55, 4, 783-798
- 21. Kokowska-Pawłowska, M. 2018. Studium mineralogiczno-geochemiczne skał współwystępujących z węglem w pokładach 405 (warstwy załęskie) i 408 (warstwy rudzkie s.s.) w Górnośląskim Zagłębiu Węglowym, 719 p. Monograph. Wydawnictwo Politechniki Śląskiej; Gliwice.
- 22. Kwiecińska, B., Hamburg, G. and Vleeskens, J.M. 1992. Formation temperatures of natural coke in the Lower Silesian Coal Basin, Poland. Evidence from pyrite and clays by SEM-EDX. International Journal of Coal Geology, 21, 217-235.
- 23. Mardon, S.M. and Hower, J.C. 2004. Impact of coal properties on coal combustion by-product quality: examples from a Kentucky power plant. International Journal of Coal Geology, 59, 153-169.
- 24. Matuszewska, A., Pusz, S. and Duber, S. 2015. Evaluation of the structure of bituminous coal from Sośnica mine in the Upper Silesian Coal Basin (Poland) using reflectance indicating surface (RIS) parameters International Journal of Coal Geology, 152, 177-188.
- 25. Probierz, K., Pozzi, M., Kuci, P. and Płachecki K. 1988. Występowanie skał intruzywnych w stropie pokładu 403/4 KWK „Morcinek” (GZW). Przegląd Górniczy, 6, 7-10.
- 26. Probierz, K. 1989. Wpływ metamorfizmu termalnego na stopień uwęglenia i skład petrograficzny pokładów węgla w obszarze Jastrzębia (GZW) (in Polish, detailed abstract in English). Zeszyty Naukowe Politechniki Śląskiej, Górnictwo, Gliwice, 176, Monograph.
- 27. Probierz, K., Marcisz, M. and Sobolewski, A. 2012. Od torfu do węgli koksowych monokliny Zofiówki w obszarze Jastrzębia (południowo-zachodnia część Górnośląskiego Zagłębia Węglowego), 285 p. Wydawnictwo Instytutu Chemicznej Przeróbki Węgla; Zabrze.
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- 29. Schatzel, S.J. and Stewart, B.W. 2003. Rare earth element sources and modification in the Lower Kittanning coal bed, Pennsylvania: implications for the origin of coal mineral matter and rare earth element exposure in underground mines. International Journal of Coal Geology, 54, 223- 251.
- 30. Seredin, V.V. 1996. REE-bearing coals from Russian Far East deposits. International Journal of Coal Geology, 30, 101-129.
- 31. Seredin, V.V. 2010. A new method for primary evaluation of the outlook for rare earth element ores. Geology of Ore Deposits, 52, 428-433.
- 32. Seredin, V. and Finkelman, R.B. 2008. Metalliferous coals: a review of the main genetic and geochemical types. International Journal of Coal Geology, 76, 253-289.
- 33. Seredin, V.V. and Dai, S. 2012. Coal deposits as potential alternative sources for lanthanides and yttrium. International Journal of Coal Geology, 94, 67-93.
- 34. Smędowski, Ł., Duber, S. and Matuszewska, A. 2015. An effect of igneous intrusion on the structure, texture and microtexture of coal from the Sośnica coal mine, Upper Silesian Coal Basin, Poland. Geological Quarterly, 59, 3, 507-516.
- 35. Taylor, S.R. and McLennan, S.H. 1985. The Continental Crust: Its Composition and Evolution, 312 p. Blackwell; Oxford.
- 36. Ulrych, J., Dostal, J., Adamovic, J., Jelinek, E., Spacek, P., Hegner, E. and Kadosa, B. 2011. Recurrent Cenozoic volcanic activity in the Bohemian Massif (Czech Republic). Lithos, 123, 133-144.
- 37. Xiao, L., Xu, Y., Mei, H., Zheng, Y., He, B. and Pirajno, F. 2004. Distinct mantle sources of low-Ti and high-Ti basalts from the western Emeishan large igneous province, SW China: implications for plume-lithosphere interaction. Earth and Planetary Science Letters, 228, 525-546.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9de71739-6b6e-4383-b17f-b443c0f39686