Tytuł artykułu
Treść / Zawartość
Pełne teksty:
Identyfikatory
DOI
Warianty tytułu
Polish moldavites : the current state of knowledge and perspectives of new finds
Języki publikacji
Abstrakty
The first Polish moldavites were discovered in 2012. This paper is a summary of the distribution and inventory of these Polish tektites. Up to the present, 28 moldavites have been described from seven different sandpits. These moldavites were deposited in the upper Miocene fluvial deposits of the Gozdnica Formation, as well as in the Pleistocene river terraces. Apart from a typical bottle green colour, moldavites also have other diagnostics features for this class of tektites, such as the presence of bubbles, inclusions oflechatelierite, as well as the same, homogeneous chemical composition. Fluvial redeposition was interpreted as the main process which determined moldavite distribution. Despite the most recent find of one moldavite specimen in Bielawy, all of these specimens indicate both Lusatian as well as sub-strewn Czech fields as their supply area.
Czasopismo
Rocznik
Tom
Strony
662--667
Opis fizyczny
Bibliogr. 46 poz., rys., tab.
Twórcy
autor
- Wydział Nauk o Ziemi, Uniwersytet Śląski w Katowicach, ul. Będzińska 60, 41-200 Sosnowiec
autor
- Wydział Nauk o Ziemi, Uniwersytet Śląski w Katowicach, ul. Będzińska 60, 41-200 Sosnowiec
autor
- Wydział Nauk o Ziemi, Uniwersytet Śląski w Katowicach, ul. Będzińska 60, 41-200 Sosnowiec
Bibliografia
- 1. BADURA J., PRZYBYLSKI B. 2004 - Evolution of the Late Neogene and Eopleistocene fluvial system in the foreland of the Sudetes Mountains (southwest Poland). Ann. Soc. Geol. Pol., 74: 43-61.
- 2. BADURA J., SZYNKIEWICZ A. 2011 - Stanowisko B2/2: Rusko (k. Jaroszowa. Odkrywka Stanisław N). [W:] Żelaźniewicz A., Wojewoda J., Ciężkowski W., Przewodnik do wycieczek LXXXI Zjazdu Polskiego Towarzystwa Geologicznego. Pol. Tow. Geol., Wrocław: 46-53.
- 3. BARNES VE. 1990-Tektite research 1936-1990. Meteoritics, 25: 149-159.
- 4. BERAN A., KOEBERL C. 1997 - Water in tektites and impact glasses by Fourier-transformed infrared spectrometry. Meteoritics, 32: 211-216.
- 5. BRACHANIEC T. 2017 - The most distal moldavite findings from Lower Silesia, Poland. Carnets de Geologie, 17: 139-144.
- 6. BRACHANIEC T. 2018a - An experimental model for the tektite fluvial transport based on the most distal Polish moldavite occurrences. Meteoritics & Planetary Science, 53: 505-513.
- 7. BRACHANIEC T. 2018b - Variations in fluvial reworking of Polish moldavites induced by hydrogeological change. Carnets de Geologie, 18: 225-232.
- 8. BRACHANIEC T., KARWOWSKI Ł., SZOPA K. 2013 - Pierwsze znalezisko polskich mołdawitów. Acta Soc. Metheor. Polon., 4: 37-38.
- 9. BRACHANIEC T., SZOPA K., KARWOWSKI Ł. 2014a - Discovery of the most distal Ries tektites found in Lower Silesia, southwestern Poland. Meteoritics & Planetary Science, 49: 1315-1322.
- 10. BRACHANIEC T., KARWOWSKI Ł., SZOPA K. 2014b - Spherules associated with the Cretaceous-Paleogene boundary in Poland. Acta Geol. Pol., 64: 99-108.
- 11. BRACHANIEC T., SZOPA K., KARWOWSKI Ł. 2015 - Anew discovery of parautochthonous moldavites in southwestern Poland, Central Europe. Meteoritics & Planetary Science, 50: 1697-1702.
- 12. BRACHANIEC T., SZOPA K., KARWOWSKI Ł. 2016 -New moldavites from SW Poland. Acta Geol. Pol., 66: 99-105.
- 13. BUCHNER E., SCHMIEDER M. 2009 - Multiple fluvial reworking of impact ejecta-A case study from the Ries crater, southern Germany. Meteoritics & Planetary Science, 44: 1051-1060.
- 14. BUCHNER E., SEYFRIED H., VAN DEN BOGAARD P. 2003 - 40Ar/39Ar laser probe age determination confirms the Ries impact crater as the source of glass particles in Graupen sand sediments (Grimmelfingen Formation, North Alpine Foreland Basin). Intern. J. Earth Sci., 92: 1-6.
- 15. DYJOR S., KVACEK Z., ŁAŃCUCKA-ŚRODONIOWA M., PY- SZYŃSKI W., SADOWSKA A., ZASTAWNIAK E. 1992 - The younger Tertiary deposits in the Gozdnica region (WS Poland) in the light of recent palaeobotanical research. [W:] Zastawniak E., Polish Botanical Studies. Polish Academy of Science, Cracow.
- 16. FRENCH B.M. 1998 - Traces of Catastrophe. A Handbook of Shock-Metamorphic Effects in Terrestrial Meteorite Impact Structures. Lunar and Planetary Institute, Boulevard.
- 17. GLASS B.P. 1984 - Solution of naturally occurring glasses in the geological environments. J. Non-Crystalline Solids, 67: 265-286.
- 18. GLASS B.P. 1986 - Solution of natural glasses in the geological environments. Advance in Cer., 20: 723-732.
- 19. HORN P., MÜLLER-SOHNIUS D., KÖHLER H., GRAUP G. 1985 - Rb-Sr systematic of rocks related to the Ries Crater, Germany. Earth and Planetary Sci. Lett., 75: 384-392.
- 20. HÜTTNER R., SCHMIDT-KALER H. 1999 -Erlauterungen zur geologischen Karte des Rieses 1:50000. Geol. Bavarica, 104: 7-76.
- 21. KOEBERL C. 1986 - Geochemistry of tektites and impact glasses. Ann. Rev. Earth and Planetary Sci., 14: 323-350.
- 22. KOEBERL C., BRANDSTÄTTER F., NIEDEMMAZR G., KURAT G. 1988 - Moldavites from Austria. Meteoritics, 23: 325-332.
- 23. KONTAJ. 1988 - Variability in the sculpture of tektites revealed by scanning electron micrographs. Second International Conference on Natural Glasses: 231-259.
- 24. LANGBROEK M. 2015 - Do tektites really date the bifaces from the Bose (Baise) Basin, Guangxi, southern China?. J. Human Evolution, 80:175-178.
- 25. LANGE J.-M. 1995 - Lausitzer Moldavite und ihre Fundschichten. Schriftenreihe für Geowissenschaften 3, Berlin.
- 26. LANGE J.-M. 1996 - Tektite glasses from Lusatia (Lausitz), Germany. Chemie der Erde, 56: 498-510.
- 27. MAGNA T., DEUTSCH A., MEZGER K., SKÁLA R., SEITZ H.M., MIZERA J., RANDA Z., ADOLPH L. 2011 - Lithium in tektites and impact glasses: Implications for sources, histories and large impacts. Geochimica et Cosmochimica Acta, 75: 2137-2158.
- 28. MCCALL J. 2001 - Tektites in the Geological Record: Showers of Glass from the Sky. The Geological Society, London.
- 29. ROCHOLL A., SCHALTEGGER U., GILG H.A., WIJBRANS J., BÖHME M. 2017 - The age of volcanic tuffs from the Upper Freshwater Molasse (North Alpine Foreland Basin) and their possible use for tephrostratigraphic correlations across Europe for the Middle Miocene. Intern. J. Earth Sci., 107: 387-407.
- 30. RODOVSKÁ Z., MAGNA T., ŽÁK K., SKÁLA R., BRACHANIEC T., VISSCHERC. 2016 - The fate of moderately volatile elements in impact events-Lithium connection between the Ries sediments and central European tektites. Meteoritics & Planetary Science, 51: 2403-2415.
- 31. SCHMITZ B., HUSS G.R., MEIER M.M.M., PEUCKER-EHRENBRINK B., CHURCH R. P., CRONHOLM A., DAVIES M.B., HECK P.R., JOHANSEN A., KEIL K., KRISTIANSSON P., RAVIZZA G., TASSINARI M., TERFELT F. 2014 - A fossil winonaite-like meteorite in Ordovician limestone: A piece of the impactor that broke up the L-chondrite parent body? Earth and Planetary Sci. Lett., 400: 145-152.
- 32. SCHOLZE H. 1977 - Glas - Natur - Structur. Springer, Berlin.
- 33. ŠEVČÍK J., KVAČEK Z., MAI D.H. 2007 - A new mastixioid florula from tektite-bearing deposits in South Bohemia, Czech Republic (Middle Miocene, Vrabce Member). Bull. Geosc., 82: 429-426.
- 34. SHUVALOV V. 1999 - Multi-dimensional hydrodynamic code SOVA for interfacial flows: Application to the thermal layer effect. Shock Waves, 9: 381-390.
- 35. SKÁLA R., ČADA M. 2003. Major element composition of three moldavites from Dřenice, the Cheb Basin, Czech Republic. Acta Scient. Natur. Musei Moraviae Occidentalis Třebíč, 41: 11-17.
- 36. SKÁLA R., JONÁŠOVÁ S., ŽÁK K., ĎURIŠOVÁ J., BRACHANIEC T., MAGNA T. 2016 - New constraints on the Polish moldavite finds: a separate sub-strewn field of the central European tektite field or re-deposited materials? J. Geosciences, 61: 171-191.
- 37. STACHURSKA A., DYJOR S., KORDYSZM., SADOWSKA A. 1971 - Paleobotanic characteristics of Late Tertiary sediments at Gozdnica (Lower Silesia). Ann. Soc. Géol. Pologne, 41: 359-386.
- 38. STANDKE G. 2006 - Paläogeographisch-fazielle Modellierung des Unter-/Mittelmiozän-Grenzbereichs in der Lausitz (Briesker Folge/Formation). Schriftenreihe für Geowiss., 14: 1-130.
- 39. STÖFFLER D., LANGENHORST F. 1994 - Shock metamorphism of quarto in nature and experiment: I. Basic observation and theory. Meteoritics, 29: 155-181.
- 40. STÖFFLER D., ARTEMIEVAN.A., PIERAZZO E. 2002 - Modeling the Ries-Steinheim impact event and the formation of the moldavite strewn field. Meteoritics & Planetary Science, 37: 1893-1907.
- 41. SZOPA K. 2018 - Kolejne znaleziska mołdawitów w Polsce. Acta Soc. Metheor. Polon., 9: 123-125.
- 42. SZOPA K., BADURA J., BRACHANIEC T., CHEW D., KARWOWSKI Ł. 2017 - Origin of parautochthonous Polish moldavites - a palaeogeographical and petrographical study. Ann. Soc. Geol. Polon., 87: 1-12.
- 43. SZYNKIEWICZ A. 2011 - Wiek utworów neogenu w Zachodniej części Dolnego Śląska. [W:] Żelaźniewicz A., Wojewoda J., Ciężkowski W., Mezozoik i Kenozoik Dolnego Śląska. WIND, Wrocław: 11-18.
- 44. TRNKA M., HOUZAR S. 2002 - Moldavites: a review. Bull. Czech Geol. Sur., 77: 283-302.20
- 45. WOSINSKI J.F., BEALL G.H., MACDOWELL J.F. 1967 - Devitrification of Tektite Glass. Nature, 215: 839-841.
- 46. ŽÁK K., SKÁLA R., RANDA Z., MIZERA J., HEISSIG K., ACKERMAN L., DURIŠOVÁ J., JONÁŠOVÁ Š., KAMENÍK J., MAGNA T. 2016 - Chemistry of Tertiary sediments in the surroundings of the Ries impact structure and moldavite formation revisited. Geochim. Cosmochim. Acta, 179: 287-311.
Uwagi
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-5eed02a0-ad4e-4e91-9e86-fe272d24a02a