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  • Abbott J. I. 2000. Carbon chemistry of giant impacts. Ph.D. thesis, Open University, Milton Keynes, UK.
  • Abbott J. I., Hough R. M., Gilmour I., and Pillinger C. T. 1996. Impact diamonds in glass from the Ötting quarry, Ries crater, Germany (abstract). Meteoritics & Planetary Science 31:A5.
  • Abbott J. I., Hough R. M., Gilmour I., and Pillinger C. T. 1998. Carbon chemistry of suevites and target rocks at the Ries crater, Germany (abstract). Meteoritics & Planetary Science 33:A7.
  • Artemieva N. 2007. Possible reasons of shock melt deficiency in the Bosumtwi drill cores. Meteoritics & Planetary Science 42:883894.
  • Artemieva N. 2008. High-velocity impact ejecta: Tektites and Martian meteorites. In Catastrophic events caused by cosmic objects, edited by Adushkin V. V. and Nemchinov I. V. Dordrecht: Springer. pp. 267289.
  • Aziz A. H., Böhme M., Rocholl A., Zwing A., Prieto J., Wijbrans J. R., Heissig K., and Bachtadse V. 2008. Integrated stratigraphy and 40Ar/39Ar chronology of the Early to Middle Miocene Upper Freshwater Molasse in eastern Bavaria (Germany). International Journal of Earth Sciences 97:115134.
  • Barnes V. E. 1964. Variation of petrographic and chemical characteristics of indochinite tektites within their strewn field. Geochimica et Cosmochimica Acta 28:893913.
  • Barnes V. E. 1969. Petrology of moldavites. Geochimica et Cosmochimica Acta 33:11211134.
  • Barnes V. E. and Russel R. V. 1966. Devitrification of glass around collapsed bubbles in tektites. Geochimica et Cosmochimica Acta 30:143152.
  • Bechtel A., Gratzer R., Sachsenhofer R. F., Gusterhuber J., Lücke A., and Püttmann W. 2008. Biomarker and carbon isotope variation in coal and fossil wood of Central Europe through Cenozoic. Palaeogeography, Palaeoclimatology, Palaeoecology 262:166175.
  • Beck R. 1910. Über die in den Tektiten eingeschlossenen Gase. Monatsberichte der Deutschen geologischen Gesellschaft 62:240245.
  • Beran A. and Koeberl C. 1997. Water in tektites and impact glasses by Fourier-transform infrared spectroscopy. Meteoritics & Planetary Science 32:211216.
  • Bottinga Y. 1969. Carbon isotope fractionation between graphite, diamond and carbon dioxide. Earth and Planetary Science Letters 5:301307.
  • Bouška V. 1972. Geology of the moldavite-bearing sediments and distribution of moldavites. Acta Universitatis Carolinae—Geologica 1972:129.
  • Bouška V. 1994. Moldavites; The Czech tektites. Prague: Stylizace. 70 p.
  • Bouška V. 1997. Strewn field of moldavites. Přírodovědný sborník Západomoravského muzea v Třebíči 31:520. in Czech with English abstract.
  • Bouška V. and Konta J. 1990. Moldavites—Vltavíny, 2nd ed. Prague: Charles University. 126 p.
  • Bouška V., Benada J., Řanda Z., and Kuncíř J. 1973. Geochemical evidence for origin of moldavites. Geochimica et Cosmochimica Acta 37:121131.
  • Bouška V., Borovec Z., Cimbálníková A., Kraus I., Lajčáková A., and Pačesová M. 1993. Natural glasses. Prague: Academia and Ellis Horwood Publishers. 354 p.
  • Bouška V., Mottl V., Rost R., and Ševčík J. 1995. Moldavites from the Cheb Basin. Bulletin of the Czech Geological Survey 70:7380.
  • Bouška V., Kadlec J., and Žák K. 1999. Moldavite aus dem westlichen und dem nördlichen Teil Böhmen. Schriften des Staatlichen Museums für Mineralogie und Geologie zu Dresden 10:1619.
  • Buchner E., Schwarz W. H., Schmieder M., and Trieloff M. 2010. Establishing a 14.6 ± 0.2 Ma age for the Nördlinger Ries impact (Germany)—A prime example for concordant isotopic ages from various dating materials. Meteoritics & Planetary Science 45:662674.
  • Burton J. H., Price T. D., and Middleton W. D. 1999. Correlation of bone Ba/Ca and Sr/Ca due to biological purification of calcium. Journal of Archaeological Science 26:609616.
  • Chao E. C. T. 1963. The petrographic and chemical characteristics of tektites. In Tektites, edited by O’Keefe J. A. Chicago: Chicago University Press. pp. 5194.
  • Cílek V. 1985. Možnosti výskytu křemíku ve vltavínu z Chlumu (u Ločenic). Bulletin of the Geological Survey Prague 60:5557. in Czech.
  • Cílek V. and Frich-Char D. I. 1988. Elementary silicon in the moldavite from Chlum near Ločenice, Southern Bohemia. In Proceedings Second International Conference on Natural Glasses, Prague 1987, edited by Konta J. Prague: Charles University. pp. 319322.
  • Delano J. W. and Lindsley D. H. 1982. Chemical systematics among the moldavite tektites. Geochimica et Cosmochimica Acta 46:24472452.
  • Delano J. W., Bouška V., and Řanda Z. 1988. Geochemical constraints on the source materials of moldavite tektites. In Proceedings Second International Conference on Natural Glasses, Prague 1987, edited by Konta J. Prague: Charles University. pp. 221230.
  • Di Vincenzo G. and Skála R. 2009. 40Ar-39Ar laser dating of tektites from the Cheb Basin (Czech Republic): Evidence for coevality with moldavites and influence of the dating standard on the age of the Ries impact. Geochimica et Cosmochimica Acta 73:493513.
  • Dolgov J. A. 1974. Issledovanija sostava gazov iz vklyucheniy v tektitach i kosmiceskoy pyli. Meteoritika 33:122129. in Russian.
  • Dolgov Y. A., Pogrebnyak Y. F., and Shugurova N. A. 1969a. Sostav i davlyenya gazov vo vklyutchenyakh tektitov (Composition and pressure of gases in tektite inclusions). Geokhimiya 5:603609. in Russian with English abstract.
  • Dolgov Y. A., Shugurova N. A., and Pogrebnyak Y. F. 1969b. Gazovye vklyutchenya v tektitach (moldavitach). Doklady Akademii Nauk SSSR 184:14051408. in Russian.
  • Dolgov Y. A., Pogrebnyak Y. F., and Shugurova N. A. 1971. Sostav gazov u ich davlyenya vo vklyutchenyakh nekotorykh tektitov i silikaglassov. Doklady Akademii Nauk SSSR 198:202205. in Russian.
  • Döring T. H. and Stutzer O. 1928. Kolumbianische Glasmeteorite (Zweite Mitteilung). Centralblatt für Mineralogie, Geologie und Palaeontologie, Abteilung A 1:3541.
  • Dumke I., Faber E., and Poggenburg J. 1989. Determination of stable carbon and hydrogen isotopes of light hydrocarbons. Analytical Chemistry 61:21492154.
  • Dunlap R. A., Edelman D. A., and Mackay G. R. 1998. A Mössbauer effect investigation of correlated hyperfine parameters in natural glasses (tektites). Journal of Non-Crystalline Solids 223:141146.
  • Engelhardt W. von, Luft E., Arndt J., Schock H., and Weiskirchner W. 1987. Origin of moldavites. Geochimica et Cosmochimica Acta 51:14251443.
  • Engelhardt W. von, Berthold C., Wenzel T., and Dehner T. 2005. Chemistry, small-scale inhomogeneity, and formation of moldavites as condensates from sands vaporized by the Ries impact. Geochimica et Cosmochimica Acta 69:56115626.
  • Frank O., Jehlička J., and Hamplová V. 2003. Search for fullerenes in rocks from the Ries impact crater. Geolines 16:2829.
  • Friedman I. 1958. The water, deuterium, gas and uranium content of tektites. Geochimica et Cosmochimica Acta 14:316322.
  • Glass B. P., Wasson J. T., and Futrell D. S. 1990. A layered moldavite containing baddeleyite. Proceedings, 20th Lunar and Planetary Science Conference. pp. 415420.
  • Hámor-Vidó M. and Hámor T. 2007. Sulphur and carbon isotopic composition of power supply coals in the Pannonian Basin, Hungary. International Journal of Coal Geology 71:425447.
  • Hawkins G. S. 1963. A study of tektites. Journal of Geophysical Research 68:895910.
  • Heide K. von and Brückner H.-P. 1971. Die Anwendung glaschemischer Methoden bei der Untersuchung von Tektite. Chemie der Erde 30:157174.
  • Heide K. von, Brückner H.-P., Schmidt H.-G., and Florenski P. W. 1981. Untersuchungen zum Gasgehalt der Irghisite und Zhamanshinite (Investigation on the gas content of irghizites and zhamanshinites). Chemie der Erde 40:340351.
  • Henrich F. and Herold W. 1927. Beiträge zur Untersuchung und Kenntnis von natürlich vorkommenden Gasen (V. Mitteilung). Berichte der Deutschen chemischen Gesellschaft, Abteilung B 60:20472053.
  • Horn P., Müller-Sohnius D., Köhler H., and Graup G. 1985. Rb-Sr systematics of rocks related to the Ries crater, Germany. Earth and Planetary Science Letters 75:384392.
  • Hough R. M., Gilmour I., Pillinger C. T., Arden J. W., Gilkes K. W. R., Yuan J., and Milledge H. J. 1995. Diamond and silicon-carbide in impact melt rock from the Ries impact crater. Nature 378:4144.
  • Howard K. T. 2011. Volatile enhanced dispersal of high velocity impact melts and the origin of tektites. Proceedings of the Geologists Association 122:363382.
  • Jessberger E. and Gentner W. 1972. Mass spectrometric analysis of gas inclusions in Muong Nong glass and Libyan Desert Glass. Earth and Planetary Science Letters 14:221225.
  • Kenkmann T., Wünnemann K., Deutsch A., Poelchau M. H., Schäfer F., and Thoma K. 2011. Impact cratering in sandstone: The MEMIN pilot study on the effect of pore water. Meteoritics & Planetary Science 46:890902.
  • Kieffer S. W. and Simonds C. H. 1980. The role of volatiles and lithology in the impact cratering process. Reviews of Geophysics and Space Physics 18:143181.
  • Kinnunen K. A. 1990. Lechatelierite inclusions in indochinites and the origin of tektites. Meteoritics 25:181184.
  • Koeberl C. 1988. Geochemistry of Muong Nong type tektites: A review. In Second International Conference on Natural Glasses (Prague 1987), edited by Konta J. Prague: Charles University. pp. 371377.
  • Koeberl C. 2007. The geochemistry and cosmochemistry of impacts. In Meteorites, comets, and planets, edited by Holland H. D. and Turekian K. K., online edition. Treatise on Geochemistry, vol. 1. Amsterdam: Elsevier. pp. 1.28.11.28.52.
  • Koeberl C., Brandstätter F., Niedermayr G., and Kurat G. 1988. Moldavites from Austria. Meteoritics 23:325332.
  • Konta J. and Mráz L. 1969. Chemical composition and bulk density of moldavites. Geochimica et Cosmochimica Acta 33:11031111.
  • Lacroix A. 1932. Les tectites de l’Indochine. Archives du Muséum nationale d’historie naturelle 6:139240.
  • Lange J.-M. 1995. Lausitzer Moldavite und ihre Fundschichten. Schriftenreihe für Geowissenschaften 3. Berlin: Verlag der Gesellschaft für Geowissenschaften e.V. 134 p.
  • Lange J.-M. 1996. Tektite glasses from Lusatia (Lausitz), Germany. Chemie der Erde 56:498510.
  • Lange J.-M. and Suhr P. 1999. Die Lausitzer Moldavite und ihr geologisches Umfeld. Schriften des Staatlichen Museums für Mineralogie und Geologie zu Dresden 10:7199.
  • Lange J.-M. and Wagner H. 1992. Die Tektite der Lausitz—eine Übersicht. Přírodovědný sborník Západomoravského muzea v Třebíči 18:6071.
  • Lücke A., Helle G., Schleser G. H., Figueiral I., Mosbrugger V., Jones T. P., and Rowe N. P. 1999. Environmental history of the German Lower Rhine Embayment during the Middle Miocene as reflected by carbon isotopes in brown coal. Palaeogeography, Palaeoclimatology, Palaeoecology 154:339352.
  • Luft E. 1983. Zur Bildung der Moldavite beim Ries-Impact aus Tertiären Sedimenten. Stuttgart: Enke Verlag. 202 p.
  • Magna T., Deutsch A., Mezger K., Skála R., Seitz H.-M., Mizera J., Řanda Z., and Adolph L. 2011. Lithium in tektites and impact glasses: Implications for sources, histories and large impacts. Geochimica et Cosmochimica Acta 75:21372158.
  • Martin R. 1934. Tektieten, hun aard en oorsprong. Natur en Mensch, 11–12:261265, 259–277.
  • Matsuda J., Maruoka T., Pinti D. L., and Koeberl C. 1995. A Philippinite with an unusually large bubble: Gas pressures and noble gas composition. Meteoritics & Planetary Science 30:542.
  • Matsuda J., Maruoka T., Pinti D. L., and Koeberl C. 1996. Noble gas study of a philippinite with an unusually large bubble. Meteoritics & Planetary Science 31:273277.
  • Meisel T., Lange J.-M., and Krähenbühl U. 1997. The chemical variation of moldavite tektites: Simple mixing of terrestrial sediments. Meteoritics & Planetary Science 32:493502.
  • Muenow D. W., Steck S. J., and Margrave J. L. 1971. Mass spectrometric evidence for organic constituents in tektites. Geochimica et Cosmochimica Acta 35:10471058.
  • Müller O. and Gentner W. 1968. Gas content in bubbles of tektites and other natural glasses. Earth and Planetary Science Letters 4:406410.
  • O’Keefe J. A. 1976. Tektites and their origin. Amsterdam: Elsevier.
  • O’Keefe J. A., Lowman P. D. Jr., and Dunning K. L. 1962a. Gases in tektite bubbles. Science 137:228.
  • O’Keefe J. A., Lowman P. D. Jr., and Dunning K. L. 1962b. The Composition of Gases in Tektite Bubble. NASA Technical Note D-1342. Washington, DC: NASA. 8 p.
  • O’Keefe J. A., Walter L. S., and Wood F. M. Jr. 1964. Hydrogen in a tektite vesicle. Science 143:3940.
  • O’Leary M. H. 1988. Carbon isotopes in photosynthesis. BioScience 38:328336.
  • Paneth F., Petersen K. W., and Chloupek J. 1929. Helium-Untersuchungen, VI Mitteil.: Über den Helium-Gehalt von “Moldaviten” und künstlichen Gläsern. Berichte der Deutschen chemischen Gesellschaft, Abteilung B 62:801809.
  • Petersile I. A., Vorobev G. G., Ikorskij S. V., and Proskuryakova E. B. 1967. Bituminoznoe veschestvo v tektitach. Geokhimiya 4:467470. in Russian.
  • Řanda Z., Mizera J., Frána J., and Kučera J. 2008. Geochemical characterization of moldavites from a new locality, the Cheb Basin, Czech Republic. Meteoritics & Planetary Science 43:461467.
  • Rossano S., Balan E., Morin G., Bauer J.-P., Calas G., and Brouder C. 1999. 57Fe Mössbauer spectroscopy of tektites. Physics and Chemistry of Minerals 26:530538.
  • Rost R. 1964. Surfaces and inclusions in moldavites. Geochimica et Cosmochimica Acta 28:931936.
  • Rost R. 1972. Basic characteristics of moldavites. Acta Universitatis Carolinae—Geologica 1972:4758.
  • Rost R., Nicht H., and Wagner H. 1979. Moldavite aus der Umgebung von Dresden, DDR. Časopis pro Mineralogii a Geologii 24:263271.
  • Schwarcz H. P. 1962. Possible origin of tektites by soil fusion at impact sites. Nature 194:810.
  • Skála R., Strnad L., McCammon C., and Čada M. 2009. Moldavites from the Cheb Basin, Czech Republic. Geochimica et Cosmochimica Acta 73:11451179.
  • Stöffler D., Artemieva N. A., and Pierazzo E. 2002. Modeling the Ries-Steinheim impact event and the formation of the moldavite strewn field. Meteoritics & Planetary Science 37:18931907.
  • Suess F. E. 1914. Rückschau und Neueres über die Tektitfrage. Mitteilungen der Geologischen Gesellschaft 7:51121.
  • Suess H. E. 1951. Gas content and age of tektites. Geochimica et Cosmochimica Acta 2:7679.
  • Švardalová L. 2007. Characteristics of the Muong Nong-type moldavites. MSc. thesis. Masaryk University, Brno, Czech Republic. in Czech with English abstract.
  • Thomas S.-M., Thomas R., Davidson P., Reichart P., Koch-Müller M., and Dollinger G. 2008. Application of Raman spectroscopy to quantify trace water concentrations in glasses and garnets. American Mineralogist 93:15501557.
  • Trnka M. 2003. Atypické vltavíny ze Slavče u Trhových Svinů (JižníČechy). Přírodovědný sborník Západomoravského muzea v Třebíči 41:3144. in Czech.
  • Trnka M. and Houzar S. 2002. Moldavites: A review. Bulletin of the Czech Geological Survey 77:283302.
  • Zähringer J. 1963. K-Ar measurements of tektites. In Radioactive Dating, Proceedings of the Symposium on Radioactive Dating, Athens, Nov. 19–23, 1962. IAEA Proceeding Series STI/PUB/068. Vienna: International Atomic Energy Agency. pp. 289305.
  • Žák K. 2009. A study of gravel transport paths in a stream using metallurgical slag as a tracer: A contribution to the understanding of fluvial moldavite redistribution. Bulletin Mineralogicko-Petrologického Oddělení Národního Muzea v Praze 17:7990.
  • Zbik M., Jasieniak M., and Smart R. S. 2000. Organosilane occurrence in irghizite samples from the Zhamanshin impact crater, Kazakhstan. Meteoritics & Planetary Science 35:943947.
  • Žebera K. 1967. Moldavite-bearing sediments between Koroseky and Holkov in South Bohemia. Bulletin of the Geological Survey Prague 42:327337.
  • Žebera K. 1972. Moldavites in catastrophic flood sediments near Prague. Geologický průzkum 14:5456.
  • Žebera K. 1977. Moldavitfelder in Südböhmen. Bulletin of the Geological Survey Prague 52:4753.