Bohor B. F., Modreski P. J., and Foord E. E. 1987. Shocked quartz in the Cretaceous-Tertiary boundary clays: Evidence for a global distribution. Science 236:705–708.

Bohor B. F., Betterton W. J., and Krogh T. E. 1993. Impact-shocked zircons: discovery of shock-induced textures reflecting increasing degrees of shock metamorphism. Earth and Planetary Science Letters 119:419–424.

Bunch T. E., Cohen A. J., and Dence M. R. 1967. Natural terrestrial maskelynite. The American Mineralogist 52:244–253.

Cummings D. 1965. Kink-bands: shock deformation of biotite resulting from a nuclear explosion. Science 148:950–952.

De Carli P. S. and Jamieson J. C. 1959. Formation of an amorphous form of quartz under shock conditions. The Journal of Chemical Physics 31:1675–1676.

Dietz R. S. 1960. Meteorite impact suggested by shatter cones in rock. Science 131:1781–1784.

Dietz R. S. 1968. Shatter cones in cryptoexplosion structures. In Shock metamorphism of natural materials, edited by French B. M. and Short N. M. Baltimore: Mono Book Corporation. pp. 267–285.

El Goresy A., Chen M., Dubrovinsky L., Gillet P., and Graup G. 2001. An ultradense polymorph of rutile with seven-coordinated titanium from the Ries crater. Science 293:1467–1470.

El Goresy A., Dubrovinsky L., Gillet P., Graup G., and Chen M. 2010. Akaogiite: an ultra-dense polymorph of TiO2 with the baddeleyite-type structure, in shocked garnet gneiss from the Ries crater, Germany. American Mineralogist 95:892–895.

Engelhardt W. v. and Bertsch W. 1969. Shock induced planar deformation structures in quartz from the Ries crater, Germany. Contributions to Mineralogy and Petrology 20:203–234.

Ferrière L., Morrow J. R., Amgaa T., and Koeberl C. 2009. Systematic study of universal-stage measurements of planar deformation features in shocked quartz: Implications for statistical significance and representation of results. Meteoritics and Planetary Science 44:925–940.

French B. M. 1998. Traces of catastrophe: A handbook of shock-metamorphic effects in terrestrial meteorite impact structures. LPI Contribution #954. Houston, Texas: Lunar and Planetary Institute. 120 p.

French B. M. and Short N. M. 1968. Shock Metamorphism of Natural Materials. Baltimore: Mono Book Corporation. 644 p.

French B. M., Cordua W. S., and Plescia J. B. 2004. The Rock Elm meteorite impact structure, Wisconsin: Geology and shock-metamorphic effects in quartz. Geological Society of America Bulletin 116:200–218.

Fritz J. and Greshake A. 2009. High-pressure phases in an ultramafic rock from Mars. Earth and Planetary Science Letters 288:619–623.

Goltrant O., Cordier P., and Doukhan J.-C. 1991. Planar deformation features in shocked quartz; a transmission electron microscopy investigation. Earth and Planetary Science Letters 106:103–115.

Grieve R. A. F., Langenhorst F., and Stöffler D. 1996. Shock metamorphism of quartz in nature and experiment: II. Significance in geoscience. Meteoritics and Planetary Science 31:6–35.

Hörz F. 1970. Static and dynamic origin of kink bands in micas. Journal of Geophysical Research 75:965–977.

Kieffer S. W., Phakey P. P., and Christie J. M. 1976. Shock processes in porous quartzite: transmission electron microscope observations and theory. Contributions to Mineralogy and Petrology 59:41–93.

Langenhorst F. 2002. Shock metamorphism of some minerals: Basic introduction and microstructural observations. Bulletin of the Czech Geological Survey 77:265–282.

Leroux H., Reimold W. U., Koeberl C., Hornemann U., and Doukhan J.-C. 1999. Experimental shock deformation in zircon: a transmission electron microscopic study. Earth and Planetary Science Letters 169:291–301.

Ohtani E., Kimura Y., Kimura M., Takata T., Kondo T., and Kubo T. 2004. Formation of high-pressure minerals in shocked L6 chondrite Yamato 791384: constraints on shock conditions and parent body size. Earth and Planetary Science Letters 227:505–515.

Poelchau M. H. and Kenkmann T. 2010. Feather features: Microstructural deformation in the low-shock pressure regime (abstract #1987). 41st Lunar and Planetary Science Conference. CD-ROM.

Schreyer W. 1995. Ultradeep metamorphic rocks: the retrospective view. Journal of Geophysical Research 100:8353–8366.

Spry A. 1969. Metamorphic textures. New York: Pergamon Press. 350 p.

Stöffler D. 1972. Deformation and transformation of rock-forming minerals by natural and experimental shock processes: I. Behavior of minerals under shock compression. Fortschritte der Mineralogie 49:50–113.

Stöffler D. and Langenhorst F. 1994. Shock metamorphism of quartz in nature and experiment: I. Basic observation and theory. Meteoritics and Planetary Science 29:155–181.

Tschermak G. 1872. Die Meteoriten von Shergotty und Gopalpur. Sitzungsberichte, Akademie der Wissenschaften, Wien, Mathematisch-Naturwissenschaftliche Klasse 65:122–146.

Wittmann A., Kenkmann T., Schmitt R. T., and Stöffler, D. 2006. Shock-metamorphosed zircon in terrestrial impact craters. Meteoritics and Planetary Science 41:433–454.


Copyright © 2011-2014 meteorimpactonearth.com