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  • Agrinier P., Deutsch A., Schaerer U. and Martinez I. (2001) Fast back-reactions of shock-released CO2 from carbonates: Experimental approach. Geochim. Cosmochim. Acta. 65, 26152632.
  • Allen C. C., Gooding J. L. and Keil K. (1982) Hydrothermally altered impact melt rock and breccia: Contributions to the soil of Mars. J. Geophys. Res. 87, 10 08310 101.
  • Anders E., Ganapathy R., Krahenbuhl U. and Morgan J. W. (1973) Meteoritic material on the Moon. The Moon 8, 324.
  • Barringer D. M. (1924) Further notes on Meteor Crater in northern central Arizona (No. 2). Acad. Nat. Sci., Philadelphia Proc. 76, 275278.
  • Bell J. F., Morris R. V. and Adams J. B. (1993) Thermally altered palagonitic tephra: A spectral and process analog to the soil and dust on Mars. J. Geophys. Res. 98, 33733385.
  • BouskaV., Ed. (1992) Natural Glasses. Ellis Horwood, New York, New York, USA. 355 pp.
  • Brett R. (1967) Metallic spherules in impactite and tektite glasses. Am. Mineral. 52, 721733.
  • Buchwald R. V. (1975) Handbook of Iron Meteorites. Univ. California Press, Berkeley, California, USA. 1418 pp.
  • Chaussidon M., Sigursson H. and Metrich N. (1996) Sulfur and boron isotope study of high-Ca impact glasses from the K/T boundary: Constraints on source rocks. In The Cretaceous-Tertiary Event (eds. G.Ryder et al.), pp. 253262. GSA Special Paper 307, US Geologic Survey, Washington D.C., USA.
  • Cinatala M. J. and Grieve R. A. F. (1998) Scaling impact-melt and crater dimensions: Implications for the lunar cratering record. Meteorit. Planet. Sci. 33, 889912.
  • Croft S. K. (1985) The scaling of complex craters. Lunar Planet. Sci. Conf. 15th, J. Geophys. Res. 90, C828C842.
  • Dence M. R. (1971) Impact melts. J. Geophys. Res. 76, 55525565.
  • Dreibus G. and Wänke H. (1992) On the weathering of martan igneous rocks. In MSATT Workshop on Chemical Weathering on Mars (eds. R.Burns and A.Banin). pp. 1112.LPI Tech. Report 92-04, Lunar Planeray Institute, Houston, Texas, USA.
  • Engelhardt W. v. (1967) Chemical composition of Ries glas bombs. Geochim. Cosmochim. Acta. 31, 16771689.
  • Engelhardt W. v. (1997) Suevite Breccia of the Ries impact crater, Germany: Petrography, chemistry, and shock metamorphism of crystalline rock clasts. Meteorit. Planet. Sci. 32, 545554.
  • Grieve R. A. F. (1991) Terrestrial impact: The record in the rocks. Meteoritics 26, 175194.
  • Grieve R. A. F. and Garvin J. B. (1984) A geometric model for excavation and modification at terrestrial, simple craters. J. Geophys. Res. 89, 11 56111 572.
  • Grieve R. A. F., Dence M. R. and Robertson P. B. (1977) Cratering processes: As interpreted from the occurrence of impact melts. In Impact and Explosion Cratering (eds. D. J.Roddy, R. O.Pepin and R. S.Merrill), pp. 791814. Pergamon Press, New York, New York, USA.
  • Heiken G. and Wohlhetz K. (1992) Volcanic Ash. Univ. California Press, Berkeley, California, USA. 246 pp.
  • Hörz F. (1965) Untersuchungen an Riesglaesern, Beitr. Mineral. Petrograph. 11, 621661.
  • Kargel J. S., Coffin P., Kraft M., Lewis J., Moore C. B., Roddy D. J., Shoemake E. M. and Wittke J. H. (1996) Systematic collection and analysis of meteoritic materials form Meteor Crater, AZ (abstract). Lunar Planet. Sci. 27, 645646.
  • Kelly W. R., Holdsworth E. and Moore C. B. (1974) The chemical composition of metallic spheroids and metallic particles within impactite from Barringer Meteorite Crater, Arizona. Geochim. Cosmochim. Acta. 38, 533544.
  • Kieffer S. W. (1971) Shock metamorphism of the Coconino Sandstone at Meteor Crater, Arizona. J. Geophys. Res. 76, 54495473.
  • Kieffer S. W. and Simonds C. H. (1980) The role of volatiles and lithology in the impact cratering process. Rev. Geophys. Space Phys. 18, 143181.
  • Kieffer S. W., Phakey P. P. and Christie J. M. (1976) Shock processes in porous quartzite: Transmission electron microscope observations and theory. Contrib. Mineral. Petrol. 59, 4193.
  • Koeberl C., Kluger F. and Kiesl W. (1985) Zhamanshin and Aouelloul impact glasses: Major element chemistry, correlation analyses, and parent material. Chem. Erde. 44, 4765.
  • Korotev R. L. (1981) Compositional trends in Apollo 16 soils. Proc. Lunar Planet. Sci. Conf. 12th, 577605.
  • Korotev R. L., Haskin L. A. and Jolliff B. L. (1995) A simulated geochemical rover mission to the Taurus Littrow valley of the Moon. J. Geophys. Res. 100, 14 40314 420.
  • Kring D. A. (1997) Air blast produced by the Meteor Crater impact event and a reconstruction of the affected environment. Meteorit. Planet. Sci. 32, 517530.
  • Langenhorst F., Deutsch A., Ivanov B. A. and Hornemann U. (2000) On the shock behavior of CaCO3: Dynamic loading and fast unloading experiments-modeling-mineralogic observations (abstract). Lunar Planet. Sci. 31, #1851, Lunar and Planetary Institute, Houston, Texas, USA (CD-ROM).
  • Lofgren G. (1980) Experimental studies on the dynamic crystallization of silicate melts. In Physics of Magmatic Processes (ed. R. B.Hargraves), pp. 487551. Princeton University Press, Princeton, New Jersey, USA.
  • Martinez I., Agrinier P., Schaerer U. and Javoy M. (1993) CO2 production by impact into carbonates? A SEM-ATEM and stable isotope (δ13C, δ18O) study of carbonates from the Haughton impact crater. Earth Planet. Sci. Lett. 121, 559574.
  • Martinez I., Deutsch A., Schaerer U., Ilfonse G., Guyoyt F. and Agrnier P. (1995) Shock recovery experiments on dolomite and thermodynamical calculations of impact induced decarbonation. J. Geophys. Res. 100, 15 46515 476.
  • Masaitis V. L., Naumov M. V. and Mashchak M. S. (1999) Anatomy of the Popigai impact crater, Russia. In Large Meteorite Impacts and Planetary Evolution II (eds. B. O.Dressler and V. L.Sharpton), pp. 117. Geol. Soc. Am. Special Paper 339, Washington D.C., USA.
  • McKee E. D. (1938), The Environment and History of the Toroweap and Kaibab Formations of Northern Arizona and Southern Utah. Carnegie Inst. Washington Pub. 492, Washington D.C., USA. 221 pp.
  • Melosh H. J. (1989) Impact Cratering, A Geological Process. Oxford Univ. Press, New York, New York, USA. 245 pp.
  • Mittlefehldt D. W. and Hörz F. (1998) Siderophile element fractionation in impact glass from Meteor Crater (abstract). Lunar Planet. Sci. 29, 17711772.
  • Morgan J. W., Higuchi H., Ganapathy R. and Anders E. (1975) Meteoritic material in four terrestrial meteorite craters. Proc. Lunar Sci. Conf. 6th, 16091623.
  • Morris R. V. et al (2000a) Mineralogy, composition, and alteration of Mars Pathfinder rocks and soils: Evidence from multi-spectral, elemental, and magnetic data on terrestrial analogue, SNC and Pathfinder samples. J. Geophys. Res. 105, 17571817.
  • Morris R. V., Golden D. C. and Shelfer T. D. (2000b) Meteor Crater impact melt particles: An analogue for formation of ultramafic mineral assemblages from soil on Mars (abstract). Lunar Planet Sci. 31, #1638, Lunar and Planetary Institute, Houston, Texas, USA (CD-ROM).
  • Newsom H. E. (1980) Hydrothermal alteration of impact melt sheets with implications for Mars. Icarus 44, 207216.
  • Nininger H. H. (1954) Impactite slag at Barringer Crater. Am. J. Sci. 252, 277290.
  • Nininger H. H. (1956) Arizona's Meteorite Crater. World Press, Inc., Denver, Colorado, USA. 232 pp.
  • O'Keefe J. A. (1976) Tektites and Their Origins. Elsevier, New York, New York, USA. 254 pp.
  • O'Keefe J. A. and Ahrens T. J. (1993) Planetary cratering mechanics. J. Geophys. Res. 98, 17 01117 028.
  • Onorato P. I. K., Uhlmann D. R. and Simonds C. H. (1978) The thermal history of the Manicouagan impact melt sheet, Quebec. J. Geophys. Res. 83, 27892798.
  • Palme H. (1982) Identification of projectiles of large terrestrial impact craters and some implications for the interpretation of Ir-rich Cretaceous/Tertiary boundary layers. Geol. Soc. Am. Spec. Pap. 190, 223234.
  • Phinney W. C. and Simonds C. H. (1977) Dynamical applications of the petrology and distribution of impact melt rocks. In Impact and Explosion Cratering (eds. D. J.Roddy, R. O.Pepin and R. B.Merrill), pp. 771790. Pergamon Press, Elmsford, New York, USA.
  • Pierrazo E. and Melosh H. J. (1999) Hydrocode modeling of oblique impacts: The fate of the projectile. Meteorit. Planet. Sci. 35, 117130.
  • Pierrazo E. and Melosh H. J. (2000) Melt production in oblique impacts. Icarus 144, 110.
  • Pope K. O., Baines K. H., Ocampo A. C. and Ivanov B. A. (1994) Impact winter and the Cretaceous/Tertiary extinctions: Results of a Chixculub asteroid impact model. Earth Planet. Sci. Lett. 128, 719725.
  • Roddy D. J. (1978) Pre-impact geological conditions, physical properties, energy calculations, meteorite and initial dimensions and orientation of joints, faults, and walls at Meteor Crater, Arizona. Proc. Lunar Planet. Sci. Conf. 9th, 38913930.
  • Roddy D. J., Schuster S. H., Kreyenhagen K. N. and Orphal D. L. (1980) Computer code simulations of the formation of Meteor Crater, AZ: Calculations MC-1 and MC-2. Proc. Lunar. Planet. Sci. Conf. 11th, 22752308.
  • Schnabel C., Pierrazo E., Xue S., Herzog G. F., Masarik J., Cresswell R. G., Di Tada M. L., Liu K. and Fifield L. K. (1999) Shock melting of Canyon Diablo impactor: Constraints from Nickel 59 measurements and numerical modeling. Science 285, 8588.
  • See T. H., Wagstaff J., Yang V., Hörz F. and McKay G. A. (1998) Compositional variations and mixing of impact melts on microscopic scales. Meteorit. Planet. Sci. 33, 937948.
  • See T. H., Mittlefehldt D. W., Varley L., Mertzmann S., Roddy D. J. and Hörz F. (2002) Major-element analyses of the target rocks at Meteor Crater, AZ.
  • Shoemaker E. M. (1960) Penetration mechanics of high velocity meteorites, illustrated by Meteor Crater, Arizona. Internat. Geol. Con. 21st, 418434.
  • Shoemaker E. M. (1963) Impact mechanics at Meteor Crater, Arizona. In The Moon, Meteorites and Comets (eds. B. M.Middlehurst and G. P.Kuiper), pp. 301336. Univ. Chicago Press, Chicago, Illinois, USA.
  • Shoemaker E. M. and Kieffer S. W. (1974) Guidebook to the Geology of Meteor Crater. Meteoritical Society, Center for Meteorite Studies, Arizona State Univ., Tempe, Arizona, USA. 66 pp.
  • Simonds C. H., Floran R. J., McGee P. M., Phinney W. C. and Warner J. L. (1978) Petrogenesis of melt rocks, Manicouagan impact structure, Quebec. J. Geophys. Res. 83, 27732788.
  • Skala R., Matejka P. and Hörz F. (2000) Experimentally shocked dolomite-A Raman spectroscopic study (abstract). Lunar Planet. Sci. 31, #1567, Lunar and Planetary Institute, Houston, Texas, USA (CD-ROM).
  • Stahle V. (1972) Impact glasses from the suevite of the Nordlingen Ries. Earth Planet. Sci. Lett. 17, 275293.
  • Stöffler D. (1971) Progressive metamorphism and classification of shocked and brecciated crystalline rocks at impact craters. J. Geophys. Res. 76, 55415551.
  • Warren P. H. and Kallemeyn G. W. (1997) Yamato-793605, EET 79001 and other presumed martian meteorites: Compositional clues to their origins. Proc. NIPR Symp. Antarctic Meteorite Res. 10, 6181.