SEARCH

SEARCH BY CITATION

References

  • Al-Kathiri A., Hofmann B. A., Jull A. J. T., and Gnos E. 2005. Weathering of meteorites from Oman: Correlation of chemical and mineralogical weathering proxies with 14C terrestrial ages and the influence of soil chemistry. Meteoritics & Planetary Science 40:12151239.
  • Anders E. 1964. Origin, age, and composition of meteorites. Space Science Reviews 3:583714.
  • Benkert J.-P., Baur H., Signer P., and Wieler R. 1993. He, Ne, and Ar from the solar wind and solar energetic particles in lunar ilmenites and pyroxenes. Journal of Geophysical Research 98:1314713162.
  • Bischoff A., Vogel N., and Roszjar J. 2011. The Rumuruti chondrite group. Chemie der Erde 71:101133.
  • Bogard D. D. 2011. K-Ar ages of meteorites: Clues to parent-body thermal histories. Chemie der Erde 71:207226.
  • Connolly H. C., Jr., Smith C., Benedix G., Folco L., Righter K., Zipfel J., Yamaguchi A., and Chennaoui Aoudjehane H. 2007. The Meteoritical Bulletin No. 92. Meteoritics & Planetary Science 42:16471694.
  • Connolly H. C., Jr., Smith C., Benedix G., Folco L., Righter K., Zipfel J., Yamaguchi A., and Chennaoui Aoudjehane H. 2008. The Meteoritical Bulletin No. 93. Meteoritics & Planetary Science 43:571632.
  • Crabb J. and Schultz L. 1981. Cosmic-ray exposure ages of the ordinary chondrites and their significance for parent body stratigraphy. Geochimica et Cosmochimica Acta 45:21512160.
  • Eberhardt P., Eugster O., Geiss J., and Marti K. 1966. Rare gas measurements in 30 stone meteorites. Zeitschrift für Naturforschung Teil A 21:414426.
  • Eugster O. 1988. Cosmic-ray production rates for 3He, 21Ne, 38Ar, 83Kr, and 126Xe in chondrites based on 81Kr-Kr ages. Geochimica et Cosmochimia Acta 52:16491662.
  • Eugster O., Michel T., Niedermann S., Wang D., and Yi W. 1993. The record of cosmogenic, radiogenic, fissiogenic, and trapped noble gases in recently recovered Chinese and other chondrites. Geochimica et Cosmochimica Acta 57:11151142.
  • Geiss J., Oeschger H., and Signer P. 1960. Radiation ages of chondrites. Zeitschrift für Naturforschung 15a:10161017.
  • Gnos E., Lorenzetti S., Eugster O., Jull A. J. T., Hofmann B. A., Al-Kathiri A., and Eggimann M. 2009. The Jiddat al Harasis 073 strewnfield, Sultanate of Oman. Meteoritics & Planetary Science 44:375387.
  • Graf T. and Marti K. 1995. Collisional history of H-chondrites. Journal of Geophysical Research 100:2124721263.
  • Herzog G. F. 2003. Cosmic-ray exposure ages of meteorites. In Meteorites, comets, and planets, edited by Davis A. M. Treatise on Geochemistry, vol. 1., edited by Holland H. D. and Turekian K. K. Amsterdam: Elsevier. pp 347380.
  • Huber L., Gnos E., Hofmann B., Welten K. C., Nishiizumi K., Caffee M. W., Hillegonds D. J., and Leya I. 2008. The complex exposure history of the Jiddat al Harasis 073 L-chondrite shower. Meteoritics & Planetary Science 43:16911708.
  • Kallemeyn G. W., Rubin A. E., Wang D., and Wasson J. T. 1989. Ordinary chondrites—Bulk compositions, classification, lithophile-element fractionations, and composition-petrographic type relationships. Geochimica et Cosmochimia Acta 53:27472767.
  • Kirsten T., Krankowsky D., and Zähringer J. 1963. Edelgas- und Kalium-Bestimmungen an einer grösseren Zahl von Steinmeteoriten. Geochimica et Cosmochimica Acta 27:1342.
  • Leya I. and Masarik J. 2009. Cosmogenic nuclides in stony meteorites revisited. Meteoritics & Planetary Science 44:10611086.
  • Leya I., Graf T., Nishiizumi K., and Wieler R. 2001. Cosmic-ray production rates of helium, neon and argon isotope in H chondrites based on chlorine-36/argon-36 ages. Meteoritics & Planetary Science 36:963973.
  • Leya I., Welten K. C., Nishiizumi K., and Caffee M. W. 2009. Cosmogenic nuclides in the solar gas-rich H3-6 chondrite breccia Frontier Mountain 90174. Meteoritics & Planetary Science 44:7785.
  • Marti K. and Graf T. 1992. Cosmic-ray exposure history of ordinary chondrites. Annual Review of Earth and Planetary Sciences 20:221243.
  • Martins Z., Hofmann B. A., Gnos E., Greenwood R. C., Verchovsky A., Franchi I. A., Jull A. J. T., Botta O., Glavin D. P., Dworkin J. P., and Ehrenfreund P. 2007. Amino acid composition, petrology, geochemistry, 14C terrestrial age and oxygen isotopes of the Shişr 033 CR chondrite. Meteoritics & Planetary Science 42:15811595.
  • Mason B. 1979. Cosmochemistry part I. Meteorites. Data of geochemistry, ed. by Fleischer M. Washington, D.C.: Government Printing Office. pp. B1B132.
  • Mazor E., Heymann D., and Anders E. 1970. Noble gases in carbonaceous chondrites. Geochimica et Cosmochimica Acta 34:781824.
  • Nishiizumi K., Regnier S., and Marti K. 1980. Cosmic ray exposure ages of chondrites, pre-irradiation and constancy of cosmic ray flux in the past. Earth and Planetary Science Letters 50:156170.
  • Ott U. 2002. Noble gases in meteorites—Trapped components. In Noble gases in geochemistry and cosmochemistry, edited by Porcelli D., Ballentine C. J. and Wieler R. Reviews in Mineralogy and Geochemistry, vol. 47. Washington D.C.: Mineralogical Society of America. pp. 71100.
  • Rubin A. E., Wang D., Kallemeyn G. W., and Wasson J. T. 1988. The Ningqiang meteorite: Classification and petrology of an anomalous CV chondrite. Meteoritics 23:1323.
  • Scherer P. and Schultz L. 2000. Noble gas record, collisional history, and pairing of CV, CO, CK, and other carbonaceous chondrites. Meteoritics & Planetary Science 35:145153.
  • Scherer P., Schultz L., and Loeken T. 1994. Weathering and atmospheric noble gases in chondrites. In Noble gas geochemistry and cosmochemistry, edited by Matsuda J. Tokyo: Terra Scientific Publishing Company. pp. 4353.
  • Schultz L., Weber H. W., and Franke L. 2005. Rumuruti chondrites: Noble gases, exposure ages, pairing, and parent body history. Meteoritics & Planetary Science 40:557571.
  • Steiger R. H. and Jäger E. 1977. Subcommission on geochronology: Convention on the use of decay constants in geo- and cosmochronology. Earth and Planetary Science Letters 36:359362.
  • Stelzner T., Heide K., Bischoff A., Weber D., Scherer P., Schultz L., Happel M., Schrön W., Neupert U., Michel R., Clayton R. N., Mayeda T. K., Bonani G., Haidas I., Ivy-Ochs S., and Suter M. 1999. An interdisciplinary study of weathering effects in ordinary chondrites from the Acfer region, Algeria. Meteoritics & Planetary Science 34:787794.
  • Swindle T. D. and Kring D. A. 2008. Chronological evidence for the late heavy bombardment in ordinary chondrite meteorites (abstract #3004). In Workshop on early solar system impact bombardment. LPI Contribution 1439. Houston, Texas: Lunar and Planetary Institute. pp. 5960.
  • Vogel N., Baur H., Bischoff A., and Wieler R. 2011. Cosmic ray exposure ages of Rumuruti chondrites from North Africa. Chemie der Erde 71:135142.
  • Wasson J. T. and Kallemeyn G. W. 1988. Compositions of chondrites. Philosophical Transactions Royal Society London, Series A 325:535544.
  • Wasson J. T. and Wang S. 1991. The histories of ordinary chondrites parent bodies: U, Th-He age distributions. Meteoritics 26:161167.
  • Wieler R. 2002. Cosmic-ray produced noble gases in meteorites. In Noble gases in geochemistry and cosmochemistry, edited by Porcelli D., Ballentine C. J., and Wieler R. Reviews in Mineralogy and Geochemistry, vol. 47. Washington, D.C.: Mineralogical Society of America. pp. 125170.
  • Wlotzka F. 1993. A weathering scale for the ordinary chondrites (abstract). Meteoritics 28:A460.