SEARCH

SEARCH BY CITATION

REFERENCES

  • Barrat J. A. 2004. Determination of the parental magmas of HED cumulates: The effects of interstitial melts. Meteoritics & Planetary Science 39: 17671779.
  • Barrat J. A., Gillet Ph., Lesourd M., Blichert-Toft J., and Poupeau G. R. 1999. The Tatahouine diogenite: Mineralogical and chemical effects of sixty-three years of terrestrial residence. Meteoritics & Planetary Science 34: 9197.
  • Barrat J. A., Blichert-Toft J., Gillet Ph., and Keller F. 2000a. The differentiation of eucrites: The role of in-situ crystallization. Meteoritics & Planetary Science 35: 10871100.
  • Barrat J. A., Boulègue J., Tiercelin J. J., and Lesourd M. 2000b. Strontium isotopes and rare-earth element geochemistry of hydrothermal carbonate deposits from Lake Tanganyika, East Africa. Geochimica et Cosmochimica Acta 64: 287298.
  • Barrat J. A., Jambon A., Bohn M., Blichert-Toft J., Sautter V., Göpel C., Gillet Ph., Boudouma O., and Keller F. 2003. Petrology and geochemistry of the unbrecciated achondrite Northwest Africa 1240 (NWA 1240): An HED parent body impact melt. Geochimica et Cosmochimica Acta 67: 39593970.
  • Barrat J. A., Beck P., Bohn M., Cotten J., Gillet Ph, Greenwood R. C., and Franchi I. A. 2006. Petrology and geochemistry of the finegrained, unbrecciated diogenite Northwest Africa 4215. Meteoritics & Planetary Scienc 41: 10451057.
  • Barrat J. A., Yamaguchi A., Greenwood A., Bohn M., Cotten J., Benoit M., and Franchi I. A. 2007. The Stannern trend eucrites: Contamination of main group eucritic magmas by crustal partial melts. Geochimica et Cosmochimica Acta 71: 41084124.
  • Barrat J. A., Bohn M., Gillet Ph., and Yamaguchi A. Forthcoming. Evidence for K-rich terrains and granites on Vesta from impact spherules. Meteoritics & Planetary Science 44.
  • Bartels K. S. and Grove T. L. 1991. High pressure experiments on magnesian eucrite compositions: Constraints on magmatic processes in the eucrite parent body. Proceedings, 21st Lunar and Planetary Science Conference. pp. 351365.
  • Berkley J. L. and Boynton N. J. 1992. Minor/major element variation within and among diogenite and howardite orthopyroxenite groups. Meteoritics 27: 387394.
  • Binzel R. P., Gaffey M. J., Thomas P. C., Zellner B. H., Storrs A. D., and Wells E. N. 1997. Geologic mapping of Vesta from 1994 Hubble Space Telescope images. Icarus 128: 95103.
  • Bunch T. E., Wittke J. H., D. Rumble III, Irving A. J., and Reed B. 2006. Northwest Africa 2968: A dunite from Vesta (abstract #5252). 69th Annual Meeting of the Meteoritical Society. Meteoritics & Planetary Science 41: A31.
  • Connolly H. C., Smith C., Benedix G., Folco L., Righter K., Zipfel J., Yamaguchi A., and Aoudjehane, Chennaoui H. 2007. The Meteoritical Bulletin, No. 92, 2007, September. Meteoritics & Planetary Science 42: 16471694.
  • Consolmagno G. J. and Drake M. J. 1977. Composition and evolution of the eucrite parent body: Evidence from rare earth elements. Geochimica et Cosmochimica Acta 41: 12711282.
  • Cornish L. and Doyle A. 1984. Use of ethanolamine thioglycollate in the conservation of pyritized fossils. Palaeontology 27: 421424.
  • Cotten J., Ledez A., Bau M., Caroff M., Maury R. C., Dulski P., Fourcade S., Bohn M., and Brousse R. 1995. Origin of anomalous rare-earth element and yttrium enrichments in subaerially exposed basalts-Evidence from French Polynesia. Chemical Geology 119: 115138.
  • Desnoyers C. 1982. L'olivine dans les howardites: Origine, et implications pour le corps parent de ces meteorites achondritiques. Geochimica et Cosmochimica Acta 46: 667680.
  • Domanik K., Kolar S., Musselwhite D., and Drake M. J. 2004. Accessory silicate mineral assemblages in the Bilanga diogenite: A petrographic study. Meteoritics & Planetary Science 39: 567579.
  • Domanik K., Sideras L. C., and Drake M. J. 2005. Olivine and Ca-phosphates in the diogenites Manegaon and Roda (abstract #2128). 36th Lunar and Planetary Science Conference. CD-ROM.
  • Evensen N. M., Hamilton P. J., and O'Nions R. K. 1978. Rare earth abundances in chondritic meteorites. Geochimica et Cosmochimica Acta 42: 11991212.
  • Fredriksson K., Noonan A., Brenner P., and Sudre C. 1976. Bulk and major phase composition of eight hypersthene achondrites. Meteoritics 11: 278280.
  • Floran R. J., Prinz M., Hlava P. F., Keil K., Spettel B., and Wänke H. 1981. Mineralogy, petrology, and trace element geochemistry of the Johnstown meteorite: A brecciated orthopyroxenite with siderophile and REE-rich components. Geochimica et Cosmochimica Acta 45: 23852391.
  • Fowler G. W., Papike J. J., Shearer C. K., and Spilde M. N. 1994. Diogenites as asteroidal cumulates. Insights from orthopyroxene major and minor element chemistry. Geochimica et Cosmochimica Acta 58: 39213929.
  • Fowler G. W., Papike J. J., Spilde M. N., and Shearer C. K. 1995. Diogenites as asteroidal cumulates. Insights from orthopyroxene trace element chemistry. Geochimica et Cosmochimica Acta 59: 30713084.
  • Fukuoka T., Boynton W. V., Ma M. S., and Schmitt R. A. 1977. Genesis of howardites, diogenites and eucrites. Proceedings, 8th Lunar Science Conference. pp. 187210.
  • Gaffey M. J. 1997. Surface lithologic heterogeneity of asteroid 4-Vesta. Icarus 127: 130157.
  • Göpel C. and Wänke H. 1978. Trace elements in single pyroxene crystals of diogenites, howardites and eucrites. Meteoritics 13: 477480.
  • Greenwood R. C., Franchi I. A., Jambon A., and Buchanan P. C. 2005. Widespread magma oceans on asteroidal bodies in the early solar system. Nature 435: 916918.
  • Greenwood R. C., Franchi I. A., Jambon A., Barrat J. A., and Burbine T. H. 2006. Oxygen isotope variations in stony-iron meteorites. Science 313: 17631765.
  • Hewins R. H. 1988. Equilibration of foreign clasts in the Peckelsheim diogenite (abstract). 19th Lunar and Planetary Science Conference. pp. 485486.
  • Ikeda Y. and Takeda H. 1985. A model for the origin of basaltic achondrites based on the Yamato-7308 howardite. Proceedings, 15th Lunar and Planetary Science Conference. Journal of Geophysical Research 90: C649C663.
  • Ionov D. A., Prikhodko V. S., Bodinier J. L., Sobolev A. V., and Weis D. 2005. Lithospheric mantle beneath the Southeast Siberian craton: Petrology of peridotites xenoliths in basalts from Tokinsky Stanovik. Contributions to Mineralogy and Petrology 149: 647665.
  • Jérome D. Y. and Michel-Lévy Christophe M. 1972. The Washougal meteorite. Meteoritics 7: 449461.
  • Lacroix A. 1932. La meteorite (diogénite) de Tataouine, Tunisie (27 juin 1931). Bulletin de la société française de Minéralogie et Cristallographie 55: 101122.
  • Liermann H. P. and Ganguly J. 2001. Compositional properties of coexisting orthopyroxene and spinel in some Antarctic diogenites: Implications for thermal history. Meteoritics & Planetary Science 36: 155166.
  • Lomena I. S. M., Touré F., Gibson E. K. Jr., Clanton U. S., and Reid A. M. 1976. Aïoun el Atrouss: A new hypersthene achondrite with eucritic inclusions. Meteoritics 11: 5157.
  • Makishima A. and Nakamura E. 1997. Suppression of matrix effects in ICP-MS: Application to precise determination of Rb, Sr, Y, Cs, Ba, REE, Pb, Th and U at ng.g-1 levels in milligram silicate samples. Geostandards Newsletter 21: 307319.
  • Mason B. 1967. The Bununu achondrite, and a discussion of the pyroxene-plagioclase achondrites. Geochimica et Cosmochimica Acta 31: 107115.
  • Masuda A., Tanaka T., Shimizu H., Wakisaka T., and Nakamura N. 1979. Rare-earth geochemistry of Antarctic diogenites. Memoirs of the National Institute of Polar Research 15: 177188.
  • McCord T. B., Adams J. B., and Johnson T. V. 1970. Asteroid Vesta: Spectral reflectivity and compositional implications. Science 168: 14451447.
  • Miller, M. F. 2002. Isotopic fractionation and the quantification of 17O anomalies in the oxygen three-isotope system: An appraisal and geochemical significance. Geochimica et Cosmochimica Acta 66: 18811889.
  • Miller M. F., Franchi I. A., Sexton A. S., and Pillinger C. T. 1999. High precision Δ17O delta 0-17 isotope measurements of oxygen from silicates and other oxides: Method and applications. Rapid Communications in Mass Spectrometry 13: 12111217.
  • Mittlefehldt D. W. 1979. Petrographic and chemical characterization of igneous lithic clasts from mesosiderites and howardites and comparison with eucrites and diogenites. Geochimica et Cosmochimica Acta 43: 19171935.
  • Mittlefehldt D. W. 1994. The genesis of diogenites and HED parent body petrogenesis. Geochimica et Cosmochimica Acta 58: 15371552.
  • Mittlefehldt D. W. 2000. Petrology and geochemistry of the Elephant Moraine A79002 diogenite: A genomict breccia containing a magnesian harzburgite component. Meteoritics & Planetary Science 35: 901912.
  • Mittlefehldt D. W. 2002. Geochemistry of new, unusual diogenites and constraints on diogenite genesis (abstract). 65th Annual Meeting of the Meteoritical Society. Meteoritics & Planetary Science 37: A100.
  • Mittlefehldt D. W. and Lindstrom M. M. 1998. Black clasts from howardite QUE 94200-Impact melts, not primary magnesian basalts (abstract #1832). 29th Lunar and Planetary Science Conference. CD-ROM.
  • Mittlefehldt D. W. and Lindstrom M. M. 2003. Geochemistry of eucrites: Genesis of basaltic eucrites, and Hf and Ta as petrogenetic indicators for altered Antarctic eucrites. Geochimica et Cosmochimica Acta 67: 19111935.
  • Papike J. J., Shearer C. K., Spilde M. N., and Karner J. M. 2000. Metamorphic diogenite Grosvenor Mountains 95555: Mineral chemistry of orthopyroxene and spinel and comparisons to the diogenite suite. Meteoritics & Planetary Science 35: 875879.
  • Pun A. and Papike J. J. 1996. Unequilibrated eucrites and the equilibrated Juvinas eucrite: Pyroxene REE systematics and major, minor, and trace element zoning. American Mineralogist 81: 14381451.
  • Righter K. and Drake M. J. 1997. A magma ocean on Vesta: Core formation and petrogenesis of eucrites and diogenites. Meteoritics & Planetary Science 32: 929944.
  • Ruzicka A., Snyder G. A., and Taylor L. A. 1997. Vesta as the howardite, eucrite and diogenite parent body: Implications for the size of a core and for large-scale differentiation. Meteoritics & Planetary Science 32: 825840.
  • Saiki K., Takeda H., and Ishii T. 2001. Mineralogy of Yamato-791192, HED breccia and relationship between cumulate eucrites and ordinary eucrites. Antarctic Meteorite Research 14: 2846.
  • Schwandt C. S. and McKay G. 1998. Rare earth element partition coefficients from enstatite/melt synthesis experiments. Geochimica et Cosmochimica Acta 62: 28452848.
  • Shearer C. K., Fowler G. W., and Papike J. J. 1997. Petrogenetic models for magmatism on the eucrite parent body: Evidence from orthopyroxene in diogenites. Meteoritics & Planetary Science 32: 877889.
  • Shimizu H., Tanaka T., and Masuda A. 1984. Meteoritic 138Ce/142Ce ratio and its evolution. Nature 307: 251252.
  • Stolper E. 1977. Experimental petrology of eucrite meteorites. Geochimica et Cosmochimica Acta 41: 587611.
  • Takeda H. 1997. Mineralogical records of early planetary processes on the howardite, eucrite, diogenite parent body with reference to Vesta. Meteoritics & Planetary Science 32: 841853.
  • Treiman A. H. 1997. The parent magmas of the cumulate eucrites: A mass balance approach. Meteoritics & Planetary Science 32: 217230.
  • Warren P. H. 1997. Magnesium oxide-iron oxide mass balance constraints and a more detailed model for the relationship between eucrites and diogenites. Meteoritics & Planetary Science 32: 945963.
  • Warren P. H. and Jerde E. 1987. Composition and origin of Nuevo Laredo trend eucrites. Geochimica et Cosmochimica Acta 51: 713725.
  • Welten K. C., Lindner L., Van der Borg K., Loeken T., Scherer P., and Schultz L. 1997. Cosmic-ray exposure ages of diogenites and the recent collisional history of the howardite, eucrite and diogenite parent body/bodies. Meteoritics & Planetary Science 32: 891902.
  • Wolf R., Ebihara M., Richter G. R., and Anders E. 1983. Aubrites and diogenites: Trace element clues to their origin. Geochimica et Cosmochimica Acta 47: 22572270.