SEARCH

SEARCH BY CITATION

REFERENCES

  • Anders E. and Grevesse N. (1989) Abundances of the elements: Meteoritic and solar. Geochim. Cosmochim. Acta 53, 197214.
  • Barnes S. J. (1986) The distribution of chromium among orthopyroxene, spinel and silicate liquid at atmospheric pressure. Geochim. Cosmochim. Acta 50, 18891909.
  • Bartels K. S. and Grove T. L. (1991) High-pressure experiments on magnesian eucrite compositions: Constraints on magmatic processes in the eucrite parent body. Proc. Lunar Planet. Sci. Conf. 21st, 351365.
  • Basaltic Volcanism Study Project (BVSP) (1981) Basaltic Volcanism on the Terrestrial Planets. Pergamon Press, New York, New York. 1286 pp.
  • Binzel R. P. (1996) Astronomical evidence linking Vesta to the HED meteorites: A review. In Workshop on the Evolution of Igneous Asteroids: Focus on Vesta and the HED Meteorites (eds. D. W.Mittlefehldt and J. J.Papike), p. 2. Lunar and Planetary Institute, Houston, Texas.
  • Binzel R. P. and Xu S. (1993) Chips off of asteroid 4 Vesta: Evidence for the parent body of basaltic achondrite meteorites. Science 260, 186191.
  • Bowman L. E., Papike J. J. and Spilde M. N. (1996) Modal abundances in diogenites: Insights into phase percentages using electron microprobe techniques (abstract). Lunar Planet. Sci. 27, 147148.
  • Britt D. T. and Consolmagno G. J. (1997) The porosity of meteorites and asteroids: Results from the Vatican collection of meteorites (abstract). Lunar Planet. Sci. 28, 159160.
  • Bunch T. E. (1975) Petrography and petrology of basaltic achondrite polymict breccias (howardites). Proc. Lunar Sci. Conf. 6th, 469492.
  • Chou C. L., Boynton W. V., Bild R. W., Kimberlin J. and Wasson J. T. (1976) Trace element evidence regarding a chondritic component in howardite meteorites. Proc. Lunar Planet. Sci. Conf. 7th, 35013518.
  • Clayton R. N. and Mayeda T. K. (1996) Oxygen isotope compositions of achondrites. Geochim. Cosmochim. Acta 60, 19992017.
  • Colson R. O., McKay G. A. and Taylor L. A. (1988) Temperature and composition dependencies of trace element partitioning: Olivine/melt and low-Ca pyroxene/melt. Geochim. Cosmochim. Acta 52, 539553.
  • Consolmagno G. J. and Drake M. J. (1977) Composition and evolution of the eucrite parent body: Evidence from rare earth elements. Geochim. Cosmochim. Acta 41, 12711282.
  • Deer W. A., Howie R. A. and Zussman J. (1966) An Introduction to Rock-forming Minerals. Longman Group Ltd., London, U.K. 528 pp.
  • Delaney J. S. (1995) 4 Vesta: A thick-skinned parent for basaltic achondrites (abstract). Lunar Planet. Sci. 26, 329330.
  • Delaney J. S., Prinz M. and Takeda H. (1984) The polymict eucrites. Proc. Lunar Planet. Sci. 15th, C251C288.
  • Dreibus G. and Wänke H. (1980) The bulk composition of the eucrite parent asteroid and its bearing on planetary evolution. Z. Naturforsch. 35a, 204216.
  • Dreibus G., Kruse H., Spettel B. and Wänke H. (1977) The bulk composition of the moon and eucrite parent body. Proc. Lunar Sci. Conf. 8th, 211227.
  • Duke M. B. and Silver L. T. (1967) Petrology of eucrites, howardites and mesosiderites. Geochim. Cosmochim. Acta 31, 16371665.
  • Fowler G. W., Papike J. J., Spilde M. N. and Shearer C. K. (1994) Diogenites as crystal cumulates: Insights from orthopyroxene major and minor element chemistry. Geochim. Cosmochim. Acta 58, 39213929.
  • Fowler G. W., Shearer C. K., Papike J. J. and Layne G. D. (1995) Diogenites as asteroidal cumulates: Insights from orthopyroxene trace element chemistry. Geochim. Cosmochim. Acta 59, 30713084.
  • Fukuoka T., Boynton W. V. and Schmitt R. A. (1977) Genesis of howardites, diogenites, and eucrites. Proc. Lunar Sci. Conf. 8th, 187210.
  • Gaffey M. J. (1996) Asteroid spectroscopy: Vesta, the basaltic achondrites, and other differentiated asteroids. In Workshop on the Evolution of Igneous Asteroids: Focus on Vesta and the HED Meteorites (eds. D.W.Mittlefehldt and J. J.Papike), pp. 89. Lunar and Planetary Institute, Houston, Texas.
  • Gaffey M. J. Bell J. F. and Cruikshank D. P. (1989) Reflectance spectroscopy and asteroid surface mineralogy. In Asteroids II (eds. R. P.Binzel, T.Gehrels and M. S.Matthews), pp. 98127. Univ. Arizona Press, Tucson, Arizona.
  • Gast P. W., Hubbard N. J. and Weismann H. (1970) Chemical composition and pedogenesis of basalts from Tranquillity Base. Proc. Apollo II Lunar Sci. Conf. 2nd, 11431163.
  • Grove T. L. and Bartels K. S. (1992) The relation between diogenite cumulates and eucrite magmas. Proc. Lunar Planet. Sci. Conf. 22nd, 437445.
  • Hamet J., Nakamura N., Unruh D. M. and Tatsumoto M. (1978) Origin and history of the adcumulate eucrite, Moama as inferred from REE abundances, Sm-Nd and U-Pb systematics. Proc. Lunar Planet. Sci. Conf. 9th, 11151136.
  • Hewins R. H. and Newsom H. E. (1988) Igneous activity in the early solar system. In Meteorites and the Early Solar System (eds. J. F.Kerridge and M. S.Matthews), pp. 73101. Univ. Arizona Press, Tucson, Arizona.
  • Ikeda Y. and Takeda H. (1985) A model for the origin of basaltic achondrites based on the Yamato 7308 howardite. Proc. Lunar Planet. Sci. Conf. 15th, C649C663.
  • Jarosewich E. (1990) Chemical analyses of meteorites: A compilation of stony and iron meteorite analyses. Meteoritics 25, 323337.
  • Jones J. H. (1984) The composition of the mantle of the eucrite parent body and the origin of eucrites. Geochim. Cosmochim. Acta 48, 641648.
  • Jones J. H., Treiman A. H., Janssens M-J., Wolf R. and Ebihara M. (1988) Core formation on the Eucrite Parent Body, the Moon and the AdoR Parent Body (abstract). Meteoritics 23, 276277.
  • Jones J. H., Paslick C. R. and McKay G. A. (1990) Experimental constraints on the composition of the eucrite parent body (abstract). Lunar Planet. Sci. 21, 581582.
  • Jones J. H., Mittlefehldt D. W., Jurewicz A. J. G., Lauer H. V., Hanson B. Z., Paslick C. R. and McKay G. (1996) The origin of eucrites: An experimental perspective. In Workshop on Evolution Igneous Asteroids: Focus on Vesta and the HED Meteorites (eds. D. W.Mittlefehldt and J. J.Papike), p. 15. Lunar and Planetary Institute, Houston, Texas.
  • Jurewicz A. J. G., Mittlefehldt D. W. and Jones J. H. (1993) Experimental partial melting of the Allende (CV) and Murchison (CM) chondrites and the origin of asteroidal basalts. Geochim. Cosmochim. Acta 57, 21232139.
  • Jurewicz A. J. G., Mittlefehldt D. W. and Jones J. H. (1995) Experimental partial melting of the St. Severin (LL) and Lost City (H) chondrites. Geochim. Cosmochim. Acta 59, 391408.
  • Longhi J. and Pan V. (1988) Phase equilibrium constraints on the howardite-eucrite-diogenite association. Proc. Lunar Planet. Sci. Conf. 18th, 459470.
  • Lugmair G. W. and Shukolyukov A. (1997) 53Mn-53Cr isotope systematics of the HED parent body (abstract). Lunar Planet. Sci. 28, 851852.
  • Mason B. (1963) The Hypersthene Achondrites. Am. Mus. Novitates 2155, 13 pp.
  • Marsh B. D. and Maxey M. R. (1985) On the distribution and separation of crystals in convecting magma. J. Volcan. Geothermal Res. 24, 95150.
  • Mason B. (1967) Meteorites. American Scientist 51, 429455.
  • Mason B., Jarosewich E. and Nelen J. A. (1979) The pyroxene-plagioclase achondrites. Smithson. Contrib. Earth Sci. 22, 2745.
  • McKay G. A. (1986) Crystal/liquid partitioning of REE in basaltic systems: Extreme fractionation of REE in olivine. Geochim. Cosmochim. Acta 50, 6979.
  • McKay G. A. and Weill D. F. (1976) Petrogenesis of KREEP. Proc. Lunar Sci. Conf. 7th, 24272447.
  • McKay G., Wagstaff J. and Le L. (1990) REE distribution coefficients for pigeonite: Constraints on the origin of the mare basalt Eu anomaly (abstract). Lunar Planet. Sci. 21, 773774.
  • McKay G., Le L. and Wagstaff J. (1991) Constraints on the origin of the mare basalt europium anomaly: REE partition coefficients for pigeonite (abstract). Lunar Planet. Sci. 22, 883884.
  • McKay G., Le L. and Wagstaff J. (1991) Constraints on the origin of the mare basalt europium anomaly: REE partition coefficients for pigeonite (abstract). Lunar Planet. Sci. 11, 883884.
  • Mittlefehldt D. W. (1979) Petrographic and chemical characterization of igneous lithic clasts from mesosiderites and howardites and comparison with eucrites and diogenites. Geochim. Cosmochim. Acta 43, 19171935.
  • Mittlefehldt D. W. (1994) The genesis of diogenites and HED parent body petrogenesis. Geochim. Cosmochim. Acta 58, 15371552.
  • Mittlefehldt D. W. and Lindstrom M. (1993) Geochemistry and petrology of a suite of ten Yamato HED meteorites. Proc. NIPR Symp. Antarct. Meteor. 6, 268292.
  • Miyamoto M. and Takeda H. (1977) Evaluation of a crust model of eucrites from the width of exsolved pyroxene. Geochem. J. 11, 161169.
  • Miyamoto M. and Takeda H. (1994) Evidence for the excavation of deep crustal material of a Vesta-like body from Ca compositional gradients in pyroxene. Earth Planet. Sci. Lett. 122, 343349.
  • Miyamoto M., Duke M. B. and McKay D. S. (1985) Chemical zoning and homogenization of Pasamonte-type pyroxene and their bearing on thermal metamophism of a Howardite Parent Body. Proc. Lunar Sci. Conf. 15th, C629C635.
  • Morgan J. W., Higuchi H., Takahashi H. and Hertogen J. (1978) A “chondritic” eucrite parent body: Inference from trace elements. Geochim. Cosmochim. Acta 42, 2738.
  • Morrison D. (1977) Asteroid sizes and albedos. Icarus 31, 185220.
  • Nakamura N. and Masuda A. (1980) REE abundances in the whole rock and mineral separates of the Allan Hills-765 meteorite. Mem. Natl. Inst. Polar Res., Spec. Issue 17, 159167.
  • Newsom H. E. (1985) Molybdenum in eucrites: Evidence for a metal core in the eucrite parent body. Proc. Lunar Planet. Sci. Conf. 15th, C613C617.
  • Newsom H. and Drake M. J. (1982) The metal content of the eucrite parent body: Constraints from the partitioning behavior of tungsten. Geochim. Cosmochim. Acta 46, 24832489.
  • Newsom H. and Drake M. J. (1983) Experimental investigation of the partitioning of phosphorus between metal and silicate phases: Implications for the Earth, Moon and Eucrite Parent Body. Geochim. Cosmochim. Acta 47, 93100.
  • Palme H. and Rammensee W. (1981) The significance of W in planetary differentiation processes: Evidence from new data on eucrites. Proc. Lunar Planet. Sci. Conf. 12th, 949964.
  • Palme H., Baddenhausen H., Blum K., Cendales M., Dreibus G., Hofmeister H., Kruse H., Palme C., Spettel B., Vilcsek E. and Wänke H. (1978) New data on lunar samples and achondrites and a comparison of the least fractionated samples from the earth, the moon and the eucrite parent body. Proc. Lunar Planet. Sci. Conf. 9th, 2527.
  • Phinney W. C. and Morrison D. A. (1990) Partition coefficients for calcic plagioclase: Implications for Archean anorthosites. Geochim. Cosmochim. Acta 54, 16391654.
  • Pun A. and Papike J. J. (1996) Unequilibrated eucrites and the equilibrated Juvinas eucrite: Pyroxene REE systematics and major, minor, and trace element zoning. Am. Mineral. 81, 14381451.
  • Righter K. and Drake M. J. (1997a) Formation of eucrites and diogenites on a Vesta-sized asteroid: I. Core formation (abstract). Lunar Planet Sci. 28, 11771178.
  • Righter K. and Drake M. J. (1997b) Formation of eucrites and diogenites on a Vesta-sized asteroid: II. Equilibrium crystallization of a chondritic magma ocean (abstract). Lunar Planet Sci. 28, 11791180.
  • Ruzicka A., Snyder G. A. and Taylor L. A. (1997a) Could eucrites have formed as residual liquids in a magma ocean? (abstract). Lunar Planet Sci. 28, 12131214.
  • Ruzicka A., Snyder G. A. and Taylor L. A. (1997b) Formation of eucrites and diogenites in a magma ocean on the HED parent body (abstract). Lunar Planet Sci. 28, 12151216.
  • Schmitt R. A., Smith R. H. and Olehy D. A. (1964) Rare-earth, yttrium and scandium abundances in meteoritic and terrestrial matter-II. Geochim. Cosmochim. Acta 28, 6786.
  • Schmitt R. A., Goles G. G., Smith R. H. and Osborn T. W. (1972) Elemental abundances in stone meteorites. Meteoritics 7, 131213.
  • Schnetzler C. C. and Philpotts J. A. (1969) Genesis of the calcium-rich achondrites in light or rare-earth and barium concentrations. In Meteorite Research (ed. P. H.Millman), pp. 206215. D. Reidel Publishing Co., Dordrecht, Holland.
  • Schubart J. and Matson D. L. (1979) Masses and densities of asteroids. In Asteroids (eds. T.Gehrels and M. S.Matthews), pp. 8497. Univ. Arizona Press, Tucson, Arizona.
  • Schwandt C. S. and McKay G. A. (1996) REE partition coefficients from synthetic diogenite-like enstatite and the implications of petrogenetic modeling. In Workshop on the Evolution of Igneous Asteroids: Focus on Vesta and the HED Meteorites (eds. D. W.Mittlefehldt and J. J.Papike), pp. 2527. Lunar and Planetary Institute, Houston, Texas.
  • Shimuzu H. and Masuda A. (1986) REE patterns of eucrites and their genetic implications. Geochim. Cosmochim. Acta 50, 24532460.
  • Snyder G. A. and Taylor L. A. (1993) Constraints on the genesis and evolution of the Moon's magma ocean and derivative cumulate sources as supported by lunar meteorites. Proc. NIPR Symp. Antarct. Meteor. 6, 246267.
  • Standish E. M., Jr. and Hellings R. W. (1989) A determination of the masses of Ceres, Pallas, and Vesta from their perturbations upon the orbit of Mars. Icarus 80, 326333.
  • Stolper E. (1977) Experimental petrology of eucritic meteorites. Geochim. Cosmochim. Acta 41, 587611.
  • Takeda H. (1979) A layered crust model of a howardite parent body. Icarus 40, 455470.
  • Takeda H. (1996) Mineralogical records of early planetary processes of the HED parent body. In Workshop on the Evolution of Igneous Asteroids: Focus on Vesta and the HED Meteorites (eds. D. W.Mittlefehldt and J. J.Papike), pp. 3031. Lunar and Planetary Institute, Houston, Texas.
  • Takeda H. and Mori H. (1985) The diogenite-eucrite links and the crystallization history of a crust of their parent body. Proc. Lunar Planet. Sci. Conf. 15th, C636C648.
  • Takeda H., Miyamoto M., Ishii T. and Reid A. M. (1976) Characterization of crust formation on a parent body of achondrites and the moon by pyroxene crystallography and chemistry. Proc. Lunar. Sci. Conf. 7th, 35353548.
  • Takeda H., Miyamoto M., Ishii T., Yanai K. and Matsumoto Y. (1979) Mineralogical examination of the Yamato-75 achondrites and their layered crust. Mem. Natl. Inst. Polar Res., Spec. Issue 12, 82108.
  • Taylor G. J., Keil K., McCoy T., Haack H. and Scott E. R. D. (1993) Asteroid differentiation: Pyroclastic volcanism to magma oceans. Meteoritics 28, 3452.
  • Thomas P. C., Binzel R. P., Gaffey M. J., Zellner B. H., Storrs A. D. and Wells E. (1996) Vesta: Spin Pole, Size, and Shape from HST images. In Workshop on the Evolution of Igneous Asteroids: Focus on Vesta and the HED Meteorites (eds. D. W.Mittlefehldt and J. J.Papike), pp. 3233. Lunar and Planetary Institute, Houston, Texas.
  • Tonks W. B. and Melosh H. J. (1990) The physics of crystal settling and suspension in a turbulent magma ocean. In Origin of the Earth (eds. H. E.Newsom and J. H.Jones), pp. 151174. Oxford Univ. Press, New York, New York.
  • Turcotte D. L. and Schubert G. (1982) Geodynamics: Application of Continuum Physics to Geological Problems. John Wiley & Sons, New York, New York. 450 pp.
  • Wänkeh (1981) Constitution of terrestrial planets. Phil. Trans. Roy. Soc. Land A 303, 287302.
  • Wänke H., Baddenhausen H., Balacescu A., Teschke F., Spettel B., Dreibus G., Palme H., Quijano-Rico M., Kruse H., Wlotzka F. and Begemann F. (1972) Multielement analyses of lunar samples and some implications of the results. Proc. Lunar Sci. Conf 3rd, 12511268.
  • Wänke H., Palme H., Baddenhausen H., Dreibus G., Palme H., Jagoutz E., Kruse H., Spettel B., Teschke F. and Thacker R. (1974) Chemistry of Apollo 16 and 17 samples: Bulk composition, late stage accumulation and early differentiation of the moon. Proc. Lunar Sci. Conf. 5th, 13071335.
  • Wänke H., Baddenhausen H., Blum K., Cendales M., Dreibus G., Hofmeister H., Kruse H., Jagoutz E., Palme C., Spettel B., Thacker R. and Vilcsek E. (1977) On the chemistry of lunar samples and achondrites. Primary matter in the lunar highlands: A reevaluation. Proc. Lunar Sci. Conf. 8th, 21912213.
  • Warren P. H. (1983) Al-Sm-Eu-Sr systematics of eucrites and Moon rocks: Implications for planetary bulk compositions. Geochim. Cosmochim. Acta 47, 15591571.
  • Warren P. H. (1985) Origin of howardites, diogenites and eucrites: A mass balance constraint. Geochim. Cosmochim. Acta 49, 577586.
  • Warren P. H. and Jerde E. A. (1987) Composition an origin of Nuevo Laredo Trend eucrites. Geochim. Cosmochim. Acta 51, 713725.
  • Wasson J. T. and Kallemeyn G. W. (1988) Compositions of chondrites. Phil. Trans. Roy. Soc Lond A 325, 535544.
  • Weill D. F. and McKay G. A. (1975) The partitioning of Mg, Fe, Sr, Ce, Sm, Eu, and Yb in lunar igneous systems and a possible origin of KREEP by equilibrium partial melting. Proc. Lunar Sci. Conf. 6th, 11431158.