05 Classification of.. - Department of Earth and Planetary Sciences

References 121
Benedix G. K., McCoy T. J., Keil K., Bogard D. D., and
Garrison D. H. (1998) A petrologic and isotopic study of
winonaites: evidence for early partial melting, brecciation,
and metamorphism. Geochim. Cosmochim. Acta 62,
2535–2553.
Benedix G. K., McCoy T. J., Keil K., and Love S. G. (2000) A
petrologic study of the IAB iron meteorites: constraints on
the formation of the IAB-winonaite parent body. Meteorit.
Planet. Sci. 35, 1127–1141.
Berkley J. L. and Goodrich C. A. (2001) Evidence for multiepisodic
igneous events in ureilite MET 78008. Meteorit.
Planet. Sci. 36, A18–A19.
Berkley J. L., Keil K., and Prinz M. (1980) Comparative
petrology and origin of Governador Valadares and other
nakhlites. Proc. Lunar. Planet. Sci. Conf. 11, 1089–1102.
Bild R. W. and Wasson J. T. (1977) Netchaëvo: a new class of
chondritic meteorite. Science 197, 58–62.
Binzel R. P. and Xu S. (1993) Chips off of asteroid 4 Vesta:
evidence for the parent body of basaltic achondrite
meteorites. Science 260, 186–191.
Bischoff A. (2000) Mineralogical characterization of primitive,
type-3 lithologies in Rumuruti chondrites. Meteorit. Planet.
Sci. 35, 699–706.
Bischoff A. and Metzler K. (1991) Mineralogy and petrography
of the anomalous carbonaceous chondrites Yamato-86720,
Yamato-82162, and Belgica-7904. Proc. NIPR Symp.
Antarct. Meteorit. 4, 226–246.
Bischoff A., Palme H., Ash R. D., Clayton R. N., Schultz L.,
Herpers U., Stöffler D., Grady M. M., Pillinger C. T., Spettel
B., Weber H., Grund T., Endreb M., and Weber D. (1993a)
Paired Renazzo-type (CR) carbonaceous chondrites from the
Sahara. Geochim. Cosmochim. Acta 57, 1587–1603.
Bischoff A., Palme H., Schultz L., Weber D., Weber H., and
Spettel B. (1993b) Acfer 182 and paired samples, an ironrich
carbonaceous chondrite: similarities with ALH85085
and relationship to CR chondrites. Geochim. Cosmochim.
Acta 57, 2631–2648.
Bischoff A., Geiger T., Palme H., Spettel B., Schultz L.,
Scherer P., Loeken T., Bland P., Clayton R. N., Mayeda
T. K., Herpers U., Meltzow B., Michel R., and Dittrich-
Hannen B. (1994) Acfer 217: a new member of the Rumuruti
chondrite group (R). Meteoritics 29, 264–274.
Boesenberg J. S., Davis A. M., Prinz M., Weisberg M. K.,
Clayton R. N., and Mayeda T. K. (2000) The pyroxene
pallasites Vermillion and Yamato 8451: not quite a couple.
Meteoritics Planet. Sci. 35, 757–769.
Bogard D. D., Garrison D. H., and McCoy T. J. (2000)
Chronology and petrology of silicates from IIE iron
meteorites: evidence of a complex parent body evolution.
Geochim. Cosmochim. Acta 64, 2133–2154.
Bourot-Denise M., Zanda B., and Javoy M. (2002) Tafassesset:
an equilibrated CR chondrite. In Lunar Planet. Sci. XXXIII,
#1611. The Lunar and Planetary Institute, Houston (CD-
ROM).
Bowman L. E., Spilde M. N., and Papike J. J. (1997)
Automated energy dispersive spectrometer modal analysis
applied to diogenites. Meteorit. Planet. Sci. 32, 869–875.
Brearley A. J. (1989) Nature and origin of matrix in the unique
type 3 chondrite, Kakangari. Geochim. Cosmochim. Acta
53, 197–214.
Brearley A. J. (1991) Mineralogical and chemical studies of
matrix in the Adelaide meteorite, a unique carbonaceous
chondrite with affinities to ALH A77307 (CO3). In Lunar
Planet. Sci. XXII. The Lunar and Planetary Institute,
Houston, pp. 133–134.
Brearley A. J. (1997) Phyllosilicates in the matrix of the unique
carbonaceous chondrite, LEW 85332 and possible implications
for the aqueous alteration of CI chondrites. Meteorit.
Planet. Sci. 32, 377–388.
Brearley A. J. and Jones R. H. (1998) Chondritic meteorites.
In Planetary Materials, Reviews in Mineralogy (ed. J. J.
Papike). Mineralogical Society of America, Washington,
DC, vol. 36, chap. 3, pp. 3-1–3-398.
Brown P. G., Hildebrand A. R., Zolensky M. E., Grady M.,
Clayton R. N., Mayeda T. K., Tagliaferri E., Spalding R.,
MacRae N. D., Hoffman E. L., Mittlefehldt D. W., Wacker
J. F., Bird J. A., Campbell M. D., Carpenter R., Gingerich
H., Glatiotis M., Greiner E., Mazur M. J., McCausland P. J.,
Plotkin H., and Mazur T. R. (2000) The fall, recovery,
orbit, and composition of the Tagish Lake meteorite: a new
type of carbonaceous chondrite. Science 290, 320–325.
Browning L. B., McSween H. Y. Jr., and Zolensky M. E.
(1996) Correlated alteration effects in CM carbonaceous
chondrites. Geochim. Cosmochim. Acta 60, 2621–2633.
Brownlee D. E., Tomandl D., and Hodge P. W. (1976)
Extraterrestrial particles in the stratosphere. In Interplanetary
Dust and the Zodiacal Light (eds. H. Elsasser and
H. Fechtig). Springer, New York, pp. 279–284.
Bunch T. E. and Olsen E. (1968) Potassium feldspar in
Weekeroo Station, Kodaikanal, and Colomera iron meteorites.
Science 160, 1223–1225.
Bunch T. E., Keil K., and Olsen E. (1970) Mineralogy and
petrology of silicate inclusions in iron meteorites. Contrib.
Mineral. Petrol. 25, 297–340.
Burbine T. H., McCoy T. J., Meibom A., Gladman B., and
Keil K. (2002) Meteoritic parent bodies: their number and
identification. In Asteroids III (eds. W. Bottke, A. Cellino, P.
Paolicchi, and R. P. Binzel). University of Arizona Press,
Tucson, pp. 653–669.
Buseck P. R. (1977) Pallasite meteorites mineralogy, petrology
and geochemistry. Geochim. Cosmochim. Acta 41, 711–740.
Casanova I., Keil K., and Newsom H. E. (1993) Composition of
metal in aubrites: constraints on core formation. Geochim.
Cosmochim. Acta 57, 675–682.
Casanova I., Graf T., and Marti K. (1995) Discovery of an
unmelted H-chondrite inclusion in iron meteorite. Science
268, 540–542.
Choi B.-G., Quyang X., and Wasson J. T. (1995) Classification
and origin of IAB and IIICD iron meteorites. Geochim.
Cosmochim. Acta 59, 593–612.
Clayton R. N. and Mayeda T. K. (1996) Oxygen-isotope
studies of achondrites. Geochim. Cosmochim. Acta 60,
1999–2018.
Clayton R. N. and Mayeda T. K. (1999) Oxygen isotope studies
of carbonaceous chondrites. Geochim. Cosmochim. Acta 63,
2089–2104.
Clayton R. N. and Mayeda T. K. (2001) Oxygen isotope
composition of the Tagish Lake carbonaceous chondrite.
In Lunar Planet. Sci. XXXII, #1885. The Lunar and
Planetary Institute, Houston, (CD-ROM).
Clayton R. N., Mayeda T. K., and Rubin A. E. (1984) Oxygen
isotopic compositions of enstatite chondrites and aubrites.
Proc. 15th Lunar Planet. Sci. Part 1: J. Geophys. Res. B89,
C245–C249.
Crabb J. and Schultz L. (1981) Cosmic-ray exposure ages of
the ordinary chondrites and their significance for parent body
stratigraphy. Geochim. Cosmochim. Acta 45, 2151–2160.
Davis A. M. and Olsen E. J. (1991) Phosphates in pallasite
meteorites as probes of mantle processes in small planetary
bodies. Nature 353, 637–640.
Davis A. M., Grossman L., and Ganapathy R. (1977) Yes,
Kakangari is a unique chondrite. Nature 265, 230–232.
Davy R., Whitehead S. G., and Pitt G. (1978) The Adelaide
meteorite. Meteoritics 13, 121–139.
Drake M. J. (2001) The eucrite/Vesta story. Meteoritics Planet.
Sci. 36, 501–513.
Endress M. and Bischoff A. (1993) Mineralogy, degree of
brecciation, and aqueous alteration of CI chondrites Orgueil,
Ivuna, and Alais. Meteoritics 28, 345–346.
Endress M. and Bischoff A. (1996) Carbonates in CI
chondrites: clues to parent body evolution. Geochim.
Cosmochim. Acta 60, 489–507.
Endress M., Zinner E. K., and Bischoff A. (1996) Early
aqueous activity on primitive meteorite parent bodies.
Nature 379, 701–703.