Curation and Allocation of Samples in the U.S. Antarctic Meteorite Collection - 35 Seasons of U.S. Antarctic Meteorites

Geology Reference

In-Depth Information

50. ALH A78113—AUBRiTE

[382] Wilson, L., and K. Keil (1991), Consequences of explosive

eruptions on small solar system bodies: The case of the

missing basalts on the aubrite parent body. Earth Planet.

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Composition of metal in aubrites: Constraints on core

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[369] Floss, C., g. Crozaz, and M. M. Strait (1990), Rare earth

elements and the petrogenesis of aubrites, Geochim.

Cosmochim. Acta , 54 , 3553-3558.

[370] Fogel, R. A. (2005), Aubrite basalt vitrophyres: The

missing basaltic component and high-sulfur silicate melts,

Geochim. Cosmochim. Acta 69 , 1633-1648.

[371] gaffey, M. J., E. A. Cloutis, M. S. Kelley, and K. L. Reed

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[372] Keil, K. (1989), Enstatite meteorites and their parent

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[373] Kimura, M., y.-T. Lin, y. ikeda, A. El goresy, K. yanai,

and H. Kojima (1992), Petrology and mineralogy of

Antarctic aubrites, y-793592 and ALH-78113, in

comparison with non-Antarctic aubrites and

E-chondrites, 17th Symposium on Antarctic Meteorites ,

NIPR , 217-218.

[374] Kimura, M., y. T. Lin, y. ikeda, A. El goresy , K. yanai,

and H. Kojima (1993), Mineralogy of Antarctic aubrites,

yamato-793592 and Allan Hills-78113: Comparison with

non-Antarctic aubrites and E-chondrites, 17th Symposium

on Antarctic Meteorites, Proc. NIPR , 6 , 186.

[375] Lipschutz, M. E., R. M. Verkouteren, D. W. g. Sears,

F. A. Hasan, and M. Prinz (1988), Cumberland Falls

chondritic inclusions: iii. Consortium study of relation-

ship to inclusions in Allan Hills 78113 aubrite, Geochim.

Cosmochim. Acta , 52 , 1835-1848.

[376] Lorenzetti, S., o. Eugster, H. Busemann, K. Marti, T. H.

Burbine, and T. McCoy (2003), History and origin of

aubrites, Geochim. Cosmochim. Acta , 67 , 557-571.

[377] Miura, y. N., H. Hidaka, K. Nishiizumi, and M.

Kusakabe (2007), Noble gas and oxygen isotope studies

of aubrites: A clue to origin and histories, Geochim.

Cosmochim. Acta , 71 , 251-270.

[378] Nedelcu, D. A., M. Birlan, P. Vernazza, R. P. Binzel, M.

Fulchignoni, M. A. Barucci (2007), E-type asteroid

(2867), Steins: Flyby target for Rosetta, Astronomy and

Astrophysics , 473 , L33-L36.

[379] Rosenshein, E. B., M. A. ivanova, T. L. Dickinson, T. J.

McCoy, D. S. Lauretta, y. guan, L. A. Leshin, and g. K.

Benedix (2006), oxide-bearing and Feo-rich clasts in

aubrites, Meteoritics , 41 , 495-503.

[380] Watters, T. R., M. Prinz, E. R. Rambaldi, and J. T.

Wasson (1980), ALH A78113, Mt. Egerton and the

Aubrite Parent Body, Meteoritics , 15 , 386.

[381] Wheelock, M. M., K. Keil , C. Floss, g. J. Taylor, and

g. Crozaz (1994), REE geochemistry of oldhamite-

dominated clasts from the Norton County aubrite:

igneous origin of oldhamite, Geochim. Cosmochim. Acta ,

58 , 449-458.

51. LAP 03719—UNBRECCiATED oLiViNE

AUBRiTE

[383] McCoy, T. J., A. gale, and T. L. Dickinson (2005), The

early crystallization history of the aubrite parent body,

Annual Meteoritical Society Meeting , 68 , 5165.

[384] Rubin, A. E. (2009), Shock effects in EH6 chondrites and

aubrites: implications for collisional heating of asteroids,

Lunar Planet. Sci. Conf. , 40 , 1353.

52. LAR 04316—AUBRiTE (WiTH BASALTiC

ViTRoPHyRE CLAST)

[385] Fogel, R. A. (2005), Aubrite basalt vitrophyres: The

missing basaltic component and high-sulfur silicate melts,

Geochim. Cosmochim. Acta , 69 , 1633-1648.

[386] Keil, K., T. J. McCoy , L. Wilson, J.-A. Barrat, D. Rumble,

M. M. M. Meier, R. Wieler, and g. R. Huss (2011),

A composite Fe,Ni-FeS and enstatite-forsterite-diopside-

glass vitrophyre clast in the Larkman Nunatak 04316

aubrite: origin by pyroclastic volcanism, Meteorit.

Planet. Sci. , 46 , 1719-1741.

[387] McCoy, T. J., and A. gale (2007), Pyroclastic volcanism

on the aubrite parent body: Evidence from an Fe,Ni-FeS

clast in LAR 04316, Meteorit. Planet. Sci. , 41 , 5082.

53. LEW 86010—ANgRiTE

[388] Amelin, y. (2008), U-Pb ages of angrites, Geochim.

Cosmochim. Acta , 72 , 221-232.

[389] Crozaz, g., and g. McKay (1990), Rare earth elements in

Angra dos Reis and Lewis Cliff 86010, two meteorites

with similar but distinct magma evolutions, Earth Planet.

Sci. Lett. , 97 , 369-381.

[390] Kleine, T., U. Hans, A. J. irving, and B. Bourdon (2012),

Chronology of the angrite parent body and implications

for core formation in protoplanets, Geochim. Cosmochim.

Acta , 84 , 186-203.

[391] McKay, g., L. Le, J. Wagstaff, and g. Crozaz (1994),

Experimental partitioning of rare earth elements and

strontium: Constraints on petrogenesis and redox condi-

tions during crystallization of Antarctic angrite Lewis

Cliff 86010, Geochim. Cosmochim. Acta , 58 , 2911-2919.

[392] McKay, g. A., M. Miyamoto, T. Mikouchi, and T. ogawa

(1998), The cooling history of the LEW 86010 angrite as

inferred from kirschsteinite lamellae in olivine, Meteorit.

Planet. Sci. , 33 , 977-983.

[393] Mikouchi, T., H. Takeda, H. Mori, M. Miyamoto, and

g. McKay (1993), Exsolved kirschsteinite in angrite

LEW 86010 olivine, Lunar Planet. Sci. Conf. , 24 ,

987-988.

35 Seasons of U.S. Antarctic Meteorites

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