Geology Reference
In-Depth Information
54. LEW 87051—ANgRiTE
hot crust of asteroid 4 Vesta ~4.50 ga ago,
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(1995), Exotic olivine in Antarctic angrites LEW 87051
and Asuka 881371,
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[398] McKay g., g. Crozaz, J. Wagstaff, S.-R. yang, and
L. Lundberg (1990), A petrographic, electron microprobe
and ion microprobe study of mini-angrite Lewis Cliff
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56. ALH A81001—UNBRECCiATED EUCRiTE
[408] Delaney, J. S., M. Prinz, C. E. Nehru, and C. P. Stokes
(1984), Allan Hills A81001, cumulate eucrites and black
clasts from polymict eucrites,
Lunar and Planetary Science
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, 212-213.
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(2009), Petrology of the unbrecciated eucrites,
Geochim.
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, 794-819.
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McCoy , C. M. Corrigan, and A. gale (2010), Petrologic
insights from the spectra of the unbrecciated eucrites:
implications for Vesta and basaltic asteroids,
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(7), 1074-1092.
[411] Ruzicka, A., g. A. Snyder, and L. A. Taylor (1997), Vesta
as the howardite, eucrite and diogenite parents body:
implications for the size of a core and for large-scale
differentiation,
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32
, 825-840.
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Sanders (2009), oxygen isotopic constraints on the origin
and parent bodies of eucrites, diogenites, and howardites,
Geochim. Cosmochim. Acta
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73
, 5835-5853.
55. EET 90020- UNBRECCiATED EUCRiTE
[400] Bogard, D. D., and D. H. garrison (1997),
39
Ar-
40
Ar ages
of igneous non-brecciated eucrites,
Lunar Planet. Sci.
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28
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[401] Lee, D.-C. (2008),
182
Hf-
182
W chronometry and the early
evolution history in the acapulcoite-lodranite parent
body,
Meteorit. Planet. Sci.
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43
, 675-684.
[402] Mittlefehldt, D. W., and M. M. Lindstrom (2003),
geochemistry of eucrites: genesis of basaltic eucrites, and
Hf and Ta as petrogenetic indicators for altered Antarctic
eucrites,
Geochim. Cosmochim. Acta
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67
, 1911-1939.
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Sander (2009), oxygen isotopic constraints on the origin
and parent bodies of eucrites, diogenites, and howardites,
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73
, 5835-5853.
[404] Srinivasan, g., M. J. Whitehouse, i. Weber, and A.
yamaguchi (2007), The crystallization age of eucrite
zircon,
Science
,
317
, 345-347.
[405] Stirling, C. H., A. N. Halliday, E. K. Potter, M. B.
Andersen, and B. Zanda (2009), A low initial abundance
of
247
Cm in the early solar system and implications for
r-process nucleosynthesis,
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251
,
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[406] Warren, P. H., g. W. Kallemeyn, H. Huber, F. Ulff-
Møller, and W. Choe (2009), Siderophile and other geo-
chemical constraints on mixing relationships among
HED-meteoritic breccias,
Geochim. Cosmochim. Acta
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73
, 5918-5943.
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L. E. Nyquist, D. H. garrison, y. D., Reese, H. Wiesmann,
C. y. and Shih (2001), Post-crystallization reheating and
partial melting of eucrite EET 90020 by impact into the
57. ALH A76005—PoLyMiCT EUCRiTE
[413] Delaney, J. S., M. Prinz, and H. Takeda (1983), Modal
comparison of yamato and Allan Hills polymict eucrites,
Mem. Natl. Inst. Polar Res.
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30
(Spec. issue), 206-223.
[414] Fuhrman, M., and J. J. Papike (1982), Howardites and
polymict eucrites: Regolith samples from the eucrite
parent body: Petrology of Bholgati, Bununu, Kapoeta,
and ALH A76005,
12th Lunar Planet. Sci. Conf. Proc
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(pp. 1257-1279), New york and oxford, Pergamon Press.
[415] grossman, L., E. olsen, A. M. Davis, T. Tanaka, and g.
J. MacPherson (1981), The Antarctic achondrite ALH
A76005: A polymict eucrite,
Geochim. Cosmochim. Acta
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45
, 1267-1279.
[416] Kunz, J., M. Trieloff, K. D. Bobe, K. Metzler, D. Stöffler,
and E. K. Jessberger (1995), The collisional history of the
HED parent body inferred from
40
Ar-
39
Ar ages of eucrites,
Planetary and Space Science
,
43
, 527-543.
[417] Labotka, T. C., and J. J. Papike (1980), Howardites:
Samples of the regolith of the eucrite parent-body:
Petrology of Frankfort, Pavlovka, yurtuk, Malvern, and
ALH A77302,
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[418] Metzler, K., K. D. Bobe, H. Palme, B. Spettel, and
D. Stöffler (1995), Thermal and impact metamorphism
on the HED parent asteroid,
Planetary and Space Science
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43
, 499-525.
[419] Mittlefehldt, D. W., and M. M. Lindstrom (2003),
geochemistry of eucrites: genesis of basaltic eucrites, and
Hf and Ta as petrogenetic indicators for altered Antarctic
eucrites,
Geochim. Cosmochim. Acta
,
67
, 1911-1934.
