Geology Reference
In-Depth Information
[420] Miyamoto, M., M. B. Duke, and D. S. McKay (1985),
Chemical zoning and homogenization of Pasamonte-type
pyroxene and their bearing on thermal metamorphism of
a howardite parent body,
J. Geophys. Res.
,
90
(Suppl.),
C629 - C635.
[421] Nakamura, N., and A. Masuda (1980), REE abundances
in the whole rock and mineral separates of the Allan
Hills-765 meteorite,
Mem. Natl. Inst. Polar Res.
,
17
(Spec.
issue), 159-167.
[422] olsen, E. J., A. Noonan, K. Fredriksson, E. Jarosewich,
and g. Moreland (1978), Eleven new meteorites from
Antarctica, 1976-1977,
Meteoritics
,
13
, 209-225.
[423] Reid, A., and R. Score (1981), A preliminary report on
the achondrite meteorites in the 1979 U.S. Antarctic
meteorite collection,
Mem. Natl. Inst. Polar Res.
,
20
,
33-52.
[424] Smith, M. R., and R. A. Schmitt (1981), Preliminary
chemical data for some Allan Hills polymict eucrites,
Lunar Planet. Sci.
,
12
, 1014-1016.
[425] Simon, S. B., and J. J. Papike (1983), Petrology of igneous
lithic clasts from polymict eucrites ALH A76005 and
ALH A77302,
Meteoritics
,
18
, 35-50.
[426] Treiman, A. H., and M. J. Drake (1985), Basaltic volca-
nism on the eucrite parent body: Petrology and chemistry
of the polymict eucrite ALH A80102,
J. Geophys. Res.
,
90
(Suppl.), C619-C628.
[427] Warren, P. H., g. W. Kallemeyn, H. Huber, F. Ulff-
Møller, and W. Choe (2009), Siderophile and other
geochemical constraints on mixing relationships among
HED-meteoritic breccias,
Geochim. Cosmochim. Acta
,
73
, 5918-5943.
[433] Hiroi, T., C. M. Pieters, and H. Takeda (1994), grain
size of the surface regolith of asteroid 4 Vesta estimated
from its reflectance spectrum in comparison with HED
meteorites,
Meteoritics
,
29
, 394-396.
[434] Hiroi, T., C. M. Pieters, F. Vilas, S. Sasaki, y. Hamabe, and
E. Kurahashi (2001), The mystery of 506.5 nm feature of
reflectance spectra of Vesta and Vestoids: Evidence for
space weathering?
Earth Planets Space
,
53
, 1071-1075.
[435] Papike, J. J., C. K. Shearer, M. N. Spilde, and J. M. Karner
(2000), Metamorphic diogenite grosvenor Mountains
95555: Mineral chemistry of orthopyroxene and spinel
and comparisons to the diogenite suite,
Meteorit. Planet.
Sci.
,
35
, 875-879.
[436] Schiller, M., J. Baker, J. Creech, C. Paton, M.-A. Millet,
A. irving, and M. Bizzarro (2011), Rapid timescales for
magma ocean crystallization on the howardite-eucrite-
diogenite parent body,
Astrophys. J. Lett.
,
740
, L22-L27.
[437] Scott, E. R. D., R. C. greenwood, i. A. Franchi, and i. S.
Sanders (2009), oxygen isotopic constraints on the origin
and parent bodies of eucrites, diogenites, and howardites,
Geochim. Cosmochim. Acta
,
73
, 5835-5853.
[438] Stimpfl, M., and J. ganguly (2002), Thermal history of the
unbrecciated diogenite gRo (grosvenor Mountains),
95555: Constraints from inter- and intra-crystalline Fe-Mg
exchange reactions,
Lunar Planet. Sci. Conf.
,
33
, No. 1966.
60. gRA 98108—oLiViNE DiogENiTE
[439] Beck, A. W., and H. y. McSween Jr. (2010), Diogenites
as polymict breccias composed of orthopyroxenite and
harzburgite,
Meteorit. Planet. Sci.
,
45
, 850-872.
[440] Mittlefehldt, D. W. (2002), geochemistry of new, unusual
diogenites and constraints on diogenite genesis,
Meteorit.
Planet. Sci.
,
37
, A100.
[441] Righter, K. (2001), Petrography, mineralogy and
petrology of two new HED meteorites: Diogenite
gRA98108 and howardite gRA98030,
Lunar Planet.
Sci. Conf.
,
32
, No. 1765.
[442] Scott, E. R. D., R. C. greenwood, i. A. Franchi, and i. S.
Sanders (2009), oxygen isotopic constraints on the origin
and parent bodies of eucrites, diogenites, and howardites,
Geochim. Cosmochim. Acta
,
73
, 5835-5853.
[443] Shearer, C. K., P. Burger, and J. J. Papike (2010),
Petrogenetic relationships between diogenites and olivine
diogenites: implications for magmatism on the HED
parent body,
Geochim. Cosmochim. Acta
,
74
, 4865-4880.
58. LAP 91900—DiogENiTE
[428] Hiroi, T., C. M. Pieters, F. Vilas, S. Sasaki, y. Hamabe,
and E. Kurahashi (2001), The mystery of 506.5 nm
feature of reflectance spectra of Vesta and Vestoids:
Evidence for space weathering?
Earth Planets Space
,
53
,
1071-1075.
[429] Fowler, g. W., C. K. Shearer, J. J. Papike, and g. D. Layne
(1995), Diogenites as asteroidal cumulates: insights
from orthopyroxene trace element chemistry,
Geochim.
Cosmochim. Acta
,
59
, 3071-3084.
[430] Mittlefehldt, D. W. (1994), The genesis of diogenites and
HED parent body petrogenesis,
Geochim. Cosmochim.
Acta
,
58
, 1537.
[431] Zema, M., M. Chiara Domeneghetti, g. M. Molin, and
V. Tazzoli (1997), Cooling rates of diogenites: A study of
Fe
2+
-Mg ordering in orthopyroxene by X-ray single-crys-
tal diffraction,
Meteorit. Planet. Sci.
,
32
, 855-862.
61. EET 87503 AND PAiRS—HoWARDiTE
[444] 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.
[445] Buchanan, P. C., and D. W. Mittlefehldt (2003), Lithic
components in the paired howardites EET 87503 and
EET 87513: Characterization of the regolith of 4 Vesta,
Antarc. Met. Res.
,
16
, 128-151.
59. gRo 95555—UNBRECCiATED DiogENiTE
[432] Barrat, J. A., A. yamaguchi, R. C. greenwood, M.
Benoit, J. Cotten, M. Bohn, and i. A. Franchi (2009),
geochemistry of diogenites: Still more diversity in their
parental melts,
Meteorit. Planet. Sci.
,
43
, 1759-1775.