Geology Reference
In-Depth Information
[311] Warren, P. H., F. Ulff-Møller, H. Huber, and g. W.
Kallemeyn (2006), Siderophile geochemistry of ureilites:
A record of early stages of planetesimal core formation,
Geochim. Cosmochim. Acta
,
70
, 2104-2126.
[328] Wang, M.-S., and M. E. Lipschutz (1995), Volatile trace
elements in Antarctic ureilites,
Meteoritics
,
30
, 319.
[329] Warren, P. H., F. Ulff-Møller, H. Huber, and g. W.
Kallemeyn (2006), Siderophile geochemistry of ureilites:
A record of early stages of planetesimal core formation,
Geochim. Cosmochim. Acta
,
70
, 2104-2126.
45. PCA 82502—UREiLiTE
[312] Berkley, J. L. (1986), Four Antarctic ureilites: Petrology
and observations on ureilite petrogenisis,
Meteoritics
,
21
,
169-189.
[313] Burns, R. g., and S. L. Martinez (1991), Mossbauer
spectra of olivine-rich achondrites: Evidence for preter-
restrial redox reactions,
Proc. Lunar Planet. Sci.
,
21
,
331-340.
[314] Clayton, R. N., and T. K. Mayeda (1996), oxygen isotope
studies of achondrites,
Geochim. Cosmochim. Acta
,
60
,
1999-2017.
[315] Farquhar, J., T. L. Jackson, and M. H. Thiemens (2000),
A
33
S enrichment in ureilite meteorites: Evidence for a
nebular sulfur component,
Geochim. Cosmochim. Acta
,
64
, 1819-1825.
[316] goodrich, C. A. (1999), Are ureilites residues from partial
melting of chondritic material? The answer from
MAgPoX = 20,
Meteorit. Planet. Sci.
,
34
, 109-119.
[317] goodrich, C. A., P. J. Patchett, g. W. Lugmair, and M. J.
Drake (1991), Sm-Nd and Rb-Sr isotopic systematics of
ureilites,
Geochim. Cosmochim. Acta
,
55
, 829-848.
[318] goodrich, C. A. (1992), Ureilites: A critical review,
Meteoritics
,
27
, 327-352.
[319] Leya, i., M. Schönbächler, U. Wiechert, U. Krähenbühl,
and A. N. Halliday (2008), Titanium isotopes and the
radial heterogeneity of the solar system,
Earth Planet.
Sci. Lett.
,
266
, 233-244.
[320] Miyamoto, M., H. Takeda, and H. Toyoda (1985),
Cooling history of some Antarctic ureilites,
J. Geophys.
Res.
,
90
, D116-D122.
[321] Pasqual, D., g. Molin, and M. Tribaudino (2000), Single-
crystal thermometric calibration of Fe-Mg order-disorder
in pigeonites,
Am. Mineral.
,
85
, 953-962.
[322] Rankenburg, K., A. D. Brandon, and M. Humayun
(2007), osmium isotope systematics of ureilites,
Geochim.
Cosmochim. Acta
,
71
, 2402-2413.
[323] Rubin, A. E. (2006), Shock, post-shock annealing, and
post-annealing shock in ureilites,
Meteoritics
,
41
, 125-133.
[324] Sandford, S. A. (1993), The mid-infrared transmission
spectra of Antarctic ureilites,
Meteoritics
,
28
, 579-585.
[325] Spitz, A. H., and W. V. Boynton (1991), Trace element
analysis of ureilites: New constraints on their petrogen-
esis,
Geochim. Cosmochim. Acta
,
55
, 3417-3430.
[326] Toyoda, H., N. Haga, o. Tachikawa, H. Takeda, and T.
ishii (1986), Thermal history of ureilite, Pecora
Escarpment 82506 deduced from cation distribution and
diffusion profile of minerals,
Mem. Natl. Inst. Polar Res.
,
41
(Spec. issue), 206.
[327] Tribaudino, M., D. Pasqual, g. Molin, and L. Secco
(2003), Microtextures and crystal chemistry in P 2 1 / c
pigeonites,
Mineralogy and Petrology
,
77
(3-4), 161-176.
46. EET 83309—PoLyMiCT UREiLiTE
[330] Cohen, B. A., C. A. goodrich, and K. Keil (2004),
Feldspathic clast populations in polymict ureilites:
Stalking the missing basalts from the ureilite parent body,
Geochim. Cosmochim. Acta
,
68
, 4249-4266.
[331] Downes, H., D. W. Mittlefehldt, N. T. Kita, and and J. W.
Valley (2008), Evidence from polymict ureilite meteorites
for a disrupted and re-accreted single ureilite parent
asteroid gardened by several distinct impactors,
Geochim.
Cosmochim. Acta
,
72
, 4825-4844.
[332] Farquhar, J., T. L. Jackson, and M. H. Thiemens (2000),
A
33
S enrichment in ureilite meteorites: Evidence for a
nebular sulfur component,
Geochim. Cosmochim. Acta
,
64
, 1819-1825.
[333] goodrich, C. A., E. R. D. Scott, and A. M. Fioretti
(2004), Ureilitic breccias: Clues to the petrologic struc-
ture and impact disruption of the ureilite parent asteroid,
Chemie der Erde
,
64
, 283-327.
[334] grady, M. M., and C. T. Pillinger (1988), 15 N-enriched
nitrogen in polymict ureilites and its bearing on their
formation,
Nature
,
331
, 321-323.
[335] guan, y., and g. Crozaz (2000), LREE-enrichments in
ureilites: A detailed ion microprobe study,
Meteorit.
Planet. Sci.
,
35
, 131-144.
[336] guan, y., and g. Crozaz (2001), Microdistributions and
petrogenetic implications of rare earth elements in poly-
mict ureilites,
Meteorit. Planet. Sci.
,
36
, 1039-1056.
[337] ikeda, y., N. T. Kita, y. Morishita, and M. K. Weisberg
(2003), Primitive clasts in the Dar al gani 319 polymict
ureilite: Precursors of the ureilites,
Antarctic Meteorite
Research
,
16
, 105-127.
[338] Kita, N. T., y. ikeda, S. Togashi, L. yongzhong, y.
Morishita, and M. K. Weisberg (2004), origin of ureilites
inferred from a SiMS oxygen isotopic and trace element
study of clasts in the Dar al gani 319 polymict ureilite,
Geochim. Cosmochim. Acta
,
68
, 4213-4235.
[339] Rai, V. K., S. V. S. Murty, and U. ott (2003), Noble
gases in ureilites: Cosmogenic, radiogenic, and trapped
components,
Geochim.
Cosmochim.
Acta
,
67
,
4435-4456.
[340] Rai, V. K., S. V. S. Murty, and U. ott (2003), Nitrogen
components in ureilites next term,
Geochim. Cosmochim.
Acta
,
67
, 2213-2237.
[341] Warren, P. H., and g. W. Kallemeyn (1989), geochemistry
of polymict ureilite EET 83309, and a partially-disruptive
impact model for ureilite origin,
Meteoritics
,
24
,
233-246.
[342] Wang, M.-S., and M. E. Lipschutz (1995), Volatile trace
elements in Antarctic ureilites,
Meteoritics
,
30
, 319.
