Geology Reference
In-Depth Information
martian meteorite: Evidence of vapor phase growth,
Geochim. Cosmochim. Acta
,
60
, 5149-5155.
[552] Bradley, J. P., H. y. McSween, and R. P. Harvey (1998),
Epitaxial growth of nanophase magnetite in martian
meteorite Allan Hills 84001: implications for biogenic
mineralization,
Meteorit. Planet. Sci.
,
33
, 765-773.
[553] Brearley, A. J. (2003), Magnetite in ALH 84001: An
origin by shock-induced thermal decomposition of iron
carbonate,
Meteorit. Planet. Sci.
,
38
, 849-870.
[554] Buseck, P., et al. (2001), Magnetite morphology and life
on Mars,
Proc. Nat. Acad. Sci. USA,
98
, 13490-13495.
[555] Cassata, W. S., D. L. Shuster, P. R. Renne, and B. P. Weiss
(2012), Trapped Ar isotopes in meteorite ALH 84001
indicate Mars did not have a thick ancient atmosphere,
Icarus
,
221
, 461-465.
[556] Clemett, S. J., M. T. Dulay, J. S. gillette, X. D. F. Chiller,
T. B. Mahajan, and R. N. Zare (1998), Evidence for the
extraterrestrial origin of polycyclic aromatic hydro-
carbons (PAHs), in the martian meteorite ALH 84001,
Faraday Discuss. R. Soc. Chem.
,
109
, 417-436, London.
[557] Collinson, D. W. (1997), Magnetic properties of martian
meteorites: implications for an ancient martian magnetic
field,
Meteorit. Planet. Sci.
,
32
, 803-811.
[558] Cooney, T. F., E. R. D. Scott, A. N. Krot, S. K. Sharma,
and A. yamaguchi (1999), Vibrational spectroscopic
study of minerals in the martian meteorite ALH 84001.
Am. Mineral.
,
84
, 1569-1576.
[559] Corrigan, C. M., and R. P. Harvey (2004), Multi-
generational carbonate assemblages in martian meteorite
Allan Hills 84001: implications for nucleation, growth
and alteration,
Meteorit. Planet. Sci.
,
39
, 17-30.
[560] Domeneghetti, M. C., A. M. Fioretti, F. Camara,
g. Molin, and V. Tazzoli (2008), Thermal history of
ALH 84001 meteorite by Fe
+2
-Mg ordering in orthopy-
roxene,
Meteorit. Planet. Sci.
,
42
, 1703-1710.
[561] Eiler, J., J. W. Valley, C. M. graham, and J. Fournelle
(2002), Two populations of carbonate in ALH 84001:
geochemical evidence for discrimination and genesis,
Geochim. Cosmochim. Acta
,
66
, 1285-1303.
[562] Eiler, J., N. Kitchen, L. Leshin, and M. Strausberg (2002),
Hosts of hydrogen in Allan Hills 84001: Evidence for
hydrous martian salts in the oldest martian meteorite,
Meteorit. Planet. Sci.
,
37
, 395-405.
[563] Eugster, o., A. Weigel, and E. Polnau (1997), Ejection
times of martian meteorites,
Geochim. Cosmochim. Acta
,
61
, 2749-2757.
[564] Eugster, o., H. Busemann, S. Lorenzetti, and D. Terribilini
(2002), Ejection ages from
81
Kr-
83
Kr dating and pre-
atmospheric sizes of martian meteorites,
Meteorit.
Planet. Sci.
,
37
, 1345-1360.
[565] Farquhar, J., M. H. Thiemens, and T. Jackson (1998),
Atmosphere-surface interactions on Mars: Delta
17
o mea-
surements of carbonate from ALH 84001,
Science
,
280
,
1580-1582.
[566] Fishler, D. K., and R. T. Cygan (1998), Cation diffusion
in calcite: Determining closure temperatures and the
thermal history for the Allan Hills 84001 meteorite,
Meteorit. Planet. Sci.
,
33
, 785-789.
[567] Folk, R. L., and L. A. Taylor (2002), Nanobacterial
alteration of pyroxene in martian meteorite ALH 84001,
Meteorit. Planet. Sci.
,
37
, 1057-1069.
[568] Friedmann, E i., J. Wierzchos, C. Ascaso, and
M. Winklhofer (2001), Chains of magnetite crystals in
the meteorite ALH 84001,
Proc. Nat. Acad. Sci. USA,
98
,
2176-2181.
[569] garrison, D. H., and D. D. Bogard (1998), isotopic
composition of trapped and cosmogenic noble gases in
several martian meteorites,
Meteorit. Planet. Sci.
,
33
,
721-736.
[570] gilmour, J. D., J. A. Whitby, and g. Turner (1998), Xenon
isotopes in irradiated ALH 84001: Evidence for shock-
induced trapping of ancient martian atmosphere,
Geochim.
Cosmochim. Acta
,
62
, 2555-2571.
[571] gleason, J. D., D. A. Kring, D. H. Hill, and W. V. Boynton
(1997), Petrography and bulk chemistry of martian
orthopyroxenite ALH 84001: implications for the origin
of secondary carbonates,
Geochim. Cosmochim. Acta
,
61
,
3503-3512.
[572] golden, D. C., D. W. Ming, C. S. Schwandt, R. V. Morris,
S. V. yang, and g. E. Lofgren (2000), An experimental
study of kinetically-driven precipitation of calcium-
magnesian-iron carbonates from solution: implications
for the low-temperature formation of carbonates in
martian meteorite ALH 84001,
Meteorit. Planet. Sci.
,
35
, 7457-465.
[573] golden, D. C., D. W. Ming, C. S. Schwandt, H. V.
Lauer, R. A. Socki, R. V. Morris, g. E. Lofgren, and
g. A. McKay (2001), A simple inorganic process for
the formation of carbonates, magnetite, and sulfides
in martian meteorite ALH 84001,
Am. Mineral.
,
86
,
370-375.
[574] golden, D. C., and nine authors (2004), Evidence for
exclusively inorganic formation of magnetite in martian
meteorite ALH 84001,
Am. Mineral.
,
89
, 681-695.
[575] goswami, J. N., N. Sinha, S. V. S. Murty, R. K. Mohapatra,
and C. J. Clement (1997), Nuclear tracks and light noble
gases in Allan Hills 84001: Preatmospheric size, fall char-
acteristics, cosmic-ray exposure duration and formation
age,
Meteorit. Planet. Sci.
,
32
, 91-96.
[576] grady, M. M., i. P. Wright, and C. T. Pillinger (1998), A
nitrogen and argon stable isotope study of Allan Hills
84001: implications for the evolution of the martian
atmosphere,
Meteorit. Planet. Sci.
,
33
, 795-802.
[577] greenwood, J. P., L. R. Riciputi, and H. y. McSween
(1997), Sulfide isotopic compositions in shergottites and
ALH 84001 and possible implications for life on Mars,
Geochim. Cosmochim. Acta
,
61
, 4449-4453.
[578] greenwood, J. P., S. J. Mojzsis, and C. D. Coath (2000),
Sulfur isotopic compositions of individual sulfides in
martian meteorites ALH 84001 and Nakhla: implications
for crust-regolith exchange on Mars, Earth Planet
.
Sci.
Lett.
,
184
, 23-35.
[579] greenwood, J. P., and H. y. McSween (2001), Petrogenesis
of Allan Hills 84001: Constraints from impact-melted
feldspathic and silica glasses,
Meteorit. Planet. Sci.
,
36
,
43-61.
