Geology Reference
In-Depth Information
Gnos, E., B. A. Hofmann, A. Al-Kathiri, S. Lorenzetti,
O. Eugster, M. J. Whitehouse, I. Villa, A. J. T. Jull, J. Eikenberg,
B. Spettel, U. Krähenbühl, I. A. Franchi, and G. C. Greenwood
(2004), Pinpointing the source of a lunar meteorite:
Implications for the evolution of the Moon,
Science
,
305
,
657-659.
Goodrich, C.A., G. J. Taylor, K. Keil, W. V. Boynton, and
D. H. Hill (1984), Petrology and chemistry of hyperferroan
anorthosites and other clasts from lunar meteorite ALH81005,
Proc. 15th Lunar Planet. Sci. Conf.
, in
J. Geophys. Res.
,
89
,
C87-C94.
Grier, J. A., D. A. Kring, and T. D. Swindle (1995), Impact
melts and anorthositic clasts in lunar meteorites QUE93069
and MAC88105,
Lunar Planet. Sci.,
XXVI
, 513-514.
Gross, J., and A. H. Treiman (2010), “Massif ” anorthosites in
Allan Hills 81005: Possible origin from a diapir?
73th Annual
Meeting of the Meteoritical Society
, abstract 5435.
Gross, J., A. H. Treiman, and C. M. Mercer (2014), Lunar
feldspathic meteorites: Constraints on the geology of the
lunar highlands, and the origin of the lunar crust,
Earth
Planet.
Sci. Lett.
,
388
, 318-328.
Hartmann, W. K., and D. R. Davis (1975), Satellite-sized
planetesimals and lunar origin.
Icarus,
24
, 504-515.
Haskin, L. A. (1998), The Imbrium impact event and the
thorium distribution at the lunar highlands surface.
J. Geophys. Res.
,
103
, 1679-1689.
Haskin, L. A., R. L. Korotev, K. M. Rockow, and B. L. Jolliff
(1998), The case for an Imbrium origin of the Apollo Th-rich
impact-melt breccias.
Meteoritics & Planetary Science
,
33
,
959-975.
Head, J. N. (2001), Lunar meteorite source crater size: Constraints
from impact simulations,
Lunar Planet. Sci.
,
XXXII
, abstract
1768.
Head, J. W., and L. Wilson (1992), Lunar mare volcanism:
Stratigraphy, eruption conditions, and evolution of secondary
crusts,
Geochim. Cosmochim. Acta
,
56
, 2155-2175.
Hill, E., L. A. Taylor, C. Floss, and Y. Liu (2009), Lunar meteorite
LaPaz Icefield 04841: Petrology, texture, and impact-shock
effects of a low-Ti mare basalt,
Meteorit. Planet. Sci.
,
44
, 87-94.
Huber, H., and P. H. Warren (2005), MET01210: Another lunar
mare meteorite (regolith breccia), with extensive pyroxene
exsolution, and not part of the YQ launch pair,
Lunar Planet.
Sci.
,
XXXVI
, abstract 2401.
Hudgins, J. A., S. P. Kelley, R. L. Korotev, and J. G. Spray
(2011), Mineralogy, geochemistry, and
40
Ar-
39
Ar geochro-
nology of lunar granulitic breccia Northwest Africa 3163 and
paired stones: Comparisons with Apollo samples,
Geochim.
Cosmochim. Acta
,
75
, 2865-2881.
Jolliff, B. L., R. L. Korotev, and L. A. Haskin (1991), A ferroan
region of the lunar highlands as recorded in meteorites
MAC88104 and MAC88105,
Geochim. Cosmochim. Acta
,
55
,
3051-3071.
Jolliff, B. L., R. L. Korotev, and L. A Haskin (1993), Lunar
basaltic meteorites Yamato-793169 and Asuka-881757:
Samples of the same low-Ti mare-lava? in
Papers Presented to
the Eighteenth Symposium on Antarctic Meteorites
, pp. 214-
217, National Institute of Polar Research, Tokyo.
Jolliff, B. L., K. M. Rockow, R. L. Korotev, and L. A. Haskin
(1996), Lithologic distribution and geologic history of the
Apollo 17 site: The record in soils and small rock particles
from the highlands massifs,
Meteorit. Planet. Sci.
,
31
,
116-145.
Jolliff, B. L., K. M. Rockow, and R. L. Korotev (1998),
Geochemistry and petrology of lunar meteorite Queen
Alexandra Range 94281, a mixed mare and highland regolith
breccia, with special emphasis on very-low-Ti mafic compo-
nents,
Meteorit. Planet. Sci.
,
33
, 581-601.
Jolliff, B. L., J. J. Gillis, L. A. Haskin, R. L. Korotev, and
M. A. Wieczorek (2000), Major lunar crustal terranes:
Surface expressions and crust-mantle origins,
J. Geophys.
Res.
,
105
, 4197-4416.
Jolliff, B. L., R. A. Zeigler, and R. L. Korotev (2004),
Petrography of lunar meteorite LAP 02205, a new low-Ti
basalt possibly launch paired with NWA 032,
Lunar Planet.
Sci.
,
XXXV
, abstract 1438.
Joy, K. H., I. A. Crawford, S. S. Russell, B. Swinyard, B. Kellett,
and M. Grande (2006a), Lunar regolith breccias MET 01210,
PCA 02007 and DAG 400: Their importance in understanding
the lunar surface and implications for the scientific analysis of
D-CIXS data,
Lunar Planet. Sci.
,
XXXVII
, abstract 1274.
Joy, K. H., I. A. Crawford, H. Downes, S. S. Russell, and
A. T. Kearsley (2006b), A petrological, mineralogical, and
chemical analysis of lunar mare basalt meteorite LaPaz Icefield
02205, 02224, and 02226,
Meteorit. Planet. Sci.
,
41
, 1003-1025.
Joy, K. H., R. Burgess, R. Hinton, V. A. Fernandes, Crawford I.
A., A. T. Kearsley, and A. J. Irving (2011), Petrogenesis and
chronology of lunar meteorite Northwest Africa 4472: A
KREEPy regolith breccia from the Moon,
Geochim.
Cosmochim. Acta,
75
, 2420-2452.
Joy, K. H., M. Anand, I. A. Crawford, and S. S. Russell (2007),
Petrography and bulk composition of Miller Range 05035: A
new lunar VLT gabbro,
Lunar Planet. Sci.
,
XXXVIII
, abstract
1867.
Joy, K. H., I. A. Crawford, M. Anand, R. C. Greenwood, ,
I. A. Franchi, S. S. Russell (2008), The petrology and geochem-
istry of Miller Range 05035: A new lunar gabbroic meteorite,
Geochim. Cosmochim. Acta
,
72
, 3822-3844.
Joy, K. H., I. A. Crawford, S. S. Russell, and A. T. Kearsley
(2010a), Lunar meteorite regolith breccias: An in situ study
of impact melt composition using LA-ICP-MS with implica-
tions for the composition of the lunar crust,
Meteorit. Planet.
Sci.
,
45
, 917-946.
Joy, K. H., G. J. Taylor, G. R. Huss, K. Nagashima, and
I. A. Crawford (2010b), An unusual magnesian troctolitic
gabbro in lunar meteorite MAC 88105: An example of new
rock types found in lunar meteorites,
73th Annual Meeting of
the Meteoritical Society
, abstract 5426.
Jull, A. J. T. (2006), Terrestrial ages of meteorites, in
Meteorites
and the Early Solar System
II, edited by D. S. Lauretta and
H. Y. McSween, pp. 889-905, University of Arizona Press,
Tucson.
Kallemeyn, G. W., and P. H. Warren (1983), Compositional
implications regarding the lunar origin of the ALH81005
meteorite,
Geophys. Res. Lett.
,
10
, 833-836.
