- Ash, R.D., Knott, S.F. and Turner, G. (1996): A 4-Gyr. shock age for a martian meteorite and implications for the cratering history of Mars. Nature, vol. 380, pp. 57-59.
- Bogard, D. (1995): Impact ages of meteorites: A synthesis. Meteoritics, vol. 30, pp. 244-268.
- Boyce, J.M. and Johnson, D.A. (1977): Ages of flow units in Mare Crisium based on crater density. Proc. Lunar and Plan. Sc. Conf., 8th, pp. 3495-3502.
- Burgess, R. and Turner, G. (1998): Laser 40Ar - 39Ar age determinations of Luna 24 mare basalts. Meteor. & Plan. Sci., vol. 33, pp. 921-935.
- Cameron, A.G.W. (1984): The impact theory for origin of the Moon. In Origin of the Moon (eds. W.K. Hartmann, R.J. Phillips and G.J. Taylor), Lunar and Planetary Institute, Houston, pp. 609-616.
- Cameron, A.G.W. and Ward, W.R. (1976): The origin of the Moon. Proc. Lunar and Planet. Sc. Conf., VII, pp. 120.
- Canup, R.M. and Agnor, C. (1998): Accretion of terrestrial planets and the Earth-Moon system. In Origin of the Earth and Moon, abst. LPI Cont. No. 957, Lunar and Planetary Institute, Houston, USA.
- Canup, R.M. and Agnor, C. (2000): Accretion of the terrestrial planets and the Earth-Moon system. In Origin of the Earth and Moon (eds. Canup, R.M. and Righter, K.), Univ. Arizona Press, Tucson, AZ, USA, pp. 113-132
- Chen, H.K. and Lindsley, D.H. (1983): Apollo 14 very low titanium glasses: melting experiments in iron-platinum. Proc. Lunar and Plan. Sc. Conf., 14th, part 1, J. Geoph. Res., vol. 88, supp., pp. B335-B342.
- Clayton, R.N. and Mayeda, T.K. (1975): Genetic relations between the Moon and meteorites. Proc. Lunar and Plan. Sc. Conf., 6th, pp. 1761-1769.
- Cohen, B.A., Swindle, T.D. and Kring, D.A. (2000): Support for the lunar cataclysm hypothesis from lunar meteorite impact melt ages. Science, vol. 290, 1754-1756.
- Cohen, B.A., Swindle, T.D. and Kring, D.A. (2000): Support for the lunar cataclysm hypothesis from lunar meteorite impact melt ages. Science, vol. 290, pp. 1754-1756.
- Cohen, B.A., Swindle, T.D., Taylor, L.A. and Nazarov, M.A. (2002): 40Ar-39Ar ages from impact melt clasts in lunar meteorites Dhofar 025 and Dhofar 026. Proc. Lunar and Plan. Sc. Conf., 33rd, Abst#1252.
- Coombs, C.R. (1990): Lunar explosive volcanism: The remote sensing perspective. In: Workshop on lunar volcanic glasses and resource potential, pp. 22-23. LPI Tech. Rep. 90-02.
- Coombs, C.R. and McKay, D.S. (1991): The violent side of mare volcanism. In: Workshop on Mare Volcanism and Basalt Petrogenesis: "Astounding Fundamental Concepts (AFC)" Developed Over the Last Fifteen Years, pp. 9-10. LPI Tech. Rep. 91-03.
- Culler, T., Becker, T. Muller, R. and Renne, P. (2000) Lunar impact history from 40Ar/39Ar dating of glass spherules. Science 287, pp. 1785-1788.
- Cuzzi, J.N., Dobrovolskis, A.R. and Champney, J.M. (1993): Particle-gas dynamics in the midplane of a protoplanetary material. Icarus, vol. 106, pp. 102-134.
- Dalrymple, G. B. and Ryder, G. (1993) 40Ar/39Ar age spectra of Apollo 15 impact melt rocks by laser step-heating and their bearing on the history of lunar basin formation. J. Geophys. Res. 98, E7, 13,085-13,095.
- Dalrymple, G. B. and Ryder, G. (1996) Argon-40/argon-39 age spectra of Apollo 17 highlands breccia samples by laser step heating and the age of the Serenitatis basin. J. Geophys. Res. 101, E11, 26,069-26,084.
- Delano, J.W. (1979): Apollo 15 green glass: Chemistry and possible origin. Proc. Lunar and Plan. Sc. Conf., 10th, pp. 275-300.
- Delano, J.W. (1980): Apollo 15 Red Glass: chemistry and Liquidus phase relations. Proc. Lunar and Planet. Sc. Conf., XI pp. 210-211.
- Delano, J.W. (1986): Pristine Lunar Glasses: Criteria, Data, and Implications. Proc. Lunar and Plan. Sc. Conf., 16th, Part 2 J. Geoph. Res, vol. 91, B4, pp. D201-D213.
- Delano, J.W. and Fernandes, V.A. (1998): Deep-seated magmatic processes reflected by compositional trends within Apollo 14 green glasses. Proc. Lunar and Plan. Sc. Conf. 29th, Abstract #1177 .
- Elkins-Tanton, L.T., Fernandes, V.A., Delano, J.W. and Grove,T.L. (2000): Origin of lunar ultramafic green glasses: constraints from phase equilibrium studies. Earth and Plant. Sci. Lett., vol. 196, pp. 239-249.
- Eugster O., Beer, J., Burger M., Finkel R.C., Hoffmann H.J., Krähenbühl U., Michel Th., Synal H.A. and Wölfli W. (1991): History of the paired lunar meteorites MAC88104 and MAC88105 derived from noble gas isotopes, radio nuclides, and some chemical abundances. Geochim. Cosmochim. Acta 55, 3139-3148.
- Eugster O., Niedermann, S., Burger M., Krähenbühl U., Weber, H., Clayton, R.N. and Mayeda, K. (1989): Preliminary report on the Yamato-86032 lunar meteorite: III. Ages, nobles gases isotopes, oxygen isotopes and chemical abundances. Proc. NIPR Symp. Antarctica Met, vol. 2, 25-35.
- Eugster, O. and Lorenzetti, S. (2001): Exposure history of some differentiated and lunar meteorites. Meteor. & Plan. Sci., vol. 36, supp., Abst.# 5158.
- Eugster, O., Geis, J., Krähenbühl, U. and Niedermann, S. (1986): Noble gas isotopic composition, cosmic ray exposure history, and terrestrial age of meteorite Allan Hills A81005 from the Moon. Earth and Planet. Sci. Let., vol. 78, pp. 139-147.
- Fernandes, V.A., Burgess, R. and Turner, G. (2000): Laser 40Ar/39Ar age studies of Dar al Gani 262 Lunar meteorite. Met. And Planet. Sci. vol. 35, pp. 1355-1364.
- Fernandes, V.A., Burgess, R. and Turner, G. (2003a): Ar-Ar chronology of lunar meteorites Northwest Africa 032 and 773. Met. And Planet. Sci. vol. 38, pp. 500-510
- Fernandes, V.A., Burgess, R. and Turner, G. (in Press, 2003b): Volcanism in Mare Fecunditatis and Mare Crisium: Ar-Ar studies. Geochim. et Cosmochim. Acta.
- Gaffey, M.J. (1990): Thermal history of the asteroid belt: Implications for accretion of the terrestrial planets. In Origin of the Earth (eds. Newsom, H.E. and Jones, J.H.), pp. 17-28. Oxford University Press, New York, NY, USA.
- Giguere T.A., Taylor G.F., Hawke B.R. and Lucey P.G. (1999) Distribution of the titanium contents of lunar mare basalts: not bimodal. Lunar Planet. Sci. Conf. 30th Abst. #1465.
- Giguere T.A., Taylor G.J., Hawke B.R. and Lucey, P.G. (2000) The titanium contents of lunar mare basalts. Meteorit. Planet. Sci. 35, pp. 193-200.
- Goldreich, P. and Ward, W.R. (1973): The formation of planetesimals. Astrophys. J., vol. 183, pp. 1051-1061.
- Greenberg, R., Hartmann, W.K., Chapman, C.R. and Wacker, J.F. (1978): Planetesimals to planets - Numerical simulation of collisional evolution. Icarus, vol. 35, pp. 1-26.
- Halliday, A.N. (2000): Terrestrial accretion rates and the origin of the Moon. Earth and Planet. Sci. Let., vol. 176, pp. 17-30.
- Hartmann, W.K., and Davis, D.R. (1975): Satellite-sized planetesimals and lunar origin. Icarus, vol. 24, pp. 504-515.
- Head, J.W. (1974): Lunar dark-mantle deposits: Possible clues to the distribution of early mare basalts. Proc. Lunar and Plan. Sc. Conf., 5th, supp. 5, Geoch. et Cosmoch. Acta, vol. 1, pp. 207-222.
- Head, J.W. and Wilson, L. (1992): Lunar mare volcanism: Stratigraphy, eruption conditions, and the evolution of secondary crusts. Geoch. et Cosmoch. Acta, vol. 56, pp. 2155-2175.
- Head, J.W., Wilson, L., Wilhems, D. (1997): Lunar Mare Basalt Volcanism: Early Stages and Secondary Crustal Formation and Implications for Petrogenetic Evolution and Magma Emplacement Processes. Proc. Lunar and Plan. Sc. Conf., 28th, abst#.
- Heiken, G.H., McKay, D.S. and Brown, R.W. (1974): Lunar deposits of possible pyroclastic origin. Geoch. et Cosmoch. Acta, vol. 38, pp. 1703-1718.
- Hess, P.C. and Parmentier, E.M. (1995): A model for the thermal and chemical evolution of the Moon's interior: implications for the onset of mare volcanism. Earth and Planet. Sci. Let., vol. 134, pp. 501-514.
- Hiesinger, H., Jaumann, R., Neukum, G., and Head, J.W. (2000): Ages of mare basalts on the lunar nearside. J. Geoph. Res., vol. 105, E12, pp.29,239-29,275.
- Kaneoka, I and Takaoka, N. (1986): 39Ar-40Ar analyses of an Antarctic meteorite Yamato 791197 of probable lunar origin. Mem. NIPR (spe. Issue, vol. 41, pp. 116-123.
- Longhi, J. (1992): Experimental petrology and petrogenesis of mare volcanics. Geoch. et Cosmoch. Acta, vol. 56, pp. 2235-2251.
- Meyer, C., McKay, D.S., Anderson, D.H. and Butler, P. (1975): The source of sublimates on the Apollo 15 green and Apollo 17 orange glass samples. Proc. Lunar and Plan. Sci. Conf., 6th, pp. 1673-1699.
- Muller, P.M. and Sjörgen, W.L. (1968): Mascons: Lunar mass concentrations. Science, vol. 161, 680-684.
- Nishiizumi K., Arnold, J.R., Klein, J., Fink, D., Middleton, R., Kubik, P.W., Sharma, P., Elmore, D. and Reedy, R.C. (1991): Exposure histories of lunar meteorites: ALHA81005, MAC88104, and Y791197. Geoch. et Cosmoch. Acta, vol. 55, pp. 3149-3155.
- Nyquist, L.E. and Shih, C.Y. (1992): The isotopic record of lunar volcanism. Geoch. et Cosmoch. Acta, vol. 56, pp. 2213-2234.
- Papike, J.J., Ryder, G. and Shearer, C.K. (1998): Lunar samples. In Planetary Materials (ed. Papike, J.J.), Reviews in Mineralogy, vol. 36, pp. 5.1-5.234. Mineralogical Society of America. Washington, DC, U.S.A..
- Pieters, C.M. (1978): Mare basalt types on the front side of the Moon: A summary of spectral reflectance data. Proc. Lunar and Plan. Sc. Conf., 9th, pp. 2825-2849.
- Pieters, C.M. (1990): The probable continuum between emplacement of plutons and mare volcanism in lunar crustal evolution. LPI-LPST Workshop on Mare Volcanism and basalt petrogenesis: Astounding Fundamental Concepts (AFC) Developed Over the Fifteen Years, pp. 35-36.
- Ryder, G. (1990): Lunar Samples, Lunar Accretion and the Early Bombardment of the Moon. EOS, vol. 71, 313, 322-323.
- Shanin, L.L., Arakelyants, M.M., Bogatikov, O.A., Ivanenko, V.V., Pupyrev, Y.G., Tarasov, L.S. and Frikh-Khar, D.I. (1982): 39Ar-40Ar dating of lunar soil from Sea of Crises. Geoch. Int. pp. 26-37.
- Shearer, C.K. and Papike, J.J. (1999): Invited Review: Magmatic Evolution of the Moon. Am. Mineral., 84, pp. 1469-1494.
- Snyder, G.A., Borg, L.E., Nyquist, L.E. and Taylor, L.A. (2000): Chronology and isotopic constraints on lunar evolution. In Origin of the Earth and Moon (eds. Canup, R.M. and Righter, K.), pp. 361-395. Univ. Arizona Press, Tucson, USA.
- Stöffler D. and Ryder G. (2001) Stratigraphy and isotope ages of lunar geologic units: Chronological standard for the inner solar system. In Chronology and evolution of Mars (eds. Kallenbach R., Geiss J. and Hartmann W.K., Space Science Series of ISSI), Kluwer Academic Publishers, The Netherlands.
- Taylor, S.R. (1982): Planetary Science: A lunar perspective. Lunar and Planetary Institute, Houston, Texas.
- Tera, F., Papanastassiou, D.A. and Wasserburg, G.J. (1974): Isotopic evidence for a Terminal Lunar Cataclysm. Earth and Planet. Sci. Let., vol. 22, pp. 1-21.
- Thalmann, C., Eugster, O., Herzog, G.F., Klein, J., Krähenbühl, U., Vogt, S. and Xue, S. (1996): History of lunar meteorites Queen Alexandra Range 93069, Asuka 881757, and Yamato 793169 based on noble gas isotopic abundances, radionuclide, and chemical composition.. Meteor. & Plan. Sci., vol. 31, pp. 857-868.
- Turner, G., Cadogan, P.H. and Yonge, C.J. (1973): Argon selenochronology. Proc. Lunar and Plan. Sc. Conf., 4th, Geoch. et Cosmoch. Acta, vol. 2, supp., pp. 1889-1914.
- Vogt, S., Fink, D., Klein, J., Middleton, R., Dockhorn, B., Korschinek, G., Nolte, E. and Herzog, G.F. (1991): Exposure histories of lunar meteorites: MAC88104, MAC88105, Y791197 and Y86032. Geoch. et Cosmoch. Acta, vol. 55, pp. 3149-3155.
- Wagner, T.P. and Grove, T.L. (1997): Experimental constraints on the origin of lunar high-Ti ultramafic glasses. Geoch. et Cosmoch. Acta, vol. 61, pp. 1315-1327.
- Weidenschilling, S.J., Spaute, D., Davis, D.R., Marzari, F. and Ohtsuki, K. (1997): Accretional evolution of a planetesimal swarm. Icarus, vol. 128, pp. 429-455.
- Weitz, C.M. and Head, J.W. (1998): Diversity of lunar volcanic eruptions at the Marius Hills complex. Proc. Lunar and Plan. Sc. Conf. 29th, Abstract# 1229.
- Wetherill, G. W. (1981): Nature and Origin of Basin-Forming Projectiles. In Multi-ring basins. Proc. Lunar and Plan. Sc. Conf., 12th, pp. 1-18.
- Wetherill, G.W. (1990): Formation of the Earth. Annu. Rev. Earth Planet. Sci., vol. 18, pp. 205-256.
- Wetherill, G.W. (1992): An alternative model for the formation of the asteroids. Icarus, vol. 100, pp. 307-325.
- Wetherill, G.W. and Stewart, G.R. (1989): Accumulation of a swarm of small planetesimals. Icarus, vol. 77, pp. 330-357.
- Wetherill, G.W. and Stewart, G.R. (1993): Formation of planetary embryos, low relative velocity, and independent variation of eccentricity and inclination. Icarus, vol. 106, pp. 190-209.
- Wieczoreck, M.A., Zuber, M.T. and Phillips, R.J. (2001): The role of magma buoyancy on the eruption of lunar basalts. Earth and Planet. Sci. Let., vol. 185, pp. 71-83.
- Wilhelms D.E. (1987) The geologic history of the Moon. U.S.G.S. Prof. Paper 1348, 302 pp.
|