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[36] McDermott, K., Greenwood, R.C., Franchi, I. A., Anand, M., Scott, E.R.D. (2011) Oxygen isotopic and petrological constraints on the origin and relationship of IIE iron meteorites and H chondrites, 41st Lunar & Planetary Sci. Conf.
[35] Liu, Y., Zhang, A., Thaisen, K.G., Anand, M., Taylor, L.A., 2009 Mineralogy and petrology of a lunar highland breccia meteorite, MIL 07006. 40th Lunar & Planetary Sci. Conf., Abs# 2105.
[34] Anand, M., Terada, K., Osborne, I., Chalapathi Rao, N.V., Dongre, A., 2008. SHRIMP U-Pb dating of Perovskites from southern Indian kimberlites. 9th International Kimberlite Conference, Frankfurt, Germany, 10-15 August, 2008, Vol. 1, 9IKC-A-00222.
[33] Misra, K.C., Anand, M., Paul, D.K., 2008, Metasomatized Kyanite-eclogites xenoliths from a southern Indian kimberlite. 9th International Kimberlite Conference, Frankfurt, Germany, 10-15 August, 2008, Vol. 1, 9IKC-A-00264.
[32] Anand, M., Misra, K.C., Paul, D.K., Ishikawa, I., Pearson, D.G., 2008, Trace-element signatures of kyanite-eclogites from a southern Indian kimberlite. 9th International Kimberlite Conference, Frankfurt, Germany, 10-15 August, 2008, Vol. 1, 9IKC-A-00322.
[31] Anand, M. and Terada, K., 2008, Timing and duration of mare basalt magmatism: constraints from lunar samples. 39th Lunar & Planetary Sci. Conf. Invited Talk. Abs# 2155.
[30] Anand, M., James, S., Johnson, D., Greenwood, R. C., Franchi, I. A., and Grady, M. M., 2008. Mineralogy and geochemistry of shergottite RBT 04262. 39th Lunar & Planetary Sci. Conf. Abs# 2173.
[29] Terada, K., Sasaki, Y., Oka, Y., Tanabe, A., Fujikawa, N., Tanikawa, S., Sano, Y., Anand, M. and Taylor, L. A., 2008. Ion Microprobe U-Pb Dating of Phosphates in Lunar Basaltic Meteorites. 39th Lunar & Planetary Sci. Conf. Abs# 1681.
[28] Joy, K.H., Anand, M., Crawford, I.A., Russell, S.S., 2007, Petrography and bulk composition of Miller Range 05035: a new lunar VLT gabbro. 38th Lunar & Planetary Sci. Conf., LPI CD-ROM #1867.
[27] Grady, M.M., Anand, M., Gilmour, M.A., Watson, J.S., Wright, I.P., 2007, Alteration of the nakhlite lava pile: was water on the surface, seeping down, or at depth, percolating up? Evidence (such as it is) from carbonates. 38th Lunar & Planetary Sci. Conf., LPI CD-ROM #1826.
[26] Hallis, L.H., Joy, K.H., Anand, M., Russell, S.S., 2007, Compositional analysis of the very-low-Ti mare basalt component of NWA 773 and comparison with low-Ti basalts, LAP03632 and LAP02436. 38th Lunar & Planetary Sci. Conf., LPI CD-ROM #.
[25] Anand, M., Russell, S.S., Blackhurst, R., and Grady, M., 2006, Fe isotopic compositions of Martian meteorites & some terrestrial analogues, 37th Lunar & Planetary Sci. Conf., LPI CD-ROM #1824.
[24] Morlok, A., Anand, M., and Grady, M., 2006, Dust from collision: Mid-infrared absorbance spectroscopy of Martian meteorites, 37th Lunar & Planetary Sci. Conf., LPI CD-ROM #1512.
[23] Anand, M., Mullane, E., Russell, S., and Grady, M., 2005, Fe isotopic compositions of Martian meteorites, 36th Lunar & Planetary Sci. Conf., LPI CD-ROM #1859.
[22] Anand, M., Russell, S., Grady, M., and Jones, G., 2005, Petrology and geochemistry of Nakhlite MIL 03346: A new Martian meteorite from Antarctica. 36th Lunar & Planetary Sci. Conf., 1639.
[21] Anand, M., Mullane, E., and Grady, M., 2004, Fe isotopes in Martian meteorites: Role of water and possibility of life on Mars, In Second Conf. on Early Mars: Geological, hydrologic and climatic evolution and implications for life, Abstract #8029, Lunar and Planetary Institute, Houston (CD-ROM).
[20] Anand, M., Taylor, L.A., Neal, C., Patchen, A., and Kramer, G., 2004, Petrology and Geochemistry of LAP 02 205: A New Low-Ti Mare-Basalt Meteorite, 35th Lunar & Planetary Sci. Conf., LPI CD-ROM #1626.
[19] Fernandes, V.A., Anand, M., Burgess, R., and Taylor, L.A., 2004, Ar-Ar Studies of Dhofar Clast-rich Feldspathic Highland Meteorites: 025, 026, 280, 303, 35th Lunar & Planetary Sci. Conf., LPI CD-ROM #1514.
[18] Taylor, L.A., Anand, M., Neal, C., Patchen, A., and Kramer, G., 2004, Lunar Meteorite PCA 02 007: A Feldspathic Regolith Breccia with Mixed Mare/Highland Components. 35th Lunar & Planetary Sci. Conf., LPI CD-ROM #1755.
[17] Anand, M., Taylor, L.A., Carlson, W.D., Taylor, D.-H., and Sobolev, N.V., 2003, Diamond genesis revealed by X-ray tomography of diamondiferous eclogites, 8th International Kimberlite Conference, Extended Abs. # FLA_0083. 8th IKC CD-ROM.
[16] Anand, M., Taylor, L.A., Misra, K.C., Carlson, W.D., and Sobolev, N.V., 2003, Diamondiferous eclogite dissections: anomalous diamond genesis?, 8th International Kimberlite Conference, Extended Abs. # FLA_0084. 8th IKC CD-ROM.
[15] Taylor, L.A., Anand, M., and Promprated, P., 2003, Diamonds and their inclusions: are the criteria for syngenesis valid? 8th International Kimberlite Conference, Extended Abs. # FLA_0085., 8th IKC CD-ROM.
[14] Taylor, L.A., Spetsius, Z.V., Wiesli, R., Anand, M., Promprated, P., and Valley, J., 2003, The origin of mantle peridotites: crustal signatures from Yakutian kimberlites, 8th International Kimberlite Conference, Extended Abs. # FLA_0077. 8th IKC CD-ROM.
[13] Promprated, P., Taylor, L.A., Floss, C., Anand, M., Pokhilenko, N.P., Sobolev, N.V., and Patchen, A., 2003, Diamond inclusions from snap lake, NWT Canada, 8th International Kimberlite Conference, Extended Abs. # FLA_0082. 8th IKC CD-ROM.
[12] Anand, M., Taylor, L.A., Nazarov, M.A., Shu, J., Mao, H-K. and Hemley, R.J., 2003, New lunar mineral Hapkeite: Product of impact-induced vapor-phase deposition in the regolith?, 34th Lunar & Planetary Sci. Conf., LPI CD-ROM #1818.
[11] Anand, M., Taylor, L.A., Nazarov, M.A., and Patchen, A., 2003, Petrologic comparisons of lunar mare basalt meteorites Dh-287A and NWA 032, 34th Lunar & Planetary Sci. Conf., LPI CD-ROM #1787.
[10] Promprated, P., Taylor, L.A., Anand, M., Rumble III, D., Korotchantseva, E.V., Ivanova, M.A., Lorentz, C.A., and Nazarov, M.A. 2003, Petrology and oxygen isotopic compositions of anomalous achondrite NWA 011, 34th Lunar & Planetary Sci. Conf., LPI CD-ROM #1757.
[9] Korotchantseva, E.V., Ivanova, M.A., Lorentz, C.A., Bouikine, A.I., Trieloff, M., Nazarov, M.A., Promprated, P., Anand, M., Taylor, L.A., 2003, Major and trace element chemistry and Ar-Ar age of the NWA 011 achondrite, 34th Lunar & Planetary Sci. Conf., LPI CD-ROM #1575.
[8] Thompson, C.K., Slater, V.P., Stockstill, K.R., Anand, M., Milam, K., Nettles, J., Cahill, J., and Taylor, L.A. 2003, An evaluation of the igneous crystallization programs - MELTS, MAGPOX, and COMAGMAT: Does one size fit all?, 34th Lunar & Planetary Sci. Conf. , LPI CD-ROM #1881.
[7] Slater, V.P., Thompson, C.K., Nettles, J., Milam, K., Stockstill, K.R., Cahill, J., Anand, M., and Taylor, L.A. 2003, An evaluation of the igneous crystallization programs - MELTS, MAGPOX, and COMAGMAT Part II: Importance of magmatic fO2 34th Lunar & Planetary Sci. Conf., LPI CD-ROM #1896.
[6] Anand, M., Misra, K., Taylor, L.A., Nazarov, M.A., Clayton, R.N., Mayeda, T.K., 2002, Apparently KREEPy Lunar Meteorite Dhofar 287a: The Residual Melt Tapped from a Fractionating Magma Chamber. 33rd Lunar & Planetary Sci. Conf., LPI CD-ROM #1635.
[5] Anand, M., Taylor, L.A., Patchen, A.D., Cahill, J.P., and Nazarov, M.A., 2002, New Minerals From a New Lunar Meteorite, Dhofar 280. 33rd Lunar & Planetary Sci. Conf., LPI CD-ROM #1653.
[4] Cahill, J.P., Taylor, L.A., Anand, M., Patchen, A.D., and Nazarov, M.A., 2002, Mineralogy, Petrography, and Geochemistry of Lunar Meteorite Dhofar 081: New Developments. 33rd Lunar & Planetary Sci. Conf., LPI CD-ROM #1351.
[3] Cahill, J.P., Taylor, L.A., Patchen, A.D., Nazarov, M.A., Stockstill, K.R., and Anand, M. 2002, Basaltic shergottite Dhofar-019: A "normal" olivine cumulate product. 33rd Lunar & Planetary Sci. Conf., LPI CD-ROM #1722.
[2] Demidova, S.I., Nazarov, M.A., Anand, M., and Taylor, L.A., 2002, Clast population of Lunar regolith breccia Dhofar 287B. 33rd Lunar & Planetary Sci. Conf., LPI CD-ROM #1290.
[1] Anand, M. and Gibson, S.A., 1999, Petrogenetic significance of high-Mg sills in intra-cratonic Cuddapah Basin, south India, Abstract, Komatiites, Norites, Boninites and Basalts Conference.
[28] McDermott, K.H., Greenwood, R.C., Franchi, I.A., Anand, M. and Scott, E.R.D. 2011. The relationship between IIE irons and H Chondrites: Petrologic and oxygen isotope constraints. Meteoritical Society Abs# 5430.
[27] Schwenzer, S.P., Schwanethal1, J., Ott, U., Tindle, A.G. Anand, M. and Kelley, S.P, 2011. ALHA77005: Monitor for terrestrial influence on noble gases and analogue for Mars. Meteoritical Society Abs# 5127.
[26] Anand, M., Carpenter, J. and ESA Topical Team-ELPM, 2011. Exploration and Evaluation of Lunar Volatiles as Potential Resource Within the ESA Lunar Lander Context. A Wet vs. Dry Moon meeting, Houston, Texas, Abs# 6013.
[25] Anand, M., 2010. Virtual Microscope for Extra-Terrestrial Samples, European Planetary Science Congress 2010, Abstract, Vol. 5, EPSC2010-583.
[24] Anand, M., 2010. Recent Advancements in Lunar Science and the Future Exploration of the Moon, European Planetary Science Congress 2010, Abstract, Vol. 5, EPSC2010-786.
[23] Zambardi, T., Poitrasson, F., Quitte, G., Anand, M., 2009. Silicon isotope variations in the Earth and meteorites, Goldschmidt Conference. Abstract A1497.
[22] Hallis, L.J., Anand, M., Russell, S.S., Terada, K., Rogers, N. and Hammond, S., 2008. Mineralogical and Geochemical Investigations of mare Basalts from Apollo collections. 71st Met Soc, Matsue, Japan.
[21] Joy, K.H., Crawford, I.A., Kellett, B., Grande, M.N., Anand, M., Bhandari, N., d’Uston L., Fernandes, V., Gasnault, O., Goswami, J., Huovelin, J., Lawrence, D., Maurice, S., Narendranath, S., Pieters, C., Okada, T., Rothery, D., Russell, S., Sreekumar, P., Swinyard, B., Wieczorek, M., Wilding, M., Witasse, O., 2007, The Scientific Case for the Chandrayaan-1 X-Ray Spectrometer, ILWEG, Sorento, Italy.
[20] Anand, M., Poitrasson, F., Grady, M.M., 2007, Fe isotopic composition of inner solar system materials: The fit of Martian basalts and minerals, Goldschmidt Conf., A23.
[19] Grady, M.M, Anand, M., Gilmour, M.A., Watson, J., and Wright, I.P., 2007, Continuing investigation of the Nakhlite magma pile, 70th Met Soc, Tuscan, Abs# 5171.
[18] Anand, M., Burgess, R., Fernandes, V. and Grady, M., 2006, Ar-Ar age and halogen characteristics Nakhlite MIL 03346: Records of crustal processes on Mars, 69th Met Soc, Zurich, Abs# 5257.
[17] Morlok, A., Köhler, M., Anand, M., Kirk, C. and Grady, MM.., 2006, Dust from collisions in circumstellar disks: similarities to meteoritic materials, 69th Met Soc, Zurich, Abs# 5135.
[16] Grady, M.M, Anand, M., Bridges, J.C., Pearson, V.K., Verchovsky, A.B., Franchi, I.A. and Wright, I.P, 2005, Aqueous alteration of nakhlites: implications for water on Mars. Meteoritical Society.
[15] Grady, M.M, Anand, M., Bridges, J.C., Pearson, V.K., Verchovsky, A.B. and Franchi, I.A. 2005, Aqueous alteration of nakhlites: Results from Y 000593 and MIL 03346, and implications for water on Mars. The 29th Symposium on Antarctic Meteorites June 7-9, 2005, National Institute of Polar Research, Tokyo, Japan.
[14] Anand, M., Taylor, L., Nazarov, M., Shu, J., Mao, H-K., and Hemley, R., 2003, Role of Impact-Induced, Vapor-Phase Deposition in the Lunar Regolith Formation: Clues from the New Mineral, Hapkeite, AGU Fall Meet. AGU, 84(46), Fall Meet. Suppl., Abstract P11A-04.
[13] Taylor, L.A., Taylor, D.S., Anand, M., Ketchum, R., Carlson, W., Pokhilenko, N.P., and Sobolev, N.V., 2003, Diamondiferous Peridotite Tomography: Precursor to Xenolith Dissections. AGU Fall Meet. AGU, 84(46), Fall Meet. Suppl., Abstract V42A-0321.
[12] Anand, M., Promprated, P., Taylor, L.A., and Sobolev, N.V., 2002, Stratigraphy of Diamonds: Complex Growth Histories Highlighted by Cathodoluminescence, Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract V51B-1267.
[11] Promprated, P., Taylor, L.A., Anand, M., Pokhilenko, N.P., Sobolev, N.V., and Patchen, A., 2002, Diamond Inclusions From Snap Lake Kimberlite, Canada: An Insight From In-Situ Analysis, Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract V51B-1266.
[10] Taylor, L.A., Spetsius, Z., Wiesli, R., Anand, M., and Valley, J., 2002, Crustal Signatures in Mantle Peridotites From Yakutian Kimberlites, Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract V51B-1269.
[9] Taylor, L.A., Sobolev, N.V., Ghazi, A.M., Anand, M. and Bodnar, R., 2002, The science of diamonds and their inclusions: Can such data be used to establish diamond provenance? Amer. Geophys. Union, Spring Meet., Invited Talk.
[8] Taylor, L.A., Carlson, W.D., Anand, M., and Misra, K.C., 2001, High-Resolution X-Ray Computed Tomography (HRXCT) of Diamondiferous Eclogites and the Origin of Diamond, Abstract, Eos Trans. AGU, 82(47), Fall Meet. Suppl., Abstract V12C-1001.
[7] Anand, M., Misra, K., Taylor, L. A., and Sobolev, N. V., 2001, In-situ Chemical Analyses of Mineral Inclusions in Diamonds in Kimberlitic Eclogites From Yakutia, Abstract, Eos Trans. AGU, 82(47), Fall Meet. Suppl., Abstract V12C-1006.
[6] Promprated, P., Taylor, L.A., Floss, C., Anand, M., Misra, K.C., and Sobolev, N.V., 2001, Syngenetic Diamond Mineral Inclusions: Are They Really?, Abstract, Eos Trans. AGU, 82(47), Fall Meet. Suppl., Abstract V12C-1005.
[5] Misra, K.C., Anand, M., Taylor, L.A., and Sobolev, N.V., 2001, Paragenesis of Diamonds in Eclogite Xenoliths From Kimberlite Pipes, Yakutia: A View From the Host Eclogite, Abstract, Eos Trans. AGU, 82(47), Fall Meet. Suppl., Abstract V12C-1002.
[4] Anand, M., Gibson, S.A., and Kelley, S.P., 2001, 1.9Ga magmatism in the Cuddapah Basin, Southern India: Constraints on Proterozoic tectono-magmatic processes, Volcanic & Magmatic Studies Group, Durham, UK.
[3] Anand, M., Gibson, S.A., White, N.J., and Kelley, S.P., 2000, Mafic magmatism and subsidence history of the intra-cratonic Proterozoic Cuddapah Basin, Southern India, Abstract, Eos Trans. AGU, Fall Meet. Suppl., Abstract F1363.
[2] Anand, M., Gibson, S.A., White, N.J., and Kelley, S.P., 2000, An insight into the earth's early Proterozoic evolutionary history - a case study, Abstract, Research in Progress Meeting of the Mineralogical Society, Natural History Museum, London.
[1] Anand, M. and Gibson, S.A., 1999, Proterozoic sedimentary tectono-magmatic evolution of the intracratonic Cuddapah Basin, India, Abstract, European Union of Geosciences, Strasbourg, Volume: 4, Pages: 285.
