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Abe, M., Y. Takagi, K. Kitazato, T. Hiroi, S. Abe, F. Vilas, B. E. Clark, P. A. Abell, S. M. Lederer, K. S. Jarvis, T. Nimura, Y. Ueda, and A. Fujiwara, Preliminary results from the Hayabusa Near Infrared Spectrometer (NIRS) of asteroid (25143) Itokawa, Lunar Planet. Sci. XXXVII, abstract 1547, 2006.

Ackiss, S. E., and J. J. Wray (2014), Occurrences of possible hydrated sulfates in the southern high latitudes of Mars, Icarus243, 311-324, doi: 10.1016/j.icarus.2014.08.016.

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Allen, C. C., B. T. Greenhagen, K. L. Donaldson Hanna, and D. A. Paige (2011), Analysis of lunar pyroclastic glass deposit FeO abundances by LRO Diviner, in 2011 Annual Meeting of the Lunar Exploration Analysis Group, abstract 2022.

Allen, C. C., B. T. Greenhagen, K. L. Donaldson Hanna, D. Z. Oehler, and D. A. Paige (2012), Derivation of FeO abundances in lunar pyroclastic deposits using LRO Diviner, Lunar and Planetary Science Conference XLIII,abstract 1504.

Allen, C. C., B. T. Greenhagen, K. L. Donaldson Hanna, and D. A. Paige (2012), Analysis of lunar pyroclastic deposit FeO abundances by LRO Diviner, Journal of Geophysical Research117, 1-12, doi: 10.1029/2011JE003982.

Amador, E. S., J. L. Bishop, N. K. McKeown, M. Parente, J. T. Clark, Detection of Kaolinite at Mawrth Vallis, Mars: analysis of laboratory mixtures and development of remote sensing parameters, Lunar Planet. Sci. Conf., XL, abstract 2188, 2009.

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Arvidson, R.E., S.W. Squyres, J.F. Bell, J.G. Catalano, B.C. Clark, L.S. Crumpler, P.A. de Souza, A.G. Fairén, W.H. Farrand, and V.K. Fox (2014), Ancient aqueous environments at Endeavour crater, Mars, Science343(6169), 1248097, doi: 10.1126/science.1248097.

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Barucci, M. A., S. Fornasier, E. Dotto, P. L. Lamy, L. Jorda, O. Groussin, J. R. Brucato, J. Carvano, A. Alvarez-Candal, D. Cruikshank, and M. Fulchignoni (2008), Asteroids 2867 Steins and 21 Lutetia: Surface composition from far infrared observations with the Spitzer space telescope, Astronomy and Astrophysics, 477, 665-670, doi: 10.1051/0004-6361:20078085.

Basilevsky, A. T., O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, L. V. Moroz, C. M. Pieters, T. Hiroi, N. G. Zinovieva, H. U. Keller, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. Kh. Galuzinskaya, and I. A. Stroganov, Simulation of effect of impact melting on optical properties of Martian soil, Herald DGGGMS RAS, 5 (15), vol. 2, planet3.eng., 2000.

Basilevsky, A. T., O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, L. V. Moroz, C. M. Pieters, T. Hiroi, N. G. Zinovieva, H. U. Keller, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. K. Galuzinskaya, and I. A. Stroganov, Simulation of impact melting effect on optical properties of martian regolith, Lunar Planet. Sci. XXXI, abstract 1214, 2000.

Basilevsky, A. T., O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, L. V. Moroz, C. M. Pieters, T. Hiroi, N. G. Zinovieva, H. U. Keller, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. Kh. Galuzinskaya, and I. A. Stroganov, Simulation of impact melting effect on optical properties of Martian soil, Experiment in Geosciences9, (1.3), paper # 111, 2000.

Basilevsky, A. T., O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, L. V. Moroz, C. M. Pieters, T. Hiroi, N. G. Zinovieva, H. U. Keller, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. Kh. Galuzinskaya, and I. A. Stroganov, Simulation of impact melting effect on spectral properties of Martian surface: Implications for polar deposits, Geochemistry International, 38, Suppl. 3, S390-S403, 2000.

Basilevsky, A. T., O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, N. G. Zinovieva, L. V. Moroz, C. M. Pieters, H. U. Keller, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. Kh. Galuzinskaya, and I. A. Stroganov, Simulation of impact melting of Martian regolith, Geophys. Res. Abstracts225th European Geophysical Society Gen. Assembly, 2000.

Basilevsky, A. T., T. V. Shingereva, E. V. Zabalueva, A. V. Ivanov, G. Neukum, S. C. Werner, S. Van Gasselt, J. Oberst, B. Giese, K. Gwinner, and L. Moroz, Phobos geology and geologic support for PHOBOS GRUNT mission, 50 Years of Space Era, International Forum “SPACE: Science and Problems of the 21st Century”, Space Research Institute, Moscow, October 1-5, 2007.

Basilevsky, A. T., E. V. Shalygin, D. V. Titov, W. J. Markiewicz, F. Scholten, and M. A. Kreslavsky (2008), Geologic analysis of the surface thermal emission images taken by the Venus Monitoring Camera, Venus Express: Initial results, Lunar Planet. Sci., XXXIX, abstract 1526.

Basilevsky, A. T., E. V. Shalygin, D. V. Titov, W. J. Markiewicz, F. Scholten, T. Roatsch, B. Fiethe, B. Osterloh, H. Michalik, M. A. Kreslavsky, and L. V. Moroz (2010), Geologic analysis of the surface thermal emission images taken by the VMC camera, Venus Express, Lunar Planet. Sci. XLI, abstract 1133.

Basilevsky, A. T., E. V. Shalygin, D. V. Titov, W. J. Markiewicz, F. Scholten, T. Roatsch, M. A. Kreslavsky, L. V. Moroz, N. I. Ignatiev, B. Fiethe, B. Osterloh, and H. Michalik (2012), Geologic interpretation of the near-infrared images of the surface taken by the Venus Monitoring Camera, Venus Express Icarus216, 434-450, doi: 10.1016/j.icarus.2011.11.003.

Batista, S.F.A., T.M. Seixas, M.A. Salgueiro da Silva, and R.M.G. de Albuquerque (2014), Mineralogy of V-type asteroids as a constraining tool of their past history, Planetary and Space Science104, Part B, 295-309, doi: 10.1016/j.pss.2014.10.012.

Beck, P., J.-A. Barrat, F. Grisolle, E. Quirico, B. Schmitt, F. Moynier, P. Gillet, and C. Beck (2011), NIR spectral trends of HED meteorites: Can we discriminate between the magmatic evolution, mechanical mixing and observation geometry effects?, Icarus, 216, 560-571, doi: 10.1016/j.icarus.2011.09.015.

Beck, P., A. Pommerol, N. Thomas, B. Schmitt, F. Moynier, and J. A. Barrat (2012), Photometry of meteorites, Icarus218(1), 364-377, doi: 10.1016/J.Icarus.2011.12.005.

Beck, A. W., T. J. McCoy, J. M. Sunshine, C. E. Viviano, C. M. Corrigan, T. Hiroi, and R. G. Mayne (2013), Challenges in detecting olivine on the surface of 4 Vesta, Meteoritics & Planetary Science48(11), 2155-2165, doi: 10.1111/Maps.12160.

Beck, A.W., N.G. Lunning, M.C. De Sanctis, T. Hiroi, J. Plescia, C.E. Viviano-Beck, A. Udry, C.M. Corrigan, and T.J. McCoy (2014) A Meteorite Analog for Olivine-Rich Terrain in Unexpected Locations on Vesta, Lunar Planet. Sci., XLV, abstract 2499.

Bell III, J. F., and K. Keil, Spectral alteration effects in chondritic gas-rich breccias: Implications for S-class and Q-class asteroids, Proc. Lunar Planet Sci. XVIII, 573-580, 1988.

Bell III, J. F., E. A. Cloutis, D. R. Klassen, and R. N. Clark, Spectroscopic evidence for diaspore (alpha-A1OOH) on Mars, Lunar Planet. Sci. XXXI, abstract 1227, 2000.

Bentley, M. S., A. J. Ball, I. P. Wright, and J. C. Zarnecki (2011), On the application of magnetic methods for the characterisation of space weathering products, Planetary and Space Science, 59, 79-91, doi: 10.1016/j.pss.2010.11.008.

Berg, B. L., Cloutis, E. A., Beck, P., Vernazza, P., Bishop, J. L., Takir, D., Reddy, V., Applin, D., and Mann, P. (2016), Reflectance spectroscopy (0.35–8 μm) of ammonium-bearing minerals and qualitative comparison to Ceres-like asteroids, Icarus, 265, 218-237, doi: 10.1016/j.icarus.2015.10.028.

Bhatt, M., U. Mall, R. Bugiolacchi, S. McKenna-Lawlor, M. Banaszkiewicz, A. Nathues, and K. Ullaland (2012), Lunar iron abundance determination using the 2-µm absorption band parameters, Icarus220, 51-64, doi: 10.1016/j.icarus.2012.04.010.

Bhatt, M. U. (2012), Automated processing of planetary hyperspectral datasets for the extraction of weak mineral signatures and applications to CRISM observations of hydrated silicates on Mars, Dissertation thesis, Clausthal University of Technology.

Bhattacharya, S., P. Chauhan, A. S. Rajawat, Ajai, and A. S. Kiran Kumar (2010), Study of central part of mare Moscoviense using Chandrayaan-1 Hyperspectral Imager (HySI) data, Lunar Planet. Sci. XLI, abstract 1870.

Bhattacharya, S., S. Saran, P. Chauhan, A. Das, and Ajai (2013), Study of regional dark mantle deposits (RDMDs) at Sinus Aestuum in the central nearside of the Moon using high resolution data from recent lunar missions, Lunar and Planetary Science Conference XLIV,abstract 1387.

Binzel, R. P., Bus, S. J., Xu, S., Sunshine, J. M., Burbine, T. H., Neely, A. W., and Brown, R. W., Rotationally resolved spectra of asteroid 16 Psyche, Icarus, 117, 443-445, 1995.

Binzel, R. P., P. Vernazza, C. A. Thomas, F. E. DeMeo, S. J. Bus, A. S. Rivkin, and A. T. Tokunaga (2008), Meteorite associations and source regions for potentially hazardous near-Earth objects, Bulletin of the American Astronomical Society, 40, 432, DPS 40.

Binzel, R. P., A. S. Rivkin, C. A. Thomas, P. Vernazza, T. H. Burbine, F. E. DeMeo, S. J. Bus, A. T. Tokunaga, and M. Birlan (2009), Spectral properties and composition of potentially hazardous Asteroid (99942) Apophis, Icarus, 200, 480-485, doi: 10.1016/j.icarus.2008.11.028.

Birlan, M. (2016), Mineralogy of Asteroid (10484) Hecht, Rom Astron J26(2), 137-143.

Birlan, M., P. Vernazza, and D. A. Nedelcu (2007), Spectral properties of nine M-type asteroids, Astronomy and Astrophysics, 475, 747-754, doi: 10.1051/0004-6361:20077914.

Birlan, M., and D. A. Nedelcu (2018), Reflectance Spectrum of (1154) Astronomia, Rom Astron J28(1), 31-37.

Birlan, M., D. A. Nedelcu, P. Descamps, J. Berthier, F. Marchis, S. Merouane, and M. Popescu (2011), Spectral properties of (854) Frostia, (1333) Cevenola and (3623) Chaplin, Monthly Notices of the Royal Astronomical Society, 415, 587-595, doi: 10.1111/j.1365-2966.2011.18740.x.

Birlan, M., M. Popescu, D. Nedelcu, V. Turcu, A. Pop, B. Dumitru, F. Stevance, O. Vaduvescu, D. Moldovan, and P. Rocher (2015), Characterization of (357439) 2004 BL86 on its close approach to Earth in 2015, Astronomy & Astrophysics581, A3, doi: 10.1051/0004-6361/201526460.

Bishop, J. L., Biogenic catalysis of soil formation on Mars?, Origins Life Evol. Biosphere, 28, 449-459, 1998.

Bishop J. L., Hydrated minerals on Mars, in Water on Mars and Life, edited by T. Tokano, pp. 65-96, Springer, 2005.

Bishop, J. L., and E. Murad, Schwermannite on Mars? Spectroscopic analyses of schwertmannite, its relationship to other ferric minerals, and its possible presence in the surface material on Mars, Mineral Spectroscopy: A Tribute to Roger G. Burns, 5, Special Publ., 337-358, 1996.

Bishop, J. L. and E. Murad, Spectroscopic and geochemical analyses of ferrihydrite from hydrothermal springs in Iceland and Applications to Mars, in Volcano-Ice Interactions on Earth and Mars, edited by J.L. Smellie and M.G. Chapman, Geological Society, Special Pub. 202, London, pp. 357-370, 2002.

Bishop, J. L., and E. Murad, Characterization of minerals and biogeochemical markers on Mars: A Raman and IR spectroscopy study of montmorillonite, J. Raman Spectr., 35, 480-486, 2004.

Bishop, J. L. and E. Murad, The visible and infrared spectral properties of jarosite and alunite, Am. Miner.90, 1100-1107, 2005.

Bishop J. L. and E. Murad, The visible and infrared spectral properties of jarosite and alunite, Am. Miner.90, 1100-1107, doi: 10.2138/am.2005.1700, 2005.

Bishop, J. L., and C. M. Pieters, Low temperature and low atmospheric pressure infrared reflectance spectroscopy of Mars soil analog materials, J. Geophys. Res., 100, 5369-5379, 1995.

Bishop, J. L., C. M. Pieters, and R. G. Burns, Reflectance and Mossbauer spectroscopy of ferrihydrite-montmorillonite assemblages as Mars soil analog materials, Geochim. Cosmochim. Acta, 57 (19), 4583-4595, 1993.

Bishop, J. L., C. M. Pieters, and J. O. Edwards, Infrared spectroscopic analyses on the nature of water in montmorillonite, Clays and Clay Minerals, 42 (6), 702-716, 1994.

Bishop, J. L., C. M. Pieters, J. F. Mustard, S. F. Pratt, and T. Hiroi, Spectral analyses of ALH84001: A meteorite from Mars, Meteoritics, 29, 444-445, 1994.

Bishop, J. L., C. M. Pieters, R. G. Burns, G. Roger, J. O. Edwards, R. L. Mancinelli, L. Rocco, and H. Frochel, Reflectance spectroscopy of ferric sulfate-doped montmorillonites as Mars soil analog materials, Icarus, 117 (1), 101-119, 1995.

Bishop, J. L., C. Koeberl, C. Kralik, H. Froschl, P. A. J. Englert, D. W. Anderson, C. M. Pieters, and R. A. Wharton, Jr., Reflectance spectroscopy and geochemical analyses of Lake Hoare sediments, Antarctica: Implications for remote sensing of the Earth and Mars, Geochim. Cosmochim. Acta, 60 (5), 765-785, 1996.

Bishop, J. L., J. F. Mustard, C. M. Pieters, and T. Hiroi, Recognition of minor constituents in reflectance spectra of Allan Hills 84001 chips and the importance for remote sensing on Mars, Meteoritics Planet. Sci., 33 (4), 693-698, 1998.

Bishop, J. L., C. M. Pieters, T. Hiroi, and J. F. Mustard, Spectroscopic analysis of Martian meteorite Allan Hills 84001 powder and applications for spectral identification of minerals and other soil components on Mars, Meteoritics Planet. Sci., 33 (4), 699-707, 1998.

Bishop, J. L., E. Murad, J. Madejova, P. Komadel, U. Wagner, and A. Scheinost, Visible, Mossbauer and infrared spectroscopy of dioctahedral smectites: Structural analyses of the Febearing smectites Sampor, SWy-1 and Swa-1., 11th International Clay Conference, 1998.

Bishop, J. L., H. Froschl, and R. L. Mancinelli, Alteration processes in volcanic soils and identification of exobiologically important weathering products on Mars using remote sensing, J. Geophys. Res, 103 (13), 31,457-31,456, 1998.

Bishop, J. L., C. M. Pieters, J. F. Mustard, and T. Hiroi, Spectral identification of major and minor constituents of Martian meteorite ALH 84001 and the importance for remote sensing on Mars, Lunar Planet. Sci. XXX, abstract 2038, 1999.

Bishop, J. L., A. Lougear, J. Newton, P. T. Doran, H. Froeschl, A. X. Trautwein, W. Körner, and C. Koeberl, Mineralogical and geochemical analyses of Antarctic lake sediments: A study of reflectance and Mössbauer spectroscopy and C, N, and S isotopes with applications for remote sensing on Mars, Geochim. Cosmochim. Acta, 65, 2875-2897, 2001.

Bishop, J. L., A. Banin, R. L. Mancinelli, M. R. Klovstad, Detection of soluble and fixed NH4+ in clay minerals by DTA and IR reflectance spectroscopy: A potential tool for planetary surface exploration, Planetary Space Science, 50, 11-19, 2002.

Bishop, J. L., J. Madejova, P. Komadel and H. Froeschl, The influence of structural Fe, Al and Mg on the infrared OH bands in spectra of dioctahedral smectites, Clay Miner., 37, 607-616, 2002.

Bishop J. L., S. L. Murchie, C. M. Pieters, and A. P. Zent (2002), A model for formation of dust, soil and rock coatings on mars: Physical and chemical processes on the martian surface, J. Geophys. Res., 107 (E11), 5097, doi: 10.1029/2001JE001581.

Bishop, J. L., E. Murad and M. D. Dyar, The influence of octahedral and tetrahedral cation substitution on the structure of smectites and serpentines as observed through infrared spectroscopy, Clay Miner., 37, 617-628, 2002.

Bishop, J. L., P. Schiffman, and R. Southard, Geochemical and mineralogical analyses of palagonitic tuffs and altered rinds of pillow lavas on Iceland and applications to Mars, in Volcano-Ice Interactions on Earth and Mars, edited by J.L. Smellie and M.G. Chapman, Geological Society, Special Pub. 202, London, pp. 371-392, 2002.

Bishop, J.  L., B. L. Anglen, L.M. Pratt, H. G. M. Edwards, D. J. Des Marais, and P.T. Doran, A spectroscopy and isotope study of sediments from the Antarctic Dry Valleys as analogs for potential paleolakes on Mars, International Journal of Astrobiology, 2 (4), 273-287, 2003.

Bishop, J. L., E. Murad, M. D. Lane, and R. L. Mancinelli, Multiple techniques for mineral identification on Mars: A study of hydrothermal rocks as potential analogues for astrobiology sites on Mars, Icarus, 169, 331-323, 2004.

Bishop, J.L., M.D. Dyar, M.D. Lane, and J.F. Banfield (2004), Spectral identification of hydrated sulfates on Mars and comparison with acidic environments on Earth, International Journal of Astrobiology3(04), 275-285, doi: 10.1017/S1473550405002259.

Bishop, J. L., P. Schiffman, M. D. Dyar, M. D. Lane, E. Murad, and A. Drief, Soil-forming processes on Mars as determined by mineralogy: Analysis of recent Martian spectral, chemical and magnetic data and comparison with altered tephra from Haleakala, Maui, Lunar Planet. Sci. XXXVII, abstract 1423, 2006.

Bishop, J. L., M. D. Dyar, M. Parente, A. Drief, R. L. Mancinelli, M. D. Lane, and E. Murad, Understanding surface processes on Mars through study of iron oxides/oxyhydroxides: Clues to surface alteration and aqueous processes, Lunar Planet. Sci. XXXVII, abstract 1438, 2006.

Bishop, J. L., A. J. Brown, M. Parente, M. D. Lane, M. D. Dyar, P. Schiffman, E. Murad, and E. Cloutis, VNIR spectra of sulfates formed in solfataric and aqueous acid sulfate environments and applications to Mars, Workshop on Martian Sulfates as Recorders of Atmospheric-Fluid-Rock Interactions, abstract 7037, 2006.

Bishop, J. L., P. Schiffman, E. Murad, M. D. Dyar, A. Drief, and M. D. Lane, Characterization of alteration products in tephra from Haleakala, Maui: A visible-infrared spectroscopy, Mössbauer spectroscopy, XRD, EPMA and TEM study, Clays and Clay Minerals, 55, 1-17, 2007.

Bishop, J. L., M. D. Lane, M. D. Dyar, and A. J. Brown, Multi-spectral study of phyllosilicates and applications to Mars, Lunar Planet. Sci. XXXVIII, abstract 1815, 2007.

Bishop, J. L., N. K. McKeown, E. Z. Noe Dobrea, B. L. Ehlmann, J. R. Michalski, R. E. Milliken, F. Poulet, J. F. Mustard, and G. A. Swayze (2008), Phyllosilicate diversity observed by CRISM in Mawrth Vallis: Identification of nontronite, montmorillonite, kaolinite, and hydrated silica, Lunar Planet. Sci., XXXIX, abstract 2124.

Bishop, J. L., M. D. Dyar, J. Majzlan, and M. D. Lane, Spectral properties of copiapites with variable cation compositions and implications for characterization of copiapite on Mars, Lunar Planet. Sci. Conf., XL, abstract 2073, 2009.

Bishop, J. L., M. Parente, C. M. Weitz, E. Z. Noe Dobrea, L. H. Roach, S. L. Murchie, P. C. McGuire, N. K. McKeown, C. M. Rossi, A. J. Brown, W. M. Clavin, R. E. Milliken, and J. F. Mustard (2009), Mineralogy of Juventae Chasma: Sulfates in the light-toned mounds, mafic minerals in the bedrock, and hydrated silica and hydroxylated ferric sulfate on the plateau, J. Geophys. Res., 114, E00D09, doi: 10.1029/2009JE003352.

Bishop, J. L., H. D. Makarewicz, W. P. Gates, N. K. McKeown, and T. Hiroi (2010), Beidellites: Spectral properties and importance for Mars, Lunar Planet. Sci. XLI, abstract 2080.

Bishop, J. L., W. P. Gates, H. D. Makarewicz, N. K. McKeown, and T. Hiroi (2011), Reflectance spectroscopy of beidellites and their importance for Mars, Clays and Clay Minerals, 59, 378-399, doi: 10.1346/CCMN.2011.0590403.

Bishop, J. L., R. T. Schelble, C. P. McKay, A. J. Brown, and K. A. Perry (2011), Carbonate rocks in the Mojave Desert as an analogue for Martian carbonates, International Journal of Astrobiology, 10, 349-358, doi: 10.1017/S1473550411000206.

Bishop, J. L., D. Loizeau, N. K. McKeown, L. Saper, M. D. Dyar, D. J. Des Marais, M. Parente, and S. L. Murchie (2013), What the ancient phyllosilicates at Mawrth Vallis can tell us about possible habitability on early Mars, Planetary and Space Science86, 130-149, doi: 10.1016/J.Pss.2013.05.006.

Bishop, J. L., K. A. Perry, M. D. Dyar, T. F. Bristow, D. F. Blake, A. J. Brown, and S. E. Peel (2013), Coordinated spectral and XRD analyses of magnesite-nontronite-forsterite mixtures and implications for carbonates on Mars, J Geophys Res-Planet118(4), 635-650, doi: 10.1002/Jgre.20066.

Bishop, J. L., E. B. Rampe, D. L. Bish, Z. Abidin, L. L. Baker, N. Matsue, and T. Henmi (2013), Spectral and Hydration Properties of Allophane and Imogolite, Clays and Clay Minerals61(1-2), 57-74, doi: 10.1346/Ccmn.2013.0610105.

Bishop, J. L., D. Tirsch, L. L. Tornabene, R. Jaumann, A. S. McEwen, P. C. McGuire, A. Ody, F. Poulet, R. N. Clark, M. Parente, N. K. McKeown, J. F. Mustard, S. L. Murchie, J. Voigt, Z. Aydin, M. Bamberg, A. Petau, G. Michael, F. P. Seelos, C. D. Hash, G. A. Swayze, and G. Neukum (2013), Mineralogy and morphology of geologic units at Libya Montes, Mars: Ancient aqueously derived outcrops, mafic flows, fluvial features, and impacts, J Geophys Res-Planet118(3), 487-513, doi: 10.1029/2012je004151.

Bishop, J. L., H. B. Franz, W. Goetz, D. F. Blake, C. Freissinet, H. Steininger, F. Goesmann, W. B. Brinckerhoff, S. Getty, V. T. Pinnick, P. R. Mahaffy, and M. D. Dyar (2013), Coordinated analyses of Antarctic sediments as Mars analog materials using reflectance spectroscopy and current flight-like instruments for CheMin, SAM and MOMA, Icarus224(2), 309-325, doi: 10.1016/J.Icarus.2012.05.014.

Bishop, J. L., M. D. Lane, A. J. Brown, T. Hiroi, G. A. Swayze, and J.-F. Lin (2013), Spectral properties of Ca-, Mg- and Fe- bearing carbonates, Lunar and Planetary Science Conference XLIV,abstract 1719.

Bishop, J. L., M. D. Lane, M. D. Dyar, S. J. King, A. J. Brown, and G. A. Swayze (2014), Spectral properties of Ca-sulfates: Gypsum, bassanite, and anhydrite, American Mineralogist99(10), 2105-2115, doi: 10.2138/Am-2014-4756.

Bishop, J. L., R. Quinn, and M. D. Dyar (2014), Spectral and thermal properties of perchlorate salts and implications for Mars, American Mineralogist99(8-9), 1580-1592, doi: 10.2138/Am.2014.4707.

Bishop, J.L., E. Murad, and M.D. Dyar (2015), Akaganéite and schwertmannite: Spectral properties and geochemical implications of their possible presence on Mars, American Mineralogist100(4), 738-746, doi: 10.2138/am-2015-5016.

Blewett, D. T., and C. L. Levy (2013), Radiative-transfer model reflectance spectra of potential Ceres mineral assemblages, Lunar and Planetary Science Conference XLIV, abstract 1271.

Blewett, D. T., B. Denevi, L. Le Corre, V. Reddy, C. M. Pieters, E. Ammannito, M. C. De Sanctis, C. A. Raymond, and C. T. Russell (2013), Radiative transfer modeling of space weathering on Vesta, Lunar and Planetary Science Conference XLIV, abstract 1632.

Blewett, D. T., W. M. Vaughan, Z. Y. Xiao, N. L. Chabot, B. W. Denevi, C. M. Ernst, J. Helbert, M. D’Amore, A. Maturilli, J. W. Head, and S. C. Solomon (2013), Mercury’s hollows: Constraints on formation and composition from analysis of geological setting and spectral reflectance, J Geophys Res-Planet118(5), 1013-1032, doi: 10.1029/2012je004174.

Blewett, D. T., B. W. Denevi, L. Le Corre, V. Reddy, S. E. Schroder, C. M. Pieters, F. Tosi, F. Zambon, M. C. De Sanctis, E. Ammannito, T. Roatsch, C. A. Raymond, and C. T. Russell (2016), Optical space weathering on Vesta: Radiative-transfer models and Dawn observations, Icarus265, 161-174, doi: 10.1016/j.icarus.2015.10.012.

Blount, G., M. O. Smith, J. B. Adams, R. Greeley, and P. R. Christensen, Regional aeolian dynamics and sand mixing in the Gran Desierto: Evidence from Landsat thermatic mapper images, J. Geophys. Res., 95, 15,463-15,482, 1990.

Britt, D. T., and C. M. Pieters, Bidirectional reflectance properties of iron-nickel meteorites, Proc. 18th  Lunar Planet. Sci., 503-512, 1987.

Britt, D. T., and C. M. Pieters, The origin of Phobos: Implications and compositional properties, Solar System Research, 22, 143-149, 1989.

Britt, D. T., and C. M. Pieters, Black ordinary chondrites: An analysis of abundance and fall frequency, Meteoritics, 26, 279-285, 1991.

Britt, D. T., and C. M. Pieters, Darkening in black and gas-rich ordinary chondrites: The spectral effects of opaque morphology and distribution, Geochim. Cosmochim. Acta, 58 (18), 3905-3919, 1994.

Britt, D. T., C. M. Pieters, M. I. Petaev, and N. I. Zaslavskaya, The Tsarev meteorite: Petrology and bidirectional reflectance spectra of a shock-blackened L chondrite, Proc. 19th Lunar Planet. Sci., 537-545, 1989.

Britt, D. T., D. J. Thoelen, J. F. Bell III, and C. M. Pieters, Comparison of asteroid and meteorite spectra: Classification by principal components analysis, Icarus, 99, 153-166, 1992.

Bruck Syal, M., P. H. Schultz, and M. A. Riner (2015), Darkening of Mercury’s surface by cometary carbon, Nature Geoscience, 8, 352-356. Doi: 10.1038/NGEO2397.

Brunetto, R., Space weathering in the solar system:  From laboratory to observations, through spectral models, Università del Salento, Ph.D. Thesis, 221 pp., 2007.

Brunetto, R., J. de León, and J. Licandro (2007), Testing space weathering models on A-type asteroid (1951) Lick, Astronomy and Astrophysics, 472, 653-656, doi: 10.1051/0004-6361:20077722.

Brunetto, R., T. L. Rouch, A. C. Marra, and V. Orofino (2007), Optical characterization of laser ablated silicates, Icarus, 191, 381-393, doi: 10.1016/j.icarus.2007.04.023.

Bugiolacchi, R., U. Mall, M. Bhatt, and S. McKenna-Lawlor (2010), A fresh look at the Copernicus crater central peak region using high-resolution NIR data from the SIR-2 mission, Lunar Planet. Sci. XLI, abstract 1609.

Buratti, B. J., M. Staid, C. M. Pieters, M. D. Hicks, and T. S. Stone (2008), A wavelength dependent visible and infrared spectrophotometric model for the Moon based on ROLO data, Lunar Planet. Sci., XXXIX, abstract 1471.

Buratti, B.J., M.D. Hicks, J. Nettles, M. Staid, C.M. Pieters, J. Sunshine, J. Boardman, and T.C. Stone (2011), A wavelength-dependent visible and infrared spectrophotometric function for the Moon based on ROLO data,  J. Geophys. Res.116, doi:10.1029/2010JE003724.

Buratti, B. J., P. A. Dalba, M. D. Hicks, V. Reddy, M. V. Sykes, T. B. McCord, D. P. O’Brien, C. M. Pieters, T. H. Prettyman, L. A. McFadden, A. Nathues, L. Le Corre, S. Marchi, C. Raymond, and C. T. Russell (2013), Vesta, vestoids, and HEDS:  Dawn, ground-based, and RELAB observations, Lunar and Planetary Science Conference XLIV,abstract 1845.

Buratti, B. J., P. A. Dalba, M. D. Hicks, V. Reddy, M. V. Sykes, T. B. McCord, D. P. O’Brien, C. M. Pieters, T. H. Prettyman, L. A. McFadden, A. Nathues, L. Le Corre, S. Marchi, C. A. Raymond, and C. T. Russell (2013), Vesta, vestoids, and the HED meteorites:  Interconnections and differences based on Dawn Framing Camera observations, Journal of Geophysical Research118, 1991-2003, doi: 10.1002/jgre.20152.

Burbine, T. H., Could G-class asteroids be the parent bodies of the CM chondrites?, Meteoritics Planet. Sci., 33, 253-258, 1998.

Burbine, T. H., Forging Asteroid-Meteorite Relationships through Reflectance Spectroscopy, PhD thesis, 301 pp., MIT, Cambridge, MA, 2000.

Burbine, T. H., Asteroids: Their composition and impact threat, Bulletin of the Czech Geological Survey 77, 243-252, 2002.

Burbine, T. H., and R. P. Binzel, Could G-asteroids be the parent bodies of the CM chondrites?, Meteoritics, 30, 494, 1995.

Burbine, T. H., and R. P. Binzel, Small main-belt asteroid spectroscopic survey in the near-infrared, Icarus 158, 468-499, 2002.

Burbine, T. H., R. P. Binzel, and S. J. Bus, “Basaltic” asteroids in the main belt: Are they fragments of Vesta?, Meteoritics Planet. Sci., 33, SupplementA26, 1998.

Burbine, T. H., R. P. Binzel, and S. J. Bus, Is Vesta the parent body of the “Vesta Chips”? Yes, Lunar Planet. Sci. XXIX, abstract, 1998.

Burbine, T. H., R. P. Binzel, and S. J. Bus, Linking asteroid 4 Vesta and the HED meteorites: New Results, Eos, Transactions, AGU, Spring Meeting Supplement 79 (17), S205, 1998.

Burbine, T. H., R. P. Binzel, and S. J. Bus, Near-infrared spectra of pyroxene-and olivine-rich asteroids, Lunar Planet. Sci. XXX, abstract 1777, 1999.

Burbine, T. H., E. A. Cloutis, S. J. Bus, A. Meibom, and R. P. Binzel, The detection of troilite (FeS) on the surfaces of E-class asteroids, Bull. Amer. Astron. Soc., 30, 1025-1026, 1998.

Burbine, T. H., R. P. Binzel, S. J. Bus, J. L. Hinrichs, P. B. Lucey, and A. Meibom, Spectral study of the Vesta family, Asteroids, Comets and Meteors, 52-53, 1999.

Burbine, T. H., R. P. Binzel, S. J. Bus, P. C. Buchanan, J. L. Hinrichs, A. Meibom, T. Hiroi, and J. M. Sunshine, Forging asteroid-meteorite relationships through reflectance spectroscopy, Lunar Planet. Sci. XXXI, abstract 1844, 2000.

Burbine, T. H., T. J. McCoy, and R. P. Binzel, Spectra of angrites and possible parent bodies, Lunar Planet. Sci. XXXII, abstract 1857, 2001.

Burbine, T. H., T. J. McCoy, L. R. Nittler, and J. F. Bell III, Could 433 Eos have a primitive achondritic composition?, Lunar Planet. Sci. XXXII, abstract 1860, 2001.

Burbine, T. H., P. C. Buchanan, R. P. Binzel, S. J. Bus, T. Hiroi, J. L. Hinrichs, A. Meibom, and T. J. McCoy, Vesta, Vestoids and the howardite, eurcrite, diogenite group: Relationships and the origin of spectral differences, Meteoritics Planet. Sci., 36, 761-781, 2001.

Burbine, T. H., T. J. McCoy, E. Jarosewich, and J. M. Sunshine, How much compositional information can be derived from the reflectance spectrum of an asteroid?, Meteoritics and Planetary Science, 37, Supplement, A27, 2002.

Burbine, T. H., McCoy, T. J., Keil, K., Meibom, A., and Gladman B., Meteoritic parent bodies:  Their number and identification, in Asteroids III, edited by W. Bottke, A. Cellino, P. Paolicchi, and R. P. Binzel, pp. 653-667, 2002.

Burbine, T. H., T. J. McCoy, L. R. Nittler, G. K. Benedix, and E. A. Cloutis, Spectra of extremely reduced assemblages: Implications for Mercury, Meteoritics Planet. Sci. 37, 1233-1244, 2002.

Burbine, T. H., T. J. McCoy, E. Jarosewich, and J. M. Sunshine, Spectral measurements of meteorite powders: Implications for 433 Eros, Lunar Planet. Sci. XXXIII, abstract 1359, 2002.

Burbine, T. H., T. J. McCoy, E. Jarosewich, and J. M. Sunshine, Deriving asteroid mineralogies from reflectance spectra: Implications for the MUSES-C target asteroid, Antarct. Meteorite Res., 16, 185-195, 2003.

Burbine, T. H., T. J. McCoy, J. L. Hinrichs, and P. G. Lucey, Spectral properties of angrites, Meteoritics Planet. Sci., 41, 1139-1145, doi: 10.1111/j.1945-5100.2006.tb00511.x, 2006.

Burbine, T. H., P. C. Buchanan, and R. P. Binzel, Deriving formulas from HED spectra for determining the pyroxene mineralogy of Vesta and Vestoids, Lunar Planet. Sci. XXXVIII, abstract 2117, 2007.

Burbine, T. H., R. C. Greenwood, P. C. Buchanan, I. A. Franchi, and C. L. Smith, Reflectance spectra of mesosiderites: Implications for asteroid 4 Vesta, Lunar Planet. Sci. XXXVIII, abstract 2119, 2007.

Burbine, T.H., Rivkin A.S., Noble S.K., Mothé-Diniz T., Bottke W.F., McCoy T.J., Dyar M.D. and Thomas C.A. (2008), Oxygen and Asteroids, in Oxygen in the Solar System (G.J. MacPherson, ed.), Reviews in Mineralogy and Geochemistry 68, 273-343.

Burbine, T. H., P. C. Buchanan, R. L. Klima, and R. P. Binzel (2018), Can Formulas Derived From Pyroxenes and/or HFDs Be Used to Determine the Mineralogies of V-Type Asteroids?, J Geophys Res-Planet123(7), 1791-1803, doi: 10.1029/2018je005561.

C____________________________________________________________
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Cannon, K., and J. Mustard (2015) Identifying Basaltic Glass in Complex Samples with Blind Endmember Non-Linear Unmixing, Lunar Planet. Sci., XLVI, abstract 1968.

Cannon, K., and J. Mustard (2015), Preserved glass-rich impactites on Mars, Geology43(7), 635-638, doi: 10.1130/G36953.1.

Cannon, K., J. Mustard, and M. Salvatore (2015), Alteration of immature sedimentary rocks on Earth and Mars: Recording aqueous and surface–atmosphere processes, Earth and Planetary Science Letters417, 78-86, doi: 10.1016/j.epsl.2015.02.017.

Cannon, K., J. Mustard, and C. Agee (2015), Evidence for a widespread basaltic breccia component in the martian low-albedo regions from the reflectance spectrum of Northwest Africa 7034, Icarus252, 150-153, doi: 10.1016/j.icarus.2015.01.016.

Carli, C., and M. Sgavetti (2008), Terrestrial norite-anorthosite suites as analogues for Mercury’s surface composition, Lunar Planet. Sci., XXXIX, abstract 1564.

Carrozzo, F. G., F. Altieri, G. Bellucci, F. Poulet, E. D’Aversa, and J.-P. Bibring (2012), Iron mineralogy of the surface of Mars from the 1µm band spectral properties, Journal of Geophysical Research117, doi: 10.1029/2012JE004091.

Carrozzo, F. G., G. Bellucci, F. Altieri, and E. D’Aversa (2013), Detection of carbonate-bearing rocks in craters uplifts of Tyrrhena Terra, Mars, Lunar and Planetary Science Conference XLIV, abstract 2241.

Carry B., C. Dumas, M. Fulchignoni, W. J. Merline, J. Berthier, D. Hestroffer, T. Fusco, and P. Tamblyn (2007), Near-infrared mapping and physical properties of the dwarf-planet Ceres, Astronomy & Astrophysics, 478, 235-244, doi: 10.1051/0004-6361:20078166.

Carry, B., C. Dumas, M. Fuchignoni, W. J. Merline, J. Berthier, D. Hestroffer, T. Fusco, and P. Tamblyn (2008), Near-infrared mapping and physical properties of the dwarf-planet Ceres, Astronomy and Astrophysics, 478, 235-244, doi: 10.1051/0004-6361:20078166.

Carry, B., A. Matter, P. Scheirich, P. Pravec, L. Molnar, S. Mottola, A. Carbognani, E. Jehin, A. Marciniak, R.P. Binzel, F.E. Demeo, M. Birlan, M. Delbo, E. Barbotin, R. Behrend, M. Bonnardeau, F. Colas, P. Farissier, M. Fauvaud, S. Fauvaud, C. Gillier, M. Gillon, S. Hellmich, R. Hirsch, A. Leroy, J. Manfroid, J. Montier, E. Morelle, F. Richard, K. Sobkowiak, J. Strajnic, and F. Vachier (2015), The small binary asteroid (939) Isberga, Icarus248, 516-525, doi: 10.1016/j.icarus.2014.11.002.

Carter, J., and F. Poulet (2012), Orbital identification of clays and carbonates in Gusev crater, Icarus219, 250-253, doi: 10.1016/j.icarus.2012.02.024.

Carter, J., F. Poulet, J.-P. Bibring, S. Murchie, Y. Langevin, J.F. Mustard, and B. Gondet, Phyllosilicates and other hydrated minerals on Mars: 1. Global distribution as seen by MEx/OMEGA, Lunar Planet. Sci. Conf., XL, abstract 2028, 2009.

Carter, J., F. Poulet, J.-P. Bibring, S. L. Murchie, V. Ansan, and N. Mangold (2010), Mineralogy of layered deposits in Terby crater, N. Hellas Planitia, Lunar Planet. Sci. XLI, abstract 1866.

Carter, J., F. Poulet, J. P. Bibring, N. Mangold, and S. Murchie (2013), Hydrous minerals on Mars as seen by the CRISM and OMEGA imaging spectrometers: Updated global view, J Geophys Res-Planet118(4), 831-858, doi: 10.1029/2012je004145.

Carter, J., F. Poulet, S. L. Murchie, and J.-P. Bibring (2013), Automated processing of planetary hyperspectral datasets for the extraction of weak mineral signatures and applications to CRISM observations of hydrated silicates on Mars, Planetary and Space Science 76, 53-67, doi: 10.1016/j.pss.2012.11.007.

Chabrillat, S., P.C. Pinet, G. Ceuleneer, P.E. Johnson, and J. Mustard, Ronda Peridotite Massif: Methodology for its geological mapping and lithological discrimination from airborne hyperspectral data, Int. J. Remote Sensing21 (12), 2363-2388, 2000.

Cheek, L. C., and C. M. Pieters (2013), Laboratory reflectance spectroscopy of lunar anorthosites:  Implications for interpreting the minerology of the Moon’s highland crust from remote sensing data, Lunar and Planetary Science Conference XLIV, abstract 2387.

Cheek, L. C., and C. M. Pieters (2014), Reflectance spectroscopy of plagioclase-dominated mineral mixtures:  Implications for characterizing lunar anorthosites remotely, American Mineralogist99, 1871-1892, doi: 10.2138/am-2014-4785.

Cheek, L. C., C. M. Pieters, M. D. Dyar, and K.A. Milam, Revisiting plagioclase optical properties for lunar exploration, Lunar Planet. Sci. Conf., XL, abstract 1928, 2009.

Cheek, L. C., C. M. Pieters, S. W. Parman, and R. F. Cooper (2010), Anorthite synthesis experiments with applications to lunar spectroscopy, Lunar Planet. Sci. XLI, abstract 2438.

Cheek, L. C., C. M. Pieters, S. W. Parman, M. D. Dyar, E. A. Speicher, and R. F. Cooper (2011), Spectral characteristics of plagioclase with variable iron content: Applications to remote sensing of the lunar crust, Lunar Planet. Sci. Conf. XLII, abstract 1617.

Cheek, L. C., K. L. Donaldson Hanna, C. M. Pieters, J. W. Head III, and J. L. Whitten (2013), The distribution and purity of anorthosite across the Orientale basin:  New perspectives from Moon Mineralogy Mapper data, Journal of Geophysical Research118, 1-16, doi: 10.1002/jgre.20126.

Chevrel, S.D., P.C. Pinet, Y. Daydou, D. Baratoux, F. Costard, S. Lemouelic, Y. Langevin, and S. Erard, Compositional and structural study of the Aristarchus Plateau from integrated UV-VIS-NIR data, Lunar Planet. Sci. XXXV, abstract 1559, 2004.

Clarisse, L., M. Van Damme, W. Gardner, P. F. Coheur, C. Clerbaux, S. Whitburn, J. Hadji-Lazaro, and D. Hurtmans (2019), Atmospheric ammonia (NH3) emanations from Lake Natron’s saline mudflats, Sci Rep-Uk9, doi: 10.1038/s41598-019-39935-3.

Clark, B. E., Spectral mixing models of S-Type asteroids, J. Geophys. Res., 100 (E7), 14,443-14,456, 1995.

Clark, B. E., and R. E. Johnson, Interplanetary weathering: Surface Erosion in outer space, Eos, Transactions, AGU, 77 (15), 141-145, 1996.

Clark, B. E., F. P. Fanale, and J. W. Salisbury, Meteorite-asteroid spectral comparison: The effects of comminution, melting and recrystallization, Icarus, 97, 288-297, 1992.

Clark, B. E., J. Veverka, P. Helfenstein, P. C. Thomas, J. F. Bell III, A. Harch, M. S. Robinson, S. L. Murchie, L. A. McFadden, and C. R. Chapman, NEAR photometry of asteroid 253 Mathilde, Icarus, 140, 53-65, 1999.

Clark, B. E., P. B. Lucey, P. Helfenstein, J. F. Bell III, C. A. Peterson, J. Veverka, T. McConnochie, M. S. Robinson, D. B. J. Bussey, S. L. Murchie, N. Izenberg, and C. R. Chapman, Space weathering on Eros: Constraints from albedo and spectral measurements of Psyche crater, Meteoritics Planet. Sci., 36, 1617-1638, 2001.

Clark, B. E., B. Hapke, C. M. Pieters, and D. T. Britt, Asteroid space weathering and regolith evolution, in Asteroids III, edited by W. Bottke, A. Cellino, P. Paolicchi, and R. P. Binzel, Univ. of Arizona Press, pp. 585-599, 2002.

Clark, B. E., P. Helfenstein, J. F. Bell III, C. A. Peterson, J. Veverka, N. Izenberg, D. Domingue, W. Wellnitz, and L. A. McFadden, NEAR infrared spectrometer photometry of asteroid 433 Eros, Icarus 155, 189-204, 2002.

Clark, B. E., S. J. Bus, A. S. Rivkin, T. McConnochie, J. Sanders, S. Shah, T. Hiroi, and M. Shepard (2004), E-type asteroid spectroscopy and compositional modeling, J. Geophys. Res. 109, E02001, doi: 10.1029/2003JE002200.

Clark, B. E., M. E. Ockert-Bell, E. A. Cloutis, D. Nesvorny, T. Mothé-Diniz, and S. J. Bus (2009), Spectroscopy of K-complex asteroids: Parent bodies of carbonaceous meteorites?, Icarus, 202, 119-133, doi: 10.1016/j.icarus.2009.02.027.

Clark, B. E., J. Ziffer, D. Nesvorny, H. Campins, A. S. Rivkin, T. Hiroi, M. A. Barucci, R. P. Binzel, S. Fornasier, F. E. DeMeo, and M. Ockert-Bell (2009), Spectroscopy of B-type asteroids: Subgroups and meteorite analogs, Bulletin of the American Astronomical Society, abstract.

Clark, B.E., J. Ziffer, D. Nesvorny, H. Campins, A.S. Rivkin, T. Hiroi, M.A. Barucci, M. Fulchignoni, R.P. Binzel, S. Fornasier, F. DeMeo, M.E. Ockert-Bell, J. Licandro, and T. Mothé-Diniz (2010), Spectroscopy of B-type asteroids: Subgroups and meteorite analogs,  J. Geophys. Res. 115, E06005, doi: 10.1029/2009JE003478.

Clenet, H., P. C. Pinet, Y. Daydou, Flahaut, J.-P. Bibring, C. Rosemberg, G. Ceuleneer, and Allemand (2010), Mafic minerals mapping on Mars and chemical composition characterization using a systematic approach based on the Modified Gaussian Model (MGM), Lunar Planet. Sci. XLI, abstract 1656.

Clark, B. E., R. P. Binzel, E. S. Howell, E. A. Cloutis, M. Ockert-Bell, P. Christensen, M. A. Barucci, F. E. DeMeo, D. S. Lauretta, H. C. Connolly Jr., A. Soderberg, C. Hergenrother, L. Lim, J. Emery, and M. Mueller (2011), Asteroid (101955) 1999 RQ36: Spectroscopy from 0.4 to 2.4 lm and meteorite analogs, Icarus, 216, 462-475, doi: 10.1016/j.icarus.2011.08.021.

Clénet, H., P. C. Pinet, Y. Daydou, F. Heuripeau, C. Rosemberg, D. Baratoux, and S. Chevrel (2011), A new systematic approach using the Modified Gaussian Model: Insight for the characterization of chemical composition of olivines, pyroxenes and olivine–pyroxene mixtures, Icarus, 213, 404-422, doi: 10.1016/j.icarus.2011.03.002.

Close, R., P. Gader, J. Wilson, and A. Zare (2012), Using physics-based macroscopic and microscopic mixture models for hyperspectral pixel unmixing, Proceedings of SPIE8390, 83901L-83901, doi: 10.1117/12.919583.

Cloutis, E. A., Olivine-metal mixtures: Spectral reflectance properties and phase determinations, Lunar Planet. Sci. XX, 173-174, 1989.

Cloutis, E. A., Identification, detection and characterization of individual tar sand phases using diffuse reflectance spectroscopy (0.35-2.6 µm), AOSTRA Journal of Research, 6, 17-27, 1990.

Cloutis, E. A., Mafic silicate-bearing mixtures: Spectral reflectance properties and applications to terrestrial and extraterrestrial remote sensing, mineral characterization, and geothermometry/geobarometry, Geological Association of Canada- Mineralogical Association of Canada 15th Annual Meeting, Vancouver, British Columiba, A25-A26, May 16-18, 1990.

Cloutis, E. A., Accessory phases in aubrites: Spectral properties and implications for asteroid 44 Nysa, Earth, Moon and Planets, 63, 227-243, 1993.

Cloutis, E. A., Olivine-rich asteroids, pallasitic olivine and olivine-metal mixtures: Comparisons of reflectance spectra, Lunar Planet. Sci. XXIV, 317-318, 1993.

Cloutis, E. A., Coal reflectance spectra: Particle size effects and implications for asteroid spectroscopy, Lunar Planet. Sci. XXVI, 263-264, 1995.

Cloutis, E. A., Constraints on the organic component on asteroid surfaces, Lunar Planet. Sci. XXVIII, 235-236, 1996.

Cloutis, E. A., Hyperspectral geological remote sensing: Evaluation of analytical techniques, Inter. J. Remote Sensing 17, 2215-2242, 1996.

Cloutis, E. A., Spectral properties of hydrocarbon-bearing geological materials, Lunar Planet. Sci. XXVII, 237-238, 1996.

Cloutis, E. A., Manganese-rich olivines: Identification from spectral reflectance properties, J. Geophys. Res., 102, 25,575-25,580, 1997.

Cloutis, E. A., H2O/OH-associated absorption band depth relationships in mineral reflectance spectra, Lunar Planet. Sci. XXXII, abstract 1146, 2001.

Cloutis, E. A., Spectral reflectance properties of calcium-aluminum inclusion minerals: 2. Melilites, Lunar Planet. Sci., XXXII, abstract 1128, 2001.

Cloutis, E. A., Conceptual Development of a Reflectance Spectrophotometer for Detecting and Discriminating Water-Bearing Minerals on Mars – Final Report, submitted to Canadian Space Agency, 420, 2002.

Cloutis, E. A., Hyperspectral imaging of Mars – Expected science return, 4th Canadian Space Exploration Workshop, Ottawa, Ontario, Canada, 14-15, 2002.

Cloutis, E. A. (2002), Pyroxene reflectance spectra: Minor absorption bands and effects of elemental substitutions, J. Geophys. Res, 107, doi: 10.1029/2001JE001590.

Cloutis, E. A., Dark asteroids: Insights into surface composition from coal spectra, Lunar Planet. Sci. XXXIV, abstract 1067, 2003.

Cloutis, E. A., Quantitative characterization of coal properties using bidirectional diffuse reflectance spectroscopy, Fuel, 82, 2239-2254, 2003.

Cloutis, E. A., Spectral reflectance properties of some basaltic weathering products, Lunar Planet. Sci. XXXV, abstract 1265, 2004.

Cloutis, E. A., Diagnostic absorption features in sulfate reflectance spectra across Omega wavelength range, Lunar Planet. Sci. XXXVI, abstract 1323, 2005.

Cloutis, E. A., and J. F. Bell III, Spectral reflectance properties of aluminum hydroxides and implications for Mars, Lunar Planet. Sci. XXX, abstract 1945, 1999.

Cloutis, E. A., and J. F. Bell III, Diaspores and related hydroxides: Spectral-compositional properties and implications for Mars, J. Geophys. Res., 105, 7053-7070, 2000.

Cloutis, E. A., and J. F. Bell III, Reflectance spectra of heated palagonites, Lunar Planet. Sci. XXXII, abstract 1208, 2001.

Cloutis, E. A. and J. F. Bell III, Mafic silicate mapping on Mars: Effects of palagonitic material, multiple mafic silicates, and spectral resolution, Icarus, 172, 233-254, 2004

Cloutis, E. A., and T. H. Burbine, The spectral properties of troilite/pyrrhotite and implications for the E-asteroids, Lunar Planet. Sci. XXX, abstract 1875, 1999.

Cloutis, E. A., and M. J. Gaffey, Pyroxene spectroscopy revisited: Spectral compositional correlations and relationship to geothermometry, J. Geophys. Res., 96, 22,809-22,826, 1991.

Cloutis, E. A., and M. J. Gaffey, Spectral-compositional variations in the constituent minerals of mafic and ultramafic assemblages and remote sensing implications, Earth, Moon and Planets, 53, 11-53, 1991.

Cloutis, E. A., and M. J. Gaffey, The constituent minerals in calcium-aluminum inclusions: Spectral reflectance properties and implications for CO carbonaceous chondrites and asteroids, Icarus, 105, 568-579, 1993.

Cloutis, E. A., and M. J. Gaffey, Lunar regolith analogues: Spectral reflectance properties of compositional variations, Icarus, 102, 203-224, 1993.

Cloutis, E. A., and M. J. Gaffey, An X-ray diffraction and reflectance spectroscopy study of iron sulphides, Lunar Planet. Sci. XXV, 273-274, 1994.

Cloutis, E. A., and B. Gautason, Spectral reflectance properties of calcium-aluminum inclusion minerals: 1. Perovskites, Lunar Planet. Sci. XXXII, abstract 1127, 2001.

Cloutis, E. A., and P. Hudon, Reflectance spectra of ureilites, Papers presented at International Symposium on Evolution of Solar System Materials: A New Perspective from Antarctic Meteorites, National Institute of Polar Research, Tokyo, Japan, 3-5 September, 2003.

Cloutis, E. A., and P. Hudon, Reflectance spectra of selected carbonaceous chondrites, Annual Meeting of the Meteoritical Society 67th, abstract 5093, Meteoritics Planet. Sci. 39, Supplement, A23, 2004.

Cloutis, E.A. and P. Hudon, Reflectance spectra of ureilites: Nature of mafic silicate absorption features, Lunar Planet. Sci. XXXV, abstract 1257, 2004.

Cloutis, E. A., P. M. Asher, and S. A. Mertzman (2002), Spectral reflectance properties of zeolites and remote sensing implications, J. Geophys. Res., 107, doi: 10.1029/2000JE1467.

Cloutis, E. A., J. F. Bell III, and T. Mueller, Pyroxene + palagonite mixture spectra: Effects of palagonite on deriving pyroxene compositional information, Lunar Planet. Sci. XXXI, abstract 1114, 2000.

Cloutis, E. A., J. F. Bell III, and T. Mueller, Spectral reflectance properties of low-abundance minerals in a neutral matrix: Implications for remote sensing of Mars, Lunar Planet. Sci. XXXI, abstract 1112, 2000.

Cloutis, E. A., M. J. Gaffey, and T. F. Moslow, Spectral reflectance properties of carbon-bearing materials, Icarus, 107, 276-287, 1994.

Cloutis, E. A., M. J. Gaffey, and T. F. Moslow, Characterization of minerals in oil sands by reflectance spectroscopy, Fuel, 74, 874-879, 1995.

Cloutis, E. A., J. M. Sunshine, and R. V. Morris, Reflectance spectral-compositional properties of spinels and chromites: Applications to planetary remote sensing and geothermometry, Meteoritics Planet. Sci., 39, 545-565, 2004.

Cloutis, E. A., J. M. Sunshine, and R. V. Morris, Spectral reflectance-compositional properties of spinels and chromites: Implications for planetary remote sensing and geothermometry, Meteoritics Planet. Sci., 39, 545-565, 2004.

Cloutis, E. A., M. J. Gaffey, D. G. W. Smith, and R. S. J. Lambert, Metal-silicate mixtures: Spectral properties and applications to asteroid taxonomy, J. Geophys. Res., 95, 8323-8338, 1990.

Cloutis, E. A., M. J. Gaffey, D. G. W. Smith, and R. St J. Lambert, Reflectance spectra of glass-bearing mafic silicate mixtures and spectral deconvolution procedures, Icarus, 86, 383-401, 1990.

Cloutis, E. A., M. J. Gaffey, D. G. W. Smith, and R. St J. Lambert, Reflectance spectra of mafic silicate-opaque assemblages with applications to meteorite spectra, Icarus, 84, 315-333, 1990.

Cloutis, E. A., M. J. Gaffey, D. G. W. Smith, and R. St J. Lambert, Reflectance spectra of “featureless” materials and the surface mineralogies of M- and E- class asteroids, J. Geophys. Res., 95, 281-294, 1990.

Cloutis, E. A., D. Goltz, J. Coombs, B. Russell, M. Guertin, and T. Mueller, Hydrated carbonate minerals: Spectral reflectance properties and possibility of detection in Martian spectra, Lunar Planet. Sci. XXXI, abstract 1155, 2000.

Cloutis, E. A., D. Goltz, M. Craig, D. Marcino, K. M. Krenn, and J. Strong, Identification of specific water-bearing minerals on Mars: The role of reflectance spectroscopy, 46th International Conference on Analytical Sciences and Spectroscopy, Winnipeg, Manitoba, Canada August 13-16, 2000.

Cloutis, E. A., D. M. Goltz, J. Coombs, B. Russell, M. Guertin, and T. Mueller, Reflectance spectra of anhydrous carbonate minerals: Implications for Mars, Lunar Planet. Sci. XXXI, abstract 1152, 2000.

Cloutis, E. A., P. M. Asher, S. A. Mertzman, and M. Guertin, Spectral-compositional properties of zeolites, Lunar Planet. Sci. XXXI, abstract 1172, 2000.

Cloutis, E. A., P. M. Asher, S. A. Mertzman, and M. Guertin, Spectral reflectance properties of common zeolites, Lunar Planet. Sci. XXXI, abstract 1174, 2000.

Cloutis, E. A., N. Rowlands, P. Budkewitsch, F. Fueten, and J. F. Bell III, Enhanced reflectance spectroscopy for planetary exploration, Third Canadian Space Exploration Workshop, Montreal, Quebec, May 25-26, 2001.

Cloutis, E. A., K. M. Krenn, S. Kollar, and J. Strong, Reflectance spectra of iron-bearing sulphates: Implications for Mars, Lunar Planet. Sci. XXXII, abstract 1375, 2001.

Cloutis, E. A., P. M. Asher, S. A. Mertzman, and M. Guertin, Spectral reflectance properties of zeolite group minerals, Lunar Planet. Sci. XXXII, abstract 1202, 2001.

Cloutis, E. A., D. Goltz, J. Coombs, M. Attas, C. Majzels, and C. Collins, Non-destructive discrimination of artists’ white materials using bidirectional reflectance spectroscopy (0.3-4.3 µm), Canadian Journal of Analytical Sciences and Spectroscopy, 48 (3), 196-209, 2003.

Cloutis, E. A., R. P. Binzel, T. H. Burbine, M. J. Gaffey, and T. J. McCoy, Asteroid 3628 Boznemcova: Covered with angrite-like basalts?, Meteoritics Planet. Sci., 41, 1147-1161, doi: 10.1111/j.1945-5100.2006.tb00512.x, 2006.

Cloutis, E. A., F. C. Hawthorne, S. A. Mertzman, K. Krenn, M. A. Craig, D. Marcino, M. Methot, J. Strong, J. F. Mustard, D. L. Blaney, J. F. Bell, and F. Vilas (2006), Detection and discrimination of sulfate minerals using reflectance spectroscopy, Icarus, 184, 121-157, doi: 10.1016/j.icarus.2006.04.003.

Cloutis, E. A., S. E. Grasby, W. M. Last, R. Léveillé, G. R. Osinski, and B. L. Sherriff (2009), Spectral reflectance properties of carbonates from terrestrial analogue environments: Implications for Mars, Planetary and Space Science 58, 522-537, doi: 10.1016/j.pss.2009.09.002.

Cloutis, E.A., P.S. Hardersen, D.L. Bish, D.T. Bailey, M.J. Gaffey, and M.A. Craig (2010), Reflectance spectra of iron meteorites: Implications for spectral identification of their parent bodies, Meteor. & Planet. Sci.45(2), 304-332, doi: 10.1111/j.1945-5100.2010.01033.x.

Cloutis, E. A., T. Hiroi, M. J. Gaffey, C. M. O. D. Alexander, and P. Mann (2011), Spectral reflectance properties of carbonaceous chondrites: 1. CI chondrites, Icarus, 212, 180-209, doi:10.1016/j.icarus.2010.12.009.

Cloutis, E. A., P. Hudon, T. Hiroi, M. J. Gaffey, and P. Mann (2011), Spectral reflectance properties of carbonaceous chondrites: 2. CM chondrites, Icarus, 216, 309-346, doi: 10.1016/j.icarus.2011.09.009.

Cloutis, E. A., P. Hudon, T. Hiroi, and M. J. Gaffey (2012), Spectral reflectance properties of carbonaceous chondrites 4: Aqueously altered and thermally metamorphosed meteorites, Icarus220, 586-617, doi: 10.1016/j.icarus.2012.05.018.

Cloutis, E. A., P. Hudon, T. Hiroi, and M. J. Gaffey (2012), Spectral reflectance properties of carbonaceous chondrites: 3. CR chondrites, Icarus217, 389-407, doi: 10.1016/j.icarus.2011.11.004.

Cloutis, E. A., P. Hudon, T. Hiroi, and M. J. Gaffey (2012), Spectral reflectance properties of carbonaceous chondrites: 7. CK chondrites, Icarus221, 911-924, doi: 10.1016/j.icarus.2012.09.017.

Cloutis, E. A., P. Hudon, T. Hiroi, M. J. Gaffey, and P. Mann (2012), Spectral reflectance properties of carbonaceous chondrites – 5: CO chondrites, Icarus220, 466-486, doi: 10.1016/j.icarus.2012.05.019.

Cloutis, E. A., P. Hudon, T. Hiroi, M. J. Gaffey, and P. Mann (2012), Spectral reflectance properties of carbonaceous chondrites: 8. “Other” carbonaceous chondrites: CH, ungrouped, polymict, xenolithic inclusions, and R chondrites, Icarus221, 984-1001, doi: 10.1016/j.icarus.2012.10.008.

Cloutis, E. A., P. Hudon, T. Hiroi, M. J. Gaffey, P. Mann, and J. F. Bell III (2012), Spectral reflectance properties of carbonaceous chondrites:  6. CV chondrites, Icarus221, 328-358, doi: 10.1016/j.icarus.2012.07.007.

Cloutis, E. A., P. Hudon, T. Hiroi, M. J. Gaffey, P. Mann, C. M. O. D. Alexander, J. F. Bell III, and B. E. Clark (2013), Possible causes of blue slopes (~0.5-2.5µm) in carbonaceous chondrite spectra, Lunar and Planetary Science Conference XLIV, abstract 1550.

Cloutis, E. A., M. R. M. Izawa, L. Pompilio, V. Reddy, H. Hiesinger, A. Nathues, P. Mann, L. Le Corre, E. Palomba, and J. F. Bell (2013), Spectral reflectance properties of HED meteorites+CM2 carbonaceous chondrites: Comparison to HED grain size and compositional variations and implications for the nature of low-albedo features on Asteroid 4 Vesta, Icarus223(2), 850-877, doi: 10.1016/J.Icarus.2013.02.003.

Cloutis, E.A., J.A. Sanchez, V. Reddy, M.J. Gaffey, R.P. Binzel, T.H. Burbine, P.S. Hardersen, T. Hiroi, P.G. Lucey, J.M. Sunshine, and K.T. Tait (2015), Olivine–metal mixtures: Spectral reflectance properties and application to asteroid reflectance spectra, Icarus252, 39-82, doi: 10.1016/j.icarus.2014.10.003.

Cloutis, E., B. Berg, P. Mann, and D. Applin (2015), Reflectance spectroscopy of low atomic weight and Na-rich minerals: Borates, hydroxides, nitrates, nitrites, and peroxides, Icarus, doi: 10.1016/j.icarus.2015.08.026.

Cloutis, E. A., D. Hewson, D. M. Applin, J. Mann, and S. A. Mertzman (2018), Raman and reflectance spectroscopy of serpentinites and related hydrated silicates: Effects of physical properties and observational parameters, and implications for detection and characterization on Mars, Planet Space Sci159, 66-83, doi: 10.1016/j.pss.2018.04.016.

Combe, J.-P., S. Le Mouélic, C. Sotin, A. Gendrin, J. F. Mustard, L. Le Deit, P. Launeau, J.-P. Bibring, B. Gondet, Y. Langevin, P. C. Pinet, and the OMEGA Science Team (2008), Analysis of OMEGA / Mars Express data hyperspectral data using a Multiple-Endmember Linear Spectral Unmixing Model (MELSUM): Methodology and first results, Planetary and Space Science, 56, 951-975, doi: 10.1016/j.pss.2007.12.007.

Cooper, C. D., and J. F. Mustard, Fine particle spectra of palagonite and smectite in the mid-infrared, Bull. Amer. Astron. Soc., 29, 962, 1997.

Cooper, C. D., and J. F. Mustard, Loss of spectral contrast in hyperfine palagonite: Implications for smectite on Mars, Lunar Planet. Sci. XXVIII, 257-258, 1997.

Cooper, C. D., and J. F. Mustard, Criteria for remote sensing detection of sulfate cemented soils on Mars, Lunar Planet. Sci. XXXI, abstract 1747, 1999.

Cooper, C. D., and J. F. Mustard, Effects of very fine particle size on reflectance spectra of smectite and palagonitic soil, Icarus,142, 557-570, 1999.

Cooper, C. D., and J. F. Mustard, Spectroscopic detectibility of sulfates in dust and duricrust on Mars, 5th Inter. Conf. on Mars, abstract 6164, 1999.

Cooper, C. D., and J. F. Mustard, Sulfates on Mars: Spectroscopic evaluation of analog mixtures, Lunar Planet. Sci. XXX, abstract 2042, 1999.

Cooper, C. D., and J. F. Mustard, Searching for Sulfate on Mars, Eos, Transactions, Am. Geophys. Union, 81, Spring Meeting, 2000.

Cooper, C. D., and J. F. Mustard, Sulfates on Mars: TES observations and thermal inertia data, Eos, Transactions, AGU, 82 (20), Suppl., S247, 2001.

Cooper, C. D., and J. F. Mustard, TES observations of the global distribution of sulfates on Mars, Lunar Planet. Sci. XXXII, abstract 2048, 2001.

Cooper, C. D., and J. F. Mustard, New insights on Mars low albedo region composition from joint analysis of ISM and TES spectra, Lunar Planet. Sci. XXXIII, abstract 1873, 2002.

Cooper, C. D., and J. F. Mustard, Spectroscopy of loose and cemented sulfate-bearing soils: Implications for duricrust on Mars, Icarus, 158, 42-55, 2002.

Cooper, C. D., and J. F. Mustard, Sulfates on Mars: Comparing TES and ISM results, Lunar Planet. Sci. XXXIII, abstract 1997, 2002.

Cord, A. M., P. C. Pinet, Y. Daydou, D. Stankevich, and Y. Shkuratov, Planetary regolith surface analogs and mesoscale topography: Optimized determination of Hapke parameters using multi-angular spectro-imaging laboratory data, Proceedings of Solar System Remote Sensing Conference, 17-18, Pittsburgh, 2002.

Cord, A. M., P. C. Pinet, Y. Daydou, and S. D. Chevrel, Planetary regolith surface analogs: Optimized determination. of Hapke parameters using multi-angular spectro-imaging laboratory facility, Icarus165, 414-427, 2003.

Corrigan, C. M., T. J. McCoy, J. M. Sunshine, S. J. Bus, and A. Gale, Does Spectroscopy Provide Evidence for Widespread Partial Melting of Asteroids?:  I.  Pyroxene Compositions, Lunar Planet. Sci. XXXVIII, abstract 1463, 2007.

Cousins, C. R., A. D. Griffiths, I. A. Crawford, B. J. Prosser, and A. J. Coates (2011), Selection of the geological filters on the ExoMars PanCam instrument, Lunar Planet. Sci. Conf. XLII, abstract 1826.

Cousins, C. R., M. Gunn, B. J. Prosser, D. P. Barnes, I. A. Crawford, A. D. Griffiths, L. E. Davis, and A. J. Coates (2012), Selecting the geology filter wavelengths for the ExoMars Panoramic Camera instrument, Planetary and Space Science71, 80-100, doi: 10.1016/j.pss.2012.07.009.

Cruikshank, D. P., L. V. Moroz, T. R. Geballe, C. M. Pieters, J. F. Bell III, and J. D. Davies, Asphaltite-like organic solids on 5145 Pholus, Vernadsky-Brown Microsymposium 18, Moscow, Russia, October 9-10, 73-74, 1993.

Cruikshank, D. P., L. V. Moroz, T. R. Geballe, C. M. Pieters, and J. F. Bell III, Asphaltite-like organics on planetesimal 5145 Pholus, Bull. Amer. Astron. Soc., 25, 1125-1126, 1993.

Cruikshank, D. P., L. V. Moroz, T. R. Geballe, C. M. Pieters, J. K. Davies, and J. F. Bell III, Asphaltite-like organics on planetesimal 5145 Pholus, EOS Transactions of Amer. Geophys. Union, 385, 1993.

Cuadros, J., and J. R. Michalski (2013), Investigation of Al-rich clays on Mars: Evidence for kaolinite–smectite mixed-layer versus mixture of end-member phases, Icarus222, 296-306, doi: 10.1016/j.icarus.2012.11.006.

Cui, W. L., J. S. Zhang, F. Schmidt, D. Cui, X. M. Huang, T. Li, and F. Tian (2018), Simultaneous characterization of the atmospheres, surfaces, and exomoons of nearby rocky exoplanets, Earth Planet Phys2(3), 247-256, doi: 10.26464/epp2018024.

Cull-Hearth, S., A. van Venrooy, M. C. Clark, and A. Cvitkovic (2016), Acid-sulfate mixtures from Rio Tinto, Spain: Spectral masking relationships and implications for Mars, Icarus271, 387-399, doi: 10.1016/j.icarus.2016.01.001.

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Dalton III, J. B., and K. M. Pitman (2012), Low temperature optical constants of some hydrted sulfates relevant to planetary surfaces, Journal of Geophysical Research117, doi: 10.1029/2011JE004036.

Davalos, J. A. G., J. M. Carvano, and J. Blanco (2017), Numerical determination of visible/NIR optical constants from laboratory spectra of HED meteorites, Icarus285, 275-290, doi: 10.1016/j.icarus.2016.10.022.

Davis, L. E. (2012), An astrobiological study of an alkaline-saline hydrothermal environment, relevant to understanding the habitability of Mars, University College London.

De Angelis, S., P. Manzari, M. C. De Sanctis, E. Ammannito, and T. Di Iorio (2016), VIS-IR study of brucite–clay–carbonate mixtures: Implications for Ceres surface composition, Icarus280, 315-327, doi: 10.1016/j.icarus.2016.07.002.

Deau, E., L. J. Spilker, and A. Flandes (2016), Re-analysis of previous laboratory phase curves: 2. Connections between opposition effect morphology and spectral features of stony meteorites, Icarus272, 149-164, doi: 10.1016/j.icarus.2016.01.035.

DeBergh, C., B. Schmitt, D. Cruikshank, L. Moroz, and E. Quirico. Laboratory data on ices, organics and silicates for TNO and Centaurs: What is missing?, Trans Neptunian Objects: Dynamical and Physical Properties Workshop, July 3-7, Catania, Italy, 2006.

DeBergh, C., B. Schmitt, L. V. Moroz, E. Quirico, and D. P. Cruikshank (2008), Laboratory data on ices, refractory carbonaceous materials and minerals relevant to Transneptunian objects and Centaurs, in: The Solar System Beyond Neptune, edited by A. Barucci, H. Boehnhardt, D. P. Cruikshank, and A. Morbidelli, Univ. Arizona Press, pp. 483–506.

Denevi, B.W., P.G. Lucey, and S.B. Sherman (2008), Radiative transfer modeling of near-infrared spectra of lunar mare soils: Theory and measurement, J. Geophys. Res.113(E2), doi: 10.1029/2007JE002929.

Denevi, B. W., M. S. Robinson, A. K. Boyd, H. Sato, B. W. Hapke, and B. R. Hawke (2014), Characterization of space weathering from Lunar Reconnaissance Orbiter Camera ultraviolet observations of the Moon, J Geophys Res-Planet119(5), 976-997, doi: 10.1002/2013je004527.

de Leon, J., N. Pinilla-Alonso, H. Campins, J. Licandro, and G. A. Marzo (2012), Near-infrared spectroscopic survey of B-type asteroids: Compositional analysis, Icarus218(1), 196-206, doi: 10.1016/J.Icarus.2011.11.024.

De Sanctis, M. C., E. Ammannito, A. Migliorini, D. Lazzaro, M. T. Capria, and L. A. McFadden (2011), Mineralogical characterization of some V-type asteroids, in support of the NASA Dawn mission, Monthly Notices of the Royal Astronomical Society, 412, 2318-2332, doi: 10.1111/j.1365-2966.2010.18058.x.

De Sanctis, M. C., E. Ammannito, M. T. Capria, F. Capaccioni, J.-P. Combe, A. Frigeri, A. Longobardo, G. Magni, S. Marchi, T. B. McCord, E. Palomba, F. Tosi, F. Zambon, F. Carraro, S. Fonte, Y. J. li, L. A. McFadden, D. W. Mittlefehldt, C. M. Pieters, R. Jaumann, K. Stephan, C. A. Raymond, and C. T. Russell (2013), Vesta’s mineralogical composition as revealed by the visible and infrared spectrometer on Dawn, Meteoritics and Planetary Science, 1-19, doi: 10.1111/maps.12138.

De Sanctis, M. C., V. Vinogradaoff, A. Raponi, E. Ammannito, M. Ciarniello, F. G. Carrozzo, S. De Angelis, C. A. Raymond, and C. T. Russell (2019), Characteristics of organic matter on Ceres from VIR/Dawn high spatial resolution spectra, Mon Not R Astron Soc482, 2407-2421, doi: 10.1093/mnras/sty2772.

Devogele, M., P. Tanga, A. Cellino, P. Bendjoya, J. P. Rivet, J. Surdej, D. Vernet, J. M. Sunshine, S. J. Bus, L. Abe, S. Bagnulo, G. Borisov, H. Campins, B. Carry, J. Licandro, W. McLean, and N. Pinilla-Alonso (2018), New polarimetric and spectroscopic evidence of anomalous enrichment in spinel-bearing calcium-aluminium-rich inclusions among L-type asteroids, Icarus304, 31-57, doi: 10.1016/j.icarus.2017.12.026.

Dhingra, D., J. F. Mustard, S. Wiseman, M. Parente, C. M. Pieters, and P. J. Isaacson (2011), Non-linear spectral un-mixing using Hapke modeling: Application to remotely acquired M3 spectra of spinel bearing lithologies on the Moon, Lunar Planet. Sci. Conf. XLII, abstract 2431.

Dixon, D. (2018), Visible-to-near-infrared spectral variability of hydrated sulfates and candidate Mars landing sites: Implications for the Mastcam-Z investigation on NASA’s Mars-2020 rover mission, 139 pp, Western Washington University.

Donaldson Hanna, K. L., and A. L. Sprague (2008), Mineralogy of Vesta and Howardite, Eucrite, and Diogenite (HED) meteorites, Lunar Planet. Sci., XXXIX, abstract 1410.

Donaldson Hanna, K., and A.L. Sprague (2009), Vesta and the HED meteorites: Mid-infrared modeling of minerals and their abundances, Meteoritics & Planetary Science44(11), 1755-1770, doi: 10.1111/j.1945-5100.2009.tb01205.x.

Donaldson Hanna, K. L., M. B. Wyatt, J. Helbert, A. Maturilli, and C. M. Pieters, Constraining lunar surface mineralogy with combined thermal- and nearinfrared spectral data, Lunar Planet. Sci. Conf., XL, abstract 2286, 2009.

Donaldson Hanna, K. L., I. R. Thomas, N. E. Bowles, B. T. Greenhagen, C. M. Pieters, J. F. Mustard, C. R. M. Jackson, and M. B. Wyatt (2012), Laboratory emissivity measurements of the plagioclase solid solution series under varying environmental conditions, Journal of Geophysical Research117, doi: 10.1029/2012JE004184.

Donaldson Hanna, K. L., M. B. Wyatt, I. R. Thomas, N. E. Bowles, B. T. Greenhagen, A. Maturilli, J. Helbert, and D. A. Paige (2012), Thermal infrared emissivity measurements under a simulated lunar environment: Application to the Diviner Lunar Radiometer Experiment, Journal of Geophysical Research117, 1-15, doi: 10.1029/2011JE003862.

Donaldson Hanna, K. L., C. M. Pieters, W. R. Patterson III, J. F. Mustard, B. T. Greenhagen, I. R. Thomas, N. E. Bowles, and D. A. Paige (2013), Effects of varying temperature and pressure conditions on emissivity spectra:  Application to thermal infrared observations of airless bodies, Lunar and Planetary Science Conference XLIV, abstract 2225.

Donaldson Hanna, K.L., I.R. Thomas, B.T. Greenhagen, N.E. Bowles, and C.M. Pieters (2014) Characterization of Apollo Soil Samples Under Simulated Lunar Conditions, Lunar Planet. Sci., XLV, abstract 2345.

Donaldson Hanna, K.L., N.E. Bowles, C.M. Pieters, B.T. Greenhagen, and T.D. Glotch (2015) Thermal Infrared Emission Studies of Bulk Apollo Soils: The Importance of Cross-Laboratory Analyses, Lunar Planet. Sci., XLVI, abstract 1377.

Duffard, R., D. Lazzaro, and J. de León, Revisiting spectral parameters of silicate-bearing meteorites, Meteoritics Planet. Sci. 40, 445, 2005.

Duffard, R., D. Lazzaro, J. Licandro, M. C. De Sanctis, M. T. Capria, V-type asteroids:  A mineralogical study, Advances Space Res., 38, 1987-1990, doi: 10.1016/j.asr.2006.01.002, 2006.

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Hiroi, T., M. E. Zolensky, and C. M. Pieters, The Tagish Lake Meteorite: A possible sample from a D-type asteroid, Science, 293, 2234-2236, 2001.

Hiroi, T., C. M. Pieters, M. E. Zolensky, and M. E. Lipschutz, Evidence of Thermal Metamorphism on the C, G, B, and F Asteroids, Science, 261, 1016-1018, 1993.

Hiroi, T., J. F. Bell III, H. Takeda, and C. M. Pieters, Modeling of S-type asteroid spectra using primitive achondrites and iron meteorites, Icarus, 102, 107-116, 1993.

Hiroi, T., J. F. Bell III, H. Takeda, and C. M. Pieters, Spectral comparison between olivine-rich asteroids and pallasites, Proceedings of the NIPR Symposium on Antarctic Meteorites, 6, 1993.

Hiroi, T., R. P. Binzel, J. M. Sunshine, C. M. Pieters, and H. Takeda, Grain sizes and mineral compositions of surface regoliths of Vesta-like asteroids, Icarus, 115, 374-386, 1995.

Hiroi, T., M. E. Zolensky, C. M. Pieters, and M. E. Lipschutz, Thermal metamorphism of the C, G, B, and F asteroids seen from the 0.7-mm, 3-mm, and UV absorption strengths in comparison with carbonaceous chondrites, Meteoritics Planet. Sci., 31, 321-327, 1996.

Hiroi, T., C. M. Pieters, F. Vilas, S. Sasaki, Y. Hamabe, and E. Kurahashi, Mystery of the 506.5 nm feature of reflectance spectra of Vesta and Vestoids from the viewpoint of pyroxene space weathering, Earth Planets Space, 53, 1071-1075, 2001.

Hiroi, T., L. V. Moroz, T. V. Shingareva, A. T. Basilevsky, and C. M. Pieters, Effects of microsecond pulse laser irradiation on Vis-NIR reflectance spectrum of carbonaceous chondrite simulant: Implications for Martian moons and primitive asteroids, Lunar Planet. Sci. XXXIV, abstract 1324, 2003.

Hiroi, T., A. Kanno, R. Nakamura, M. Abe, M. Ishiguro, S. Hasegawa, S. Miyasaka, T. Sekiguchi, H. Terada, and G. Igarashi, The Tagish Lake meteorite as a possible sample from a T or D type asteroid, Lunar Planet. Sci. XXXIV, abstract 1425, 2003.

Hiroi, T., C. M. Pieters, M. J. Rutherford, M. E. Zolensky, S. Sasaki, Y. Ueda, and M. Miyamoto, What are the P-type asteroids made of?, Lunar Planet. Sci. XXXV, abstract 1616, 2004.

Hiroi, T., E. Tonui, C. M. Pieters, M. E. Zolensky, Y. Ueda, M. Miyamoto, and S. Sasaki, Meteorite WIS91600: A new sample related to a D- or T-type asteroid, Lunar Planet. Sci. XXXVI, abstract 1564, 2005.

Hiroi, T., M. Abe, K. Kitazato, S. Abe, B. E. Clark, S. Sasaki, M. Ishiguro, and O. S. Barnouin-Jha. Developing space weathering on the asteroid 25143 Itokawa, Nature, 443, 56-58, doi: 10.1038/nature05073, 2006.

Hiroi, T., M. Abe, K. Kitazato, S. Abe, B. E. Clark, S. Sasaki, and M. Ishiguro, The S-type asteroid – ordinary chondrite controversy and discoveries by the Hayabusa mission to asteroid 25143 Itokawa, Antarct. Meteorites, 31, 21, 2006.

Hiroi, T., M. Abe, K. Kitazato, S. Abe, S. Sasaki, M. Ishiguro, Y. Takagi, B. E. Clark, and O. S. Barnouin-Jha, Meteorite analogs of asteroid 25143 Itokawa: Seeing beyond the effects of grain size and space weathering, Lunar Planet. Sci. XXXVIII, abstract 1048, 2007.

Hiroi, T., M. Miyamoto, T. Mikouchi, and Y. Ueda, Visible and near-infrared reflectance spectroscopy of the Yamato 980459 meteorite in comparison with some shergottites, Antarct. Meteorite Res., 18, 83-95, 2005.

Hiroi, T., Y. Ueda, T. Nimura, M. Abe, M. Ishiguro, and S. Sasaki, A new scheme for estimating the degree of space weathering through visible multiband spectroscopy using an ECAS-type filter system such as Hayabusa AMICA, Lunar Planet. Sci. XXXVII, abstract 1396, 2006.

Hiroi, T., T. Nimura, Y. Ueda, S. Sasaki, and C. M. Pieters, Deriving the distribution of ordinary chondrite (H, L, LL)-like materials in asteroids from their visible and near-infrared reflectance spectroscopy, Lunar Planet. Sci., 39, abstract 1997, 2008.

Hiroi, T., P. J. Isaacson, R. L. Klima, C. M. Pieters, A. B. Sarbadhikari, Y. Liu, and L. A. Taylor, Reproducing visible and near-infrared reflectance spectra of lunar rocks directly from their end-member spectra: importance of ilmenite in estimating the lunar surface composition, Lunar Planet. Sci. Conf., XL, abstract 1723, 2009.

Hiroi, T., P. Jenniskens, J. L. Bishop, and T. Shatir (2010), Reflectance spectroscopy of Almahata Sitta meteorite samples from asteroid 2008 TC3, Lunar Planet. Sci. XLI, abstract 1148.

Hiroi, T., P. Jenniskens, J.L. Bishop, T.S.M. Shatir, A.M. Kudoda, and M.H. Shaddad (2010), Bidirectional visible-NIR and biconical FT-IR reflectance spectra of Almahata Sitta meteorite samples, Meteoritics & Planetary Science45, 1836-1845, doi: 10.1111/j.1945-5100.2010.01097.x.

Hiroi, T., H. Kaiden, K. Misawa, T. Niihara, H. Kojima, and S. Sasaki (2011), Visible and near-infrared spectral survey of Martian meteorites stored at the National Institute of Polar Research, Polar Science, 5, 337-344, doi: 10.1016/j.polar.2011.06.002.

Hiroi, T., S. Sasaki, T. Misu, and T. Nakamura (2013), Keys to detect space weathering on Vesta:  Changes of visible and near-infrared reflectance spectra of HED and carbonaceous chondrites, Lunar and Planetary Science Conference XLIV,abstract 1276.

Hiroi, T., N. Imae, A. Yamaguchi, H. Kaiden, S. Sasaki, M. Matsuoka, T. Nakamura, C.M. Pieters, and R.E. Milliken (2015) Discovery of Unusual 3 Micron Absorption Bands of Some CM Chondrite Chips of NIPR and Possible Link to Asteroidal Surface Minerals, Lunar Planet. Sci., XLVI, abstract 1119.

Hiroi, T., H. Kaiden, A. Yamaguchi, H. Kojima, K. Uemoto, M. Ohtake, T. Arai, and S. Sasaki (2016), Visible and near-infrared spectral survey of lunar meteorites recovered by the National Institute of Polar Research, Polar Sci10(4), 476-496, doi: 10.1016/j.polar.2016.06.004.

Hoffman, E. J., E. A. Cloutis, and R. Housley, Anomalous spectra of high-Ca pyroxenes: Possible correlation with exsolved phases, Meteoritics Planet. Sci., 39, Supplement, A47, 2004.

Hoffman, E. J., R. L. Black, K. L. Bickraj, and E. A. Cloutis, Anomalous spectra of high-Ca pyroxenes: Correlation between IR and Mossbauer patterns, Lunar Planet. Sci. XXX, abstract 1128, 2004.

Horgan, B. H. N., E. A. Cloutis, P. Mann, and J. F. Bell (2014), Near-infrared spectra of ferrous mineral mixtures and methods for their identification in planetary surface spectra, Icarus234, 132-154, doi: 10.1016/J.Icarus.2014.02.031.

Horodyskyj, U.N., and M. B. Wyatt, Compositional variations with depth in Icelandic cores: Applications to integrated Mars remote sensing data sets, Lunar Planet. Sci. Conf., XL, abstract 2527, 2009.

Horodyskyj, U. N., and M. B. Wyatt (2010), Spectral and chemical variations in rocks and soils from Iceland’s interior: Implications for surface and sub-surface weathering processes in the martian northern plains, Lunar Planet. Sci. XLI, abstract 2178.

Howard, D. A., and H. Y. McSween Jr. (2010), Supporting evidence for an ultramafic component of the martian crust, Lunar Planet. Sci. XLI, abstract 1679.

Hu, R., B. L. Ehlmann, and S. Seager (2012), Theoretical spectra of terrestrial exoplanet surfaces, The Astrophysical Journal752, 1-15, doi: 10.1088/0004-637X/752/1/7.

Hu, S., and Y. Lin (2012), Space weathering simulation and spectrum decoding, Chinese Journal of Geochemistry31, 128-135, doi: 10.1007/s11631-012-0559-1.

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Ichimura, A. S., A. P. Zent, R. C. Quinn, M. R. Sanchez, and L. A. Taylor (2012), Hydroxyl (OH) production on airless planetary bodies: Evidence from H + /D + ion-beam experiments, Earth and Planetary Science Letters345-348, 90-94, doi: 10.1016/j.epsl.2012.06.027.

Ieva, S., E. Dotto, D. Perna, M. A. Barucci, F. Bernardi, S. Fornasier, F. De Luise, E. Perozzi, A. Rossi, and J. R. Brucato (2014), Low delta-V near-Earth asteroids: A survey of suitable targets for space missions, Astron Astrophys569, doi: 10.1051/0004-6361/201322283.

Ieva, S., D. Fulvio, E. Dotto, D. Lazzaro, D. Perna, G. Strazzulla, and M. Fulchignoni (2016), Spectral characterization of V-type asteroids:  Are all the basaltic objects coming from Vesta?, Memorie della Società Astronomica Italiana87, 87-92

Ieva, S., E. Dotto, D. Lazzaro, D. Perna, D. Fulvio, and M. Fulchignoni (2016), Spectral characterization of V-type asteroids – II. A statistical analysis, Mon Not R Astron Soc455(3), 2871-2888, doi: 10.1093/mnras/stv2510.

Ieva, S., E. Dotto, E. Mazzotta Epifani, D. Perna, E. Perozzi, and Micheli (2017), Physical characterization of the near-Earth object population, The European Physical Journal Plus132, doi: 10.1140/epjp/i2017-11622-6.

Isaacson, P. J., and C. M. Pieters (2008), Detecting a broader lunar magnesian suite with orbital spectroscopy, Lunar Planet. Sci., XXXIX, abstract 1783.

Isaacson, P. J., and C. M. Pieters (2009), Northern Imbrium Noritic anomaly, J. Geophys. Res., 114, E09007, doi: 10.1029/2008JE003293.

Isaacson, P.J., and C.M. Pieters (2010), Deconvolution of lunar olivine reflectance spectra: Implications for remote compositional assessment, Icarus210, 8-13, doi: 10.1016/j.icarus.2010.06.004.

Isaacson, P. J., C. M. Pieters, R. L. Klima, T. Hiroi, A. B. Sarbadhikari, Y. Liu, and L. A. Taylor, The Lunar Rock and Mineral Characterization Consortium (LRMCC): integrated analyses and mineral endmembers from mare basalts, Lunar Planet. Sci. Conf., XL, abstract 1821, 2009.

Isaacson, P. J., Y. Liu, A. Patchen, C. M. Pieters, and L. A. Taylor, Integrated analyses of lunar meteorites: Expanded data for lunar ground truth, Lunar Planet. Sci. Conf., XL, abstract 2119, 2009.

Isaacson, P.J., A.B. Sarbadhikari, C.M. Pieters, R.L. Klima, T. Hiroi, Y. Liu, and L.A. Taylor (2010), The Lunar Rock and Mineral Characterization Consortium (LRMCC): New results from the RELAB, in Geological Society of America Abstracts with Programs, 213-215.

Isaacson, P. J., Y. Liu, A. D. Patchen, C. M. Pieters, and L. A. Taylor (2010), Spectroscopy of lunar meteorites as constraints for ground truth: Expanded sample collection diversity, Lunar Planet. Sci. XLI, abstract 1927.

Isaacson, P. J., A. B. Sarbadhikari, C. M. Pieters, R. L. Klima, T. Hiroi, Y. Liu, and L. A. Taylor (2011), The lunar rock and mineral characterization consortium: Deconstruction and integrated mineralogical, petrologic, and spectroscopic analyses of mare basalts, Meteoritics & Planetary Science, 46, 228-251, doi: 10.1111/J.1945-5100.2010.01148.X.

Isaacson, P. J., C. M. Pieters, T. Hiroi, Y. Liu, D. Dhingra, R. L. Klima, and L. A. Taylor (2011), Reflectance spectroscopy of ilmenite: New constraints from Apollo sample measurements, Lunar Planet. Sci. Conf. XLII, abstract 2130.

Isaacson, P. J., A. Basu Sarbadhikari, C. M. Pieters, R. L. Klima, T. Hiroi, Y. Liu, and L. A. Taylor (2011), The lunar rock and mineral characterization consortium: Deconstruction and integrated mineralogical, petrologic, and spectroscopic analyses of mare basalts, Meteoritics & Planetary Science, 46, 228-251, doi: 10.1111/j.1945-5100.2010.01148.x.

Isaacson, P. J., T. Hiroi, B. R. Hawke, P. G. Lucey, C. M. Pieters, Y. Liu, A. Patchen, and L. A. Taylor (2013), Lunar meteorite geologic context:  New constraints from VNIR spectroscopy and geochemistry, Lunar and Planetary Science Conference XLIV,abstract 1134.

Isaacson, P. J., R. L. Klima, J. M. Sunshine, L. C. Cheek, C. M. Pieters, T. Hiroi, M. D. Dyar, M. D. Lane, and J. L. Bishop (2014), Visible to near-infrared optical properties of pure synthetic olivine across the olivine solid solution, American Mineralogist99, 467-478, doi: 10.2138/am.2014.4580.

Ishikawa, S. T., and V. C. Gulick (2013), Automatic classification of mineral spectra, Lunar and Planetary Science Conference XLIV, abstract 3085.

Ishiguro, M., T. Hiroi, D. J. Tholen, A. Yamamoto, S. Sasaki, F. Yoshida, B. E. Clark, R. Nakamura, and J. Saito, Detection of a large variation in the degree of space weathering on the surface of Itokawa by Hayabusa/AMICA observations, Lunar Planet. Sci. XXXVII, abstract 1533, 2006.

Ishiguro, M., T. Hiroi, D. J. Tholen, S. Sasaki, Y. Ueda, T. Nimura, M. Abe, B. E. Clark, A. Yamamoto, F. Yoshida, R. Nakamura, N. Hirata, H. Miyamoto, Y. Yokota, T. Hashimoto, T. Kubota, A. M. Nakamura, R. W. Gaskell, and J. Saito, Global mapping of the degree of space weathering on asteroid 25143 Itokawa by Hayabusa/AMICA observations, Meteorit. Planet. Sci., 42, 1791-1800, 2007.

Itoh, Y., S. Feng, M.F. Duarte, and M. Parente (2014), Hyperspectral unmixing via semantic spectral representations, IEEE 57th International Midwest Symposium on Circuits and Systems (MWSCAS), pp. 149-152.

Itoh, Y., M. F. Duarte, and M. Parente (2015), “Performance Guarantees for Sparse Regression-Based Un- mixing,” IEEE/ISPRS Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS), 1-5.

Itoh, Y., S. W. Feng, M. F. Duarte, and M. Parente (2017), Semisupervised Endmember Identification in Nonlinear Spectral Mixtures via Semantic Representation, Ieee T Geosci Remote55(6), 3272-3286, doi: 10.1109/Tgrs.2017.2667226.

Izawa, M. R. M., D. Applin, P. Mann, M. A. Craig, and E. A. Cloutis (2013), Ultraviolet, visible and near-infrared reflectance spectroscopy of highly-reduced phases under oxygen- and water-free conditions, Lunar and Planetary Science Conference XLIV,abstract 1788.

Izawa, M.R.M., P.L. King, R.L. Flemming, R.C. Peterson, and P.J.A. McCausland (2010), Mineralogical and spectroscopic investigation of enstatite chondrites by X-ray diffraction and infrared reflectance spectroscopy,  J. Geophys. Res.115, E07008, doi: 10.1029/2009JE003452.

Izawa, M. R. M., E. A. Cloutis, T. Rhind, S. A. Mertzman, D. M. Applin, J. M. Stromberg, and D. M. Sherman (2019), Spectral reflectance properties of magnetites: Implications for remote sensing, Icarus319, 525-539, doi: 10.1016/j.icarus.2018.10.002.

Izenberg, N. R., R. L. Klima, S. L. Murchie, D. T. Blewett, G. M. Holsclaw, W. E. McClintock, E. Malaret, C. Mauceri, F. Vilas, A. L. Sprague, J. Helbert, D. L. Domingue, J. W. Head, T. A. Goudge, S. C. Solomon, C. A. Hibbitts, and M. D. Dyar (2014), The low-iron, reduced surface of Mercury as seen in spectral reflectance by MESSENGER, Icarus228, 364-374, doi: 10.1016/J.Icarus.2013.10.023.

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Jin, S., S. Arivazhagan, and H. Araki (2013), New results and questions of lunar exploration from SELENE, Chang’E-1, Chandrayaan-1 and LRO/LCROSS, Advances in Space Research52, 285-305, doi: 10.1016/j.asr.2012.11.022.

Johnson, J. R., and F. Hörz (2003), Visible/near-infrared spectra of experimentally shocked plagioclase feldspars, J. Geophys. Res., 108 (E11), doi: 10.1029/2003JE002127.

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Kanno, A., T. Hiroi, R. Nakamura, M. Abe, M. Ishiguro, S. Hasegawa, S. Miyasaka, T. Sekiguchi, H. Terada, and G. Igarashi, The first detection of water absorption on a D type asteroid, Geophys. Res. Lett. 30, 1909, 2003.

Kaplan, H. H., R. E. Milliken, D. C. Fernández-Remolar, R. Amils, K. M. Robertson, and A. H. Knoll (2016), Orbital evidence for clay and acidic sulfate assemblages on Mars based on mineralogical analogs from Rio Tinto, Spain, Icarus, 275, 45-64, doi: 10.1016/j.icarus.2016.03.019.

Kaplan, H. H., R. E. Milliken, and C. M. O. D. Alexander (2018), New constraints on the abundance and composition of organic matter on Ceres, Geophysical Research Letters45, 5274-5282, doi: 10.1029/2018GL077913.

Kaplan, H. H., R. E. Milliken, D. C. Fernández-Remolar, R. Amils, K. M. Robertson, and A. H. Knoll (2016), Orbital evidence for clay and acidic sulfate assemblages on Mars based on mineralogical analogs from Rio Tinto, Spain, Icarus275, 45-64, doi: 10.1016/j.icarus.2016.03.019.

Kaur, P., S. Bhattacharya, P. Chauhan, Ajai, and A. S. Kiran Kumar (2013), Mineralogy of Mare Serenitatis on the near side of the Moon based on Chandrayaan-1 Moon Mineralogy Mapper (M3) observations, Icarus222, 137-148, doi: 10.1016/j.icarus.2012.10.020.

Keshava, N., and J. F. Mustard, Spectral unmixing, IEEE Signal Processing, 19 (1), 44-57, 2002.

Klima, R. L., and C. M. Pieters (2008), MGM analysis of pyroxene mineral separates from Apollo 15 and 17, Lunar Planet. Sci., XXXIX, abstract 1756.

Klima, R. L., C. M. Pieters, and M. D. Dyar (2007), Spectroscopy of synthetic Mg-Fe pyroxenes I: Spin-allowed and spin-forbidden crystal field bands in the visible and near-infrared, Meteoritics Planet. Sci. 42, 235-253, 2007.

Klima, R. K., C. M. Pieters, J. M. Sunshine, T. Hiroi, J. L. Bishop, M. Lane, D. Dyar, and A. Treiman, Coordinated spectroscopic and petrologic investigation of LAP 04840:  First results of infrared, thermal and Raman spectroscopy, Lunar Planet. Sci. XXXVIII, abstract 1710, 2007.

Klima, R. L., C. M. Pieters, and M. D. Dyar (2008), Reflectance and Mössbauer spectroscopy of synthetic pyroxenes: II. Characterizing the cooling histories of HED using reflectance spectroscopy, Lunar Planet. Sci., XXXIX, abstract 2289.

Klima, R.L., C.M. Pieters, and M.D. Dyar (2008), Characterization of the 1.2 μm M1 pyroxene band: Extracting cooling history from near-IR spectra of pyroxenes and pyroxene-dominated rocks, Meteoritics & Planetary Science43(10), 1591-1604, doi: 10.1111/j.1945-5100.2008.tb00631.x.

Klima, R. L., M. D. Dyar, and C. M. Pieters (2011), Near-infrared spectra of clinopyroxenes: Effects of calcium content and crystal structure, Meteoritics & Planetary Science, 46, 379-395, doi: 10.1111/j.1945-5100.2010.01158.x.

Kobayashi, Y., M. Ohtake, J. Haruyama, T. Matsunaga, T. Iwata, T. Morota, Y. Yokota, S. Yamamoto, and K. Kitazato (2010), Estimating composition of dark mantle deposit in Schrödinger basin using SELENE spectral data, Lunar Planet. Sci. XLI, abstract 1636.

Koga, S. C., S. Sugita, S. Kamata, M. Ishiguro, T. Hiroi, E. Tatsumi, and S. Sasaki (2018), Spectral decomposition of asteroid Itokawa based on principal component analysis, Icarus299, 386-395, doi: 10.1016/j.icarus.2017.08.016.

Korokhin, V. V., V. G. Kaydash, Y. G. Shkuratov, D. G. Stankevich, and U. Mall (2008), Prognosis of TiO2 abundance in lunar soil using a non-linear analysis of Clementine and LSCC data, Planetary and Space Science, 56, 1063-1078, doi: 10.1016/j.pss.2008.02.001.

Kramer, G. Y., D. A. Kring, A. L. Nahm, and C. M. Pieters (2013), Spectral and photogeologic mapping of Schrödinger Basin and implications for post-South Pole-Aitken impact deep subsurface stratigraphy, Icarus223, 131-148, doi: 10.1016/j.icarus.2012.11.008.

Krenn, K. M., E. A. Cloutis, B. Russell, S. Kollar, and J. Strong, Reflectance spectra of jarosite minerals: Implications for Mars, Lunar Planet. Sci. XXXII, abstract 1223, 2001.

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Kuhlman, K.R., J.D. Poplawsky, T. Hiroi, and K. Baba (2015) Atom probe tomography and visible/near-infrared spectral analysis of simulated solar wind hydrogen implanted olivine, 78th Annual Meeting of the Meteoritical Society, abstract 5034.

Kuroda, D., M. Ishiguro, M. Watanabe, S. Hasegawa, T. Sekiguchi, H. Naito, F. Usui, M. Imai, M. Sato, and K. Kuramoto (2018), Significantly high polarization degree of the very low-albedo asteroid (152679) 1998 KU2, Astron Astrophys611, doi: 10.1051/0004-6361/201732086.

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Landsman, Z. A. (2017), The physical properties and composition of main-belt asteroids from infrared spectroscopy, PhD thesis, 198 pp, University of Central Florida.

Lane, M. D., M. D. Dyar, and J. L. Bishop (2004), Spectroscopic evidence for hydrous iron sulfate in the Martian soil. Geophys. Res. Lett., 31, L19702, doi: 10.1029/2004GL021231..

Lane, M. D., M. D. Dyar, J. L. Bishop, P. L. King, and E. A. Cloutis, Laboratory emission, visible-near infrared, and Mössbauer spectroscopy of iron sulfates: Application to the bright Paso Robles soils in Gusev Crater, Mars, Lunar Planet. Sci. XXXVII, abstract 1799, 2006.

Lane, M. D., J. L. Bishop, M. D. Dyar, P. L. King, M. Parente, and B. C. Hyde (2008), Mineralogy of the Paso Robles soils on Mars, American Mineralogist, 93, 728-739, doi: 10.2138/am.2008.2757.

Lane, M. D., T. D. Glotch, M. D. Dyar, C. M. Pieters, R. L. Klima, T. Hiroi, J. L. Bishop, and J. M. Sunshine (2011), Midinfrared spectroscopy of synthetic olivines: Thermal emission, specular and diffuse reflectance, and attenuated total reflectance studies of forsterite to fayalite, Journal of Geophysical Research, 116, E08010, doi: 10.1029/2010JE003588.

Lane, M. D., S. A. Mertzman, M. D. Dyar, and J. L. Bishop (2011), Phosphate minerals measured in the visible-near infrared and thermal infrared: Spectra and XRD analyses, Lunar Planet. Sci. Conf. XLII, abstract 1013.

Lane, M.D., J.L. Bishop, M.D. Dyar, T. Hiroi, S.A. Mertzman, D.L. Bish, P.L. King, and A.D. Rogers (2015), Mid-infrared emission spectroscopy and visible/near-infrared reflectance spectroscopy of Fe-sulfate minerals, American Mineralogist100(1), 66-82.

Lantz, C., B. E. Clark, M. A. Barucci, and D. S. Lauretta (2013), Evidence for the effects of space weathering spectral signatures on low albedo asteroids, Astron Astrophys554, doi: 10.1051/0004-6361/201321593.

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Minitti, M. E., J. F. Mustard, and M. J. Rutherford (2002), The effects of glass content and oxidation on the spectra of SNC-like basalts: Applications to Mars remote sensing, J. Geophys. Res. 107 (E5), doi: 10.1029/2001JE001518.

Minitti M. E., C. W. Weitz, M. D. Lane, and J. L. Bishop, Composition and spectra of several Hawaiian rock coatings, Lunar Planet. Sci. XXXIV, abstract 1937, 2003.

Minitti M. E., C. W. Weitz, M. D. Lane, and J. L. Bishop, Rock coatings from Vulcano, a Martian analog environment, Lunar Planet. Sci. XXXVI, abstract 1835, 2005.

Minitti, M.E., C.M. Weitz, M.D. Lane, and J.L. Bishop (2007), Morphology, chemistry, and spectral properties of Hawaiian rock coatings and implications for Mars, J. Geophys. Res.112(E5), doi: 10.1029/2006JE002839.

Mittlefehldt, D.W., Ibitira: A basaltic achondrite from a distinct parent asteroid and implications for the Dawn mission, Meteoritics Planet. Sci., 40, 665-677, 2005.

Morlok, A., A. Bischoff, M. Patzek, M. Sohn, and H. Hiesinger (2017), Chelyabinsk – a rock with many different (stony) faces: An infrared study, Icarus284, 431-442, doi: 10.1016/j.icarus.2016.11.030.

Moroz, L., Space weathering of dark asteroids, 37th AAS DPS Meeting, Cambridge, England, September 4-9, Bull. Amer. Astron. Soc., 37 (3), abstract 7.06, 2005.

Moroz, L.V., Flat spectral curves of low-albedo asteroids: Thermal metamorphism or space weathering?, Lunar. Planet. Sci. Conf. 36, abstract 2056, 2005.

Moroz, L.V., Influence of surface temperature on optical spectra of mafic materials, Lunar Science – the Next Decade, June 6-10, Bad Honnef, Germany, 2005.

Moroz, L., Space weathering on dark asteroids, 2nd EGU General Assembly, Vienna, Austria, April 24-29, Geophys. Res. Abstr. 7, 09697, 2005.

Moroz, L. V., and C. M. Pieters, Reflectance spectra of some fractions of Mighei and Murchison CM chondrites in the range of 0.3-2.6 microns, Vernadsky-Brown Microsymposium 12, Moscow, USSR, 54-55, 1990.

Moroz, L. V., and C. M. Pieters, Reflectance spectra of some fractions of Migei and Murchison CM chondrites in the range of 0.3-2.6 µm in NASA Technical Memorandum, Lunar Planet. Sci. XXII, 923-924, 1991.

Moroz, L. V., M. V. Akhmanova, and C. M. Pieters. Spectroscopy of carbonaceous solids: Implications for outer belt asteroids and other dark small bodies of the Solar system, Annales Geophysicae, Part III, Space & Planetary Sciences, Suppl. III to vol. 11, p. C475, 1993.

Moroz, L. V., C. M. Pieters, and M. V. Akhmanova, Spectroscopy of solid carbonaceous materials: Implications for dark surfaces of outer belt asteroids, Lunar Planet. Sci. XXII, 925-926, 1991.

Moroz, L. V., C. M. Pieters, and M. V. Akhmanova, Why the surfaces of outer belt asteroids are dark and red?, Lunar Planet. Sci. XXIII, 931-932, 1992.

Moroz, L. V., A. V. Korochantsev, O. V. Nikolaeva, C. M. Pieters, K. N. Tobelko, M. V. Akhmanova, and M. A. Kreslavsky, Terrestrial bitumens as possible analogs of asteroid organic materials, Abstr. 3rd All-Union Conf. on Geochemistry of Carbon, 5-6, 1991 (in Russian).

Moroz, L. V., A. V. Fisenko, L. F. Semjonova, and C. M. Pieters, Optical effects of regolith processes on S asteroids as simulated by laser impulse alteration of ordinary chondrite, Lunar. Planet. Sci. XXIV, 1011-1012, 1993.

Moroz, L. V., A. V. Fisenko, L. F. Semjonova, C. M. Pieters, and N. N. Korotaeva, Optical effects of regolith processes on S-asteroids as simulated by laser shots on ordinary chondrite and other mafic materials, Icarus, 122, 366-382, 1996.

Moroz, L. V., A. V. Fisenko, L. F. Semjonova, C. M. Pieters, and N. N. Korotaeva, Optical effects of space weathering on S-type asteroids, Abstr. Int. Conf. Asteroids, Comets and Meteors, 84, 1996.

Moroz, L. V., A. V. Fisenko, L. F. Semjonova, C. M. Pieters, and N. N. Korotaeva, Where are the ordinary chondrite parent bodies?, Meteoritics Planet. Sci., 31, Suppl., A92-A93, 1996.

Moroz, L., G. Arnold, R. Wäsch, and C. Pieters, Effects of spectrally neutral components on estimations of mineral abundances in asteroid regoliths, Abstr. 32nd COSPAR Assembly, 1998.

Moroz, L., G. Arnold, R. Wäsch, and C. Pieters, Spectral estimations of asteroid mineral compositions: Effects of spectrally neutral components. Annales Geophysicae, Part III, Space and Planetary Sciences, 16, Suppl. III, C 1023, 1998.

Moroz, L. V., C. M. Pieters, A. T. Basilevsky, T. Hiroi, O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, N. G. Zinovieva, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. K. Galuzinskaya, and I. A. Stroganov, Reflectance spectroscopy of Martian impact glass simulants, Lunar Planet. Sci. XXXI, abstract 1532, 2000.

Moroz, L., C. Pieters, A. Basilevsky, O. Yakovlev, A.  Fisenko, L. Semjonova, N. Zinovieva, A. Semenova, L. Barsukova, I. Roshchina, A. Galuzinskaya, and I. Stroganov, Reflectance spectra of Martian impact glass simulants, Geophys. Res. Abstracts, 2, 25th European Geophysical Society Gen. Assembly, 2000.

Moroz, L. V., A. T. Basilevsky, C. M. Pieters, T. Hiroi, O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, D. A. Khramov, N. G. Zinovieva, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. Kh. Galuzinskaya, I. A. Stroganov, and G. Arnold, Spectral properties of simulated martian impact glasses, Meteoritics and Planet. Sci., 36, Suppl., A141, 2001.

Moroz, L. V., A. T. Basilevsky, C. M. Pieters, T. Hiroi, O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, D. A. Khramov, N. G. Zinovieva, A. S. Semenova, L. D. Barsukova, I. A. Roshchina, A. Kh. Galuzinskaya, I. A. Stroganov, and G. Arnold, Spectral properties of simulated impact glasses produced from Martian soil analogue JSC Mars-1, Int. Workshop “Exploring Mars Surface and its Earth Analogues”, Cannizzaro, Italy, 62, September 23-25, 2002.

Moroz, L. V., T. Hiroi, T. V. Shingareva, A. T. Basilevsky, A. V. Fisenko, L. F. Semjonova, and C. M. Pieters, Reflectance spectra of CM2 chondrite Mighei irradiated with pulsed laser and implications for low-albedo asteroids and martian moons, Lunar Planet. Sci. XXXV, abstract 1279, 2004.

Moroz, L. V., T. V. Shingareva, A. T. Basilevsky, T. Hiroi, A. V. Fisenko, L. F. Semjonova, and C. M. Pieters, Simulation of micrometeoritic bombardment of CM2 carbonaceous chondite: Reflectance and implications for dark asteroids and Martian moons, European Geophysical Union, Nice, France, abstract A-05881, 2004.

Moroz, L., T. Hiroi, T. Shingareva, A. Basilevsky, A. Fisenko, L. Semjonova, and C. M. Pieters, Reflectance spectra of possible Phobos analogue materials as a support for interpretation of Mars Express data, 1st Mars Express Science Conf., Noordwijk, the Netherlands, February 21-25, 2005.

Moroz, L.V., M. Schmidt, U. Schade, T. Hiroi, and M.A. Ivanova, Synchrotron-based IR microspectroscopy as a useful tool to study hydration states of meteorite constituents, Lunar. Planet. Sci. XXXVI, abstract 1357, 2005.

Moroz, L. V., M. Schmidt, U. Schade, T. Hiroi, and M. A. Ivanova. Synchrotron-based IR microspectroscopy as a useful tool to study hydration states of meteorite constituents, International Workshop on Infrared Microscopy and Spectroscopy with Accelerator Based Sources (WIRMS 2005), June 26-29, Rathen, Germany, 101-103, 2005.

Moroz, L. V., M. Schmidt, U. Schade, T. Hiroi, and M. A. Ivanova.  Synchrotron-based infrared microspectroscopy as a useful tool to study hydration states of meteorite constituents, Meteoritics Planet. Sci. 41, 1219-1230, 2006.

Moroz, L. V., A. T. Basilevsky, T. Hiroi, S. S. Rout, D. Baither, C. H. van der Bogert, O. I. Yakovlev, A. V. Fisenko, L. F. Semjonova, V. S. Rusakov, D. A. Khramov, N. G. Zinovieva, G. Arnold, and C. M. Pieters (2009), Spectral properties of simulated impact glasses produced from martian soil analogue JSC Mars-1, Icarus, 202, 336-353, doi:10.1016/j.icarus.2009.02.007.

Moskovitz, N. A., R. Jedicke, E. Gaidos, M. Willman, D. Nesvorny, R. Fevig, and Z. Ivezic (2008), The distribution of basaltic asteroids in the Main Belt, Icarus, 198, 77-90, doi: 10.1016/j.icarus.2008.07.006.

Moskovitz, N.A., M. Willman, T.H. Burbine, R.P. Binzel, and S.J. Bus (2010), A spectroscopic comparison of HED meteorites and V-type asteroids in the inner Main Belt, Icarus208, 773-788, doi: 10.1016/j.icarus.2010.03.002.

Moskovitz, N. A., S. Abe, K. S. Pan, D. J. Osip, D. Pefkou, M. D. Melita, M. Elias, K. Kitazato, S. J. Bus, F. E. DeMeo, R. P. Binzel, and P. A. Abell (2013), Rotational characterization of Hayabusa II target Asteroid (162173) 1999 JU3, Icarus224(1), 24-31, doi: 10.1016/J.Icarus.2013.02.009.

Mothé-Diniz T. and J. M. Carvano (2006), 221 Eos: A remnant of a partially differentiated parent body?, Astronomy and Astrophysics, 442, 727-729, doi: 10.1051/0004-6361:20053551.

Mothé-Diniz, T., J. Carvano, S. J. Bus, R. Duffard, and T. H. Burbine (2008), Mineralogical analysis of the Eos family from near-infrared spectra, Icarus, 195, 277-294, doi: 10.1016/j.icarus.2007.12.005.

Mothé-Diniz, T., F.L. Jasmin, J.M. Carvano, D. Lazzaro, D. Nesvorny, and A.C. Ramirez (2010), Re-assessing the ordinary chondrites paradox, Astronomy and Astrophysics514, doi: 10.1051/0004-6361/200913842.

Moyano-Cambero, C.E., and J.M. Trigo-RodrÌguez (2015) Comparative Study of CK Carbonaceous Chondrites and Asteroids Reflectance Spectra Between 0.3 and 2.6 µm, Lunar Planet. Sci., XLVI, abstract 1106.

Moyano-Cambero, C., J. M. Trigo-Rodriguez, E. Pellicer, M. Martinez-Jiménez, and J. Llorca (2017), Chelyabinsk meteorite as a proxy for studying the properties of potentially hazardous asteroids and impact deflection strategies, in Assessment and Mitigation of Asteroid Impact Hazards, edited by J. Trigo-Rodríguez, M. Gritsevich and H. Palme, Springer.

Mrozack, A., D. L. Marks, and D. J. Brady (2012), Coded aperture spectroscopy with denoising through sparsity, Optics Express20, 2297-2309, doi: 10.1364/OE.20.002297.

Muinonen, K., J. Piironen, Y. G. Shkuratov, A. Ovcharenko, and B. E. Clark, Asteroid photometric and polarimetric phase effects, in Asteroids III, edited by W. Bottke, A. Cellino, P. Paolicchi, and R. P. Binzel, Univ. of Arizona Press, pp. 123-138, 2002.

Murchie, S. L., and C. M. Pieters, Spectral properties and rotational spectral heterogeneity of 433 Eros, J. Geophys. Res., 101 (E1), 2201-2214, 1996.

Murchie, S. L., D. T. Britt, J. W. Head III, S. F. Pratt, P. C. Fisher, B. S. Zhukov, A. A. Kuzmin, L. V. Ksanfomality, A. V. Zharkov, G. E. Nikitin, F. P. Fanale, D. L. Blaney, J. F. Bell III, and M. S. Robinson, Color heterogeneity of the surface of Phobos: Relationships to geologic features and comparison to meteorite analogs, J. Geophys. Res., 96, 5925-5945, 1991.

Murchie, S. L., J. F. Mustard, J. L. Bishop, J. W. Head III, C. M. Pieters, and S. Erard, Spatial variations in the spectral properties of bright regions on Mars, Icarus, 105, 454-468, 1993.

Mustard, J. F., Chemical analysis of actinolite from reflectance spectra, American Mineralogist, 77, 345-358, 1992.

Mustard, J. F., and J. E. Hayes, Effects of hyperfine particles on reflectance spectra from 0.3 to 25 µm, Icarus,125, 145-163, 1997.

Mustard, J. F., and C. M. Pieters, Photometric phase functions of common geologic minerals and applications to quantitative analysis of mineral mixture reflectance spectra, J. Geophys. Res., 94 (B10), 13,619-13,634, 1989.

Mustard, J. F., and J. M. Sunshine, Seeing through the dust: Martian crustal heterogeneity and links to the SNC meteorites, Science, 267, 1623-1626, 1995.

Mustard, J. F., and J. M. Sunshine, Spectral analysis for Earth science: Investigations using remote sensing data, in Remote Sensing for the Earth Sciences, Manual of Remote Sensing, 3rd Ed., edited by A. Rencz, pp. 251-307, J. Wiley and Sons Inc., New York, 1999.

Mustard, J. F., S. L. Murchie, S. Erard, and J. M. Sunshine, In situ compositions of Martian volcanics: Implications for the mantle, J. Geophys. Res., 102, 25,605-25,615, 1997.

Mustard, J. F., C. M. Pieters, S. L. Murchie, and W. M. Calvin, Mapping the mineralogy of environments of Mars with Aladdin, Lunar Planet. Sci. XXX, abstract 1479, 1999.

Mustard, J. F., F. Poulet, A. Gendrin, J.-P. Bibring, Y. Yangevin, B. Gondet, N. Mangold, G. Bellucci, and F. Altieri, Olivine and pyroxene diversity in the crust of Mars, Science, 307, 1594–1597, 2005.

Mustard, J. F., F. Poulet, J. W. Head, N. Mangold, J.-P. Bibring, S. M. Pelkey, C. I. Fassett, Y. Langevin, and G. Neukum (2007), Mineralogy of Nili Fossae region with OMEGA/Mars Express data: 1. Ancient impact melt in the Isidis Basin and implications for the transition from the Noachian to Hesperian, J. Geophys. Res., 112, E08S03, doi: 10.1029/2006JE002834.

Mustard, J. F., C. D. K. Herd, J. R. Skok, and K. M. Cannon (2013), Visible-infrared reflectance of the Tissint meteorite:  Impact melt, maskelynite, and implications for Mars remote sensing, Lunar and Planetary Science Conference XLIV,abstract 2771.

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Nagata, K., S. Sugita, and M. Okada (2012), Bayesian spectral deconvolution with the exchange Monte Carlo method, Neural Networks28, 82-89, doi: 10.1016/j.neunet.2011.12.001.

Nair, A. M., and G. Mathew (2014), Effect of bulk chemistry in the spectral variability of igneous rocks in VIS-NIR region: Implications to remote compositional mapping, Int J Appl Earth Obs30, 227-237, doi: 10.1016/J.Jag.2014.02.004.

Nardi, L., E. Palomba, A. Longobardo, A. Galiano, and F. Dirri (2019), Icarus321, 14-28, doi: 10.1016/j.icarus.2018.10.035.

Nathues, A., M. Hoffmann, E. A. Cloutis, M. Schafer, V. Reddy, U. Christensen, H. Sierks, G. S. Thangjam, L. Le Corre, K. Mengel, J. B. Vincent, C. T. Russell, T. Prettyman, N. Schmedemann, T. Kneissl, C. Raymond, P. Gutierrez-Marques, I. Hall, and I. Buttner (2014), Detection of serpentine in exogenic carbonaceous chondrite material on Vesta from Dawn FC data, Icarus239, 222-237, doi: 10.1016/J.Icarus.2014.06.003.

Nedelcu, D. A., M. Birlan, P. Vernazza, R. P. Binzel, M. Fulchignoni, and M. A. Barucci (2007), E-type asteroid (2867) Steins:  Flyby target for Rosetta, Astronomy and Astrophysics, 473, L33-L36, doi: 10.1051/0004-6361:20078272.

Nedelcu, D. A., M. Birlan, P. Vernazza, P. Descamps, R. P. Binzel, F. Colas, A. Kryszczynka, and S. J. Bus (2007), Near infra-red spectroscopy of hte asteroid 21 Lutetia, Astronomy and Astrophysics, 470, 1157-1164, doi: 10.1051/0004-6361:20066944.

Nedelcu, D. A., and D. Birlan (2008), Ground based science of ESA’s Rosetta mission targets: (21) Lutetia and (2867) Steins, American Institute of Physics Conference Proceedings, 1043, 171-174, doi: 10.1063/1.2993632.

Nedelcu, D. A., M. Birlan, M. Popescu, O. Badescu, and D. Pricopi (2014), Evidence for a source of H chondrites in the outer main asteroid belt, Astron Astrophys567, doi: 10.1051/0004-6361/201423949.

Neeley, J. R., B. E. Clark, M. E. Ockert-Bell, M. K. Shepard, J. Conklin, E. A. Cloutis, S. Fornasier, and S. J. Bus (2014), The composition of M-type asteroids II: Synthesis of spectroscopic and radar observations, Icarus238, 37-50, doi: 10.1016/J.Icarus.2014.05.008.

Nimura, T., T. Hiroi, M. Ohtake, Y. Ueda, M. Abe, and A. Fujiwara, An attempt of restricting olivine bands in the modified Gaussian model, Lunar Planet. Sci. XXXVII, abstract 1600, 2006.

Nimura, T., T. Hiroi, and C. M. Pieters, An improved spectroscopic model for space weathering through the formation of a vapor deposition layer containing nanophase reduced iron particles, Lunar Planet. Sci. XXXVIII, abstract 2167, 2007.

Nimura, T., T. Hiroi, and C. M. Pieters, An integrated model utilizing the modified Gaussian model, a mineral-mixing model, and a space-weathering model, Lunar Planet. Sci., 39, abstract 2392, 2008.

Nimura, T., T. Hiroi, and C. M. Pieters, An improved scheme for modeling the reflectance spectra of space-weathered regoliths, Earth Planets Space, 60, 271-275, doi: 10.1186/BF03352791, 2008.

Nimura, T., T. Hiroi, C. M. Pieters, and M. Abe (2010), An application of a unified model of intimate mixing, space weathering, and modified Gaussian deconvolution to a ground-based spectra of asteroids, Lunar Planet. Sci. XLI, abstract 2711.

Noble, S. K., and C. M. Pieters, Space weathering in the Mercurian environment, Mercury: Space Environment, Surface, and Interior, abstract 8012, 2001.

Noble, S. K., and C. M. Pieters, Type 2 terrain: Compositional Constraints on the Martian lowlands, Lunar Planet. Sci. XXXII, abstract 1230, 2001.

Noble, S. K., and C. M. Pieters, Space Weathering Processes on Mercury, Solar System Remote Sensing Conference, Pittsburgh, PA, abstract 4005, 2002.

Noble, S. K., C. M. Pieters, and T. Hiroi, Extracting quantitative data from lunar soil spectra, Lunar Planet. Sci. XXXVI, abstract 1255, 2005.

Noble, S. K., L. P. Keller, and C. M. Pieters, Understanding and Identifying Space Weathering Products in Regolith Breccias, Meteoritical Society 65th Annual Meeting, U. of California, Los Angeles, CA 2002.

Noble, S. K., C. M. Pieters, and L. P. Keller, Can space weathering survive lithification?: Results of a TEM study of lunar regolith breccia 10068, Lunar Planet. Sci. XXXIII, abstract 1334, 2002.

Noble S.K., C.M. Pieters, and L.P. Keller, An experimental approach to understanding the optical effects of space weathering, Icarus, 192, 629-642, doi: 10.1016/j.icarus.2007.07.021, 2007.

Noble, S. K., C. M. Pieters, L. A. Taylor, R. V. Morris, D. S. McKay, and S. J. Wentworth, The optical properties of the finest fraction of lunar soils: Initial results and implications for weathering processes, Lunar Planet. Sci. XXX, abstract 1669, 1999.

Noble, S. K., C. M. Pieters, T. Hiroi, L. A. Taylor, R. V. Morris, L. P. Keller, D. S. McKay, and S. J. Wentworth, Initial results of MGM analysis on Apollo 17 soil suite, Lunar Planet. Sci. XXXI, abstract 1880, 2000.

Noble, S. K., C. M. Pieters, L. A. Taylor, R. V. Morris, C. C. Allen, D. S. McKay, and L. P. Keller, Optical properties of the finest fraction of lunar soil: Implication for space weathering environments, Lunar Planet. Sci. XXXI, abstract 1810, 2000.

Noble, S. K., C. M. Pieters, L. A. Taylor, R. V. Morris, C. C. Allen, D. S. McKay, and L. P. Keller, Optical properties of the finest fraction of lunar soils: Implications for space weathering environments, Meteoritics Planet. Sci., 36, 31-42, 2001.

Noble S.K., C.M. Pieters, and L.P. Keller (2007), An experimental approach to understanding the optical effects of space weathering, Icarus, 192, 629-642, doi: 10.1016/j.icarus.2007.07.021.

Noble, S. K., T. Hiroi, L. P. Keller, Z. Rahman, S. Sasaki, and C. M. Pieters (2011), Experimental space weathering of ordinary chondrites by nanopulse laser: TEM results, Lunar Planet. Sci. Conf. XLII, abstract 1382.

Núñez, J. I., J. D. Farmer, R. G. Sellar, G. A. Swayze, and D. L. Blaney (2014), Science applications of a multispectral microscopic imager for the astrobiological exploration of Mars, Astrobiology14, 132-169, doi: 10.1089/ast.2013.1079.

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Ockert-Bell, M.E., B.E. Clark, M.K. Shepard, R.A. Isaacs, E.A. Cloutis, S. Fornasier, and S.J. Bus (2010), The composition of M-type asteroids: Synthesis of spectroscopic and radar observations, Icarus210, 674-692, doi: 10.1016/j.icarus.2010.08.002.

Ody, A., K.M. Cannon, F. Poulet, J.F. Mustard, C. Quantin, and J. Filiberto (2014), Search for Analogue Sites of New Martian Shergottite Spectra Using NIR Data, Lunar Planet. Sci., XLV, abstract 2207.

Ody, A., F. Poulet, C. Quantin, J.P. Bibring, J.L. Bishop, and M.D. Dyar (2015), Candidates source regions of martian meteorites as identified by OMEGA/MEx, Icarus258, 366-383, doi: 10.1016/j.icarus.2015.05.019.

Ohtake, M., T. Matsunaga, J. Haruyama, Y. Yokota, T. Morota, C. Honda, Y. Ogawa, M. Torii, H. Miyamoto, T. Arai, N. Hirata, A. Iwasaki, R. Nakamura, T. Hiroi, T. Sugihara, H. Takeda, H. Otake, C. M. Pieters, K. Saiki, K. Kitazato, M. Abe, N. Asada, H. Demura, Y. Yamaguchi, S. Sasaki, S. Kodama, J. Terazono, M. Shirao, A. Yamaji, S. Minami, Akiyama, and J.-L. Josset (2009), The global distribution of pure anorthosite on the Moon, Nature, 461, 236-240, doi: 10.1038/nature08317.

Oklay, N., J.-B. Vincent, and H. Sierks (2013), Filter strategy for the characterization of minerals with OSIRIS, Lunar and Planetary Science Conference XLIV,abstract 2399.

Omelchenko, V., Y. G. Shkuratov, D. G. Stankevich, V. G. Kaydash, C. M. Pieters, and P. C. Pinet, Comparison of two methods for determination of the lunar surface composition, Vernadsky-Brown Microsymposium 36, October 14-16, Moscow 2002.

Ostrowski, D.R., K. Gietzen, C. Lacy, and D.W.G. Sears (2010), An investigation of the presence and nature of phyllosilicates on the surfaces of C asteroids by an analysis of the continuum slopes in their near-infrared spectra, Meteoritics & Planetary Science45, 615-637, doi: 10.1111/j.1945-5100.2010.01047.x.

Ostrowski, D. R., C. H. S. Lacy, K. M. Gietzen, and D. W. G. Sears (2011), IRTF spectra for 17 asteroids from the C and X complexes: A discussion of continuum slopes and their relationships to C chondrites and phyllosilicates, Icarus, 212, 682-696, doi: 10.1016/j.icarus.2011.01.032.

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Pajola, M., S. Rossato, E. Baratti, C. Mangili, F. Mancarella, K. McBride, and M. Coradini (2016), The Simud-Tiu Valles hydrologic system: A multidisciplinary study of a possible site for future Mars on-site exploration, Icarus268, 355-381, doi: 10.1016/j.icarus.2015.12.049.

Palomba, E., A. Longobardo, M. C. De Sanctis, E. Ammannito, F. Capaccioni, M. T. Capria, A. Frigeri, F. Tosi, F. Zambon, C. T. Russell, C. A. Raymond, M. J. Toplis, and E. A. Cloutis (2013), Calibration of spectral indexes suitable for olivine detection on Vesta, Lunar and Planetary Science Conference XLIV, abstract 1922.

Palomba, E., A. Longobardo, M. C. De Sanctis, D. W. Mittlefehldt, E. Ammannito, F. Capaccioni, M. T. Capria, A. Frigeri, F. Tosi, F. Zambon, C. T. Russell, and C. A. Raymond (2013), Mesosiderites on Vesta:  A hyperspectral VIS-NIR investigation, Lunar and Planetary Science Conference XLIV, abstract 2245.

Palomba, E., A. Longobardo, M. C. De Sanctis, F. Zambon, F. Tosi, E. Ammannito, F. Capaccioni, A. Frigeri, M. T. Capria, E. A. Cloutis, R. Jaumann, J. P. Combe, C. A. Raymond, and C. T. Russell (2014), Composition and mineralogy of dark material units on Vesta, Icarus240, 58-72, doi: 10.1016/J.Icarus.2014.04.040.

Palomba, E., A. Longobardo, M. C. De Sanctis, N. T. Stein, B. Ehlmann, A. Galiano, A. Raponi, M. Ciarniello, E. Ammannito, E. Cloutis, F. G. Carrozzo, M. T. Capria, K. Stephan, F. Zambon, F. Tosi, C. A. Raymond, and C. T. Russell (2019), Compositional differences among Bright Spots on the Ceres surface, Icarus320, 202-212, doi: 10.1016/j.icarus.2017.09.020.

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Parente, M. and J. L. Bishop, Deconvolution of reflectance spectra using nonlinear least squares curve fitting: Application to Martian meteorites, Lunar Planet. Sci. XXXVII, abstract 1535, 2006.

Parente, M., H. D. Makarewicz, and J. L. Bishop (2011), Decomposition of mineral absorption bands using nonlinear least squares curve fitting: Application to Martian meteorites and CRISM data, Planetary and Space Science, 59, 423-442, doi: 10.1016/j.pss.2011.01.009.

Patel, S.N., J.L. Bishop, P. Englert, and E.K. Gibson (2015) Coordinating Chemical and Mineralogical Analyses of Antarctic Dry Valley Sediments as Potential Analogs for Mars, Lunar Planet. Sci., XLVI, abstract 1537.

Pelkey, S. M., J. F. Mustard, S. Murchie, R. T. Clancy, M. R. Wolf, M. Smith, R. E. Milliken, J.-P. Bibring, A. Gendrin, F. Poulet, Y. Langevin, and B. Gondet (2007), CRISM multispectral summary products: Parameterizing mineral diversity on Mars from reflectance, J. Geophys. Res., 112, E08S14, doi: 10.1029/2006JE002831.

Perna, D., E. Dotto, M. A. Barucci, S. Fornasier, A. Alvarez-Candal, F. Gourgeot, J. R. Brucato, and A. Rossi (2013), Ultraviolet to near-infrared spectroscopy of the potentially hazardous, low delta-V asteroid (175706) 1996 FG3 Backup target of the sample return mission MarcoPolo-R, Astron Astrophys555, doi: 10.1051/0004-6361/201321677.

Perna, D., M. A. Barucci, M. Ishiguro, A. Alvarez-Candal, D. Kuroda, M. Yoshikawa, M. J. Kim, S. Fornasier, S. Hasegawa, D. G. Roh, T. G. Muller, and Y. Kim (2017), Spectral and rotational properties of near-Earth asteroid (162173) Ryugu, target of the Hayabusa2 sample return mission, Astron Astrophys599, doi: 10.1051/0004-6361/201630346.

Perry, K. A., J. L. Bishop, M. D. Dyar, D. F. Blake, S. Peel, and A. J. Brown (2011), Spectral analysis of nontronite-magnesite-olivine mixtures and implications for carbonates on Mars, Lunar Planet. Sci. Conf. XLII, abstract 1554.

Petro, N. E., L. R. Gaddis, and S. R. Rodriguez (2010), Mapping global lunar basalt compositions with Clementine UVVIS and NIR data, Lunar Planet. Sci. XLI, abstract 2628.

Pieters, C. M., Compositional diversity and stratigraphy of the lunar crust derived from reflectance spectroscopy, in Remote Geochemical Analysis: Elemental and Mineralogical Composition, edited by C. M. Pieters, and P. A. J. Englert, pp. 309-339, Cambridge University Press, Cambridge, 1993.

Pieters, C. M., Constraints on our view of the Moon I: Convergence of scale and context, New Views of the Moon workshop: Integrated Remotely Sensed, Geophysical and Sample Datasets, abstract 6026, Houston, TX 67-68, 1998.

Pieters, C. M., Constraints on our view of the Moon II: Space weathering, New Views of the Moon Workshop: Integrated Remotely Sensed, Geophysical and Sample Datasets, abstract 6027, Houston, TX 69-70, 1998.

Pieters, C. M., Lunar materials from the visible to mid-infrared: The effects of space weathering, International Geology Review, 40, 981-989, 1998.

Pieters, C. M., The Moon as a spectral calibration standard enabled by lunar samples: The Clementine example, Workshop of New views of the Moon II: Understanding the Moon Through the Integration of Diverse Datasets, Houston, TX, 47-49, 1999.

Pieters, C. M., Moonlighting, in Our Worlds, edited by A. Stern, pp. 47-63, Cambridge University Press, United Kingdom, 1999.

Pieters, C. M., Lunar materials from the visible to mid-infrared: The effects of space weathering, in Planetary Petrologoy and Geocohemistry, edited by G. A. Snyder, C. K. Neal, and W. G. Ernest, pp. 981-989, Winston and Son, Silver Spring, MD, 1999.

Pieters, C. M., Mid-infrared reflectance spectroscopy: Where are we, where are we going, and why?, Mars Infrared Spectroscopy, abstract 2015, 2002.

Pieters, C. M., The perplexing role of TI02 in the evolution of lunar soils, Lunar Planet. Sci. XXXIII, abstract 1886, 2002.

Pieters, C. M., and L. A. McFadden, Meteorite and asteroid reflectance spectroscopy: Clues to early solar system processes, Ann. Rev. Earth Planet. Sci., 22, 457-497, 1994.

Pieters, C. M., and J. F. Mustard, Exploration of crustal/mantle material for the Earth and Moon using reflectance spectroscopy, Remote Sens. Environ., 24 (1), 151-178, 1988.

Pieters, C. M., and G. J. Taylor, Millimeter petrology and kilometer mineralogical exploration of the moon, Proc. Lunar Planet. Sci. 19th, 115-125, 1988.

Pieters, C. M., and S. Tompkins, Tsiolkovsky: A window into crustal processes on the lunar farside, J. Geophys. Res.,104 (E-9), 21,935-21,949, 1999.

Pieters, C. M., J. F. Mustard, and J. M. Sunshine, Quantitative mineral analyses of planetary surfaces using reflectance spectroscopy, in Mineral Spectroscopy: A Tribute to Roger G. Burns, edited by M.D. Dyar, C. McCammon, and M. Schaefer, 307-325, The Geochemical Society, University Park, PA (Special Publication), 1996.

Pieters, C. M., E. M. Fischer, O. Rode, and A. Basu, Optical effects of space weathering: The role of the finest fraction, J. Geophys. Res., 98 (E11), 20,817-20,824, 1993.

Pieters, C. M., L. A. Taylor, S. K. Noble, L. P. Keller, B. Hapke, R. V. Morris, C. C. Allen, D. S. McKay, and S. J. Wentworth, Space weathering on airless bodies: Resolving a mystery with lunar samples, Meteoritics Planet. Sci., 35, 1101-1107, 2000.

Pieters, C. M., J. W. Head III, L. R. Gaddis, B. L. Jolliff, and M. Duke, Rock types of South Pole-Aitken Basin and extent of basaltic volcanism, J. Geophys. Res., 106 (E11), 28,001-28,022, 2001.

Pieters, C. M., D. G. Stankevich, Y. G. Shkuratov, and L. A. Taylor, Statistical analysis of lunar mare soil mineralogy, chemistry and reflectance spectra, Lunar Planet. Sci. XXXII, abstract 1783, 2001.

Pieters, C. M., D. G. Stankevich, Y. G. Shkuratov, and L. A. Taylor, Statistical analysis of the links between lunar mare soil minerology, chemistry and reflectance spectra, Icarus,155, 285-298, 2002.

Pieters, C. M., D. Dyar, T. Hiroi, J. Bishop, J. M. Sunshine, and R. Klima, Pigeonite masquerading as olivine at Mars: First results from Mars spectroscopy consortium, Lunar Planet. Sci. XXXV, abstract 1171, 2004.

Pieters, C. M., R. P. Binzel, D. Bogard, T. Hiroi, D. W. Mittlefehldt, L. Nyquist, A. Rivkin, and H. Takeda.  Asteroid-meteorite links: the Vesta conundrum(s), Proc. International Astronomical Union, 1, 273-288, 2005.

Pieters, C. M., M. D. Dyar, T. Hiroi, M. D. Lane, A. H. Treiman, M. McCanta, J. L. Bishop, and J. M. Sunshine, Optical properties of martian dunite NWA 2737: A record of martian processes, Lunar Planet. Sci. XXXVII, abstract 1634, 2006.

Pieters, C. M., J. Boardman, B. Buratti, B., R. Clark, R. Green, J. W. Head, III, S. Lundeen, E. Malaret, T. B. McCord, J. F. Mustard, C. Runyon, M. Staid, J. M. Sunshine, L. Taylor, S. Tompkins, and P. Varanasi, M3 on Chandrayaan-1: Strategy for mineral assessment of the Moon, Lunar Planet. Sci. XXXVIII, abstract 1295, 2007.

Pieters, C. M., P. J. Isaacson, R. L. Klima, T. Hiroi, A. B. Sarbadhikari, Y. Liu, and L. A. Taylor, Lunar rock and mineral characterization consortium (LRMCC): Links to global science and exploration, Lunar Planet. Sci., 39, abstract 1900, 2008.

Pieters, C.M., R.L. Klima, T. Hiroi, M.D. Dyar, M.D. Lane, A.H. Treiman, S.K. Noble, J.M. Sunshine, and J.L. Bishop(2008), Martian dunite NWA 2737: Integrated spectroscopic analyses of brown olivine, J. Geophys. Res.113, doi:10.1029/2007JE002939.

Pieters, C. M., J. N. Goswami, R. N. Clark, M. Annadurai, J. Boardman, B. J. Buratti, J.-P. Combe, M. D. Dyar, R. Green, J. W. Head III, C. A. Hibbitts, M. D. Hicks, P. Isaacson, R. L. Klima, S. Kramer, S. Kumar, E. Livo, S. Lundeen, E. Malaret, T. B. McCord, J. F. Mustard, J. W. Nettles, N. Petro, C. Runyon, M. Staid, J. Sunshine, L. A. Taylor, S. Tompkins, and P. Varanasi (2009), Character and spatial distribution of OH/H2O on the surface of the Moon seen by M3 on Chandrayaan-1, Science, 326, 568-572.

Pinet P. C., V. V. Shevchenko, and S. D. Chevrel, Reiner gamma formation from Clementine UV-Visible spectro-imaging data: The lunar chronology and iron content, Lunar Planet. Sci. XXVIII, 1115-1116, 1997.

Pinet P. C., V. V. Shevchenko, S. D. Chevrel, and Y. H. Daydou, Lunar regolith characteristics at reiner gamma formation and its vicinity, Vernadsky-Brown Microsymposium 25, Moscow 1997.

Pinet P. C., V. V. Shevchenko, S. D. Chevrel, Y. H. Daydou, Local and regional lunar regolith characteristics at reiner gamma formation, Lunar and Planet. Sci. XXIX, 1372-1373, 1998.

Pinet, P. C., V. V. Shevchenko, S. D. Chevrel, Y. H. Daydou, C. Rosemberg, Local and regional lunar regolith characteristics at Reiner Gamma formation: Optical and spectroscopic properties from Clementine and Earth-based data, J. Geophys. Res., 105 (E4), 9457-9475, 2000.

Pinet, P. C., A. M. Cord, Y. H. Daydou, F. Boubault, S. Chevrel, and V. Lapeyrere, Influence of linear versus non-linear mixture on bidirectional reflectance spectra using a laboratory wide field spectral imaging facility, Lunar Planet. Sci. XXXII, abstract 1552, 2001.

Pinet, P.C., A. M. Cord, S.D. Chevrel, and Y. Daydou, Experimental determination of the Hapke parameters for planetary regolith surface analogs, abstract, European Geophysical Society XXVIII, Nice, 2003.

Pinet, P.C., H. Clenet, F. Heuripeau, Y. Daydou, D. Baratoux , S. Chevrel, C. Rosemberg, F. Poulet , S. LeMouélic, J. Mustard, L. Kanner, A. Gendrin, J.P. Bibring, G. Bellucci, Y. Langevin, B. Gondet, and F. Altieri, and the OMEGA team, Detection and regional mapping of mafic minerals across Syrtis Major from OMEGA / Mars Express observations in the visible-near infrared domain by means of MGM deconvolution, 1st Euro-Planets Meeting, Berlin, 2006.

Pinet, P. C., F. Heuripeau, H. Clenet, S. Chevrel, Y. Daydou, D. Baratoux, C. Rosemberg, J.-P. Bibring, F. Poulet, B. Gondet, J. F. Mustard, S. LeMouélic, G. Bellucci, and the OMEGA team, Mafic mineralogy variations across Syrtis Major shield and surroundings as inferred from visible-near-infrared spectroscopy by Omega/Mars Express, Mars Conf., 7th, abstract 3146, Pasadena, 2007.

Pinet, P.C., H. Clenet, F. Heuripeau, S. D. Chevrel, C. Rosemberg, Y. Daydou, M. Toplis, and D. Baratoux, Mafic mineralogy of martian meteorites based on a systematic deconvolution using an improved Modified Gaussian Model (MGM) approach, Lunar Planet. Sci. Conf., XL, abstract 1612, 2009.

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Popescu, M., M. Birlan, D. A. Nedelcu, J. Vaubaillon, and C. P. Cristescu (2014), Spectral properties of the largest asteroids associated with Taurid Complex, Astron Astrophys, 572, doi: 10.1051/0004-6361/201424064.

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Poulet, F., and J. Carter (2013), Identification of a new rock type on Mars:  Anorthosite, Lunar and Planetary Science Conference XLIV,abstract 1451.

Poulet, F., J.-P. Bibring, J. F. Mustard, A. Gendrin, N. Mangold, Y. Langevin, R. E. Arvidson, B. Gondet, C. Gomez, and the Omega Team, Phyllosilicates on Mars and implications for early Martian climate, Nature, 438, 623 – 627, 2005.

Poulet, F., R. E. Arvidson, C. Gomez, R. V. Morris, J.-P. Bibring, Y. Langevin, B. Gondet, and J. Griffes (2008), Mineralogy of Terra Meridiani and western Arabia Terra from OMEGA/MEx and implications for their formation, Icarus, 195, 106-130, doi: 10.1016/j.icarus.2007.11.031.

Poulet, F., J.-P. Bibring, Y. Langevin, J. F. Mustard, N. Mangold, M. Vincendon, B. Gondet, P. C. Pinet, J.-M. Bardintzeff, and B. Platevoet (2009), Quantitative compositional analysis of martian mafic regions using the MEx/OMEGA reflectance data 1. Methodology, uncertainties and examples of application, Icarus, 201, 69-83, doi: 10.1016/j.icarus.2008.12.025.

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Raponi, A., M. C. De Sanctis, F. G. Carrozzo, M. Ciarniello, J. C. Castillo-Rogez, E. Ammannito, A. Frigeri, A. Longobardo, E. Palomba, E. Tosi, F. Zambon, C. A. Raymond, and C. T. Russeli (2019), Mineralogy of Occator crater on Ceres and insight into its evolution from the properties of carbonates, phyllosilicates, and chlorides, Icarus320, 83-96, doi: 10.1016/j.icarus.2018.02.001.

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Reddy, V., L. Le Corre, A. Nathues, P. Gutierrez-Marques, and M. Hoffmann (2011), Automated spectral system for terrain classification, mineralogy of Vesta from the Dawn framing cameras, in European Planetary Science Congress, abstract EPSC-DPS2011-724.

Reddy, V., L. Le Corre, D. P. O’Brien, A. Nathues, E. A. Cloutis, D. D. Durda, W. F. Bottke, M. U. Bhatt, D. Nesvorny, D. Buczkowski, J. E. C. Scully, E. M. Palmer, H. Sierks, P. J. Mann, K. J. Becker, A. W. Beck, D. Mittlefehldt, J. Y. Li, R. Gaskell, C. T. Russell, M. J. Gaffey, H. Y. McSween, T. B. McCord, J. P. Combe, and D. Blewett (2012), Delivery of dark material to Vesta via carbonaceous chondritic impacts, Icarus221(2), 544-559, doi: 10.1016/J.Icarus.2012.08.011.

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Riner, M.A., C.R. Bina, M.S. Robinson, and S.J. Desch (2008), Internal structure of Mercury: Implications of a molten core, J. of Geophys. Res., 113, E08013, doi: 10.1029/2007JE002993.

Riner, M. A., P. G. Lucey, S. J. Desch, and F. M. McCubbin (2009), Nature of opaque components on Mercury: Insights into a Mercurian magma ocean, Geophys. Res. Lett., 36, L02201, doi: 10.1029/2008GL036128.

Rivard, B., J. Feng, A. Gallie, and H. Francis, Ore detection and grade estimation in Sudbury mines using thermal infrared spectroscopy, Geophysics, 66 (6), 1691-1698, 2001.

Rivkin, A. S., and E. Pierazzo, Investigating the impact evolution of hydrated asteroids, Lunar Planet. Sci. XXXV, 2004.

Rivkin, A. S. and E. L. Volquardsen, What is the surface composition of Ceres?, Lunar Planet. Sci. XXXVII, abstract 1822, 2006.

Rivkin, A. S., T. Hiroi, F. Hörz, and M. Cintala, Spectroscopy of impacted serpentine: Implications for asteroid surfaces, Lunar Planet. Sci. XXXIV, abstract 1716, 2003.

Rivkin, A. S., R. P. Binzel, E. S. Howell, S. J. Bus, and J. A. Grier, Spectroscopy and photometry of Mars Trojans, Icarus, 165, 349-354, 2003.

Rivkin, A. S., R. P. Binzel, J. M. Sunshine, S. J., Bus, T. H. Burbine, and A. Saxena, Infrared spectroscopic observations of 69230 Hermes (1937 UB) and (19356) 1997 GH3: Possible unweathered endmembers among ordinary chondrite analogs, Icarus, 172, 408-414, 2004.

Rivkin, A. S., L. A. McFadden, R. P. Binzel, and M. V. Sykes, Rotationally resolved spectroscopy of Vesta in the 2-3 um region, Lunar Planet. Sci. XXXV, 2004.

Rivkin A.S., L.A. McFadden, R.P. Binzel and M. Sykes (2006), Rotationally-resolved spectroscopy of Vesta I: 2–4 μm region, Icarus, 180, 464-472, doi: 10.1016/j.icarus.2005.09.012.

Rivkin, A. S., D. E. Trilling, C. A. Thomas, F. E. DeMeo, T. B. Spahr, and R. P. Binzel (2007), Composition of the L5 Mars Trojans: Neighbors, not siblings, Icarus, 192, 434-441, doi: 10.1016/j.icarus.2007.06.026.

Rivkin, A., E. S. Howell, F. E. DeMeo, R. J. Vervack Jr., R. P. Binzel, C. Magri, M. C. Nolan, Y. R. Fernandez, A. F. Cheng, M. A. Barucci, P. Michel, J. de León, and D. Perna (2012), The MarcoPolo-R target asteroid (175705) 1996 FG3:  Hydrated minerals and a variable spectral slope, European Planetary Science Congress,abstract EPSC2012-2350.

Rivkin, A. S., E. S. Howell, R. J. Vervack Jr., C. Magri, M. C. Nolan, Y. R. Fernandez, A. F. Cheng, M. A. Barrucci, and P. Michel (2013), The NEO (175706) 1996 FG3 in the 2-4 μm spectral region: Evidence for an aqueously altered surface, Icarus223, 493-498, doi: 10.1016/j.icarus.2012.12.016.

Roach, L. H., J. F. Mustard, S. L. Murchie, J. L. Bishop, B. L. Ehlmann, K. Lichtenberg, M. Parente, and the CRISM Science Team, Sulfate and hematite stratigraphy in Capri Chasma, Valles Marineris, Lunar Planet. Sci. Conf., XL, abstract 1826, 2009.

Robertson, K. M., S. Li, and R. E. Milliken (2013), Estimating mineral abundances of clay-gypsum mixtures using visible-near infrared radiative transfer models, Lunar and Planetary Science Conference XLIV,abstract 1614.

Robertson, K. M., R. E. Milliken, and S. Li (2016), Estimating mineral abundances of clay and gypsum mixtures using radiative transfer models applied to visible-near infrared reflectance spectra, Icarus, 277, 171-186, doi: 10.1016/j.icarus.2016.04.034.

Rogers, A. D., O. Aharonson, and J. L. Bandfield (2009), Geologic context of in situ rocky exposures in Mare Serpentis, Mars: Implications for crust and regolith evolution in the cratered highlands, Icarus, 200, 446-462, doi: 10.1016/j.icarus.2008.11.026.

Roush, T. L.,Estimated optical constants of magnesite (MgCO3) , Lunar Planet. Sci. Conf., XL, abstract 1080, 2009.

Roush, T.L., F. Esposito, G.R. Rossman, and L. Colangeli (2007), Estimated optical constants of gypsum in the regions of weak absorptions: Application of scattering theories and comparisons to independent measurements, J. Geophys. Res.,112, doi: 10.1029/2007JE002920.

Rouch, T. L., A. J. Brown, J. L. Bishop, D. F. Blake, and T. Bristow (2013), Initial estimates of optical constants of Mars candidate materials, Lunar and Planetary Science Conference XLIV,abstract 1297.

Roush, T.L., J.L. Bishop, A.J. Brown, D.F. Blake, and T.F. Bristow (2015), Laboratory reflectance spectra of clay minerals mixed with Mars analog materials: Toward enabling quantitative clay abundances from Mars spectra, Icarus258, 454-466, doi: 10.1016/j.icarus.2015.06.035.

Rozel, A., H. Clenet, S. Douté, and C. Quantin (2013), Hyperspectral data processing using neural networks:  Preliminary results for mafic mineral in SNC’s meteorites, Lunar and Planetary Science Conference XLIV,abstract 1469.

Ruesch, O., F. Poulet, M. Vincendon, J.-P. Bibring, J. Carter, G. Erkeling, B. Gondet, H. Hiesinger, A. Ody, and D. Reiss (2012), Compositional investigation of the proposed chloride-bearing materials on Mars using near-infrared orbital data from OMEGA/MEx, Journal of Geophysical Research117, doi: 10.1029/2012JE004108.

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Salvatore, M. R., T. A. Goudge, M. S. Bramble, C. S. Edwards, J. L. Bandfield, E. S. Amador, J. F. Mustard, and P. R. Christensen (2018), Bulk mineralogy of the NE Syrtis and Jezero crater regions of Mars derived through thermal infrared spectral analyses, Icarus301, 76-96, doi: 10.1016/j.icarus.2017.09.019.

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Saranathan, A. M., and M. Parente (2016), Uniformity-Based Superpixel Segmentation of Hyperspectral Images, Ieee T Geosci Remote54(3), 1419-1430, doi: 10.1109/Tgrs.2015.2480863.

Sasaki, T., S. Sasaki, Jun-ichi Watanabe, T. Sekiguchi, F. Yoshida, H. Kawakita, T. Fuse, N. Takato, B. Dermawan,  and T. Ito, Mature and fresh surfaces on the newborn asteroid Karin, Astrophysical Journal Letters, 615, L161–L164, 2004.

Sasaki, S., Y. Ueda, E. Kurahashi, M. Loeffler, and T. Hiroi, Change of asteroid reflectance spectra by space weathering: Pulse laser irradiation on meteorite samples, Lunar Planet. Sci. XXXV, abstract 1538, 2004.

Sayyad, S. B., Z. R. Mohammed, and R. R. Deshmukh (2018), Mineral mapping using Chandrayaan-1 hyperspectral (HYSI) data from Mare Vaporum, The International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, 339-344.

Schäfer, T., A. Nathues, E. A. Cloutis, K. Mengel, M. Schäfer, and M. Hoffmann (2014), Spectral parameters to distiinguish CC groups using Dawn FC Ceres data, European Planetary Science Congress,abstract EPSC2014-2356-2011.

Schäfer, M., A. Nathues, M. Hoffmann, T. Schäfer, G.S. Thangjam, K. Mengel, C.T. Russel, and H. Sierks (2015), Comparison of Spectral Parameters for HED Discrimination with Dawn Data, Lunar Planet. Sci., XLVI, abstract 2004.

Schäfer, T., A. Nathues, K. Mengel, M. R. M. Izawa, E. A. Cloutis, M. Schafer, and M. Hoffmann (2016), Spectral parameters for Dawn FC color data: Carbonaceous chondrites and aqueous alteration products as potential cerean analog materials, Icarus265, 149-160, doi: 10.1016/j.icarus.2015.10.005.

Schäfer, M., T. Schafer, M. R. M. Izawa, E. A. Cloutis, S. E. Schroder, T. Roatsch, F. Preusker, K. Stephan, K. D. Matz, C. A. Raymond, and C. T. Russell (2018), Ceres’ spectral link to carbonaceous chondritesAnalysis of the dark background materials, Meteorit Planet Sci53(9), 1925-1945, doi: 10.1111/maps.13079.

Schiffman P., R. Southard, D. D. Eberl, and J. L. Bishop, Distinguishing palagonitized from pedogenically-altered basaltic tephra: Mineralogical and geochemical criteria, in Volcano-Ice Interactions on Earth and Mars, edited by J.L. Smellie and M.G. Chapman, Geological Society, Special Pub. 202, London, pp. 393-405, 2002.

Schultz, P. H., and J. F. Mustard, Generation and evidence, Lunar Planet. Sci. XXIX, abstract 1847, 1998.

Schultz, P. H., and J. F. Mustard, Impact glass strewn fields on Mars, Lunar Planet. Sci. XXXII, abstract 1668, 2001.

Sefton-Nash, E., D. C. Catling, S. E. Wood, P. M. Grindrod, and N. A. Teanby (2012), Topographic, spectral and thermal inertia analysis of interior layered deposits in Iani Chaos, Mars, Icarus221, 20-42, doi: 10.1016/j.icarus.2012.06.036.

Seixas, T. M., B. Almeida, M. H. Mendes, M. A. Salgueiro da Silva, J. F. Santos, F. Almeida, Z. Diogo, A. B. Lopes, and J. M. Vieira (2012), XRD, SEM and petrologic characterization of a L4-L5 ordinary chondrite meteorite, Materials Science Forum730-732, 170-175, doi: 10.4028/www.scientific.net/MSF.730-732.170.

Shah, S., B. E. Clark, T. Hiroi, and M. E. Zolensky, Deconvolving terrestrial alteration mineral spectral signatures from meteorite reflectance measurements, Lunar Planet. Sci. XXXV, abstract 1012, 2004.

Shankar, B., G. R. Osinski, I. Antonenko, P. J. Stooke, and S. Mest (2010), Multispectral study of the Schrödinger impact basin, Lunar Planet. Sci. XLI, abstract 2542.

Shestopalov, D. I., and P. N. Shustarev (2008), The material of the interstellar dust and the surface of asteroids: A comparison of the spectral properties in the 0.3-1.1-µm range, Solar System Research, 42, 363-371, doi: 10.1134/S0038094608050018.

Shestopalov, D. I., L. A. McFadden, L. F. Golubeva, V. M. Khomenko, and L. O. Gasanova (2008), Vestoid surface composition from analysis of faint absorption bands in visible reflectance spectra, Icarus, 195, 649-662, doi: 10.1016/j.icarus.2008.01.011.

Shestopalov, D.I., L.A. McFadden, L.F. Golubeva, and L.O. Orujova (2010), About mineral composition of geologic units in the northern hemisphere of Vesta, Icarus209, 575-585, doi: 10.1016/j.icarus.2010.04.012.

Shestopalov, D. I., L. F. Golubeva, and E. A. Cloutis (2013), Optical maturation of asteroid surfaces, Icarus225(1), 781-793, doi: 10.1016/J.Icarus.2013.05.002.

Shingareva, T. V., A. T. Basilevsky, A. V. Fisenko, L. F. Semjonova, I. A. Roshchina, T. Hiroi, C. M. Pieters, L. V. Moroz, E. V. Guseva, and N. N. Korotaeva, Simulation of space weathering processes in the uppermost regolith layer of Phobos, Herald of the Dept. of Earth Sciences RAS, 1 (21), planet-10e.pdf, 2003.

Shingareva, T. V., A. T. Basilevsky, A. V. Fisenko, L. F. Semjonova, L. V. Moroz, T. Hiroi, C. M. Pieters, and N. N. Korotaeva, Simulation micrometeoritic bombardment of Phobos and dark asteroid surfaces by laser treatment of CM2 carbonaceous chondrite Mighei, Herald of the Dept. of Earth Sciences RAS, 1(22), planet-7e.pdf, 2004.

Shkuratov, Y. G., C. M. Pieters, D. G. Stankevich, G. N. Pavlov, A. Ovcharenko, L. V. Starukhina, and A. I. Goncharov, Estimation of the thickness of possible carbonaceous deposits in the superficial zones of Phobos and Deimos regolith particles on the basis of laboratory simulation data, Vernadsky-Brown Microsymposium 8, Moscow 92-93, 1988.

Shkuratov, Y. G., L. V. Starukhina, H. Hoffman, and G. Arnold, A model of spectral albedo of particulate surfaces: Implications for optical properties of the Moon, Icarus, 137 (2), 235-246, 1999.

Shkuratov, Y. G., V. G. Kaydash, C. M. Pieters, and N. V. Opanasenko, A comparison of absolute calibrations of Clementine-UVVIS and Earth-based data for the Moon, Lunar Planet. Sci. XXXIII, abstract 1165, 2000.

Shkuratov, Y. G., C. M. Pieters, D. G. Stankevich, V. Omelchenko, and V. G. Kaydash, New estimates of the lunar surface composition with Clementine images and lunar sample data: Preliminary results, Vernadsky-Brown Microsymposium 36, October 14-16, Moscow 2002.

Shkuratov, Y. G., D. G. Stankevich, V. G. Kaydash, V. Omelchenko, C. M. Pieters, P. C. Pinet, S. D. Chevrel, Y. Daydou, B. H. Foing, Z. Sodnik, J. L. Josset, L. A. Taylor, and V. V. Shevchenko (2003), Composition of the lunar surface as will be seen from SMART-1:  A simulation using Clementine data, J. Geophys. Res, Planets, 108, 5020, doi: 10.1029/2002JE001971.

Shkuratov, Y., S. Bondarenko, A. Ovcharenko, C. M. Pieters, T. Hiroi, H. Volten, O. Munoz, and G. Videen, Comparative studies of the reflectance and degree of linear polarization of particulate surfaces and independently scattering particles, J. Quantitat. Spectroscopy Radiat. Transfer, 100, 340-358, doi: 10.1016/j.jqsrt.2005.11.050, 2006.

Shkuratov, Y. G., V. G. Kaydash, L. V. Starukhina, and C. M. Pieters (2007), Lunar surface agglutinates: Mapping composition anomalies, Solar System Research, 41, 177-185, doi: 10.1134/S003809460703001X.

Shuai, T., X. Zhang, L. Zhang, and J. Wang (2013), Mapping global lunar abundance of plagioclase, clinopyroxene and olivine with Interference Imaging Spectrometer hyperspectral data considering space weathering effect, Icarus222, 401-410, doi: 10.1016/j.icarus.2012.11.027.

Sierks, H., H. U. Keller, R. Jaumann, H. Michalik, T. Behnke, F. Bubenhagen, I. Büttner, U. Carsenty, U. Christensen, R. Enge, P. Gutierrez-Marques, H. Hartwig, H. Krüger, W. Kühne, T. Maue, S. Mottola, A. Nathues, K.-U. Reiche, M. L. Richards, T. Roatsch, S. E. Schröder, I. Szemerey, and M. Tschentscher (2011), The Dawn Framing Camera, Space Science Reviews, 163, 263-327, doi: 10.1007/s11214-011-9745-4.

Sissay, A., D. R. Ostrowski, K. M. Gietzen, and D. W. G. Sears (2011), Near-IR reflectance spectral properties and metamorphic history of unequilibrated (type 3) ordinary chondrites, Lunar Planet. Sci. Conf. XLII, abstract 1601.

Sklute, E.C., H.B. Jensen, A.D. Rogers, and R.J. Reeder (2014), Visible and Infrared Spectral Characteristics and Morphology of Amorphous Iron Sulfates, Lunar Planet. Sci., XLV, abstract 2709.

Sklute, E. C., A. D. Rogers, J. C. Gregerson, H. B. Jensen, R. J. Reeder, and M. D. Dyar (2018), Amorphous salts formed from rapid dehydration of multicomponent chloride and ferric sulfate brines: Implications for Mars, Icarus302, 285-295, doi: 10.1016/j.icarus.2017.11.018.

Skok, J. R., J. F. Mustard, L. L. Tornabene, C. Pan, D. Rogers, and S. L. Murchie (2012), A spectroscopic analysis of Martian crater central peaks: Formation of the ancient crust, Journal of Geophysical Research117, doi: 10.1029/2012JE004148.

Slyuta, E. N. (2013), To thermal history of metalllic asteroids, Lunar and Planetary Science Conference XLIV,abstract 1129.

Smyth, S., D.M. Applin, M.R.M. Izawa, and E.A. Cloutis (2014), Diffuse Reflectance Spectra of Monohydrocalcite, Lunar Planet. Sci., XLV, abstract 2899.

Souchon, A. (2012), Influence des phases amorphes dans la résponse optique des régolites planétaires:  Caractérisation des propriétés physiques et application à l’étude géologique de la lune, 216 pp, L’Université de Toulouse.

Sprague, A. L., K. L. Donaldson Hanna, R. W. H. Kozlowski, J. Helbert, A. Maturelli, F. A. Grosse, T. S. Boop, and K. Boccafola (2007), Mercury: Determining minerals and their abundances with Mid-IR Spectral Deconvolution III, Bulletin of the American Astronomical Society, 39, 412.

Sprague, A. L., K. L. Donaldson Hanna, R. W. H. Kozlowski, J. Helbert, A. Maturelli, and N. R. Izenberg (2008), Mercury: Mg-rich mineralogy with K-spar, Lunar Planet. Sci., XXXIX, abstract 1320.

Sprague, A. L., K. L. Donaldson Hanna, R. W. H. Kozlowski, J. Helbert, and A. Maturelli (2008), Mercury’s dark plains west of Caloris Basin–high Ca Clinopyroxene, Na-rich Plagioclase, Mg-rich Olivine, Tio2: Caloris Basin–k-spar, High Ca Clinopyroxene, Tio2, Na-rich Plagioclase, Hornblende And Mg- And Ca-rich Garnets, American Astronomical Society, DPS, Bulletin of the America Astronomical Society, 40, 490.

Sprague, A. L., K. L. Donaldson Hanna, R. W. H. Kozlowski, J. Helbert, A. Maturilli, J. B. Warell, and J. L. Hora (2009), Spectral emissivity measurements of Mercury’s surface indicate Mg-and Ca-rich mieralogy, K-spar, Na-rich plagioclase, rutile, with possible pervskite, and garnet, Planetary and Space Science, 57, 364-383, doi: 10.1016/j.pss.2009.01.006.

Staid, M. I., and C. M. Pieters, Integrated spectral analysis of mare craters and soils: Application to eastern nearside basalts, Icarus, 145, 122-139, 2000.

Staid, M. I., C. M. Pieters, and J. W. Head III, Mare Tranquillitatis: Basalt emplacement history and relation to lunar samples, J. Geophys. Res., 101 (E10), 23,213-23,228, 1996.

Stankevich, D. G., Y. G. Shkuratov, and C. M. Pieters, New relationships between chemistry/mineralogy of lunar mare basalts and their color-indices, Vernadsky-Brown Microsymposium 32, Moscow, 147-148, 2000.

Stankevich, D. G., Y. G. Shkuratov, C. M. Pieters, and R. Jaumann, Optimal wavelengths for determination of lunar surface composition with VIS-NIR spectral data, Vernadsky-Brown Microsymposium 34, Moscow 2001.

Stankevich, D. G., Y. G. Shkuratov, V. G. Kaydash, and C. M. Pieters, A statistically optimal approach to derive lunar-regolith characteristics from spectral data, Vernadsky-Brown Microsymposium 30, Moscow 1999.

Stankevich, D. G., Y. G. Shkuratov, C. M. Pieters, and D. H. Taylor, Statistical analysis of lunar mare soils mineralogy, chemistry, and reflectance spectra, Lunar Planet. Sci. XXXIII, abstract 1916, 2002.

Stankevich, D. G., Y. G. Shkuratov, C. M. Pieters, and R. Jaumann, Optimal wavelenghts for lunar surface determination of titanium content with VIS-NIR spectral data, New Views of the Moon, Berlin, 2002.

Starukhina, L. V., and Y. G. Shkuratov, A model of spectral albedo for multi-component regolith-like surfaces, Astron. Vest., 30 (4), 299-307, 1996.

Starukhina, L. V., and Y. G. Shkuratov, Particle size dependence of spectral slope and the depth of absorption bands: Implication for lunar soils, Vernadsky-Brown Microsymposium 24, Moscow, 90-91, 1996.

Starukhina, L. V., and Y. G. Shkuratov, The effect of reduced iron on the position 1 and 2 micron bands in orthopyroxene and olivine, Vernadsky-Brown Microsymposium 25, Moscow 123-124, 1997.

Starukhina, L. V., and Y. G. Shkuratov, On the composition of the Phobos surface, Astron. Vest., 31 (5), 427-433, 1997.

Starukhina, L. V., and Y. G. Shkuratov, The position of 1 and 2 micrometer absorption bands in orthopyroxene and olivine spectra: The effect of reduced iron, Lunar Planet. Sci. XXIX, abstract 1048, 1998.

Starukhina, L. V., and Y. G. Shkuratov, Theoretical validation of Lucey’s approach to estimation of lunar regolith maturity, 3rd International Conference on Exploration and Utilization of the Moon, October 11-14, RAS Moscow, 89, 1998.

Starukhina, L. V., and Y. G. Shkuratov, A theoretical model of lunar optical maturation: Effects of submicroscopic reduced iron and particle size variations, Icarus, 152, 275-281, 2001.

Starukhina, L. V., Y. G. Shkuratov, and M. A. Kreslavsky, Theoretical validation of Lucey’s approach to composition and maturity of lunar regolith, Lunar Planet. Sci. XXX, abstract 1032, 1999.

Starukhina, L. V., Y. G. Shkuratov, O. D. Rode, and C. M. Pieters, Reflectance spectra of particle size separates of lunar soils: Is the difference controlled by reduced iron?, Lunar Planet. Sci. XXV, 1333-1334, 1994.

Stewart, L., E. A. Cloutis, J. L. Bishop, M. Craig, L. Kaletzke, and K. McCormack, Classification of iron bearing phyllosilicates based on ferric and ferrous iron absorption bands in the 400-1300 nm region, Lunar Planet. Sci. XXXVII, abstract 2185, 2006.

Straub, D. W., R. G. Burns, and S. F. Pratt, Spectral signature of oxidized pyroxenes: Implications to remote sensing of terrestrial planets, J. Geophys. Res., 96, 18,819-18,830, 1991.

Strong, J., E. A. Cloutis, and B. Russell, Spectral properties of carbonates in the 2.0-2.5 µm region: Implications for Mars, Lunar Planet. Sci. XXXII, abstract 1197, 2001.

Su, Q., Y. Zhao, K. Yang, and S. Zhang (2014), Lunar terrain and mineral’s abundance automatic analysis, Optik125, 1278-1282, doi: 10.1016/j.ijleo.2013.08.022.

Sugihara, T., H. Takeda, M. Ohtake, A. Owada, T. Ishii, and M. Otsuki, Petrology and reflectance spectroscopy of lunar meteorite Yamato 981031: Implications for the source region of the meteorite and remote-sensing spectroscopy, Antarct. Meteorite Res.,17, 209-230, 2004.

Sugita, S., K. Nagata, N. Tsuboi, T. Hiroi, and M. Okada (2011), A new Modified Gaussian Model (MGM) using a Bayesian estimation approach: Toward automated analysis of planetary spectra, Lunar Planet. Sci. Conf. XLII, abstract 2624.

Sunshine, J. M., Continuing towards a more sophisticated compositional interpretations of silicate-rich lithologies on the surfaces of asteroids, Lunar Planet. Sci. XXVII, 1181-1182, 1997.

Sunshine, J. M., Spectral Mixture Analysis as a Tool for Anomaly Detection, Proceedings of the International Symposium on Spectral Sensing Research, 1997.

Sunshine, J. M., Is Asteroid 289 Nenetta compositionally analogous to the brachinite neteorites?, Lunar Planet. Sci. XXIX, 1998.

Sunshine, J. M., Searching for the evolved crust of oxidized asteroids, Lunar Planet. Sci. Conf., XL, abstract 1965, 2009.

Sunshine, J. M., and E. A. Cloutis, Absorption bands in spinels: Comparisons of laboratory and asteroid spectra, Lunar Planet. Sci. XXX, abstract 1640, 1999.

Sunshine, J. M. and J. F. Mustard, Quantification of variations in the mafic mineralogy of Mars through MGM analysis of ISM Spectra, Bulletin of the American Astronomical Society, Division of Planetary Science, 26, 1113, 1994.

Sunshine, J. M., and C. M. Pieters, Quantitative deconvolution of mineral absorption spectra, EOS, Transactions of the American Geophysical Union, 70, 379, 1989.

Sunshine, J. M., and C. M. Pieters, Quantitative deconvolution of the 1.0 mm olivine absorption feature, Bulletin of the American Astronomical Society, Division of Planetary Science, 21, 967, 1989.

Sunshine, J. M., and C. M. Pieters, Extraction of compositional information from olivine reflectance spectra:  A new capability for lunar exploration, Lunar Planet. Sci. XXI, 1223-1224, 1990.

Sunshine, J. M. and C. M. Pieters, Identification of modal abundances in the spectra of natural and laboratory pyroxene mixtures:  A key component for remote analysis of lunar basalts, Lunar Planet. Sci. XXII, 1361-1362, 1991.

Sunshine, J. M. and C. M. Pieters, Extracting olivine compositions from asteroid spectra using the modified Gaussian model, Bulletin of the American Astronomical Society, Division of Planetary Science, 24, 940, 1992.

Sunshine, J. M. and C. M. Pieters, The modified Gaussian approach to quantifying compositional information in reflectance spectra, EOS, Transactions of the American Geophysical Union, 187, 1992.

Sunshine, J. M. and C. M. Pieters, Determining the composition of olivine on asteroidal surfaces, Lunar Planetary Sci. XXIV, 1379-1380, 1993.

Sunshine, J. M., and C. M. Pieters, Estimating modal abundances from the spectra of natural and laboratory pyroxene mixtures using the modified Gaussian model, J. Geophys. Res., 98 (5), 9,075-9,087, 1993.

Sunshine, J. M., and C. M. Pieters, Determining the composition of olivine from reflectance spectroscopy, J. Geophys. Res., 103 (E6), 13,675-13,688, 1998.

Sunshine, J. M., L. A. McFadden, and C. M. Pieters, Reflectance spectra of the Elephant Moraine A79001 Meteorite: Implications for remote sensing of planetary bodies, Icarus, 105, 79-91, 1993.

Sunshine, J. M., J. F. Mustard, and C. M. Pieters, Deconvolving overlapping absorption features to extract compositional information from reflectance spectra, Proceedings of the Ninth Thematic Conference on Geologic Remote Sensing, 151-155, 1993.

Sunshine, J. M., C. M. Pieters, and S. F. Pratt, Gaussian analysis of pyroxene reflectance spectra, Lunar Planet. Sci. XIX, 1151-1152, 1988.

Sunshine, J. M., C. M. Pieters, and S. F. Pratt, Mathematical deconvolution of mineral absorption bands, Lunar Planet. Sci. XX, 1087-1088, 1989.

Sunshine, J. M., C. M. Pieters, and S. F. Pratt, Deconvolution of Mineral Absorption Bands: An Improved Approach, J. Geophys. Res., 95 (5), 6955-6966, 1990.

Sunshine, J. M., Binzel, R. P., Bus, S. J. and T. H. Burbine, Diversity in the iron content of olivine rich asteroids as revealed by MGM analyses of new SMASSIR spectra, Bulletin of the American Astronomical Society, Division of Planetary, Science, 29, 964, 1997.

Sunshine, J. M., C. M. Pieters, S. F. Pratt, and K. S. McNaron-Brown, Absorption band modeling in reflectance spectra: Availability of the modified gaussian model, Lunar Planet. Sci. XXX, abstract 1306, 1999.

Sunshine, J. M., S. J. Bus, T. H. Burbine, T. J. McCoy, and R. P. Binzel, Unambiguous spectral evidence for high- (and low-) calcium pyroxene in asteroids and meteorites, Lunar Planet. Sci. XXXIII, abstract 1356, 2002.

Sunshine, J. M., S. J. Bus, T. H. Burbine, T .J. McCoy, and R .P. Binzel, Mineralogical Constraints on Silicate-Rich Asteroids from SpeX, AAS Division for Planetary Sciences Meeting, 35, 2003.

Sunshine, J. M., S. J. Bus, T. H. Burbine, T. J. McCoy, and R. P. Binzel, Observing silicate-rich asteroids in technicolor: Detailed compositional constraints from SpeX, Eos Trans. American Geophysical Union, 83 (47), Fall Meeting, Suppl., abstract P51C-06, 2003.

Sunshine, J. M., S. J. Bus, T. J. McCoy, C. M. Corrigan, T. H. Burbine, and R. P. Binzel, High-calcium pyroxene as an indicator of igneous differentiation in asteroids and meteorites, Meteoritics Planet. Sci., 39, 1343-1357, 2004.

Sunshine, J. M., J. Bishop, D. Dyar, T. Hiroi, R. Klima, and C. M. Pieters, Near-infrared spectra of martian pyroxene separates: First results from Mars spectroscopy consortium, Lunar Planet. Sci. XXXV, abstract 1636, 2004.

Sunshine, J. M., S. J. Bus, T. H. Burbine, and T. J. McCoy, Tracing oxygen fugacity in asteroids and meteorites through olivine composition, Lunar Planet. Sci. XXXVI, abstract 1203, 2005.

Sunshine, J. M., S. J. Bus, T. J. McCoy, C. M. Corrigan, T. H. Burbine, and R. P. Binzel, High-calcium olivine dominated asteroids and meteorites:  Distinguishing nebular and igneous histories, Meteoritics Planet. Sci., 42, 155-170, doi: 10.1111/j.1945-5100.2007.tb00224.x, 2007.

Sunshine, J. M., Connolly, H. C., Jr., McCoy, T. J., Bus, S. J., and L. La Croix, Identification of refractory-rich asteroids: Evidence for the earliest accreted bodies in the solar system, Lunar Planet. Sci. XXXVIII, abstract 1613, 2007.

Sunshine, J. M., H. C. Connolly Jr., T. J. McCoy, and S. J. Bus (2007), Refractory-rich asteroids: Concentrations of the most ancient materials in the solar system, Bulletin of the American Astronomical Society, abstract.

Sunshine, J. M., H. C. Connolly Jr., T. J. McCoy, S. J. Bus, and L. M. La Croix (2008), Ancient asteroids enriched in refractory inclusions, Science, 320, doi: 10.1126/science.1154340.

Sunshine, J. M., T. L. Farnham, L. M. Feaga, O. Groussin, F. Merlin, R. E. Milliken, and M. F. A’Hearn (2009), Temporal and spatial varability of lunar hydration as observed by the Deep Impact spacecraft, Science, 326, 565-568, doi: 10.1126/science.1179788.

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Takato N., S. J. Bus, H. Terada, T-S. Pyo, and N. Kobayashi, Detection of a Deep 3-µm Absorption Feature in the Spectrum of Amalthea (JV), Science306, 2224-2227, 2004.

Takeda, H., and T. Hiroi, Asteroids, meteorites, and material science: Relationship between S-type asteroid materials and primitive achondrites, Planetary People, 2, 54-62, 1993.

Taylor, L. A., C. M. Pieters, R. V. Morris, L. P. Keller, and D. S. McKay, Lunar mare soils: Space weathering and the major effects of surface-correlated nanophase Fe, J. Geophys. Res., 106 (E11), 27,985-28,000, 2001.

Taylor, L. A., C. M. Pieters, L. P. Keller, R. V. Morris, D. S. McKay, A. Patchen, and S. J. Wentworth, The effects of space wethering on Apollo 17 mare soils: Petrographic and chemical characterization, Meteoritics Planet. Sci., 36 (2), 285-299, 2001.

Taylor, L.A., C. Pieters, A. Patchen, D.-H.S. Taylor, R.V. Morris, L.P. Keller, and D.S. McKay (2010), Mineralogical and chemical characterization of lunar highland soils: Insights into the space weathering of soils on airless bodies,  J. Geophys. Res.,115, E02002, doi: 10.1029/2009JE003427.

Thangjam, G., V. Reddy, L. Le Corre, A. Nathues, H. Sierks, H. Hiesinger, J. Y. Li, J. A. Sanchez, C. T. Russell, R. Gaskell, and C. Raymond (2013), Lithologic mapping of HED terrains on Vesta using Dawn Framing Camera color data, Meteoritics & Planetary Science48(11), 2199-2210, doi: 10.1111/Maps.12132.

Thangjam, G., A. Nathues, K. Mengel, M. Hoffmann, M. Schäfer, V. Reddy, E. A. Cloutis, U. Christensen, H. Sierks, L. Le Corre, J. B. Vincent, and C. T. Russell (2014), Olivine-rich exposures at Bellicia and Arruntia craters on (4) Vesta from Dawn FC, Meteoritics & Planetary Science49, 1831-1850, doi: 10.1111/maps.12356.

Thangjam, G., A. Nathues, K. Mengel, M. Hoffmann, M. Schäfer, V. Reddy, E. A. Cloutis, U. Christensen, H. Sierks, L. Le Corre, J. B. Vincent, C. T. Russell, and C. Raymond (2014), Olivine rich exposures in Bellicia and Arruntia craters on Vesta using Dawn, Lunar and Planetary Science Conference,abstract 1755.

Thangjam, G., A. Nathues, K. Mengel, M. Schafer, M. Hoffmann, E. A. Cloutis, P. Mann, C. Muller, T. Platz, and T. Schafer (2016), Three-dimensional spectral analysis of compositional heterogeneity at Arruntia crater on (4) Vesta using Dawn FC, Icarus267, 344-363, doi: 10.1016/j.icarus.2015.11.031.

Thangjam, G., A. Nathues, T. Platz, M. Hoffmann, E. A. Cloutis, K. Mengel, M. R. M. Izawa, and D. M. Applin (2018), Spectral properties and geology of bright and dark material on dwarf planet Ceres, Meteorit Planet Sci53(9), 1961-1982, doi: 10.1111/maps.13044.

Thomas, C.A., and R.P. Binzel (2010), Identifying meteorite source regions through near-Earth object spectroscopy, Icarus205, 419-429, doi: 10.1016/j.icarus.2009.08.008.

Tingyan, X., L. Fujiang, L. Li, L. Chan, Z. Ying, Q. Le, Y. Rong, Z. Xiaopo, Z. Meng, and Z. Qi (2015), Prognosis of Ti abundance in Sinus Iridum using a nonlinear analysis of Chang’ E-1 Interference Imaging Spectrometer imagery, Earth and Space Science2(5), 187-193, doi: 10.1002/2014EA000023.

Tompkins, S., and C. M. Pieters, Mineralogy of the lunar crust: Results from Clementine, Meteoritics Planet. Sci., 34 (1), 25-41, 1999.

Tompkins, S., and C.M. Pieters (2010), Spectral characteristics of lunar impact melt and inferred mineralogy, Meteoritics and Planetary Science45(7), 1152-1169, doi: 10.1111/j.1945-5100.2010.01074.x.

Tompkins, S., C. M. Pieters, and G. Ryder, Spectral characteristics of lunar impact melts: Implications for remote sensing, Lunar Planet. Sci. XXVIII, 1441-1442, 1997.

Tompkins, S., C. M. Pieters, J. F. Mustard, P. C. Pinet, and S. D. Chevrel, Distribution of materials excavated by the lunar crater Bullialdus and implications of the geologic history of the Nubium Region, Icarus, 110, 261-274, 1994.

Tompkins, S., J. F. Mustard, C. M. Pieters, and D. W. Forsyth, Optimization of end-members for spectral mixture analysis, Remote Sens. Environ., 59, 472-489, 1997.

Tonui, E. K., M. E. Zolensky, T. Hiroi, M. S. Wang, and M. E. Lipschutz, Petrographic, chemical and spectroscopic data on thermally metamorphosed carbonaceous chondrites, Lunar Planet. Sci. XXXIII, abstract 1288, 2002.

Trang, D., J. J. Gillis-Davis, and P. G. Lucey (2013), Ultraviolet to near-infrared k-spectra modeling of synthetic lunar pyroclastic glass, Lunar and Planetary Science Conference XLIV,abstract 1312.

Trang, D., P. G. Lucey, J. J. Gillis-Davis, J. T. S. Cahill, R. L. Klima, and P. J. Isaacson (2013), Near-infrared optical constants of naturally occurring olivine and synthetic pyroxene as a function of mineral composition, Journal of Geophysical Research118, 708-732, doi: 10.1002/jgre.10072.

Tsuboi, N., S. Sugita, T. Hiroi, K. Nagata, and M. Okada (2010), A new modified Gaussian model (MGM) using the cross-validation method, Lunar Planet. Sci. XLI, abstract 1744.

Turner, S. M. R. (2017), Novel x-ray diffraction and the remote analysis of Mars, 250 pp, University of Leicester.

U_____________________________________________________________
Ueda, Y., T. Hiroi, C. M. Pieters, and M. Miyamoto, Changes of band I center and band II/band I area ratio in reflectance spectra of olivine-pyroxene mixtures due to the space weathering and grain size effects, Lunar Planet. Sci. XXXIII, abstract 2023, 2002.

Ueda, Y., T. Hiroi, C. M. Pieters, and M. Miyamoto, Expanding the modified Gaussian model to include the space weathering effects: estimation of the weathering degrees of pulse-laser treated olivine samples, Lunar Planet. Sci. XXXIII, abstract 1950, 2002.

Ueda, Y., M. Miyamoto, T. Mikouchi, and T. Hiroi, Reflectance spectra of the Yamato 000593 nakhlite: Spectroscopic similarities to other nakhlites, Antarct. Meteorite Res. 16, 94-104, 2003.

Ueda, Y., M. Miyamoto, T. Mikouchi, and T. Hiroi, Surface material analysis of S-type asteroids: Removing the space weathering effect from reflectance spectrum, Lunar Planet. Sci. XXXIV, abstract 2078, 2003.

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Vernazza, P., R. P. Binzel, C. A. Thomas, F. E. DeMeo, S. J. Bus, A. S. Rivkin, and A. T. Tokunaga (2008), Compositional differences between meteorites and near-Earth asteroids,  Nature, 454, 858-860, doi: 10.1038/nature07154.

Vernazza, P., R. P. Binzel, A. Rossi, M. Fulchignoni, and M. Birlan (2009), Solar wind as the origin of rapid reddening of asteroid surfaces, Nature, 458, 993-995, doi: 10.1038/nature07956.

Vernazza, P., R. Brunetto, R. P. Binzel, C. Perron, D. Fulvio, G. Strazzulla, and M. Fulchignoni (2009), Plausible parent bodies for enstatite chondrites and mesosiderites: Implications for Lutetia’s fly-by, Icarus, 202, 477-486, doi: 10.1016/j.icarus.2009.03.016.

Vernazza, P., P. L. Lamy, O. Groussin, T. Hiroi, L. Jorda, P. L. King, M. R. M. Izawa, F. Marchis, M. Birlan, and R. Brunetto (2011), Asteroid (21) Lutetia as a remnant of Earth’s precursor planetesimals, Icarus, 216, 650-659, doi: 10.1016/j.icarus.2011.09.032.

Vernazza, P., M. Delbo, P. L. King, M. R. M. Izawa, J. Olofsson, P. L. Lamy, F. Cipriani, R. P. Binzel, F. Marchis, B. Merín, and A. Tamanai (2012), High surface porosity as the origin of emissivity features in assteroid spectra, Icarus221, 1162-1172, doi: 10.1016/j.icarus.2012.04.003.

Vernazza, P., D. Fulvio, R. Brunetto, J. P. Emery, C. A. Dukes, F. Cipriani, O. Witasse, M. J. Schaible, B. Zanda, G. Strazzulla, and R. A. Baragiola (2013), Paucity of Tagish Lake-like parent bodies in the Asteroid Belt and among Jupiter Trojans, Icarus225(1), 517-525, doi: 10.1016/J.Icarus.2013.04.019.

Vernazza, P., M. Marsset, P. Beck, R. Binzel, M. Birlan, R. Brunetto, F. Demeo, Z. Djouadi, C. Dumas, and S. Merouane (2015), Interplanetary Dust Particles as Samples of Icy Asteroids, The Astrophysical Journal806(2), 204, doi: 10.1088/0004-637X/806/2/204.

Vernazza, P., M. Marsset, P. Beck, R. P. Binzel, M. Birlan, E. A. Cloutis, F. E. DeMeo, C. Dumas, and T. Hiroi (2016), Compositional Homogeneity of Cm Parent Bodies, Astron J152(3), doi: 10.3847/0004-6256/152/3/54.

Vishnu, R., L. Le Corre, D. P. O’Brien, A. Nathues, E. A. Cloutis, D. D. Durda, W. F. Bottke, M. U. Bhatt, D. Nesvorny, D. Buczkowski, J. E. C. Scully, E. M. Palmer, H. Sierks, P. J. Mann, K. J. Becker, A. W. Beck, D. Mittlefehldt, J.-Y. Li, R. Gaskell, C. T. Russell, M. J. Gaffey, H. Y. McSween Jr., T. B. McCord, J.-P. Combe, and D. Blewett (2012), Delivery of dark material to Vesta via carbonaceous chondritic impacts, Icarus221, 544-559, doi: 10.1016/j.icarus.2012.08.011.

Volquardsen E.L., A. S. Rivkin, and S. J. Bus (2007), Composition of hydrated near-Earth object (100085) 1992 UY4, Icarus, 187 (2), 464-468, doi: 10.1016/j.icarus.2006.10.034.

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Warell, J., A.L. Sprague, R.W. Kozlowski, and J. Helbert, Surface composition and chemistry of Mercury: Hapke modeling of MESSENGER/MASCS reflectance spectra, Lunar Planet. Sci. Conf., XL, abstract 1902, 2009.

Warell, J.B., A.L. Sprague, R.W.H. Kozlowski, D.A. Rothery, N. Lewis, J. Helbert, and E.A. Cloutis (2010), Constraints on Mercury’s surface composition from MESSENGER and ground-based spectroscopy, Icarus209, 138-163, doi: 10.1016/j.icarus.2010.04.008.

Warell, J.B., and B.J.R. Davidsson (2010), A Hapke model implementation for compositional analysis of VNIR spectra of Mercury, Icarus209, 164-178, doi: 10.1016/j.icarus.2009.11.037.

Wasson, J. T., C. M. Pieters, A. V. Fisenko, L. F. Semjonova, L. V. Moroz, and P. H. Warren, Simulation of space weathering of HED meteorites by laser impulse irradiation, Lunar Planet. Sci. XXVIII, 1505-1506, 1997.

Wasson, J. T., C. M. Pieters, A. V. Fisenko, L. F. Semjonova, and P. H. Warren, Simulation of space weathering of eucrites by laser impulse irradiation, Lunar Planet. Sci. XXIX, abstract 1940, 1998.

Weber, A., J. Russell, T. Goudge, M. Salvatore, J. Mustard, and S. Bijaksana (2015), Characterizing clay mineralogy in Lake Towuti, Indonesia, with reflectance spectroscopy, J Paleolimnol, 1-9, doi: 10.1007/s10933-015-9844-4.

Weitz, C. M., J. W. Head III, and C. M. Pieters, Lunar regional dark mantle deposits: Geologic, multispectral, and modeling studies, J. Geophys. Res., 103 (E10), 22,725-22,759, 1998.

Werner, S. C., A. Ody, and F. Poulet (2014), The Source Crater of Martian Shergottite Meteorites, Science343(6177), 1343-1346, doi: 10.1126/Science.1247282.

Williams, K. B., C. R. M. Jackson, L. C. Cheeks, K. L. Donaldson-Hanna, S. W. Parman, C. M. Pieters, M. D. Dyar, and T. C. Prissel (2016), Reflectance spectroscopy of chromium-bearing spinel with application to recent orbital data from the Moon, Am Mineral101(3-4), 726-734, doi: 10.2138/am-2016-5535.

Willman, M., and R. Jedicke (2012), Asteroid age distributions determined by space weathering and collisional evolution models (vol 211, pg 504, 2011), Icarus217(1), 431-431, doi: 10.1016/J.Icarus.2011.11.015.

Wu, Y., S. Besse, J.-Y. Li, J.-P. Combe, Z. Wang, X. Zhou, and C. Wang (2013), Photometric correction and in-flight calibration of Chang’ E-1 Interference Imaging Spectrometer (IIM) data, Icarus222, 283-295, doi: 10.1016/j.icarus.2012.11.010.

Wyatt, M. B., and J. F. Mustard (2006), Constraints on mineral-phase abundances and compositions in the low-albedo northern plains of Mars using MGS-TES, OMEGA, and laboratory spectral data, American Geophysical Union, Fall Meeting, abstract #P21A-04.

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Yamamoto, S., R. Nakamura, T. Matsunaga, Y. Ogawa, Y. Ishihara, T. Morota, N. Hirata, M. Ohtake, T. Hiroi, Y. Yokota, and J. Haruyama (2015), Global occurrence trend of high-Ca pyroxene on lunar highlands and its implications,  J. Geophys. Res.120, 831-848, doi: 10.1002/2014JE004740.

Yang, B., and D. Jewitt (2010), Identification of magnetite in B-type asteroids, The Astronomical Journal140, 692-698, doi: 10.1088/0004-6256/140/3/692.

Yang, Y. Z., S. Li, R. E. Milliken, H. Zhang, K. Robertson, and T. Hiroi (2019), Phase Functions of Typical Lunar Surface Minerals Derived for the Hapke Model and Implications for Visible to Near-Infrared Spectral Unmixing, J Geophys Res-Planet124(1), 31-60, doi: 10.1029/2018je005713.

Yant, M., A. D. Rogers, H. Nekvasil, Y. Y. S. Zhao, and T. Bristow (2016), Spectral characterization of acid weathering products on Martian basaltic glass, J Geophys Res-Planet121(3), 516-541, doi: 10.1002/2015je004969.

Yant, M., K. E. Young, A. D. Rogers, A. C. McAdam, J. E. Bleacher, J. L. Bishop, and S. A. Mertzman (2018), Visible, near-infrared, and mid-infrared spectral characterization of Hawaiian fumarolic alteration near Kilauea’s December 1974 flow: Implications for spectral discrimination of alteration environments on Mars, Am Mineral103(1), 11-25, doi: 10.2138/am-2018-6116.

Yon, S. M., and C. M. Pieters, Reflection, polarization, and the nature of interactions of light with rough dielectric surfaces, Proc. Lunar Planet. Sci. 19th, 581-592, 1988.

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Zabielski, V., and S. J. Gaffey, Feasibility of use of VNIR reflectance spectroscopy for analysis of water and organic contents in skeletons of Scleractinian corals, Proc. 4th Symposium of the Geology of the Bahamas, Bahamian Field Station, 367-381, 1989.

Zambon, F., F. Tosi, C. Carli, M. C. De Sanctis, D. T. Blewett, E. Palomba, A. Longobardo, A. Frigeri, E. Ammannito, C. T. Russell, and C. A. Raymond (2016), Lithologic variation within bright material on Vesta revealed by linear spectral unmixing, Icarus272, 16-31, doi: 10.1016/j.icarus.2016.01.009.

Zhang, X., H. Lin, Y. Cen, L. Zhang, and H. Yang (2016), A nonlinear spectral unmixing method for abundance retrieval of mineral mixtures, Remotely Sensed Data Compression, Communications, and ProcessingXII, doi: 10.1117/12.2225567.