SEARCH

SEARCH BY CITATION

References

  • Abe M., Takagi Y., Kitazato K., Abe S., Hiroi T., Vilas F., Clark B. E., Abell P. A., Lederer S. M., Jarvis K. S., Nimura T., Ueda Y., and Fujiwara A. 2006. Near-infrared spectral results of asteroid Itokawa from the Hayabusa spacecraft. Science 312:13341338.
  • Al-Kathiri A., Hofmann B. A., Jull A. J. T., and Gnos E. 2005. Weathering of meteorites from Oman: Correlation of chemical and mineralogical weathering proxies with 14C terrestrial ages and the influence of soil chemistry. Meteoritics & Planetary Science 40:12151239.
  • Banfield J. F. and Barker W. W. 1994. Direct observation of reactant-product interfaces formed in natural weathering of exsolved, defective amphibole to smectite; evidence for episodic, isovolumetric reactions involving structural inheritance. Geochimica et Cosmochimica Acta 58:14191429.
  • Banfield J. F., Veblen D. R., and Jones B. F. 1990. Transmission electron microscopy of subsolidus oxidation and weathering of olivine. Contributions to Mineralogy and Petrology 106:110123.
  • Barrat J. A., Gillet P., Lecuyer C., Sheppard S. M. F., and Lesourd M. 1998. Formation of carbonates in the Tatahouine meteorite. Science 280:412414.
  • Barrat J. A., Gillet P., Lesourd M., Blichert-Toft J., and Poupeau G. R. 1999. The Tatahouine diogenite: Mineralogical and chemical effects of sixty-three years of terrestrial residence. Meteoritics & Planetary Science 34:9197.
  • Bateman R. M. and Catt J. A. 1985. Modification of heavy mineral assemblages in English coversands by acid pedochemical weathering. Catena 12:121.
  • Benzerara K., Menguy N., Guyot F., Dominici C., and Gillet P. 2003. Nanobacteria like calcite single crystals at the surface of the Tatahouine meteorite. Proceedings of the National Academy of Sciences 100:74387442.
  • Benzerara K., Yoon T. H., Menguy N., Tyliszczak T., and Brown G., Jr. 2005a. Nanoscale environments associated with bioweathering of a meteoritic Mg-Fe-pyroxene. Proceedings of the National Academy of Sciences 102:979982.
  • Benzerara K., Menguy N., Guyot F., Vanni C., and Gillet P. 2005b. High-resolution study of silicate-carbonate-microorganism interface prepared by focused ion beam (FIB). Geochimica et Cosmochimica Acta 69:14131422.
  • Benzerara K., Chapon V., Moreira D., López-García P., Guyot F., and Heulin T. 2006. Microbial diversity on the Tatahouine meteorite. Meteoritics & Planetary Science 41:12491265.
  • Berner R. A., Sjöberg E. L., Velbel M. A., and Krom M. D. 1980. Dissolution of pyroxenes and amphiboles during weathering. Science 207:12051206.
  • Biswas S., Ngo H. T., and Lipschutz M. E. 1980. Trace element contents of selected Antarctic meteorites, I: Weathering effects and ALHA 77005, A77257, A77278 and A77299. Zeitschrift für Naturforschung 35a:191196.
  • Bland P. A., Berry F. J., Smith T. B., Skinner S. J., and Pillinger C. T. 1996. The flux of meteorites to the Earth and weathering in hot desert ordinary chondrite finds. Geochimica et Cosmochimica Acta 60:20532059.
  • Bland P. A., Kelley S. P., Berry F. J., Cadogan J. M., and Pillinger C. T. 1997. Artificial weathering of the ordinary chondrite Allegan: Implications for the presence of Cl as a structural component in akaganéite. American Mineralogist 82:11871197.
  • Bland P. A., Sexton A. S., Jull A. J. T., Bevan A. W. R., Berry F. J., Thornley D. M., Astin T. R., Britt D. T., and Pillinger C. T. 1998a. Climate and rock weathering: A study of terrestrial age dated ordinary chondritic meteorites from hot desert regions. Geochimica et Cosmochimica Acta 62:31693184.
  • Bland P. A., Berry F. J., and Pillinger C. T. 1998b. Rapid weathering in Holbrook: An iron-57 Mössbauer spectroscopy study. Meteoritics & Planetary Science 33:127129.
  • Bland P. A., Lee M. R., Sexton A. S., Franchi I. A., Fallick A. E. T., Miller M. F., Cadogan J. M., Berry F. J., and Pillinger C. T. 2000. Aqueous alteration without a pronounced oxygen-isotopic shift: Implications for asteroidal processing of chondritic materials. Meteoritics & Planetary Science 35:13871395.
  • Bland P. A., Zolensky M. E., Benedix G. K., and Sephton M. A. 2006. Weathering of chondritic meteorites. In Meteorites and the early solar system II, edited by Lauretta D. S. and McSween H. Y., Jr. Tucson, Arizona: The University of Arizona Press. pp. 853867.
  • Bland P. A., Jackson M. D., Coker R. F., Cohen B. A., Webber J. B. W., Lee M. R., Duffy C. M., Chater R. J., Ardakani M. G., McPhail D. S., McComb D. W., and Benedix G. K. 2009. Why aqueous alteration in asteroids was isochemical: High porosity ≠ high permeability. Earth and Planetary Science Letters 287:559568.
  • Brantley S. L. 2008. Kinetics of mineral dissolution. In Kinetics of water-rock interaction, edited by Brantley S. L., Kubicki J. D., and White A. F. Berlin: Springer. pp. 151210.
  • Brantley S. L. and Chen Y. 1995. Chemical weathering rates of pyroxenes and amphiboles. In Chemical weathering rates of silicate minerals, edited by White A. F. and Brantley S. L. Reviews in Mineralogy, vol. 31. Washington, DC: Mineralogical Society of America. pp. 119172.
  • Brearley A. J. and Jones R. H. 1998. Chondritic meteorites. In Planetary materials, edited by Papike J. J. Reviews in Mineralogy, vol. 36. Washington, DC: Mineralogical Society of America. pp. 3-13-398.
  • Buchwald V. F. and Clarke R. S., Jr. 1989. Corrosion of Fe-Ni alloys by Cl-containing akaganéite (β-FeOOH): The Antarctic case. American Mineralogist 74:656667.
  • Buddhue J. D. 1957. The oxidation and weathering of meteorites. Albuquerque: University of New Mexico Press. 161 p. with plates.
  • Burns R. G., Burbine T. H., Fisher D. S., and Binzel R. P. 1995. Weathering in Antarctic H and CR chondrites: Quantitative analysis through Mössbauer spectroscopy. Meteoritics 30:625633.
  • Caillaud J., Proust D., Righi D., and Martin F. 2004. Fe-rich clays in a weathering profile developed from serpentinites. Clays and Clay Minerals 52:779791.
  • Chesworth W., Dejou J., and Larroque P. 1981. The weathering of basalt and relative mobilities of the major elements at Belbex, France. Geochimica et Cosmochimica Acta 45:12351243.
  • Clayton R. N., Mayeda T. K., Goswami J. N., and Olsen E. J. 1991. Oxygen isotope studies of ordinary chondrites. Geochimica et Cosmochimica Acta 55:23172337.
  • Colman S. M. 1982. Chemical weathering of basalts and andesites: Evidence from weathering rinds. US Geological Survey Professional Paper 1246, pp. 151.
  • Crozaz G. and Wadhwa M. 2001. The terrestrial alteration of Saharan shergottites Dar al Gani 476 and 489: A case study of weathering in a hot desert environment. Geochimica et Cosmochimica Acta 65:971978.
  • Crozaz G., Floss C., and Wadhwa M. 2003. Chemical alteration and REE mobilization in meteorites from hot and cold deserts. Geochimica et Cosmochimica Acta 67:47274741.
  • Dennison J. E. and Lipschutz M. E. 1987. Chemical studies of H chondrites. II. Weathering effects in the Victoria Land, Antarctica population and comparison of two Antarctic populations with non-Antarctic falls. Geochimica et Cosmochimica Acta 51:741754.
  • Dodd R. T. 1981. Meteorites: A petrologic-chemical synthesis. Cambridge: Cambridge University Press. 368 p.
  • Dukes C. A., Baragiola R. A., and McFadden L. A. 1999. Surface modification of olivine by H+ and He+ bombardment. Journal of Geophysical Research 104:E1865E1872.
  • Eggleton R. A. 1986. The relation between crystal structure and silicate weathering rates. in Rates of chemical weathering of rocks and minerals, edited by Colman S. M. and Dethier D. P. Orlando, Florida: Academic Press. pp. 2140.
  • Eggleton R. A., Foudoulis C., and Varkevisser D. 1987. Weathering of basalt: Changes in rock chemistry and mineralogy. Clays and Clay Minerals 35:161169.
  • Floss C. and Crozaz G. 1991. Ce anomalies in the LEW85300 eucrite: Evidence for REE mobilization during Antarctic weathering. Earth and Planetary Science Letters 107:1324.
  • Fulton C. R. and Rhodes J. M. 1984. The chemistry and origin of the ordinary chondrites: Implications from refractory-lithophile and siderophile elements. Proceedings, 14th Lunar and Planetary Science Conference, Part 2. Journal of Geophysical Research Supplement 89:B543B558.
  • Gardner L. R., Kheoruenromme I., and Chen H. S. 1981. Geochemistry and mineralogy of an unusual diabase saprolite near Columbia, South Carolina. Clays and Clay Minerals 29:184190.
  • Gibson E. K., Jr. and Bogard D. D. 1978. Chemical alterations of the Holbrook chondrite resulting from terrestrial weathering. Meteoritics 13:277289.
  • Gillet P., Barrat J. A., Heulin T., Achouak W., Lesourd M., Guyot F., and Benzerara K. 2000. Bacteria in the Tatahouine meteorite: Nanometric-scale life in rocks. Earth and Planetary Science Letters 175:161167.
  • Goldich S. S. 1938. A study in rock weathering. Journal of Geology 46:1758.
  • Gooding J. L. 1981. Mineralogical aspects of terrestrial weathering effects in chondrites from Allan Hills, Antarctica. Proceedings, 12th Lunar and Planetary Science Conference. pp. 11051122.
  • Gooding J. L. 1986a. Weathering of stony meteorites in Antarctica. In International Workshop on Antarctic Meteorites, edited by Annexstad J. O., Schultz L., and Wänke H. Lunar and Planetary Institute Technical Report 86-01, Houston, Texas: Lunar and Planetary Institute. 7 p.
  • Gooding J. L. 1986b. Clay-mineraloid weathering products in Antarctic meteorites. Geochimica et Cosmochimica Acta 50:22152223.
  • Gooding J. L. 1989. Significance of terrestrial weathering effects on Antarctic meteorites. Smithsonian Contributions to Earth Science 28:9398.
  • Gounelle M. and Zolensky M. E. 2001. A terrestrial origin for sulfate veins in CI1 chondrites. Meteoritics & Planetary Science 36:13211329.
  • Grady M. M. 2000. Catalog of meteorites, 5th ed. Cambridge: Cambridge University Press. 689 p.
  • Grady M. M. and Wright I. 2006. Types of extraterrestrial material available for study. In Meteorites and the early solar system II, edited by Lauretta D. S. and McSween H. Y., Jr. Tucson, Arizona: The University of Arizona Press. pp. 318.
  • Harvey R. P. 2003. The origin and significance of Antarctic meteorites. Chemie der Erde 63:93147.
  • Heumann K. G., Gall M., and Weiss H. 1987. Geochemical investigations to explain iodine-overabundances in Antarctic meteorites. Geochimica et Cosmochimica Acta 51:25412547.
  • Honda M., Nagai H., Nishiizumi K., and Ebihara M. 1993. Weathering of a chondrite, Tsarev, L5. Proceedings of the Eighteenth Symposium on Antarctic Meteorites. pp. 176179.
  • Hutchison R. 2004. Meteorites: A petrologic, chemical and isotopic synthesis. Cambridge: Cambridge University Press. 506 p.
  • Ikeda Y. and Kojima H. 1991. Terrestrial alteration of Fe-Ni metals in Antarctic ordinary chondrites and the relationship to their terrestrial ages. Proceedings of the NIPR Symposium on Antarctic Meteorites 4:307318.
  • Jarosewich E. 1990. Chemical analyses of meteorites: A compilation of stony and iron meteorite analyses. Meteoritics 25:323337.
  • Jull A. J. T., Cheng S., Gooding J. L., and Velbel M. A. 1988. Rapid growth of magnesium-carbonate weathering products in a stony meteorite from Antarctica. Science 242:417419.
  • Kaneoka I. 1983a. Anomalously old 40Ar-39Ar ages of Antarctic meteorites due to weathering. Nature 304:146148.
  • Kaneoka I. 1983b. Investigation of the weathering effect on the 40Ar-39Ar ages of Antarctic meteorites. Proceedings of the Eighth Symposium on Antarctic Meteorites. pp. 259274.
  • Krot A. N., Keil K., Goodrich C. A., Scott E. R. D., and Weisberg M. K. 2003. Classification of meteorites. In Meteorites, comets, and planets, edited by Davis A. M. Treatise in Geochemistry, vol. 1. Oxford: Elsevier-Pergamon. pp. 83128.
  • Kühnel R. A., Foorda H. J., and Steensma J. J. S. 1978. Distribution and partitioning of elements in nickeliferous laterites. Bulletin du BRGM (deuxième série), Section II, no. 3, pp. 191206.
  • Langenauer M. and Krähenbühl U. 1993. Halogen contamination in Antarctic H5 and H6 chondrites and relation to sites of recovery. Earth and Planetary Science Letters 120:431442.
  • Lasaga A. C. 1984. Chemical kinetics of water-rock interactions. Journal of Geophysical Research, 89:B4009B4025.
  • Lasaga A. C. 1998. Kinetic theory in the Earth sciences . Princeton: Princeton University Press. 811 p.
  • Lee M. R. and Bland P. A. 2004. Mechanisms of weathering of meteorites recovered from hot and cold deserts and the formation of phyllosilicates. Geochimica et Cosmochimica Acta 68:893916.
  • Lindstrom M. M. 1989. News and information. Antarctic Meteorite Newsletter, 12, no. 1:3.
  • Lipschutz M. E. 1982. Weathering effects in Antarctic meteorites. In Catalog of meteorites from Victoria Land, Antarctica, 1978–1980, edited by Marvin U. B. and Mason B. Smithsonian Contributions to Earth Science 24:6769.
  • Loeffler M. J., Dukes C. A., and Baragiola R. A. 2009. Irradiation of olivine by 4 keV He+: Simulation of space weathering by solar wind. Journal of Geophysical Research 114:E03003, doi:10.1029/2008JE003249.
  • Losiak A. I. and Velbel M. A. 2011. Evaporite formation during the weathering of Antarctic meteorites—A weathering census analysis based on the ANSMET database. Meteoritics & Planetary Science 46:443458. doi:j.1945-5100.2010.01166.x.
  • Martin B. and Fyfe W. S. 1970. Some experimental and theoretical observations on the kinetics of hydration reactions with particular reference to serpentinization. Chemical Geology 6:185202.
  • Marvin U. B. 1980. Magnesium carbonate and magnesium sulfate deposits on Antarctic meteorites. Antarctic Journal of the United States 15:5455.
  • McSween H. Y., Jr. 1999. Meteorites and their parent planets, 2nd ed. Cambridge: Cambridge University Press. 310 p.
  • Mittlefehldt D. W. and Lindstrom M. M. 1991. Generation of abnormal trace element abundances in Antarctic eucrites by weathering processes. Geochimica et Cosmochimica Acta 55:7787.
  • Miyamoto M. 1988. Hydration bands near 3 μm and weathering of some Antarctic meteorites. Earth and Planetary Science Letters 89:398402.
  • Miyamoto M. 1989. Carbonates in Antarctic ordinary chondrites inferred from diffuse reflectance spectra. Earth and Planetary Science Letters 96:229234.
  • Morton A. C. 1984. Stability of detrital heavy minerals in Tertiary sandstones from the North Sea Basin. Clay Minerals 19:287308.
  • Morton A. C. 1985. Heavy minerals in provenance studies. In Provenance of arenites, edited by Zuffa G. G. Dordrecht: D. Reidel. pp. 249277.
  • Nahon D., Paquet H., and Delvigne J. 1982. Lateritic weathering of ultramafic rocks and the concentration of nickel in the western Ivory Coast. Economic Geology 77:11591175.
  • Nakamura T., Noguchi T., Tanaka M., Zolensky M. E., Kimura M., Tsuchiyama A., Nakato A., Ogami T., Ishida H., Uesugi M., Yada T., Shirai K., Fujimura A., Okazaki R., Sandford S. A., Ishibashi Y., Abe M., Okada T., Ueno M., Mukai T., Yoshikawa M., and Kawaguchi J. 2011. Itokawa dust particles: A direct link between S-type asteroids and ordinary chondrites. Science 333:11131116. doi: 10.1126/science.1207758.
  • Nesbitt H. W. and Wilson R. E. 1992. Recent chemical weathering of basalts. American Journal of Science 292:740777.
  • Nishiizumi K. 1986. Terrestrial and exposure histories of Antarctic meteorites. In International Workshop on Antarctic Meteorites, edited by Annexstad J. O., Schultz L., and Wanke H. Lunar and Planetary Institute Technical Report 86-01. Houston, Texas: Lunar and Planetary Institute. 3 p.
  • Noguchi T., Nakamura T., Kimura M., Zolensky M. E., Tanaka M., Hashimoto T., Konno M., Nakato A., Ogami T., Fujimura A., Abe M., Yada T., Mukai T., Ueno M., Okada T., Shirai K., Ishibashi Y., and Okazaki R. 2011. Incipient space weathering observed on the surface of Itokawa dust particles. Science 333:11211125. doi: 10.1126/science.1207794.
  • Nowicki M. A. and Velbel M. A. 2011. Preliminary quantification of a shape model for etch-pits formed during natural weathering of olivine. Applied Geochemistry 26:S112S114. doi:10.1016/j.apgeochem.2011.03.043.
  • Okada T., Shirai K., Yamamoto Y., Arai T., Ogawa K., Hosono K., and Kato M. 2006. X-ray fluorescence spectrometry of asteroid Itokawa by Hayabusa. Science 312:13381341.
  • Olsen A. A. and Rimstidt J. D. 2007. Using a mineral lifetime diagram to evaluate the persistence of olivine on Mars. American Mineralogist 92:598602.
  • Schellmann W. 1983. Geochemical principles of lateritic nickel ore formation. In Lateritisation processes, edited by Melfi A. J. and Carvaho A. Proceedings of the II International Seminar on Lateritisation Processes, University of Sao Paulo, Sao Paulo, Brazil, pp. 119135.
  • Schultz L. 1986. Terrestrial ages of Antarctic meteorites: Implications for concentration mechanisms. In International Workshop on Antarctic Meteorites, edited by Annexstad J. O., Schultz L., and Wanke H. Lunar and Planetary Institute Technical Report 86-01. Houston, Texas: Lunar and Planetary Institute. 3 p.
  • Socki R. A., Gibson E. K., Jull A. J. T., and Karlsson H. R. 1991. Carbon and oxygen isotope composition of carbonates from an L6 chondrite: Evidence for terrestrial weathering from the Holbrook meteorite. Meteoritics 26:396397.
  • Stelzner T. and Heide K. 1996. The study of weathering products of meteorites by means of evolved gas analysis. Meteoritics & Planetary Science 31:249254.
  • Stelzner T., Heide K., Bischoff A., Weber D., Scherer P., Schultz L., Happel M., Schrön W., Neupert U., Michel R., Clayton R. N., Mayeda T. K., Bonani G., Haidas I., Ivy-Ochs S., and Suter M. 1999. An interdisciplinary study of weathering effects in ordinary chondrites from the Acfer region, Algeria. Meteoritics & Planetary Science 34:787794.
  • Stopar J. D., Taylor G. J., Hamilton V. E., and Browning L. 2006. Kinetic models of olivine dissolution and extent of aqueous alteration on Mars. Geochimica et Cosmochimica Acta 70:61366153.
  • Traoré D., Beauvais A., Chabaux F., Peiffert C., Parisot J.-C., Ambrosi J.-P., and Colin F. 2008. Chemical and physical transfers in an ultramafic rock weathering profile: Part 1. Supergene dissolution of Pt-bearing chromite. American Mineralogist 93:2230.
  • Van Schmus W. R. and Wood J. A. 1967. A chemical-petrologic classification for the chondritic meteorites. Geochimica et Cosmochimica Acta 31:747765.
  • Velbel M. A. 1986. Influence of surface area, surface characteristics, and solution composition on feldspar weathering rates. In Geochemical processes at mineral surfaces, edited by Davis J. A. and Hayes K. F. Symposium Series, No. 323. Washington, DC: American Chemical Society. pp. 615634.
  • Velbel M. A. 1988. The distribution and significance of evaporitic weathering products on Antarctic meteorites. Meteoritics 23:151159.
  • Velbel M. A. 1989. Weathering of hornblende to ferruginous products by a dissolution-reprecipitation mechanism: Petrography and stoichiometry. Clays and Clay Minerals 37:515524.
  • Velbel M. A. 1993. Constancy of silicate-mineral weathering-rate ratios between natural and experimental weathering: Implications for hydrologic control of differences in absolute rates. Chemical Geology 105:8999.
  • Velbel M. A. 1999. Bond strength and the relative weathering rates of simple orthosilicates. American Journal of Science 299:679696.
  • Velbel M. A. 2007. Surface textures and dissolution processes of heavy minerals in the sedimentary cycle: Examples from pyroxenes and amphiboles. In Heavy minerals in use, edited by Mange M. and Wright D. Developments in Sedimentology 58:113150.
  • Velbel M. A. 2009. Dissolution of olivine during natural weathering. Geochimica et Cosmochimica Acta 73:60986113.
  • Velbel M. A. 2011. Microdenticles on naturally weathered hornblende. Applied Geochemistry 26:15941596. doi:10.1016/j.apgeochem.2011.05.008.
  • Velbel M. A. and Barker W. W. 2008. Pyroxene weathering to smectite: Conventional and low-voltage cryo-field emission scanning electron microscopy, Koua Bocca ultramafic complex, Ivory Coast. Clays and Clay Minerals 56:111126.
  • Velbel M. A. and Gooding J. L. 1988. X-ray diffraction evidence for weathering products on Antarctic basaltic achondrites. Meteoritics 23:306.
  • Velbel M. A. and Gooding J. L. 1990. Terrestrial weathering of Antarctic stony meteorites—Developments 1985–1989. In Workshop on Differences Between Antarctic and Non-Antarctic Meteorites, Vienna, Austria, July, 1989, edited by Koeberl C. and Cassidy W. A. Lunar and Planetary Institute Technical Report 90-01, pp. 9498.
  • Velbel M. A. and Losiak A. I. 2010. Denticles on chain silicate grain surfaces and their utility as indicators of weathering conditions on Earth and Mars. Journal of Sedimentary Research 80:771780.
  • Velbel M. A., Long D. T., and Gooding J. L. 1991. Terrestrial weathering of Antarctic stone meteorites: Formation of Mg-carbonates on ordinary chondrites. Geochimica et Cosmochimica Acta 55:6776.
  • Velbel M. A., Tonui E. K., and Zolensky M. E. 2012. Replacement of olivine by serpentine in the carbonaceous chondrite Nogoya (CM2). Geochimica et Cosmochimica Acta 87:117135. doi:10.1016/j.gca.2012.03.016.
  • Wegner W. W. and Ernst W. G. 1983. Experimentally determined hydration and dehydration reaction rates in the system MgO-SiO2-H2O. American Journal of Science 283-A:151180.
  • Weisberg M. K., McCoy T. J., and Krot A. N. 2006. Systematics and evaluation of meteorite classification. In Meteorites and the early solar system II, edited by Lauretta D. S. and McSween H. Y., Jr. Tucson, Arizona: The University of Arizona Press. pp. 1952.
  • Welten K. C. 1999. Concentrations of siderophile elements in nonmagnetic fractions for Antarctic H- and L-chondrites: A quantitative approach on weathering effects. Meteoritics & Planetary Science 34:259270.
  • Welten K. C., Alderliesten C., van der Borg K., Lindner L., Loeken T., and Schultz L. 1997. Lewis Cliff 86360: An Antarctic L-chondrite with the terrestrial age of 2.35 million years. Meteoritics & Planetary Science 32:755780.
  • Welten K. C., Lindner L., Alderliesten C., and van der Borg K. 1999. Terrestrial ages of ordinary chondrites from the Lewis Cliff stranding area, East Antarctica. Meteoritics & Planetary Science 34:559569.
  • White A. F. and Brantley S. L. 2003. The effect of time on the weathering of silicate minerals: Why do weathering rates differ in the laboratory and field? Chemical Geology 202:479506.
  • Wlotzka F. 1993. A weathering scale for the ordinary chondrites. Meteoritics & Planetary Science 28:460.
  • Yabuki H., Okada H., and Shima M. 1976. Nesquehonite found on the Yamato 74371 meteorite. Scientific Papers of the Institute of Physical and Chemical Research 70:2229.
  • Yano H., Kubota T., Miyamoto H., Okada T., Scheeres D., Takagi Y., Yoshida K., Abe M., Abe S., Barnouin-Jha O., Fujiwara A., Hasegawa S., Hashimoto T., Ishiguro M., Kato M., Kawaguchi J., Mukai T., Saito J., Sasaki S., and Yoshikawa M. 2006. Touchdown of the Hayabusa spacecraft at the Muses Sea on Itokawa. Science 312:13501353.
  • Yurimoto H., Abe K.-I., Abe M., Ebihara M., Fujimora A., Hashiguchi M., Hashizume K., Ireland T. R., Itoh S., Katamaya J., Kato C., Kawaguchi J., Kawasaki N., Kitajima F., Kobayashi J., Meike T., Mukai T., Nagao K., Nakamura T., Naraoka H., Noguchi Ta., Okazaki R., Park C., Sakamoto N., Seto Y., Takei M., Tsuchiyama A., Uesugi M., Wakaki S., Yada T., Yamamoto K., Yoshikawa M., and Zolensky M. E. 2011. Oxygen isotopic compositions of asteroidal materials returned from Itokawa by the Hayabusa mission. Science 333:11161119. doi: 10.1126/science.1207776.
  • Zolensky M. E. and Gooding J. L. 1986. Aqueous alteration on carbonaceous-chondrite parent bodies as inferred from weathering of meteorites in Antarctica. Meteoritics 21:548549.