SEARCH

SEARCH BY CITATION

References

  • Bandfield, J. L., V. E. Hamilton, and P. R. Christensen, A global view of Martian surface compositions from MGS-TES, Science, 287, 16261630, 2000.
  • Banin, A., B. C. Clark, and H. Wänke, Surface chemistry and mineralogy, in Mars, edited by H. H. Kieffer et al., pp. 594625, Univ. of Ariz. Press, Tucson, 1992.
  • Basaltic Volcanism Study Project, Basaltic Volcanism on Terrestrial Planets, 1286 pp., Pergamon, New York, 1981.
  • Bell, J. F. III, R. V. Morris, and J. B. Adams, Thermally altered palagonitic tephra: A spectral and process analogue to the soils and dusts of Mars, J. Geophys. Res., 98, 33733385, 1993.
  • Bell, J. F., et al., Mineralogical and compositional properties of Martian soil and dust: Results from Mars Pathfinder, J. Geophys. Res., 105(E1), 17211755, 2000.
  • Bridges, N. T., and J. A. Crisp, The Mars Pathfinder APXS sites: New insights from improved IMP calibration and image analysis, Lunar Planet. Sci., [CD-ROM], XXXI, abstract 1740, 2000.
  • Bridges, N. T., R. Greeley, A. F. C. Haldemann, K. E. Herkenhoff, M. Kraft, T. J. Parker, and A. W. Ward, Ventifacts at the Pathfinder landing site, J. Geophys. Res., 104(E4), 85958615, 1999.
  • Bridges, N. T., J. A. Crisp, and J. F. Bell, Characteristics of the Pathfinder APXS sites: Implications for the composition of Martian rocks and soils, J. Geophys. Res., 106(E7), 14,62114,665, 2001.
  • Burns, R. G., Rates and mechanisms of chemical weathering of ferromagnesian silicate minerals on Mars, Geochim. Cosmochim. Acta, 57, 45554574, 1993.
  • Campbell, I. B., and G. G. C. Claridge, Antarctica: Soils, Weathering Processes, and Environment, Developments in Soil Science, vol. 16, 368 pp., Elsevier Sci., New York, 1987.
  • Carroll, M. R., and J. D. Webster, Solubilities of sulfur, noble gases, nitrogen, chlorine, and fluorine in magmas, Rev. Mineral., 30, 231279, 1994.
  • Clark, B. C., Geochemical components in Martian soil, Geochim. Cosmochim. Acta, 57, 45754581, 1993.
  • Clark, B. C., A. K. Baird, R. J. Weldon, D. M. Tsusaki, L. Schnabel, and M. P. Candelaria, Chemical composition of Martian fines, J. Geophys. Res., 87, 10,05910,067, 1982.
  • Drake, M. J., H. E. Newsom, and C. J. Capobianco, V, Cr, Mn in the Earth, Moon, EPB, and SPB, and the origin of the Moon: Experimental studies, Geochim. Cosmochim. Acta., 53, 21012111, 1989.
  • Dreibus, G., H. Palme, W. Rammensee, B. Spettel, G. Weckwerth, and H. Wänke, Composition of the Shergotty parent body: Further evidence of a two component model for planet formation (abstract), Lunar Planet. Sci., 186187, 1982.
  • Farmer, C. B., and P. E. Doms, Global and seasonal variation of water vapor on Mars and implications for permafrost, J. Geophys. Res., 84, 28812888, 1979.
  • Foley, C. N., Mars Pathfinder APXS analyses and interpretations, Ph.D. dissertation, Univ. of Chicago, Chicago, Ill., 2002.
  • Foley, C. N., T. E. Economou, and R. N. Clayton, Chemistry of Mars Pathfinder samples determined by the APXS, Lunar Planet. Sci., [CD-ROM], XXXII, abstract 1979, 2001.
  • Foley, C. N., T. E. Economou, R. N. Clayton, and W. Dietrich, Calibration of the Mars Pathfinder alpha proton X-ray spectrometer, J. Geophys. Res., 108(E12), 8095, doi:10.1029/2002JE002018, in press, 2003.
  • Ghiorso, M. S., and R. O. Sack, Chemical mass transfer in magmatic processes, IV. A revised and internally consistent thermodynamic model for the interpolation and extrapolation of liquid-solid equilibria in magmatic systems at elevated temperatures and pressures, Contrib. Mineral. Petrol., 119, 197212, 1995.
  • Gooding, J. L., Soil mineralogy and chemistry on Mars: Possible clues from salts and clays in SNC meteorites, Icarus, 99, 2841, 1992.
  • Hale, V. P. S., H. Y. McSween Jr., and G. A. McKay, Cumulus pyroxene in Shergotty: The discrepancy between experimental and observational studies, Lunar Planet. Sci, [CD-ROM], XVIII, abstract 1363, 1997.
  • Hamilton, V. E., M. B. Wyatt, H. Y. McSween Jr., and P. R. Christensen, Analysis of terrestrial and Martian volcanic compositions using thermal emission spectroscopy: 2. Application to Martian surface spectra from the Mars Global Surveyor Thermal Emission Spectrometer, J. Geophys. Res., 106, 14,73314,746, 2001.
  • Irvine, T. N., and W. R. A. Baragar, A guide to the chemical classification of the common volcanic rocks, Can. J. Earth Sci., 8, 525548, 1971.
  • Jagoutz, E., H. Palme, H. Baddenhausen, K. Blum, M. Cendales, G. Dreibus, B. Spettel, V. Lorentz, and H. Wänke, The abundances of major, minor, and trace elements in the Earth's mantle as derived from primitive ultramafic nodules, Proc. Lunar Planet. Sci. Conf. 10th, 20312050, 1979.
  • Jakobsson, S. P., and J. G. Moore, Hydrothermal minerals and alteration rates at Surtsey volcano, Iceland, Geol. Soc. Am. Bull., 97, 648659, 1986.
  • Jakosky, B. M., and R. M. Haberle, The seasonal behavior of water on Mars, in Mars, edited by H. H. Kieffer et al., pp. 818834, Univ. of Ariz. Press, Tucson, 1992.
  • Johnson, M. C., M. J. Rutherford, and P. C. Hess, Chassigny petrogenesis: Melt compositions, intensive parameters, and water contents of Martian (?) magmas, Geochim. Cosmochim. Acta., 55, 349366, 1991.
  • Juster, T. C., T. L. Grove, and M. R. Perfit, Experimental constraints on the generation of FeTi basalts, andesites, and rhyodacites at the Galapagos spreading center, 85°W and 95°W, J. Geophys. Res., 94(B7), 92519274, 1989.
  • Karlsson, H. R., R. N. Clayton, E. K. Gibson Jr., and T. K. Mayeda, Water in SNC meteorites: Evidence for a Martian hydrosphere, Science, 255, 14091411, 1992.
  • Laul, J. C., and R. A. Schmitt, Chemical composition of Apollo 15, 16, and 17 samples, Proc. Lunar Sci. Conf., Geochim. Cosmochim. Acta, 2, Suppl. 4, 13491367, 1973.
  • Le Bas, M. J., R. W. Le Maitre, A. Streckeissen, and B. Zanettin, A chemical classification of volcanic rocks based on the total alkali-silica diagram, J. Petrol., 27, 745750, 1986.
  • Leighton, R. B., and B. C. Murray, Behavior of carbon dioxide and other volatiles on Mars, Science, 153, 136144, 1966.
  • Lodders, K., A survey of shergottite, nakhlite, and chassigny meteorites whole-rock compositions, Meteorit. Planet. Sci., 33, A183A190, 1998.
  • McLennan, S. M., Chemical composition of Martian soil and rocks: Complex mixing and sedimentary transport, Geophys. Res. Lett., 27, 13351338, 2000.
  • McSween, H. Y. Jr., and R. P. Harvey, Outgassed water on Mars: Constraints from melt inclusions in SNC meteorites, Science, 259, 18901892, 1993.
  • McSween, H. Y., and K. Keil, Mixing relationships in the Martian regolith and the composition of globally homogeneous dust, Geochim. Cosmochim. Acta., 64, 21552166, 2000.
  • McSween, H. Y. Jr., J. P. Greenwood, and A. Ghosh, Rocks of andesitic composition at the Mars Pathfinder site: What do they mean? Lunar Planet. Sci., [CD-ROM], XXXII, abstract 1054, 1998.
  • McSween, H. Y. Jr., et al., Chemical, multispectral, and textural constraints on the composition and origin of rocks at the Mars Pathfinder landing site, J. Geophys. Res., 104(E4), 86798715, 1999.
  • Meyer, C., Mars meteorite compendium 2001 (web report), Astromater. Res. and Explor. Sci., Johnson Space Cent., Houston, Tex., 2001. (Available at http://www-curator.jsc.nasa.gov/curator/antmet/mmc/mmc.htm).
  • Minitti, M. E., and M. J. Rutherford, Genesis of the Mars Pathfinder ‘sulfur-free’ rock form SNC parental liquids, in Workshop on Martian Meteorites, LPI Contrib.956, pp. 3637, Lunar and Planet. Inst., Houston, Tex., 1998.
  • Minitti, M. E., and M. J. Rutherford, Genesis of the Mars Pathfinder ‘sulfur-free’ rock from a SNC parental magma, Lunar Planet. Sci., [CD-ROM], XXX, abstract 1198, 1999.
  • Minitti, M. E., and M. J. Rutherford, Genesis of the Mars Pathfinder ‘sulfur-free’ rock from SNC parental liquids, Geochim. Cosmochim. Acta., 64(14), 25352547, 2000.
  • Morris, R. V., D. C. Golden, J. F. Bell III, and H. V. Lauer Jr., Hematite, pyroxene, and phyllosilicates on Mars: Implications from oxidized impact melt rocks from Manicouagan Crater, Quebec, Canada, J. Geophys. Res., 100, 53195328, 1995.
  • Morris, R. V., et al., Mineralogy, composition, and alteration of Mars Pathfinder rocks and soils: Evidence from multispectral, elemental, and magnetic data on terrestrial analogue, SNC meteorite, and Pathfinder samples, J. Geophys. Res., 105(E1), 17571817, 2000.
  • Morris, R. V., T. G. Graff, S. A. Mertzman, M. D. Lane, and P. R. Christensen, Palagonitic Mars from rock rinds to dust: Evidence from visible, near-IR, and thermal emission spectra of poorly crystalline materials, Lunar Planet. Sci., [CD-ROM], XXXIV, abstract 1874, 2003.
  • Philpotts, A. R., Principles of Igneous and Metamorphic Petrology, 498 pp., Prentice-Hall, Old Tappan, N. J., 1990.
  • Rieder, R., T. Economou, H. Wänke, A. Turkevich, J. Crisp, J. Brückner, G. Dreibus, and H. Y. McSween Jr., The chemical composition of the Martian soil and rocks returned by the mobile alpha proton X-ray spectrometer: Preliminary results from the X-ray mode, Science, 278, 17711774, 1997a.
  • Rieder, R., H. Wänke, T. Economou, and A. Turkevich, Determination of the chemical composition of Martian Soil and rocks: The alpha proton X-ray spectrometer, J. Geophys. Res., 102(E2), 40274044, 1997b.
  • Robinson, D. A., and R. B. G. Williams, Rock Weathering and Landform Evolution, 519 pp., John Wiley, New York, 1994.
  • Rubin, A. E., P. H. Warren, J. P. Greenwood, R. S. Verish, L. A. Leshin, and R. L. Hervig, Petrology of Los Angeles: A new basaltic shergottite find, Lunar Planet. Sci., [CD-ROM], XXXI, abstract 1963, 2000.
  • Staudigel, H., and S. R. Hart, Alteration of basaltic glass: Mechanisms and significance for the oceanic crust-seawater budget, Geochim. Cosmochim. Acta, 47, 337350, 1983.
  • Tanaka, K. L., D. H. Scott, and R. Greeley, Global Stratigraphy, in Mars, edited by H. H. Kieffer et al., pp. 345382, Univ. of Ariz. Press, Tucson, 1992.
  • Toulmin, P. III, A. K. Baird, B. C. Clark, K. Keil, H. J. Rose, R. P. Christian, P. H. Evans, and W. C. Kelliher, Geochemical and mineralogical interpretation of the Viking inorganic chemical results, J. Geophys. Res., 82, 46254634, 1977.
  • Wänke, H., and G. Dreibus, Chemical composition and accretion history of terrestrial planets, Philos. Trans. R. Soc. London, Ser. A, 325, 545557, 1988.
  • Wänke, H., G. Dreibus, E. Jagoutz, H. Palme, B. Spettel, and G. Weckworth, ALHA 77005 and the chemistry of the Shergotty parent body (Mars) (abstract), Lunar Planet. Sci., XVII, 919920, 1986.
  • Wänke, H., J. Brückner, G. Dreibus, R. Rieder, and I. Ryabchikov, Chemical composition of the rocks and soils at the Pathfinder landing site, Space Sci. Rev., 96, 317330, 2001.
  • Williamson, J. H., Least-squares fitting of a straight line, Can. J. Phys., 46, 18451847, 1968.
  • Witbeck, N. E., K. L. Tanaka, and D. H. Scott, Geologic map of the Vallis Marineris region of Mars, scale 1:2M, U.S. Geol. Surv. Misc. Invest. Ser., Map I-2010, 1991.
  • Wyatt, M. B., and H. Y. McSween Jr., Spectral evidence for weathered basalt as an alternative to andesite in the northern lowlands of Mars, Nature, 417, 263266, 2002.