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  • Aharonson, O., M. T. Zuber, and D. H. Rothman (2001), Statistics of Mars' topography from the Mars Orbiter Laser Altimeter: Slopes, correlations, and physical models, J. Geophys. Res., 106, 23,72323,735.
  • Arvidson, R., et al. (1979), Standard techniques for presentation and analysis of crater size-frequency data, Icarus, 37, 467474.
  • Aydin, A., and J. M. DeGraff (1988), Evolution of polygonal fracture patterns in lava flows, Science, 239, 471476.
  • Bandfield, J. L., V. E. Hamilton, and P. R. Christensen (2000), A global view of martian surface compositions from MGS-TES, Science, 287, 16261630.
  • Boynton, W. V., et al. (2002), Distribution of hydrogen in the near surface of Mars: Evidence for subsurface ice deposits, Science, 297, 8185.
  • Bridges, J. C., et al. (2003), Selection of the landing site in Isidis Planitia of Mars probe Beagle 2, J. Geophys. Res., 108(E1), 5001, doi:10.1029/2001JE001820.
  • Carr, M. H., L. Crumpler, J. A. Cutts, R. Greeley, G. E. Guest, and H. Masursky (1977), Martian impact craters and the emplacement of ejecta by surface flow, J. Geophys. Res., 82, 40554065.
  • Christensen, P. R., B. M. Jakosky, H. H. Kieffer, M. C. Malin, H. Y. McSween, K. Nealson, G. Mehall, S. Silverman, and S. Ferry (1999), The Thermal Emission Imaging System (THEMIS) instrument for Mars 2001 Orbiter, Lunar Planet. Sci. [CD-ROM], XXX, abstract 1470.
  • Christensen, P. R., et al. (2001), Mars Global Surveyor Thermal Emission Spectrometer experiment: Investigation description and surface science results, J. Geophys. Res., 106, 23,82323,871.
  • Condit, C. D. (1978), Distribution and relations of 4- to 10-km diameter craters to global geologic units on Mars, Icarus, 34, 465478.
  • Crumpler, L. S., J. W. Head, and J. C. Aubele (1996), Calderas on Mars: Characteristics, structure, and associated flank deformation, Geol. Soc. Spec. Pub., 110, 307348.
  • Crumpler, L. S., J. C. Aubele, D. A. Senske, S. T. Keddie, K. P. Magee, and J. W. Head (1997), Volcanoes and centers of volcanism on Venus, in Venus II, edited by S. W. Bougher, D. M. Hunten, and R. J. Phillips, pp. 697756, Univ. of Ariz. Press, Tucson, Ariz.
  • DeHon, R. A., and J. D. Waskom (1976), Geologic structure of the eastern mare basins, Proc. Lunar Planet. Sci., VII, 27292746.
  • Edgett, K. S., and T. J. Parker (1997), Water on early Mars: Possible subaqueous sedimentary deposits covering ancient cratered terrain in western Arabia and Sinus Meridiani, Geophys. Res. Lett., 24, 28972900.
  • Erard, S., J. P. Bibring, Y. Langevin, M. Combes, S. Hurtrez, C. Sotin, J. W. Head, and J. F. Mustard (1990), Determination of spectral units in the Syrtis Major - Isidis Planitia region from Phobos/ISM observations, Lunar Planet. Sci., XXI, 327328.
  • Frey, H., and M. Jarosewich (1982), Subkilometer martian volcanoes: Properties and possible terrestrial analogs, J. Geophys. Res., 87, 98679879.
  • Garvin, J. B., J. J. Frawley, and J. B. Abshire (1999), Vertical roughness of Mars from the Mars Orbiter Laser Altimeter, Geophys. Res. Lett., 26, 181184.
  • Garvin, J. B., S. E. H. Sakimoto, J. J. Frawley, and C. Schnetzler (2002), Global geometric properties of martian impact craters, Lunar Planet. Sci. [CD-ROM], XXXIII, abstract 1255.
  • Greeley, R., and J. E. Guest (1987), Geologic map of the eastern equatorial region of Mars, Map I-1802–B, U.S. Geol. Surv., Washington, D. C.
  • Greeley, R., and P. D. Spudis (1978), Volcanism on Mars, Rev. Geophys., 19, 1341.
  • Grizzaffi, P., and P. H. Schultz (1989), Isidis basin: Site of ancient volatile-rich debris layer, Icarus, 77, 358381.
  • Harloff, J., and G. Arnold (2002), The near-infrared continuum slope of martian dark region reflectance spectra, Earth Moon Planets, 88, 223245.
  • Hartmann, W. K., and G. Neukum (2001), Cratering chronology and evolution of Mars, Space Science Rev., 96, 165194.
  • Head, J. W.III, and J. C. Bridges (2001), Beagle 2 landing site: Regional characteristics of Isidis Planitia from MOLA data, Lunar Planet. Sci. [CD-ROM], XXXII, abstract 1236.
  • Head, J. W.III, N. Seibert, S. Pratt, D. Smith, M. Zuber, S. C. Solomon, P. J. McGovern, J. B. Garvin, and the MOLA Science Team (1998), Characterization of major volcanic edifices on Mars using Mars Orbiter Laser Altimeter data, Lunar Planet. Sci. [CD-ROM], XXIX, abstract 1322.
  • Head, J. W.III, M. A. Kreslavsky, and S. Pratt (2002), Northern lowlands of Mars: Evidence for widespread volcanic flooding and tectonic deformation in the Hesperian Period, J. Geophys. Res., 107(E1), 5003, doi:10.1029/2000JE001445.
  • Hiesinger, H., and J. W. Head (2002), Syrtis Major, Mars: Results from Mars Global Surveyor data, Lunar Planet. Sci. [CD-ROM], XXXIII, abstract 1063.
  • Hiesinger, H., and J. W. Head (2003), Geology of the Syrtis Major/Isidis region of Mars: New results from MOLA, MOC, and THEMIS, in Sixth International Conference on Mars, abstract 3061, Lunar and Planet. Inst., Houston, Tx.
  • Hiesinger, H., J. W. Head, U. Wolf, R. Jaumann, and G. Neukum (2002), Lunar mare basalt flow units: Thicknessess determined from crater size-frequency distributions, Geophys. Res. Lett., 29(8), 1248, doi:10.1029/2002GL014847.
  • Hodges, C. A., and H. J. Moore (1994), Atlas of volcanic landforms on Mars, USGS Prof. Paper, 1534, 152153.
  • Hoffman, N. (2000), White Mars: A new model for Mars' surface and atmosphere based on CO2, Icarus, 146, 326342.
  • Jöns, H.-P. (1987), Large fossil mud lakes or giant mud sheet floods in Syrtis Major (Isidis Planitia) and Mare Australe, Mars, Lunar Planet. Sci., XVIII, 470471.
  • Kreslavsky, M. A., and J. W. Head III (2000), Kilometer-scale roughness of Mars: Results from MOLA data analysis, J. Geophys. Res., 105, 26,69526,711.
  • Kuzmin, R. O., N. N. Bobina, E. V. Zabalueva, and V. P. Shashkina (1988), Inhomogeneities in the upper levels of the martian cryolithosphere, Lunar Planet. Sci., XIX, 655656.
  • Lipman, P. W. (2000), Calderas, in Encyclopedia of Volcanoes, edited by H. Sigurdsson et al., pp. 643662, Academic, San Diego, Calif.
  • Malin, M. C., and K. S. Edgett (2001), Mars Global Surveyor Mars Orbiter Camera: Interplanetary cruise through primary mission, J. Geophys. Res., 106, 23,42923,570.
  • Malin, M. C., G. E. Danielson, A. P. Ingersoll, H. Masursky, J. Veverka, M. A. Ravine, and T. A. Soulanille (1992), Mars Observer Camera, J. Geophys. Res., 97, 76997718.
  • Malin, M. C., et al. (1998), Early views of the Martian surface from the Mars Orbiter Camera of Mars Global Surveyor, Science, 279, 16811685.
  • Maxwell, T. A., and G. E. McGill (1988), Ages of fracturing and resurfacing in the Amenthes region, Mars, Proc. Lunar Planet. Sci. Conf., IIX, 701711.
  • Meyer, J. D., and M. J. Grolier (1977), Geologic map of the Syrtis Major quadrangle of Mars, Map I-995(MC-13), U.S. Geol. Surv., Washington, D. C.
  • Mitrofanov, I., et al. (2002), Maps of subsurface hydrogen from the High Energy Neutron Detector, Mars Odyssey, Science, 297, 7881.
  • Mustard, J. F., J.-P. Bibring, S. Erard, E. M. Fischer, J. W. Head, S. Hurtrez, Y. Langevin, C. M. Pieters, and C. J. Sotin (1990), Interpretation of spectral units of Isidis-Syrtis Major from ISM-Phobos-2 observations, Lunar Planet. Sci., XXI, 835836.
  • Mustard, J. F., S. Erard, J.-P. Bibring, J. W. Head, S. Hurtrez, Y. Langevin, C. M. Pieters, and C. J. Sotin (1993), The surface of Syrtis Major: Composition of the volcanic substrate and mixing with altered dust and soil, J. Geophys. Res., 98, 33873400.
  • Mustard, J. F., S. Murchie, S. Erard, and J. Sunshine (1997), In situ compositions of martian volcanics: Implications for the mantle, J. Geophys. Res., 102, 25,60525,615.
  • Neukum, G. (1983), Meteoritenbombardement und Datierung planetarer Oberflächen, Habilitationsschrift, 186 pp., Univ. München, Munich, Germany.
  • Neukum, G., and P. Horn (1976), Effects of lava flows on lunar crater populations, Moon, 15, 205222.
  • Neukum, G., and D. U. Wise (1976), Mars: A standard crater curve and possible new time scale, Science, 194, 13811387.
  • Noble, S. K., and C. M. Pieters (2001), Type 2 terrain: Compositional constraints on the martian lowlands, Lunar Planet. Sci. [CD-ROM], XXXII, abstract 1230.
  • Parker, T. J., R. S. Saunders, and D. M. Schneeberger (1989), Transitional morphology in West Deuteronilus Mensae, Mars: Implications for modification of the Lowland/Upland boundary, Icarus, 82, 111145.
  • Parker, T. J., D. S. Gorsline, R. S. Saunders, D. C. Pieri, and D. M. Schneeberger (1993), Coastal geomorphology of the Martian northern plains, J. Geophys. Res., 98, 11,06111,078.
  • Plescia, J. B. (1980), Cinder cones of Isidis and Elysium, NASA Tech. Memo, 82385, 263265.
  • Raitala, J., and K. Kauhanen (1989), Tectonics of Syrtis Major Planum on Mars, Earth Moon Planets, 46, 243260.
  • Reyes, D. P., and P. R. Christensen (1994), Evidence for komatiite-type lavas on Mars from Phobos ISM data and other observations, Geophys. Res. Lett., 21, 887890.
  • Saunders, R. S., T. G. Bills, and L. Johansen (1981), The ridged plains of Mars, Lunar Planet. Sci., XII, 924925.
  • Schaber, G. G. (1982), Syrtis Major: A low-relief volcanic shield, J. Geophys. Res., 87, 98529866.
  • Schultz, P. H. (1986), Crater ejecta morphology and the presence of water on Mars, in MECA Symposium on Mars: Evolution of its climate and atmosphere, edited by V. Baker et al., LPI Tech. Rep. 87–01, pp. 109111, Lunar and Planet. Inst., Houston, Tx.
  • Schultz, R. A., and H. V. Frey (1990), A new survey of multiring impact basins on Mars, J. Geophys. Res., 95, 14,17514,189.
  • Simpson, R. A., G. L. Tyler, J. K. Harmon, and A. R. Peterfreund (1982), Radar measurements of small-scale surface texture: Syrtis Major, Icarus, 49, 258293.
  • Smith, D. E., et al. (1998), Topography of the northern hemisphere of Mars from the Mars Orbiter Laser Altimeter, Science, 279, 16861691.
  • Smith, D. E., et al. (1999a), The global topography of Mars and implications for surface evolution, Science, 284, 14951503.
  • Smith, D. E., W. L. Sjogren, G. L. Tyler, G. Balmino, F. G. Lemoine, and A. S. Konopliv (1999b), The gravity field of Mars: Results from Mars Global Surveyor, Science, 286, 9497.
  • Smith, D. E., et al. (2001), Mars Orbiter Laser Altimeter: Experiment summary after the first year of global mapping of Mars, J. Geophys. Res., 106, 23,68923,722.
  • Solomon, S. C., and J. W. Head (1980), Lunar mascon basins: Lava filling, tectonics, and evolution of the lithosphere, Rev. Geophys., 18, 107141.
  • Squyres, S. W., S. M. Clifford, R. O. Kuzmin, J. R. Zimbelman, and F. M. Costard (1992), Ice in the martian regolith, in Mars, edited by H. H. Kieffer et al., pp. 523554, Univ. of Arizona Press, Tucson, Ariz.
  • Stewart, S. T., T. J. Ahrens, and J. D. O'Keefe (2001), Mars rampart crater ejecta yields regolith water content, paper presented at GSA Annual Meeting, Geol. Soc. of Am., Boston, Mass.
  • Tanaka, K. L. (1986), The stratigraphy of Mars, J. Geophys. Res., 91, suppl., E139E158.
  • Tanaka, K. L., D. H. Scott, and R. Greeley (1992), Global Stratigraphy, in Mars, edited by H. H. Kieffer et al., pp. 345382, Univ. of Arizona Press, Tucson, Ariz.
  • Tanaka, K. L., T. Joyal, and A. Wenker (2000), The Isidis plains unit, Mars: Possible catastrophic origin, tectonic tilting, and sediment loading, Lunar Planet. Sci., XXXI, abstract 2023.
  • Tanaka, K. L., N. Hoffmann, T. M. Hare, D. J. MacKinnon, and J. S. Kargel (2001a), Magmatically driven catastrophic erosion on Mars, EOS. Eos Trans. AGU, 82(20), Spring Meet. Suppl., abstract V42A-12.
  • Tanaka, K. L., S. Kargel, and N. Hoffman (2001b), Evidence for magmatically driven catastrophic erosion on Mars, Lunar Planet. Sci., XXXII, abstract 1898.
  • Tanaka, K. L., W. B. Banerdt, J. S. Kargel, and N. Hoffman (2001c), Huge, CO2-charged debris-flow deposits and tectonic sagging in the northern plains of Mars, Geology, 29(5), 427430.
  • Tanaka, K. L., J. S. Kargel, D. J. MacKinnon, T. M. Hare, and N. Hoffman (2002), Catastrophic erosion of Hellas basin rim on Mars induced by magmatic intrusion into volatile-rich rocks, Geophys. Res. Lett., 29(8), 1195, doi:10.1029/2001GL013885.
  • Walker, G. P. L. (1984), Downsag calderas, ring faults, caldera sizes, and incremental caldera growth, J. Geophys. Res., 89, 84078416.
  • Watters, T. R. (2003), Lithospheric flexure and the origin of the dichotomy boundary on Mars, Geology, 31, 271274.
  • Wichmann, R., and P. H. Schultz (1988), Ridged plains units on the margins of martian impact basins, Lunar Planet. Sci., XIX, 12661267.
  • Wilson, L., and J. W. Head (1994), Mars: Review and analysis of volcanic eruption theory and relationships to observed landforms, Rev. Geophys., 32, 221263.
  • Wyatt, M. B., and H. Y. McSween (2002), Andesite or weathered basalt? Martian surface compositions from MGS-TES, Lunar Planet. Sci., XXXIII, abstract 1702.
  • Wyatt, M. B., J. L. Bandfield, H. Y. McSween, P. R. Christensen, and J. Moersch (2002), TES observations of Chryse and Acidalia Planitiae: Multiple working hypotheses for distributions of surface compositions, Lunar Planet. Sci., XXXIII, abstract 1554.
  • Zuber, M. T., et al. (2000), Internal structure and early thermal evolution of Mars from Mars Global Surveyor topography and gravity, Science, 287, 17881793.