The science process for selecting the landing site for the 2020 Mars rover
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J. Grant | M. Golombek | S. Wilson | K. Farley | K. Williford | Allen Chen | A. Chen
[1] R. Saunders. Geologic map of the Margaritifer Sinus Quadrangle of Mars , 1979 .
[2] P. Schultz,et al. The structure and evolution of ancient impact basins on Mars , 1982 .
[3] D. H. Scott,et al. GEOLOGIC MAP OF THE WESTERN EQUATORIAL REGION OF MARS , 1986 .
[4] David E. Smith,et al. The Mars Observer laser altimeter investigation , 1992 .
[5] M. Malin,et al. Mars Observer camera , 1992 .
[6] Nathalie A. Cabrol,et al. Ma'adim Vallis Revisited through New Topographic Data: Evidence for an Ancient Intravalley Lake , 1996 .
[7] D J Des Marais,et al. Exploring for a record of ancient Martian life. , 1999, Journal of geophysical research.
[8] N. Cabrol,et al. Distribution, Classification, and Ages of Martian Impact Crater Lakes , 1999 .
[9] M. Malin,et al. Evidence for recent groundwater seepage and surface runoff on Mars. , 2000, Science.
[10] N. Cabrol,et al. Recent aqueous environments in Martian impact craters: an astrobiological perspective , 2001 .
[11] D. Leverington,et al. A Large Paleolake Basin at the Head of Ma'adim Vallis, Mars , 2002, Science.
[12] P. Christensen,et al. THEMIS characterization of the MER Gusev crater landing site , 2003 .
[13] Evidence for Buried "Pre-Noachian" Crust Pre-Dating the Oldest Observed Surface Units on Mars , 2003 .
[14] Kenneth S Edgett,et al. Evidence for Persistent Flow and Aqueous Sedimentation on Early Mars , 2003, Science.
[15] William E. Dietrich,et al. Martian Layered Fluvial Deposits: Implications for Noachian Climate Scenarios , 2003 .
[16] N. Bridges,et al. Selection of the Mars Exploration Rover landing sites , 2003 .
[17] R E Arvidson,et al. Basaltic rocks analyzed by the Spirit Rover in Gusev Crater. , 2004, Science.
[18] Christophe Delacourt,et al. Evidence for Precipitation on Mars from Dendritic Valleys in the Valles Marineris Area , 2004, Science.
[19] A. McEwen,et al. Mars Reconnaissance Orbiter's High Resolution Imaging Science Experiment (HiRISE) , 2007 .
[20] M. Malin,et al. The Thermal Emission Imaging System (THEMIS) for the Mars 2001 Odyssey Mission , 2004 .
[21] R Sullivan,et al. The Spirit Rover's Athena science investigation at Gusev Crater, Mars. , 2004, Science.
[22] J. Grant,et al. Selecting landing sites for the 2003 Mars Exploration Rovers , 2004 .
[23] L. Marinangeli,et al. Complex evolution of paleolacustrine systems on Mars: An example from the Holden crater , 2004 .
[24] J. Head,et al. The Syrtis Major volcanic province, Mars: Synthesis from Mars Global Surveyor data , 2004 .
[25] Maria T. Zuber,et al. A minimum time for the formation of Holden Northeast fan, Mars , 2004 .
[26] François Poulet,et al. OMEGA: Observatoire pour la Minéralogie, l'Eau, les Glaces et l'Activité , 2004 .
[27] M. Bourke,et al. Dynamic river channels suggest a long‐lived Noachian crater lake on Mars , 2005 .
[28] P. Allemand,et al. Fluvial and lacustrine activity on layered deposits in Melas Chasma, Valles Marineris, Mars , 2005 .
[29] R. Greeley,et al. Fluid lava flows in Gusev crater, Mars , 2005 .
[30] James W. Head,et al. Fluvial sedimentary deposits on Mars: Ancient deltas in a crater lake in the Nili Fossae region , 2005 .
[31] R. E. Arvidson,et al. Phyllosilicates on Mars and implications for early martian climate , 2005, Nature.
[32] J. Moore,et al. Large alluvial fans on Mars , 2005 .
[33] T. Encrenaz,et al. Mars Surface Diversity as Revealed by the OMEGA/Mars Express Observations , 2005, Science.
[34] Steven W. Squyres,et al. Alpha Particle X‐Ray Spectrometer (APXS): Results from Gusev crater and calibration report , 2006 .
[35] William H. Farrand,et al. Rocks of the Columbia Hills , 2006 .
[36] T. Encrenaz,et al. Global Mineralogical and Aqueous Mars History Derived from OMEGA/Mars Express Data , 2006, Science.
[37] J. Grant,et al. Crater gradation in Gusev crater and Meridiani Planum, Mars , 2006 .
[38] Rebecca Castano,et al. Geology of the Gusev cratered plains from the Spirit rover transverse , 2006 .
[39] J. A. Grant,et al. Distribution of rocks on the Gusev Plains and on Husband Hill, Mars , 2006 .
[40] Oded Aharonson,et al. Stratigraphic analysis of the distributary fan in Eberswalde crater using stereo imagery , 2006 .
[41] S. Squyres,et al. Structure and stratigraphy of Home Plate from the Spirit Mars Exploration Rover , 2006 .
[42] Raymond E. Arvidson,et al. Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) on Mars Reconnaissance Orbiter (MRO) , 2007 .
[43] A. F. C. Haldemann,et al. Pyroclastic Activity at Home Plate in Gusev Crater, Mars , 2007, Science.
[44] L. Edwards,et al. Context Camera Investigation on board the Mars Reconnaissance Orbiter , 2007 .
[45] Gottfried Schwarz,et al. The high-resolution stereo camera (HRSC) experiment on Mars Express: Instrument aspects and experiment conduct from interplanetary cruise through the nominal mission , 2007 .
[46] Patrick Pinet,et al. Martian surface mineralogy from Observatoire pour la Minéralogie, l'Eau, les Glaces et l'Activité on board the Mars Express spacecraft (OMEGA/MEx): Global mineral maps , 2007 .
[47] C. Quantin,et al. Stratigraphic architectures spotted in southern Melas Chasma, Valles Marineris, Mars , 2007 .
[48] Jean-Pierre Bibring,et al. Phyllosilicates in the Mawrth Vallis region of Mars , 2007 .
[49] David A. Paige,et al. Mars Climate Sounder: An investigation of thermal and water vapor structure, dust and condensate distributions in the atmosphere, and energy balance of the polar regions , 2007 .
[50] J. Michalski,et al. Evidence for a sedimentary origin of clay minerals in the Mawrth Vallis region, Mars , 2007 .
[51] G. Neukum,et al. Mineralogy of the Nili Fossae region with OMEGA/Mars Express data: 2. Aqueous alteration of the crust , 2007 .
[52] Randolph L. Kirk,et al. Compositional stratigraphy of clay‐bearing layered deposits at Mawrth Vallis, Mars , 2008 .
[53] J. Grant,et al. Structure, stratigraphy, and origin of Husband Hill, Columbia Hills, Gusev Crater, Mars , 2008 .
[54] J. Head,et al. Valley network-fed, open-basin lakes on Mars: Distribution and implications for Noachian surface and subsurface hydrology , 2008 .
[55] A. McEwen,et al. HiRISE imaging of impact megabreccia and sub-meter aqueous strata in Holden Crater, Mars , 2008 .
[56] William H. Farrand,et al. Spirit Mars Rover Mission to the Columbia Hills, Gusev Crater: Mission overview and selected results from the Cumberland Ridge to Home Plate , 2008 .
[57] John F. Mustard,et al. Clay minerals in delta deposits and organic preservation potential on Mars , 2008 .
[58] John F. Mustard,et al. Orbital Identification of Carbonate-Bearing Rocks on Mars , 2008 .
[59] K. Gwinner,et al. Evolution and depositional environments of the Eberswalde fan delta, Mars , 2008 .
[60] H. Frey. Ages of very large impact basins on Mars: Implications for the late heavy bombardment in the inner solar system , 2008 .
[61] D. Ming,et al. Detection of Silica-Rich Deposits on Mars , 2008, Science.
[62] N. Izenberg,et al. Hydrated silicate minerals on Mars observed by the Mars Reconnaissance Orbiter CRISM instrument , 2008, Nature.
[63] Jean-Pierre Bibring,et al. Phyllosilicate Diversity and Past Aqueous Activity Revealed at Mawrth Vallis, Mars , 2008, Science.
[64] J. Head,et al. The timing of martian valley network activity : Constraints from buffered crater counting , 2008 .
[65] Timothy H. McConnochie,et al. Mars Reconnaissance Orbiter Mars Color Imager (MARCI): Instrument description, calibration, and performance , 2009 .
[66] John F. Mustard,et al. Identification of hydrated silicate minerals on Mars using MRO‐CRISM: Geologic context near Nili Fossae and implications for aqueous alteration , 2009 .
[67] S. Murchie,et al. Composition, Morphology, and Stratigraphy of Noachian Crust around the Isidis basin , 2009 .
[68] A. McEwen,et al. Sublacustrine depositional fans in southwest Melas Chasma , 2009 .
[69] G. Neukum,et al. Stratigraphy in the Mawrth Vallis region through OMEGA, HRSC color imagery and DTM , 2010 .
[70] J. Grotzinger,et al. Thin‐skinned deformation of sedimentary rocks in Valles Marineris, Mars , 2010 .
[71] R. Milliken,et al. Sources and sinks of clay minerals on Mars , 2010 .
[72] A. McEwen,et al. Mineralogy and stratigraphy of phyllosilicate‐bearing and dark mantling units in the greater Mawrth Vallis/west Arabia Terra area: Constraints on geological origin , 2010 .
[73] F. Poulet,et al. Analysis of phyllosilicate deposits in the Nili Fossae region of Mars: Comparison of TES and OMEGA data , 2010 .
[74] Ashwin R. Vasavada,et al. The science process for selecting the landing site for the 2011 Mars Science Laboratory , 2011 .
[75] J. Grant,et al. A lake in Uzboi Vallis and implications for Late Noachian-Early Hesperian climate on Mars , 2011 .
[76] J. Bell,et al. Influence of fault‐controlled topography on fluvio‐deltaic sedimentary systems in Eberswalde crater, Mars , 2011 .
[77] K. Herkenhoff,et al. Characteristics, distribution, origin, and significance of opaline silica observed by the Spirit rov , 2011 .
[78] David W. Beaty,et al. Planning for Mars returned sample science: final report of the MSR End-to-End International Science Analysis Group (E2E-iSAG). , 2012, Astrobiology.
[79] N. Mangold,et al. Chronology of deposition and alteration in the Mawrth Vallis region, Mars , 2012 .
[80] M. Watkins,et al. Selection of the Mars Science Laboratory Landing Site , 2012 .
[81] John F. Mustard,et al. An in‐situ record of major environmental transitions on early Mars at Northeast Syrtis Major , 2012 .
[82] J. Grant,et al. A possible synoptic source of water for alluvial fan formation in southern Margaritifer Terra, Mars , 2012 .
[83] J. Head,et al. An analysis of open-basin lake deposits on Mars: Evidence for the nature of associated lacustrine deposits and post-lacustrine modification processes , 2012 .
[84] V. Ansan,et al. The origin and timing of fluvial activity at Eberswalde crater, Mars , 2012 .
[85] James W. Head,et al. An overfilled lacustrine system and progradational delta in Jezero crater, Mars: Implications for Noachian climate , 2012 .
[86] Melissa S. Rice,et al. A detailed geologic characterization of Eberswalde crater, Mars , 2013 .
[87] Charles S. Cockell,et al. Impact-generated hydrothermal systems on Earth and Mars , 2013 .
[88] John Parnell,et al. Groundwater activity on Mars and implications for a deep biosphere , 2013 .
[89] J. Grant,et al. Geologic map of MTM -15027, -20027, -25027, and -25032 quadrangles, Margaritifer Terra region of Mars , 2013 .
[90] S. Ruff,et al. Evidence for a Noachian-Aged Ephemeral Lake in Gusev Crater, Mars , 2014 .
[91] C. Weitz,et al. Reconstructing the aqueous history within the southwestern Melas basin, Mars: Clues from stratigraphic and morphometric analyses of fans , 2014 .
[92] Kenneth L. Tanaka,et al. A new analysis of Mars "Special Regions": findings of the second MEPAG Special Regions Science Analysis Group (SR-SAG2). , 2014, Astrobiology.
[93] Nicolas Thomas,et al. Recurring slope lineae in equatorial regions of Mars , 2014 .
[94] T. Onstott,et al. The contribution of the Precambrian continental lithosphere to global H2 production , 2014, Nature.
[95] Janice L. Bishop,et al. History of the clay‐rich unit at Mawrth Vallis, Mars: High‐resolution mapping of a candidate landing site , 2015 .
[96] J. Grant,et al. Paleohydrology of Eberswalde Crater, Mars , 2015 .
[97] B. Ehlmann,et al. Carbon sequestration on Mars , 2015 .
[98] John F. Mustard,et al. Assessing the mineralogy of the watershed and fan deposits of the Jezero crater paleolake system, Mars , 2015 .
[99] C. Weitz,et al. Mixtures of clays and sulfates within deposits in western Melas Chasma, Mars , 2015 .
[100] Mars 2020 rover mission status in 2016 , 2016 .
[101] S. Ruff,et al. Silica deposits on Mars with features resembling hot spring biosignatures at El Tatio in Chile , 2016, Nature Communications.
[102] J. Mustard,et al. The Martian subsurface as a potential window into the origin of life , 2017, Nature Geoscience.
[103] K. Williford,et al. Seeking Signs of Life and More: NASA's Mars 2020 Mission , 2017 .
[104] M. Salvatore,et al. Bulk mineralogy of the NE Syrtis and Jezero crater regions of Mars derived through thermal infrared spectral analyses , 2017 .
[105] J. Head,et al. Sedimentological evidence for a deltaic origin of the western fan deposit in Jezero crater, Mars and implications for future exploration , 2017 .
[106] M. Salvatore,et al. The geological history of Northeast Syrtis Major, Mars , 2017 .
[107] Jezero Crater, Mars, as a Compelling Site for Future In Situ Exploration , 2017 .
[108] Controlled Basemaps for Mars 2020 Rover Candidate Landing Sites , 2018 .