0000000000204817

AUTHOR

J. W. Ashley

showing 8 related works from this author

Visible and near-infrared multispectral analysis of geochemically measured rock fragments at the Opportunity landing site in Meridiani Planum

2010

[1] We have used visible and near-infrared Panoramic Camera (Pancam) spectral data acquired by the Opportunity rover to analyze 15 rock fragments at the Meridiani Planum landing site. These spectral results were then compared to geochemistry measurements made by the in situ instruments Mossbauer (MB) and Alpha Particle X-ray Spectrometer (APXS) to determine the feasibility of mineralogic characterization from Pancam data. Our results suggest that dust and alteration rinds coat many rock fragments, which limits our ability to adequately measure the mineralogy of some rocks from Pancam spectra relative to the different field of view and penetration depths of MB and APXS. Viewing and lighting …

BasaltMeridiani PlanumAtmospheric ScienceEcologyOutcropNear-infrared spectroscopyMultispectral imagePaleontologySoil ScienceMineralogyForestryMars Exploration ProgramAquatic ScienceOceanographyGeophysicsMeteoriteRock fragmentSpace and Planetary ScienceGeochemistry and PetrologyEarth and Planetary Sciences (miscellaneous)GeologyEarth-Surface ProcessesWater Science and TechnologyJournal of Geophysical Research
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Opportunity Mars Rover mission: Overview and selected results from Purgatory ripple to traverses to Endeavour crater

2011

Opportunity has been traversing the Meridiani plains since 25 January 2004 (sol 1), acquiring numerous observations of the atmosphere, soils, and rocks. This paper provides an overview of key discoveries between sols 511 and 2300, complementing earlier papers covering results from the initial phases of the mission. Key new results include (1) atmospheric argon measurements that demonstrate the importance of atmospheric transport to and from the winter carbon dioxide polar ice caps; (2) observations showing that aeolian ripples covering the plains were generated by easterly winds during an epoch with enhanced Hadley cell circulation; (3) the discovery and characterization of cobbles and boul…

Atmospheric ScienceEcologyEarth sciencePaleontologySoil ScienceMars exploration roverForestryAquatic ScienceOceanographyAstrobiologyMars roverGeophysicsImpact craterSpace and Planetary ScienceGeochemistry and PetrologyEarth and Planetary Sciences (miscellaneous)PurgatoryGeologyEarth-Surface ProcessesWater Science and Technology
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New insights into the mineralogy and weathering of the Meridiani Planum meteorite, Mars

2011

– Meridiani Planum is the first officially recognized meteorite find on the surface of Mars. It was discovered at and named after the landing site of the Mars Exploration Rover Opportunity. Based on its composition, it was classified as a IAB complex iron meteorite. Mossbauer spectra obtained by Opportunity are dominated by kamacite (α-Fe-Ni) and exhibit a small contribution of ferric oxide. Several small features in the spectra have been neglected to date. To shed more light on these features, five iron meteorite specimens were investigated as analogs to Meridiani Planum with a laboratory Mossbauer setup. Measurements were performed on (1) their metallic bulk, (2) troilite (FeS) inclusions…

Meridiani PlanumGeochemistryMineralogyMars Exploration ProgramIron meteoriteTroiliteCoheniteKamacitechemistry.chemical_compoundGeophysicsSchreibersiteMeteoritechemistrySpace and Planetary ScienceGeologyMeteoritics & Planetary Science
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Evidence for mechanical and chemical alteration of iron-nickel meteorites on Mars: Process insights for Meridiani Planum

2011

The weathering of meteorites found on Mars involves chemical and physical processes that can provide clues to climate conditions at the location of their discovery. Beginning on sol 1961, the Opportunity rover encountered three large iron meteorites within a few hundred meters of each other. In order of discovery, these rocks have been assigned the unofficial names Block Island, Shelter Island, and Mackinac Island. Each rock presents a unique but complimentary set of features that increase our understanding of weathering processes at Meridiani Planum. Significant morphologic characteristics interpretable as weathering features include (1) a large pit in Block Island, lined with delicate iro…

Meridiani PlanumAtmospheric ScienceGeochemistryMarsSoil ScienceMineralogychemistry.chemical_elementalterationWeatheringAquatic ScienceOceanographyironGeochemistry and PetrologyEarth and Planetary Sciences (miscellaneous)Earth-Surface ProcessesWater Science and TechnologycorrosionEcologyPaleontologyForestryMars Exploration ProgrammeteoriteTaeniteKamaciteNickelGeophysicschemistryMeteoriteSpace and Planetary ScienceweatheringInclusion (mineral)GeologyJournal of Geophysical Research
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Meteorites on Mars observed with the Mars Exploration Rovers

2008

[1] Reduced weathering rates due to the lack of liquid water and significantly greater typical surface ages should result in a higher density of meteorites on the surface of Mars compared to Earth. Several meteorites were identified among the rocks investigated during Opportunity's traverse across the sandy Meridiani plains. Heat Shield Rock is a IAB iron meteorite and has been officially recognized as “Meridiani Planum.” Barberton is olivine-rich and contains metallic Fe in the form of kamacite, suggesting a meteoritic origin. It is chemically most consistent with a mesosiderite silicate clast. Santa Catarina is a brecciated rock with a chemical and mineralogical composition similar to Bar…

Atmospheric ScienceEcologyPaleontologySoil ScienceForestryMars Exploration ProgramAquatic ScienceOceanographyIron meteoriteStrewn fieldAstrobiologyKamaciteMesosideriteGeophysicsImpact craterMeteoriteSpace and Planetary ScienceGeochemistry and PetrologyChondriteEarth and Planetary Sciences (miscellaneous)GeologyEarth-Surface ProcessesWater Science and TechnologyJournal of Geophysical Research
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Properties and distribution of paired candidate stony meteorites at Meridiani Planum, Mars

2010

[1] The Mars Exploration Rover Opportunity investigated four rocks, informally dubbed Barberton, Santa Catarina, Santorini, and Kasos, that are possible stony meteorites. Their chemical and mineralogical composition is similar to the howardite, eucrite, and diogenite group but with additional metal, similar to mesosiderite silicate clasts. Because of their virtually identical composition and because they appear to represent a relatively rare group of meteorites, they are probably paired. The four rocks were investigated serendipitously several kilometers apart, suggesting that Opportunity is driving across a larger population of similar rock fragments, maybe a meteorite strewn field. Small …

EucriteMeridiani PlanumDiogeniteAtmospheric Scienceeducation.field_of_studyEcologyHowarditePopulationPaleontologySoil ScienceForestryAquatic ScienceOceanographyStrewn fieldAstrobiologyMesosideriteGeophysicsMeteoriteSpace and Planetary ScienceGeochemistry and PetrologyEarth and Planetary Sciences (miscellaneous)educationGeologyEarth-Surface ProcessesWater Science and TechnologyJournal of Geophysical Research
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Mineralogy and chemistry of cobbles at Meridiani Planum, Mars, investigated by the Mars Exploration Rover Opportunity

2010

Numerous loose rocks with dimensions of a few centimeters to tens of centimeters and with no obvious physical relationship to outcrop rocks have been observed along the traverse of the Mars Exploration Rover Opportunity. To date, about a dozen of these rocks have been analyzed with Opportunity’s contact instruments, providing information about elemental chemistry (Alpha Particle X‐ray Spectrometer), iron mineralogy and oxidation states (Mossbauer Spectrometer) and texture (Microscopic Imager). These "cobbles" appear to be impact related, and three distinct groups can be identified on the basis of chemistry and mineralogy. The first group comprises bright fragments of the sulfate‐rich bedroc…

Meridiani PlanumBasaltAtmospheric Sciencegeographygeography.geographical_feature_categoryEcologyOutcropBedrockPaleontologySoil ScienceMineralogyForestryMars Exploration ProgramAquatic ScienceOceanographyMesosideriteGeophysicsMeteoriteSpace and Planetary ScienceGeochemistry and PetrologyGroup (stratigraphy)Earth and Planetary Sciences (miscellaneous)GeologyEarth-Surface ProcessesWater Science and TechnologyJournal of Geophysical Research
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Exploration of Victoria Crater by the Mars Rover Opportunity

2009

“Lake” Victoria? After having explored the Eagle and Endurance craters, which are separated by only 800 meters, the Mars Exploration Rover Opportunity spent 2 years at Victoria, a much larger impact crater located 6 kilometers south across Meridiani Planum. Sedimentary rocks previously analyzed at Eagle and Endurance point to local environmental conditions that included abundant liquid water in the ancient past. Now, an analysis of rocks in the walls of Victoria by Squyres et al. (p. 1058 ) reveals that the aqueous alteration processes that operated at Eagle and Endurance also acted at Victoria. In addition, sedimentary layering in the crater walls preserves evidence of ancient windblown du…

Meridiani PlanumMultidisciplinaryWater on MarsExtraterrestrial EnvironmentGeochemistryMarsWaterMars Exploration Programengineering.materialFerric CompoundsMars roverImpact craterStratigraphyConcretionengineeringSedimentary rockSpacecraftGeology
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