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Mars Sample Return without Landing on the Surface (2000)

Jurewicz, A. J. G. ; Jones, Steven M. ; Yen, A. S.

In: CASI

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Publication Date: 2004-12-03

Description: Many in the science community want a Mars sample return in the near future, with the expectation that it will provide in-depth information, significantly beyond what we know from remote sensing, limited in-situ measurements, and work with Martian meteorites. Certainly, return of samples from the Moon resulted in major advances in our understanding of both the geologic history of our planetary satellite, and its relationship to Earth. Similar scientific insights would be expected from analyses of samples returned from Mars. Unfortunately, Mars-lander sample-return missions have been delayed, for the reason that NASA needs more time to review the complexities and risks associated with that type of mission. A traditional sample return entails a complex transfer-chain, including landing, collection, launch, rendezvous, and the return to Earth, as well as an evaluation of potential biological hazards involved with bringing pristine Martian organics to Earth. There are, however, means of returning scientifically-rich samples from Mars without landing on the surface. This paper discusses an approach for returning intact samples of surface dust, based on known instrument technology, without using an actual Martian lander.

Keywords: Lunar and Planetary Science and Exploration

Type: Concepts and Approaches for Mars Exploration; Part 1; 168-169; LPI-Contrib-1062-Pt-1

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Evidence that the reactivity of the martian soil is due to superoxide ions (2000)

Hecht, M. H. ; Kim, S. S. ; Frant, M. S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The Viking Landers were unable to detect evidence of life on Mars but, instead, found a chemically reactive soil capable of decomposing organic molecules. This reactivity was attributed to the presence of one or more as-yet-unidentified inorganic superoxides or peroxides in the martian soil. Using electron paramagnetic resonance spectroscopy, we show that superoxide radical ions (O2-) form directly on Mars-analog mineral surfaces exposed to ultraviolet radiation under a simulated martian atmosphere. These oxygen radicals can explain the reactive nature of the soil and the apparent absence of organic material at the martian surface.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 289; 5486; 1909-12

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Formation of Adsorbed Oxygen Radicals on Minerals at the Martian Surface and the Decomposition of Organic Molecules (2000)

Kim, S. S. ; Freeman, B. A. ; Hecht, M. H. ; [et al.]

In: Other Sources

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Publication Date: 2017-10-02

Description: We present experimental evidence that superoxide ions form on mineral grains at the martian surface and show that these adsorbates can explain the unusual reactivity of the soil as well as the apparent absence of organic molecules.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXI; LPI-Contrib-1000

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Transient Liquid Water as a Mechanism for Induration of Soil Crusts on Mars (2004)

Greeley, R. ; Clark, B. C. ; Grotzinger, J. ; [et al.]

In: CASI

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Publication Date: 2018-06-11

Description: The Viking and the Mars Exploration Rover missions observed that the surface of Mars is encrusted by a thinly cemented layer tagged as "duricrust". A hypothesis to explain the formation of duricrust on Mars should address not only the potential mechanisms by which these materials become cemented, but also the textural and compositional components of cemented Martian soils. Elemental analyzes at five sites on Mars show that these soils have sulfur content of up to 4%, and chlorine content of up to 1%. This is consistent with the presence of sulfates and halides as mineral cements. . For comparison, the rock "Adirondack" at the MER site, after the exterior layer was removed, had nearly five times lower sulfur and chlorine content , and the Martian meteorites have ten times lower sulfur and chlorine content, showing that the soil is highly enriched in the saltforming elements compared with rock.Here we propose two alternative models to account for the origin of these crusts, each requiring the action of transient liquid water films to mediate adhesion and cementation of grains. Two alternative versions of the transient water hypothesis are offered, a top down hypothesis that emphasizes the surface deposition of frost, melting and downward migration of liquid water and a bottom up alternative that proposes the presence of interstitial ice/brine, with the upward capillary migration of liquid water.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXV: Mars Missions; LPI-Contrib-1197

Format: application/pdf

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Overview

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Moessbauer Spectroscopy of Soils and Rocks at Gusev Crater and Meridiani Planum (2004)

Wdowiak, T. ; deSouza, P. A., Jr. ; Morris, R. V. ; [et al.]

In: CASI

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Publication Date: 2018-06-11

Description: For the first time in history a Moessbauer spectrometer was placed on the surface of another planet. The miniaturized Moessbauer spectrometer MIMOS II is part of the Athena payload of NASA's twin Mars Exploration Rovers (MER) Spirit,and Opportunity. It determines the Fe-bearing mineralogy of Martian soils and rocks at the Rovers respective landing sites, Gusev crater and Meridiani Planum. First results of soil and rock measurements at both landing sites confirm a generally basaltic composition of Martian surface materials.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXV: Mars Missions; LPI-Contrib-1197

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Mars Oxidant and Radical Detector (2003)

Kim, S. S. ; Yen, A. S.

In: CASI

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Publication Date: 2017-10-02

Description: The Mars Oxidant and Radical Detector is an instrument designed to characterize the reactive nature of the martian surface environment. Using Electron Paramagnetic Resonance (EPR) techniques, this instrument can detect, identify, and quantify radical species in soil samples, including those inferred to be present by the Viking experiments. This instrument is currently funded by the Mars Instrument Development Program and is compatible with the Mars Science Laboratory mission.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXIV; LPI-Contrib-1156

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The Spirit Rover's Athena science investigation at Gusev Crater, Mars (2004)

Morris, R. V. ; Parker, T. ; Sims, M. ; [et al.]

In: Other Sources

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Publication Date: 2018-06-11

Description: The Mars Exploration Rover Spirit and its Athena science payload have been used to investigate a landing site in Gusev crater. Gusev is hypothesized to be the site of a former lake, but no clear evidence for lacustrine sedimentation has been found to date. Instead, the dominant lithology is basalt, and the dominant geologic processes are impact events and eolian transport. Many rocks exhibit coatings and other characteristics that may be evidence for minor aqueous alteration. Any lacustrine sediments that may exist at this location within Gusev apparently have been buried by lavas that have undergone subsequent impact disruption.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 305; 5685; 794-799

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Basaltic rocks analyzed by the Spirit Rover in Gusev Crater (2004)

Klingelhoefer, G. ; Ghosh, A. ; Morris, R. V. ; [et al.]

In: Other Sources

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Publication Date: 2018-06-11

Description: The Spirit landing site in Gusev Crater on Mars contains dark, fine-grained, vesicular rocks interpreted as lavas. Pancam and Mini-Thermal Emission Spectrometer (Mini-TES) spectra suggest that all of these rocks are similar but have variable coatings and dust mantles. Magnified images of brushed and abraded rock surfaces show alteration rinds and veins. Rock interiors contain 〈/=25% megacrysts. Chemical analyses of rocks by the Alpha Particle X-ray Spectrometer are consistent with picritic basalts, containing normative olivine, pyroxenes, plagioclase, and accessory FeTi oxides. Mossbauer, Pancam, and Mini-TES spectra confirm the presence of olivine, magnetite, and probably pyroxene. These basalts extend the known range of rock compositions composing the martian crust.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 305; 5685; 842-845

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Mineralogy at Gusev Crater from the Mossbauer spectrometer on the Spirit Rover (2004)

Morris, R. V. ; De Souza, P. A. Jr ; Wdowiak, T. ; [et al.]

In: Other Sources

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Publication Date: 2018-06-11

Description: Mossbauer spectra measured on Mars by the Spirit rover during the primary mission are characterized by two ferrous iron doublets (olivine and probably pyroxene) and a ferric iron doublet (tentatively associated to nanophase ferric iron oxide). Two sextets resulting from nonstoichiometric magnetite are also present, except for a coating on the rock Mazatzal, where a hematite-like sextet is present. Greater proportions of ferric-bearing phases are associated with undisturbed soils and rock surfaces as compared to fresh rock surfaces exposed by grinding. The ubiquitous presence of olivine in soil suggests that physical rather than chemical weathering processes currently dominate at Gusev crater.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 305; 5685; 833-6

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Preliminary Results of the Magnetic Properties Experiments on the Mars Exploration Rovers, Spirit and Opportunity (2004)

Madsen, M. B. ; Yen, A. ; Squyres, S. W. ; [et al.]

In: CASI

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Publication Date: 2018-06-11

Description: The Mars Exploration Rovers each carry a set of Magnetic Properties Experiments designed to investigate the properties of the air-borne dust in the Martian atmosphere. It is a preferred interpretation of previous experiments (Viking 1 & 2, 1976 and Mars Pathfinder, 1997) that the airborne dust in the Martian atmosphere is primarily composed by composite silicate particles containing one or more highly magnetic minerals as a minor constituent, this minor constituent probably being dominated by the mineral maghemite (gamma-Fe2O3). The ultimate goal of the magnetic properties experiments on the Mars Exploration Rover mission is to provide some information/constraints on whether the dust is formed by volcanic, meteoritic, aqueous, or other processes. In detail, the objectives are: a) To identify the magnetic mineral(s) in the dust, soil and rocks on Mars. b) To establish if the magnetic material is present in the form of nanosized (d 〈 10 nm) superparamagnetic crystallites embedded in the micrometer sized airborne dust part icles. c) To establish if the magnets are culling a subset of strongly magnetic particles or if essentially all particles of the airborne dust are sufficiently magnetic to be attracted by the magnets. d) Detect compositional differences between the airborne dust and the soil and rock sites which are investigated at two landing sites. To accomplish these goals the Mars Exploration Rovers each carry a set of permanent magnets of several different strengths and sizes. Each magnet has its own specific objective.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXV: Special Session: Mars Missions; LPI-Contrib-1197

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