Evidence for pigmentary hematite on Mars based on optical, magnetic, and Mossbauer studies of superparamagnetic (nanocrystalline) hematite

Morris, R. V.; Agresti, D. G.; Lauer, H. V.; Newcomb, J. A.; Shelfer, T. D.; Murali, Ayaluru

doi:10.1029/jb094ib03p02760

Cited by 207 publications

(138 citation statements)

References 53 publications

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“…Moderate-and high-albedo soil spectra (e.g., Figs. 5, A and B, and 6, A and B) are similar to telescopic and spacecraft measurements of martian dust (14,23,24) and are characteristic of fine-grained, poorly crystalline ferric iron oxides (25,26). A weak absorption centered near 860 to 930 nm in most high-albedo soil spectra can be used to constrain the ferric iron oxide mineralogy; however, a unique mineral identification cannot be assigned for this feature on the basis of Pancam data alone.…”

supporting

confidence: 52%

“…A weak absorption centered near 860 to 930 nm in most high-albedo soil spectra can be used to constrain the ferric iron oxide mineralogy; however, a unique mineral identification cannot be assigned for this feature on the basis of Pancam data alone. Candidates to explain the near-IR band include fine-grained hematite, goethite, ferrihydrite, maghemite, or schwertmannite (25,26). The spectra of lower- …”

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confidence: 99%

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Pancam Multispectral Imaging Results from the Spirit Rover at Gusev Crater

Bell

Squyres

Arvidson

et al. 2004

Science

151

160

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Panoramic Camera images at Gusev crater reveal a rock-strewn surface interspersed with high-to moderate-albedo fine-grained deposits occurring in part as drifts or in small circular swales or hollows. Optically thick coatings of fine-grained ferric iron-rich dust dominate most bright soil and rock surfaces. Spectra of some darker rock surfaces and rock regions exposed by brushing or grinding show near-infrared spectral signatures consistent with the presence of mafic silicates such as pyroxene or olivine. Atmospheric observations show a steady decline in dust opacity during the mission, and astronomical observations captured solar transits by the martian moons, Phobos and Deimos, as well as a view of Earth from the martian surface.On 4 January 2004 universal time coordinated, the Mars Exploration Rover, Spirit, landed on Mars at 14.5692°S, 175.4729°E, within the crater Gusev, a 160-km-diameter Noachian-age impact crater. Previous orbital remote sensing data have been used to hypothesize that Gusev crater may be partially infilled by ancient lacustrine sediments (1, 2). We acquired high spatial resolution multispectral panoramic images of the landing site and its environs to characterize the morphology, composition, and physical and atmospheric properties of the region. Our primary objective is to relate these characteristics to the origin and evolution of the martian crust, with particular emphasis on the search for evidence of liquid water in this region in the past.Instrumentation and calibration. Panoramic Camera (Pancam) is a digital imaging system consisting of two 1024 pixel by 1024 pixel charge-coupled device (CCD) cameras with a 30-cm stereo separation and 0.27 mrad per pixel resolution, mounted on a mast assembly ϳ1.5 m above the martian surface (3). Each camera has an eightposition filter wheel and is capable of obtaining narrow-band color images of the surface or sky in 11 distinct narrow bands or direct neutral-density filter images of the Sun for opacity determinations at two wavelengths. Because of downlink bandwidth limitations, most images were compressed before downlink with the use of a

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supporting

confidence: 52%

mentioning

confidence: 99%

Pancam Multispectral Imaging Results from the Spirit Rover at Gusev Crater

Bell

Squyres

Arvidson

et al. 2004

Science

151

160

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“…Although spectra of samples with unknown mineralogy may simply be compared with spectra of reference minerals (Singer 1982;Morris et al 1989), the parametrization of these spectra allows for a quantitative approach (Torrent and Barr6n 1993). The most frequently used procedures for the parametrization are: 1) Calculation of the tristimulus values (X, Y, Z) of the CIE color system (CIE 1978).…”

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confidence: 99%

Use and Limitations of Second-Derivative Diffuse Reflectance Spectroscopy in the Visible to Near-Infrared Range to Identify and Quantify Fe Oxide Minerals in Soils

Scheinost

Chavernas

Barrón

et al. 1998

Clays and clay miner.

380

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Abstract--We measured the visible to near-infrared (IR) spectra of 176 synthetic and natural samples of Fe oxides, oxyhydroxides and an oxyhydroxysulfate (here collectively called "Fe oxides"), and of 56 soil samples ranging widely in goethite/hematite and goethite/lepidocrocite ratios. The positions of the second-derivative minima, corresponding to crystal-field bands, varied substantially within each group of the Fe oxide minerals. Because of overlapping band positions, goethite, maghemite and schwertmannite could not be discriminated. Using the positions of the 4Tl<----6AI, 4T2<----6AI, (4E;4AI)4---6A I and the electron pair transition (4T~ h-4Ti)<----(6Ai q-6ml) , at least 80% of the pure akaganeite, feroxyhite, ferrihydrite, hematite and lepidocrocite samples could be correctly classified by discriminant functions. In soils containing mixtures of Fe oxides, however, only hematite and magnetite could be unequivocally discriminated from other Fe oxides. The characteristic features of hematite are the lower wavelengths of the 4"171 transition (848-906 nm) and the higher wavelengths of the electron pair transition (521-565 nm) as compared to the other Fe oxides (909-1022 nm and 479-499 nm, resp.). Magnetite could be identified by a unique band at 1500 nm due to Fe(II) to Fe(III) intervalence charge transfer. As the bands of goethite and hematite are well separated, the goethite/hematite ratio of soils not containing other Fe oxides could be reasonably predicted from the amplitude of the second-derivative bands. The detection limit of these 2 minerals in soils was below 5 g kg t, which is about 1 order of magnitude lower than the detection limit for routine X-ray diffraction (XRD) analysis. This low detection limit, and the little time and effort involved in the measurements, make second-derivative diffuse reflectance spectroscopy a practical means of routinely determining goethite and hematite contents in soils. The identification of other accessory Fe oxide minerals in soils is, however, very restricted.

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“…Hematite may be present in the suspended grains, but it cannot account for the results of the magnetic properties experiments. Nanophase ferric oxide (nanophase hematite) has previously been postulated to be sufficiently magnetic to satisfy the results (13), but this hypothesis remains to be confirmed.…”

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confidence: 95%

Magnetic Properties Experiments on the Mars Pathfinder Lander: Preliminary Results

Hviid

Madsen

Gunnlaugsson

et al. 1997

Science

104

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Many of the particles currently suspended in the martian atmosphere are magnetic, with an average saturation magnetization of about 4 A·m 2 /kg (amperes times square meters per kilogram). The particles appear to consist of claylike aggregates stained or cemented with ferric oxide (Fe 2 O 3 ); at least some of the stain and cement is probably maghemite (γ-Fe 2 O 3 ). The presence of the γ phase would imply that Fe 2+ ions leached from the bedrock, passing through a state as free Fe 2+ ions dissolved in liquid water. These particles could be a freeze-dried precipitate from ground water poured out on the surface. An alternative is that the magnetic particles are titanomagnetite occurring in palagonite and inherited directly from a basaltic precursor.

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Evidence for pigmentary hematite on Mars based on optical, magnetic, and Mossbauer studies of superparamagnetic (nanocrystalline) hematite

Cited by 207 publications

References 53 publications

Pancam Multispectral Imaging Results from the Spirit Rover at Gusev Crater

Pancam Multispectral Imaging Results from the Spirit Rover at Gusev Crater

Use and Limitations of Second-Derivative Diffuse Reflectance Spectroscopy in the Visible to Near-Infrared Range to Identify and Quantify Fe Oxide Minerals in Soils

Magnetic Properties Experiments on the Mars Pathfinder Lander: Preliminary Results

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