Indication of drier periods on Mars from the chemistry and mineralogy of atmospheric dust

Indication of drier periods on Mars from the chemistry and mineralogy of atmospheric dust

The ubiquitous atmospheric dust on Mars is well mixed by periodic global dust storms, and such dust carries information about the environment in which it once formed and hence about the history of water on Mars. The Mars Exploration Rovers have permanent magnets to collect atmospheric dust for inves...

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Bibliographic Details
Published in:Nature Vol. 436; no. 7047; pp. 62 - 65
Main Authors: Klingelhöfer, Göstar, Goetz, Walter, Hviid, Stubbe F, Olsen, Malte, Madsen, Daniel E, Rieder, Rudolf, Schröder, Christian, Gellert, Ralf, de Souza, Paulo A, Kinch, Kjartan M, Ming, Douglas W, Morris, Richard V, Rodionov, Daniel S, Binau, Charlotte S, Madsen, Morten B, Bertelsen, Preben, Squyres, Steve W, Wdowiak, Tom, Gunnlaugsson, Haraldur P, Yen, Albert
Format: Journal Article
Language:English
Published: England Nature Publishing Group 07-07-2005
Subjects:
Atmosphere - chemistry
Chemistry
Desert Climate
Dust
Dust - analysis
Dust storms
Extraterrestrial Environment - chemistry
Ferric Compounds - analysis
Ferrosoferric Oxide
Iron - analysis
Iron Compounds - analysis
Magnesium Compounds - analysis
Magnetic properties
Magnetics
Mars
Mineralogy
Oxides - analysis
Silicates - analysis
Space exploration
Spectrometry, X-Ray Emission
Spectroscopy, Mossbauer
Water - analysis
X-ray fluorescence
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Summary:The ubiquitous atmospheric dust on Mars is well mixed by periodic global dust storms, and such dust carries information about the environment in which it once formed and hence about the history of water on Mars. The Mars Exploration Rovers have permanent magnets to collect atmospheric dust for investigation by instruments on the rovers. Here we report results from Mössbauer spectroscopy and X-ray fluorescence of dust particles captured from the martian atmosphere by the magnets. The dust on the magnets contains magnetite and olivine; this indicates a basaltic origin of the dust and shows that magnetite, not maghemite, is the mineral mainly responsible for the magnetic properties of the dust. Furthermore, the dust on the magnets contains some ferric oxides, probably including nanocrystalline phases, so some alteration or oxidation of the basaltic dust seems to have occurred. The presence of olivine indicates that liquid water did not play a dominant role in the processes that formed the atmospheric dust.
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ISSN:0028-0836
1476-4687
DOI:10.1038/nature03807