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1.
Science ; 314(5806): 1711-6, 2006 Dec 15.
Article in English | MEDLINE | ID: mdl-17170289

ABSTRACT

The Stardust spacecraft collected thousands of particles from comet 81P/Wild 2 and returned them to Earth for laboratory study. The preliminary examination of these samples shows that the nonvolatile portion of the comet is an unequilibrated assortment of materials that have both presolar and solar system origin. The comet contains an abundance of silicate grains that are much larger than predictions of interstellar grain models, and many of these are high-temperature minerals that appear to have formed in the inner regions of the solar nebula. Their presence in a comet proves that the formation of the solar system included mixing on the grandest scales.

2.
Science ; 312(5772): 400-4, 2006 Apr 21.
Article in English | MEDLINE | ID: mdl-16627738

ABSTRACT

Global mineralogical mapping of Mars by the Observatoire pour la Mineralogie, l'Eau, les Glaces et l'Activité (OMEGA) instrument on the European Space Agency's Mars Express spacecraft provides new information on Mars' geological and climatic history. Phyllosilicates formed by aqueous alteration very early in the planet's history (the "phyllocian" era) are found in the oldest terrains; sulfates were formed in a second era (the "theiikian" era) in an acidic environment. Beginning about 3.5 billion years ago, the last era (the "siderikian") is dominated by the formation of anhydrous ferric oxides in a slow superficial weathering, without liquid water playing a major role across the planet.


Subject(s)
Mars , Minerals , Water , Aluminum Silicates , Atmosphere , Carbon Dioxide , Clay , Extraterrestrial Environment , Ferric Compounds , Silicates , Sulfates , Time
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