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1.
Astrobiology ; 17(6-7): 471-510, 2017 Jul 01.
Article in English | MEDLINE | ID: mdl-31067287

ABSTRACT

The second ExoMars mission will be launched in 2020 to target an ancient location interpreted to have strong potential for past habitability and for preserving physical and chemical biosignatures (as well as abiotic/prebiotic organics). The mission will deliver a lander with instruments for atmospheric and geophysical investigations and a rover tasked with searching for signs of extinct life. The ExoMars rover will be equipped with a drill to collect material from outcrops and at depth down to 2 m. This subsurface sampling capability will provide the best chance yet to gain access to chemical biosignatures. Using the powerful Pasteur payload instruments, the ExoMars science team will conduct a holistic search for traces of life and seek corroborating geological context information. Key Words: Biosignatures-ExoMars-Landing sites-Mars rover-Search for life. Astrobiology 17, 471-510.

2.
Nature ; 436(7047): 49-54, 2005 Jul 07.
Article in English | MEDLINE | ID: mdl-16001059

ABSTRACT

The mineralogical and elemental compositions of the martian soil are indicators of chemical and physical weathering processes. Using data from the Mars Exploration Rovers, we show that bright dust deposits on opposite sides of the planet are part of a global unit and not dominated by the composition of local rocks. Dark soil deposits at both sites have similar basaltic mineralogies, and could reflect either a global component or the general similarity in the compositions of the rocks from which they were derived. Increased levels of bromine are consistent with mobilization of soluble salts by thin films of liquid water, but the presence of olivine in analysed soil samples indicates that the extent of aqueous alteration of soils has been limited. Nickel abundances are enhanced at the immediate surface and indicate that the upper few millimetres of soil could contain up to one per cent meteoritic material.


Subject(s)
Dust/analysis , Extraterrestrial Environment/chemistry , Geologic Sediments/chemistry , Mars , Soil/analysis , Bromine/analysis , Iron Compounds/analysis , Magnesium Compounds/analysis , Minerals/analysis , Minerals/chemistry , Nickel/analysis , Silicates/analysis , Silicates/chemistry , Spectrophotometry, Infrared , Spectroscopy, Mossbauer , Water/analysis , Water/chemistry
3.
Nature ; 436(7047): 62-5, 2005 Jul 07.
Article in English | MEDLINE | ID: mdl-16001062

ABSTRACT

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.


Subject(s)
Atmosphere/chemistry , Dust/analysis , Extraterrestrial Environment/chemistry , Mars , Desert Climate , Ferric Compounds/analysis , Ferrosoferric Oxide , Iron/analysis , Iron Compounds/analysis , Magnesium Compounds/analysis , Magnetics , Oxides/analysis , Silicates/analysis , Spectrometry, X-Ray Emission , Spectroscopy, Mossbauer , Water/analysis
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