Drei Jahre Mössbauer Spektroskopische Erforschung der Oberfläche des Planeten Mars
Dr. G. Klingelhoefer (Institut für Anorganische Chemie, Universität Mainz)

The NASA Mars Exploration Rovers (MER), Spirit and Opportunity, landed on the Red Planet in January 2004. Both rovers are equipped with a miniaturized Mössbauer spectrometer MIMOS II.
Designed for a three months mission, both rovers and both Mössbauer instruments are still working after more than three years of exploring the Martian surface.
Summarizing important Mössbauer results, Spirit has traversed the plains from her landing site in Gusev crater and is now, for the greater part of the mission, investigating the stratigraphically younger Columbia Hills. Olivine in rocks and soils in the plains suggests that physical rather than chemical processes are currently active.
Hematite and Goethite identified in rocks at the West Spur of the Columbia Hills are clear mineralogical evidence that water played a major role in the formation and alteration of rocks and soils in the Columbia Hills. Home Plate is a layered plateau of probably explosive volcanic origin in the Inner Basin of the Columbia Hills.
Home Plate rocks are among the most magnetite-rich in Gusev crater.
Opportunity at Meridiani Planum travelled more than 10 km across sulfate-rich outcrop, basaltic sand and dust, and hematite lag deposits. The ferric sulfate hydroxide mineral jarosite was identified in sulfate-rich outcrop rocks.
Milimeter-sized spherules (nicknamed Blueberries) were identified as the source of hematite detected from orbit. Crater hopping from her landing site in ~ 20 m Eagle crater via ~ 160 m Endurance crater, 300 m Erebus crater to ~ 800 m Victoria, Opportunity is currently searching for a save ingress route to Victoria crater.
Float rocks and cobbles investigated along the way are of diverse origin. Mössbauer data were crucial to identify in Bounce Rock the first rock on Mars itself similar in composition to basaltic Shergottites, a group of meteorites whose origin is believed to be Mars. The identification of the iron nickel alloy kamacite in Heat Shield Rock and Barberton revealed an iron meteorite and a stony meteorite, respectively, the first to be discovered on Mars and outside Earth.
The primary MER objective was to explore two sites on the Martian surface where water may once have been present, and to assess past environmental conditions at those sites and their suitability for life. The MER Mössbauer spectrometers identified aqueous minerals such as goethite in Gusev crater and jarosite at Meridiani Planum. Jarosite forms under acidic conditions which would have challenged prebiotic chemical reactions. Mössbauer spectroscopy thus proved to be a valuable tool for the field of Exo/Astrobiology.
With the Russian Phobos Grunt mission scheduled to launch in 2009, MIMOS II will be a contact instrument for sample return from the Martian moon Phobos. MIMOS II is also part of the Pasteur payload for the ESA ExoMars rover designed to search for traces of past and present life and scheduled to launch in 2013.