Urey Hall Chemists Reveal History of Two Mysterious Space Rocks

Two unusual space rocks that survived their fiery falls through Earth's atmosphere have ended up in the Urey Hall chemistry laboratory of Mark Thiemens, whose group identified one as a new class of Martian meteorite that likely originated from the Red Planet's crust. "This meteorite is extremely interesting because it suggests that what we knew about the composition of Mars and how it came to be needs a major adjustment," said Thiemens, dean of the Division of Physical Sciences and a professor of chemistry and biochemistry. The 2.1-billion-year-old rock, which was presumably blasted off Mars into space when an asteroid hit the planet, landed in Northwest Africa and is one of 110 known meteorites from Mars. Thiemens and UC San Diego chemists Morgan Nunn and Robina Shaheen were part of a team of scientists from the University of New Mexico and the Carnegie Institution of Washington that analyzed the meteorite and discovered its unusual properties. The team reported this month in the journal Science that the meteorite has ten times more water than any other Martian meteorite and a chemical composition that suggests it was formed from rapidly cooled lava-a common characteristic of many types of lunar and terrestrial rock samples, but not of any other known Martian meteorites. The scientists said its unusual composition of cemented fragments of basalt dominated with feldspar and pyroxene suggests it came from the Martian crust. Robina Shaheen (left) and Mark Thiemens analyze meteorite samples in their mass spectrometer.