NASA Mars Rover Opportunity
Reveals Geological Mystery
Small
spherical objects fill the field in this mosaic combining four images from the
Microscopic Imager on NASA's Mars Exploration Rover Opportunity. Image credit:
NASA/JPL-Caltech/Cornell Univ./ USGS/Modesto Junior College.
NASA's
long-lived rover Opportunity has returned an image of the Martian surface that
is puzzling researchers. Spherical objects concentrated at an outcrop
Opportunity reached last week differ in several ways from iron-rich spherules
nicknamed "blueberries" the rover found at its landing site in early
2004 and at many other locations to date.
Opportunity
is investigating an outcrop called Kirkwood in the Cape York segment of the
western rim of Endeavour Crater. The spheres measure as much as one-eighth of
an inch (3 millimeters) in diameter. The analysis is still preliminary, but it
indicates that these spheres do not have the high iron content of Martian
blueberries."This is one of the most extraordinary pictures from the whole
mission," said Opportunity's principal investigator, Steve Squyres of
Cornell University in Ithaca, N.Y.
"Kirkwood
is chock full of a dense accumulation of these small spherical objects. Of
course, we immediately thought of the blueberries, but this is something
different. We never have seen such a dense accumulation of spherules in a rock
outcrop on Mars."The Martian blueberries found elsewhere by Opportunity
are concretions formed by action of mineral-laden water inside rocks, evidence
of a wet environment on early Mars.
Concretions
result when minerals precipitate out of water to become hard masses inside
sedimentary rocks. Many of the Kirkwood spheres are broken and eroded by the
wind. Where wind has partially etched them away, a concentric structure is
evident.
Opportunity
used the microscopic imager on its arm to look closely at Kirkwood. Researchers
checked the spheres' composition by using an instrument called the Alpha
Particle X-Ray Spectrometer on Opportunity's arm."They seem to be crunchy
on the outside, and softer in the middle,"
Squyres said.
"They
are different in concentration. They are different in structure. They are
different in composition. They are different in distribution. So, we have a
wonderful geological puzzle in front of us. We have multiple working hypotheses,
and we have no favorite hypothesis at this time. It's going to take a while to
work this out, so the thing to do now is keep an open mind and let the rocks do
the talking."
Just
past Kirkwood lies another science target area for Opportunity. The location is
an extensive pale-toned outcrop in an area of Cape York where observations from
orbit have detected signs of clay minerals. That may be the rover's next study
site after Kirkwood. Four years ago, Opportunity departed Victoria Crater,
which it had investigated for two years, to reach different types of geological
evidence at the rim of the much larger Endeavour Crater.
The
rover's energy levels are favourable for the investigations. Spring equinox
comes this month to Mars' southern hemisphere, so the amount of sunshine for
solar power will continue increasing for months."The rover is in very good
health considering its 8-1/2 years of hard work on the surface of Mars,"
said Mars Exploration Rover Project Manager John Callas of NASA's Jet Propulsion
Laboratory in Pasadena, Calif.
"Energy
production levels are comparable to what they were a full Martian year ago, and
we are looking forward to productive spring and summer seasons of
exploration."
For further information
visit: http://www.marsdaily.com/reports/NASA_Mars_Rover_Opportunity_Reveals_Geological_Mystery_999.html
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