Dwayne Brown
Headquarters, Washington
Guy Webster
Jet Propulsion Laboratory, Pasadena , Calif.
Rachel Hoover
Researchers and technicians are using a mineral-mapping instrument aboard NASA's Mars Reconnaissance Orbiter (MRO) to help the rover investigate a large ancient crater called Endeavour. MRO's Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) is providing maps of minerals at Endeavour's rim that are helping the team choose which area to explore first and where to go from there.
As MRO orbits more than 150 miles high, the CRISM instrument provides mapping information for mineral exposures on the surface as small as a tennis court.
"This is the first time mineral detections from orbit are being used in tactical decisions about where to drive on Mars," said Ray Arvidson of Washington University in St. Louis . Arvidson is the deputy principal investigator for the Spirit and Opportunity rovers and a co-investigator for CRISM.
The team plans for Opportunity 's exploration of Endeavour to begin at a rim fragment called Cape York . That feature is too low to be visible by the rover, but appears from orbit to be nearly surrounded by water-bearing minerals. The planned route then turns southward toward a higher rim fragment called Cape Tribulation , where CRISM has detected a class of clay minerals not investigated yet by a ground mission.
Spacecraft orbiting Mars found these minerals to be widespread on the planet. The presence of clay minerals at Endeavour suggests an earlier and milder wet environment than the very acidic wet one indicated by previous evidence found by Opportunity .
"We used to have a disconnect between the scale of identifying minerals from orbit and what missions on the surface could examine," said CRISM team member Janice Bishop of NASA's Ames Research Center in Moffett Field, Calif., and the SETI Institute of Mountain View, Calif. Now, rovers are driving farther and orbital footprints are getting smaller."
Ten years ago, an imaging spectrometer on the Mars Global Surveyor orbiter found an Oklahoma-sized area with a type of the mineral hematite exposed. This discovery motivated selection of the area as Opportunity 's 2004 landing site. Each pixel footprint for that spectrometer was two miles across. CRISM resolves areas about 60 feet across. Last fall, the instrument began using a pixel-overlap technique that provided even better resolution.
A Martian year lasts approximately 23 months. During the past Martian year, Opportunity covered more than 7.5 miles of the mission's 16 total miles traveled since it landed in January 2004. The rover has returned more than 141,000 images.
MRO reached the Red Planet in 2006 to begin a two-year primary science mission. Its data show Mars had diverse wet environments at many locations for differing durations during the planet's history, and climate-change cycles persist into the present era. The mission has returned more planetary data than all other Mars missions combined.
JPL manages the Mars Exploration Rovers and the Mars Reconnaissance Orbiter for NASA's Science Mission Directorate in Washington . The Johns Hopkins University Applied Physics Laboratory in Laurel , Md. , manages CRISM.
For more information about Mars missions, visit http://www.nasa.gov/mars.
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