Volume: 05, Issue: 02 09/13/2006 
Victoria is the large crater near the bottom of this map. Image credit: NASA/JPL/MSSS/Ohio State University.
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This animation created by the U.S. Geological Survey uses a digital elevation model generated from computer analysis of three images taken by the Mars Orbiter Camera aboard NASA's Mars Global Surveyor orbiter. Image credit: NASA/JPL/MSSS/USGS.
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NASA's Mars Exploration Rover Spirit used its panoramic camera (Pancam) to record a 360-degree vista, dubbed the "Everest" panorama. Image credit: NASA/JPL/Cornell Bob Deen MIPL/OPGS.
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Other Articles in This Issue:
STS-115 Atlantis
Impact Landing Ends SMART-1 Mission to the Moon
Grant Opportunities
Involve Your Students in Space Themed Contests
 

NASA Rover Nears Martian Bowl Goal

NASA’s Mars rover Opportunity is closing in on what may be the grandest overlook and richest science trove of its long mission.

During the next two weeks, the robotic geologist is likely to reach the rim of a hole in the Martian surface wider and deeper than any it has visited. The crater, known as “Victoria,” is approximately 750 meters (half a mile) wide and 70 meters (230 feet) deep.

Images from NASA’s Mars Global Surveyor orbiter show the crater walls expose a stack of rock layers approximately 30 to 40 meters (100 to 130 feet) thick. Opportunity will send back its initial view into the crater as soon as it gets to the rim. Scientists and engineers will use Opportunity’s observations from points around the rim to plot the best route for entering the crater.

“Victoria has been our destination for more than half the mission,” said Ray Arvidson of Washington University, St. Louis. Arvidson is deputy principal investigator for Opportunity and its twin rover, Spirit. “Examination of the rocks exposed in the walls of the crater will greatly increase our understanding of past conditions on Mars and the role of water. In particular, we are very interested in whether the rocks continue to show evidence for having been formed in shallow lakes.”

The NASA rovers have been exploring landscapes on opposite sides of Mars since January 2004. Their prime missions lasted three months. Both rovers are still investigating Mars’ rocks, soils, and atmosphere after more than 30 months. Opportunity works in a region where rock layers hundreds of meters or yards in thickness cover older, heavily cratered terrain.

“We have a fully functional vehicle with all the instruments working. We’re ready to hit Victoria with everything we’ve got,” said Byron Jones, a rover mission manager at NASA’s Jet Propulsion Laboratory, Pasadena, California.

Though it’s still winter in Mars’ southern hemisphere, days have begun getting longer again, and Opportunity’s power supply from its solar panels is increasing daily.

During its first two months on Mars, Opportunity examined a 30-centimeter (one-foot) stack of rock layers at its landing site inside “Eagle Crater” and found geological evidence that water had flowed across the surface long ago. The rover spent the next nine months driving to and exploring a large crater, “Endurance.” There it examined a stack of exposed layers 7 meters (23 feet) thick. Over the drive from Endurance to Victoria, the rocks tell a history of shallow lakes, drier periods of shifting dunes and groundwater levels that rose and fell. Minerals indicate the ancient water was very acidic.

The much thicker stack revealed rock layers at Victoria beckons. Arvidson said, “We want to examine the thick section of rocks exposed on the walls in Victoria crater to understand whether the environment that produced these materials was similar to the environment recorded in the rocks that we have seen so far. Is there a record of a different type of deposition? Was there a wet environment that was less acidic, perhaps even more habitable? Where do the layers from Endurance fit in this thicker sequence?

NASA’s Mars Reconnaissance Orbiter reached Mars in March 2006. It will begin its primary science phase in November, offering higher resolution images and mineral mapping than have been possible with previous orbiters. Victoria will be one target for the orbiter. “By combining the data from Opportunity and Mars Reconnaissance Orbiter, we’ll be able to do some fantastic coordinated analysis,” Arvidson said. Such analysis will enhance the science return of both missions and aid in interpreting orbiter data taken of potential landing sites for future missions elsewhere on Mars.

“It’s an amazing accomplishment that Spirit and Opportunity have completed the equivalent of 10 prime missions,” said John Callas, rover project manager at JPL. “Each of them shows some signs of aging, though. We can’t say how long the rovers will last, but we will push to get the best possible science out of these national treasures as long as they keep operating. Victoria could very well be the most productive and exciting science of the entire mission.”

For more information, please visit the following websites:
http://www.jpl.nasa.gov/news/news.cfm?release=2006-104
http://www.nasa.gov/mission_pages/mer/index.html.

    
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