The Mars Curiosity science mission goal is to look for chemical evidence of ancient life preserved within exposures near the base of a five-kilometers high mound of layered materials at the center of Gale crater. The first images in from the rover’s navigation cameras suggested one possibility for signs ofmicrobial life when they revealed whitish linear features in a shallow trench scoured out by the blast of the landing system’s retrorockets. The lines, says John Grotziner, project manager of NASA’s Mars Science Laboratory mission, could be fractures filled with water-altered minerals — key targets for exploration in the mission’s goal of assessing whether ancient Mars could have supported life.
“This may be one of the thickest exposed sections of layered sedimentary rocks in the solar system,” said Joy Crisp, MSL Deputy Project Scientist from NASA’s Jet Propulsion Laboratory. “The rock record preserved in those layers holds stories that are billions of years old — stories about whether, when, and for how long Mars might have been habitable.”
“If life will develop wherever it has a decent planet, it means that the universe is filled with life,” Zubrin says, “And if life is everywhere, it means intelligence is everywhere. It means we’re living in an inhabited universe. This is something that thinking men and women have wondered about for thousands of years.” There’s a good chance Curosity and the MarsScience Lab will finally answer.