On September 28th 2015, NASA announced that they had made conformation of liquid water flowing on the surface of Mars. Photos taken from the Mars Reconnaissance Orbiter have revealed what researchers at NASA are calling, recurring slope lineae or (RSL), which are narrow, dark streaks on the planet's surface. NASA's director of planetary sciences division, James L Greene said, "We now have, I think, great opportunities to investigate the possibility of life."
The recurring slope lineae or RSL are about 15 feet in width or smaller and appear on slopes during the planets warm seasons. These lineae then fade during the cooler seasons only to reappear when the temperature warms again. Previous analysis of data from the Mars Reconnaissance Orbiter's Compact Reconnaissance Imaging Spectrometer found neither salt nor water. However, the new study has yielded greater detail.
A team of researchers, led by Lujendra Ojha, of the School of Earth Sciences at the Georgia Institute of Technology, found evidence of hydrated salts like magnesium chlorate, magnesium perchlorate, and sodium perchlorate. All of these substances can effectively lower the freezing point of water so that it can flow freely at cooler temperatures. The average temperature on Mars is 70 degrees below zero but can reach as high as 70 degrees above zero near the equator.
NASA and other research institutions are developing new technologies to search for a bio-signature on Mars. Some of those bio-hunting devices are expected to be incorporated into the next NASA mission, Mars 2020 rover and the European Space Agency's ExoMars Mission. Researchers are now expressing some concern as to how life can be detected without causing cross contamination. Any robotic mechanism designed to detect Martian life may ultimately only be detecting life brought there from Earth.
The plan for future exploration is to use a sort of, "stand off," analysis. At this time, the idea is to use Raman Spectroscopy, which is a form of vibrational spectroscopy. While it's harder for Raman Spectroscopy to distinguish between fossils and carbon based materials, it is however very adept at distinguishing between organic compounds that were once alive and those that are living now. Some researchers believe that the ideal way to examine the Martian soil, is to do a Mars sample return.
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