Observations by a long-running Mars mission suggest that liquid water may have flowed on the Red Planet as little as 2 billion years ago, much later than scientists once thought.
Scientists charted the presence of chloride salt deposits left behind by flowing water using years of data from NASA's Mars Reconnaissance Orbiter (MRO), which has been orbiting the Red Planet since 2006.
By studying dozens of images of salt deposits taken by the spacecraft's Compact Reconnaissance Imaging Spectrometer for Mars (CRISM), the scientists interpreted a younger age for the salt deposits using a method "crater counting." The younger a region is, the fewer craters it should have, with adjustments for aspects such as a planet's atmosphere, allowing scientists to estimate its age.
The new results push forward the existence of water on Mars from 3 billion years ago to as little as 2 billion years ago, based on the observations, which could have implications for life on Mars and more broadly, the planet's geological history.
"Part of the value of MRO is that our view of the planet keeps getting more detailed over time," Leslie Tamppari, MRO's deputy project scientist at NASA's Jet Propulsion Laboratory, said in a statement (opens in new tab). "The more of the planet we map with our instruments, the better we can understand its history."
The scientists also created elevation maps using MRO's wide-angle context camera, and the zoomed-in views provided by the High-Resolution Imaging Science Experiment (HiRISE) that can spot craters as small as the Curiosity or Perseverance Mars rovers.
The salt minerals were first spotted by a different spacecraft 14 years ago, called Mars Odyssey, but MRO's advantage is it has higher resolution instruments than its older (and still operational) companion in orbit.
A study based on the research was published Dec. 27, 2021 in AGU American Geophysical Union Advances (opens in new tab). The study was led by Ellen Leask, who did much of the work during doctoral stories at the California Institute of Technology. Her supervisor and co-author is Bethany Ehlmann, a planetary scientist at the same institution.
Scientists have performed numerous studies in recent years to assess the extent of flowing water on Mars, both up close through surface missions and using orbital data. Just days ago, a suspected underground reservoir of water at the Martian southern pole was debunked using new interpretations of the data.