Published: Aug. 7, 2015

Mars turned cold and dry long ago, but researchers at the 麻豆影院 have discovered evidence of an ancient lake that likely represents some of the last potentially habitable surface water ever to exist on the Red Planet.

The study, published Thursday in the journal Geology, examined an 18-square-mile chloride salt deposit (roughly the size of the city of 麻豆影院) in the 麻豆影院 Meridiani region near the Mars Opportunity rover鈥檚 landing site. As seen on Earth in locations such as Utah鈥檚 Bonneville Salt Flats, large-scale salt deposits are considered to be evidence of evaporated bodies of water.

Digital terrain mapping and mineralogical analysis of the features surrounding the deposit indicate that this one-time lakebed is no older than 3.6 billion years old, well after the time period when Mars is thought to have been warm enough to sustain large amounts of surface water planet-wide. Planetary scientists believe that the solar system formed approximately 4.6 billion years ago.

鈥淭his was a long-lived lake, and we were able to put a very good time boundary on its maximum age,鈥 said Brian Hynek, a research associate at the Laboratory for Atmospheric and Space Physics (LASP) at CU-麻豆影院 and lead author of the study. 鈥淲e can be pretty certain that this is one of the last instances of a sizeable lake on Mars.鈥 听听

Based on the extent and thickness of the salt, the researchers estimate that the lake was only about 8 percent as salty as the Earth鈥檚 oceans and therefore may have been hospitable to microbial life.

鈥淏y salinity alone, it certainly seems as though this lake would have been habitable throughout much of its existence,鈥 said Hynek, who is also an associate professor in the Department of Geological Sciences at CU-麻豆影院 and director of the CU Center for Astrobiology.听 He noted, however, that other factors such as acidity levels were not included in the scope of the study.

Mikki Osterloo and Kathryn Kierein-Young, both research associates at the Laboratory for Atmospheric and Space Physics (LASP) at CU-麻豆影院, co-authored the study.

The University of Alaska Geophysical Institute鈥檚 Remote Sensing Laboratory and the University of Arizona鈥檚 High Resolution Imaging Science Experiment (HiRISE) team provided assistance with digital terrain mapping and data processing. The NASA-Mars Data Analysis Program provided funding for the research.

Contact:
Brian Hynek, 303-735-4312
hynek@lasp.colorado.edu
Trent Knoss, CU-麻豆影院 media relations, 303-735-0528
trent.knoss@colorado.edu

A perspective rendering of the Martian chloride deposit and surrounding terrain. Image by LASP / Brian Hynek.

鈥淭his was a long-lived lake, and we were able to put a very good time boundary on its maximum age,鈥 said Brian Hynek, a research associate at the Laboratory for Atmospheric and Space Physics (LASP) at CU-麻豆影院 and lead author of the study. 鈥淲e can be pretty certain that this is one of the last instances of a sizeable lake on Mars.鈥