Skip to main content

Remains of shallow, briny pools provide further evidence of liquid water on Mars

A Guide to Gale Crater

As the Curiosity rover explores Mars’ Gale Crater, the data it collects tells us more about the history of the planet and in particular about whether liquid water once existed there. Using data collected by Curiosity, a new study has examined the geology of the crater to learn more about the briny ponds which may once have dotted the planet’s surface.

“We went to Gale Crater because it preserves this unique record of a changing Mars,” William Rapin, Caltech researcher and lead author of the study, explained in a statement. “Understanding when and how the planet’s climate started evolving is a piece of another puzzle: When and how long was Mars capable of supporting microbial life at the surface?”

By looking at the salts present in rocks in an area of the crater called Sutton Island, the scientists could build up a picture of the environment through time. They already knew that the area went through drier periods, as the mud in a region called Old Soaker was cracked. The cracks form as the mud dries out.

The new evidence shows there were wet periods too though. The presence of minerals salts mixed with sediment suggests that shallow ponds once formed there, before drying to leave the salts behind. The ponds would have been briny due to the concentrated salts.

Different sulfate elements found in Mars’ Gale Crater: (a) magnesium sulfate-enriched lithology; (b) calcium sulfate enrichments; (c) euhedral white crystals and heterogeneous calcium sulfate and magnesium sulfate enrichments; (d) areas with calcium sulfate enrichments (red) and without (blue); (e, f) close-up images of a mudstone and a sandstone enriched in calcium sulfate; (g) close-up image of bedrock. Rapin et al, doi: 10.1038/s41561-019-0458-8.

To understand more about the formation of these briny lakes, scientists turned to an environment closer to home: “Given that Earth and Mars were similar in their early days, Sutton Island might have resembled saline lakes on South America’s Altiplano,” Dr. Rapin said.

“Streams and rivers flowing from mountain ranges into this arid, high-altitude plateau lead to closed basins similar to Mars’ ancient Gale Crater… During drier periods, the Altiplano lakes become shallower, and some can dry out completely. The fact that they’re vegetation-free even makes them look a little like Mars.”

The research is published in the journal Nature Geoscience.

Georgina Torbet
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
What happened to Mars’ water? It’s more complicated than we thought
This mosaic of Mars is composed of about 100 Viking Orbiter images. The images were acquired in 1980 during mid-northern summer on Mars.

This mosaic of Mars is composed of about 100 Viking Orbiter images. The images were acquired in 1980 during mid-northern summer on Mars. NASA/JPL-Caltech/USGS

Scientists agree that once, billions of years ago, Mars had liquid water on its surface which formed lakes and oceans. It may even have looked similar to Earth once upon a time. But over time, that water was lost, and Mars is now a dry, arid place. Water exists there only in the form of ice near its poles and in tiny quantities of water vapor in its atmosphere.

Read more
Ancient ‘megaflood’ on Mars shows planet was once capable of supporting life
This composite, false-color image of Mount Sharp inside Gale crater on Mars shows geologists a changing planetary environment. On Mars, the sky is not blue, but the image was made to resemble Earth so that scientists could distinguish stratification layers.

When NASA's Perseverance rover lands in the Gale Crater on Mars early next year, it will set about searching for evidence of ancient life there. We know that Mars once had copious liquid water on its surface and that the presence of liquid water is a key indicator that the area could have been hospitable to life.

Now, a new study finds that the Gale Crater was the site of an ancient 'megaflood,' providing more evidence that this particular location could once have been habitable.

Read more
Mars is losing water due to heat and dust storms, NASA finds
maven orbiter communications realy mavenbeautyshotverticallimb 1

Scientists know that Mars once had oceans of liquid water on its surface, and billions of years ago it may even have looked like Earth. But over time, this water was lost into space, leaving the planet in the arid state we see it today. Just how this happened in an ongoing mystery for scientists to investigate, and now new evidence suggests that the planet's heat and dust play a key role in launching water into space.

Researchers used data from NASA's Mars Atmosphere and Volatile EvolutioN or MAVEN spacecraft, a Mars orbiter that collects data on the upper atmosphere. They found that Mars is still losing water as vapor is sucked up from polar ice caps during the martian summer.

Read more