Nasa Perseverance rover proves Mars crater was once giant lake

Images taken by Nasa’s Perseverance rover confirm Mars’ Jezero crater was once a quiet lake, fed steadily by a small river some 3.7 billion years ago.

The study shows how much water flowed into the crater – which today is a dry, wind-deteriorated depression – and indicates where the rover could search for signs of life.

The first scientific examination of the images also discloses evidence that the crater endured flash floods.

This flooding was vigorous enough to sweep up large boulders from tens of miles upstream and place them into the lakebed, where the enormous rocks nevertheless lie today.

Researchers based their findings on images of the rocks inside the crater on its western side.

Satellites had before shown that this outcrop – when seen from above – resembled river deltas on Earth, where layers of hydroelectricity are deposited in the shape of a fan as the river feeds into a lake.
Taken from inside the crater, the new images confirm this outcrop was indeed a river delta.

Image taken by Nasa’s Perseverance rover which proves Mars’ Jezero crater was once a quiet lake, fed steadily by a small river some 3.7 billion years ago

According to the study, the lake was calm for much of its existence, until a emotional shift in climate triggered episodic flooding at or toward the end of the lake’s history.

Benjamin Weiss, professor of planetary sciences in the Massachusetts Institute of Technology’s (MIT) department of earth, atmospheric and planetary sciences, was a member of the examination team.

He said: “If you look at these images, you’re basically staring at this epic desert scenery. It’s the most forlorn place you could ever visit.
“There’s not a drop of water anywhere, and however, here we have evidence of a very different past.

“Something very profound happened in the planet’s history.”
Now that they have confirmed the crater was once a lake ecosystem, scientists believe its sediments could keep up traces of ancient aqueous life.

Perseverance will look for locations to collect and preserve sediments, and these samples will ultimately be returned to Earth, where scientists can probe them for Martian life.

Team member Tanja Bosak, associate professor of geobiology at MIT, said: “We now have the opportunity to look for fossils.
“It will take some time to get to the rocks that we really hope to sample for signs of life. So, it’s a marathon, with a lot of possible.”

Prof Weiss additional: “The most surprising thing that’s come out of these images is the possible opportunity to catch the time when this crater transitioned from an Earth-like habitable ecosystem, to this desolate scenery wasteland we see now”

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