Mars Could Once Have Supported Life: What You Need to Know

Studying Habitability in Ancient Martian Environments
This set of images shows the results from the rock abrasion tool from NASA's Mars Exploration Rover Opportunity (left) and the drill from NASA's Curiosity rover (right). Note how the rock grindings from Opportunity are brownish red, indicating the presence of hematite, a strongly oxidized iron-bearing mineral. Image released March 12, 2013. (Image credit: NASA/JPL-Caltech/Cornell/MSSS)

Mars was capable of supporting microbial life in the distant past, scientists announced today (March 12).

They reached this conclusion after studying the latest observations from NASA's Curiosity rover, which just analyzed the first-ever sample collected from the interior of a Red Planet rock.

Here are answers to a few basic questions about Curiosity's discovery, and what it means about the Red Planet's past and the rover's future.

What exactly did Curiosity find?

Last month, Curiosity drilled 2.5 inches (6.4 centimeters) into a rock on a Martian outcrop that mission scientists have dubbed "John Klein." [The Search for Life on Mars (Photo Timeline)]

The rover's onboard Chemistry & Mineralogy (CheMin) and Sample Analysis at Mars (SAM) instruments found some of the chemical ingredients for life in the collected powder, including sulfur, nitrogen, hydrogen, oxygen, phosphorus and carbon. The mix of compounds also suggests that the area may have contained chemical energy sources for potential Red Planet microbes, researchers said.

In addition, the sample contains clay minerals, indicating that the rock was exposed to a benign aqueous environment — such as a neutral-pH lake, for example — billions of years ago.

To be clear, Curiosity found no evidence that life has ever existed on the Red Planet. But its results suggest that the John Klein site could have supported microbes long ago, if they ever evolved on Mars or were transported there.

So what? Didn't we already know that ancient Mars was wet?

Scientists have known for years that water flowed or pooled on the surface of Mars in the ancient past. But there's more to habitability than the mere existence of liquid water.

For primitive microbial life to survive, a site must also have the right chemical makeup and a potential energy source, researchers say. And all of these ingredients were apparently present at John Klein.

Doesn't the right chemical makeup include organic compounds? Did Curiosity find any of those?

The SAM instrument can detect complex organics — the carbon-containing building blocks of life as we know it — and Curiosity is looking for these molecules on Mars, but it hasn't found anything conclusive yet.

The rover did detect two simple chlorinated organics at John Klein, as it did in a scoop of soil at another site called Rocknest late last year. There's no sign of complicated, long-chain organics such as amino acids yet, however.

But such molecules are not necessary for life to thrive, Curiosity scientists said. Here on Earth, many microbes do just fine by incorporating inorganic carbon — such as that contained in carbon dioxide — into their metabolic processes. And SAM did detect carbon dioxide in the John Klein sample.

"That's what we're real excited about," Curiosity chief scientist John Grotzinger, of Caltech in Pasadena, told reporters Tuesday.

This set of images compares rocks seen by NASA's Opportunity rover and Curiosity rover at two different parts of Mars. On the left is " Wopmay" rock, in Endurance Crater, Meridiani Planum, as studied by the Opportunity rover. On the right are the rocks of the "Sheepbed" unit in Yellowknife Bay, in Gale Crater, as seen by Curiosity. Image released March 12, 2013. (Image credit: NASA/JPL-Caltech/Cornell/MSSS)

How sure is the Curiosity team about all of this?

Pretty sure. Scientists typically are careful people loath to go out on a limb about their findings (with good reason, as their colleagues will quickly snap that limb in two if it's not sturdy enough). But there was no hemming and hawing about John Klein's long-ago habitability.

"We have found a habitable environment that is so benign and supportive of life that probably — if this water was around and you had been on the planet, you would have been able to drink it," Grotzinger said.

Does this mean life could survive on Mars today?

Curiosity's new results don't really speak to this issue, instead shedding light on Mars as it existed three billion years ago or so.

The Red Planet is much drier and colder today, making it considerably less hospitable to life as we know it. However, some researchers think Mars may still be capable of supporting microbial life, perhaps in damp, protected pockets underground.

Is Curiosity's mission over now? Hasn't it done what it set out to do?

Curiosity's main goal was to determine if the area around its landing site — Mars' huge Gale Crater — has ever been capable of supporting microbial life. And the 1-ton rover has indeed checked that box, just seven months after touching down.

However, the Curiosity team has no plans to quit now. They want to keep searching for signs of complex organics and investigate other sites, to gain a better understanding of how the Gale Crater area has changed over time. The John Klein site is not even the rover's final destination; at some point, Curiosity will turn its wheels toward interesting deposits at the base of Mount Sharp, the mysterious 3-mile-high (5 kilometers) mountain that rises from Gale Crater's center.

Scientists continue to stress that Curiosity's mission is discovery-driven, meaning they'll shape their plans around whatever the robot finds as it rolls across the Martian surface.

"Mars has written its autobiography in the rocks of Gale Crater, and we've just started deciphering that story," said Michael Meyer, lead scientist for NASA's Mars Exploration Program at the agency's headquarters in Washington.

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Mike Wall
Senior Space Writer

Michael Wall is a Senior Space Writer with and joined the team in 2010. He primarily covers exoplanets, spaceflight and military space, but has been known to dabble in the space art beat. His book about the search for alien life, "Out There," was published on Nov. 13, 2018. Before becoming a science writer, Michael worked as a herpetologist and wildlife biologist. He has a Ph.D. in evolutionary biology from the University of Sydney, Australia, a bachelor's degree from the University of Arizona, and a graduate certificate in science writing from the University of California, Santa Cruz. To find out what his latest project is, you can follow Michael on Twitter.