The red Martian surface
may be barren and arid, but about a mile underneath Mars' south pole,
scientists think they've found something remarkable.
Using a
ground-penetrating radar aboard the European Space Agency's (ESA) Mars Express
orbiter, a team of researchers appear to have identified a 12-mile (20
kilometer) wide salty lake underneath a massive glacier on Mars.
Their research, published Wednesday in the journal Science, opens
up the potential for human water supplies in similar Martian reservoirs, and
even the possibility that microbial life may live in this liquid place on Mars.
"We’re very
excited about the observation," Jim Green, NASA's Chief Scientist who had
no involvement in the study, said in an interview.
"Their radar
instruments indicate that out of all the things it could be, water is the most likely."
While Green notes that
scientists have spotted
water on Mars before, those previous discoveries mostly centered around
ephemeral surface water that might appear and disappear on very short time
scales.
This new finding, led
by ESA scientists, however, is different.
While some 12 miles in
diameter, the researchers speculate the underground lake is at minimum 1 meter
(over 3 feet) thick, meaning that it's a long, if thin, underground lake.
"We've never found
a reservoir of this size that's like an aquifer [underground water layer] here
on Earth," said Green, noting that Mars was once likely a blue planet like
Earth, covered in vast oceans.
This has obvious
implications for human exploration of the red planet. It's already well-known
that Mars has thick sheets of ice underneath its north polar
regions.
But now, Mars might
also have a system of liquid reservoirs near the surface, which could be of
great value to astronauts — or anyone trying to settle in for a life on the red
planet.
Sure, this
extraterrestrial water might be full of salts, but it can be filtered and made
pure.
"We can handle
that," said Green.
What's more, there also
might be primitive, microbial life flourishing in these isolated waters, buried
deep underground, hidden away from space radiation and Martian surface
extremes.
Many astrobiologists —
scientists who study life in the universe — usually aren't too enthused about
yet another water discovery on Mars, Rebecca Mickol, an astrobiologist at the
Naval Research Laboratory's Center for Biomolecular Science and Engineering,
said in an interview.
"But," said
Mickol, "If there’s a place that can sustain life — that’s another
story."
Life
in the Martian underworld?
While this research
does provide good evidence that the lake exists, there's still no definitive
proof that such a large body of water really does live under Mars'
surface.
NASA hopes to improve
upon this evidence with geologic
observations from its InSight Lander, set to land in November.
But if there is indeed
a briny pool of frigid water sitting beneath a Martian glacier, life very well
could have once survived there over the last 3 billion years.
Or, it could still
thrive today.
"Because the
surface of Mars is so hostile, I wouldn’t be surprised if organisms lived deep
down in the subsurface, especially if there’s a source of water nearby,"
said Mickol, noting that microbial life is abundant deep in the Earth.
There are plenty of challenges,
however, for anything making its home in this water.
First of all, the lake
is thought to be extremely cold. According to the study, researchers think the
body of water is thought to be below freezing at its warmest, at some 26
degrees Fahrenheit (the salt content lowers the water's freezing point).
And the lake's
temperature could also be as low as nearly 70 degrees below zero at its
coldest. There also likely isn't much to eat.
"They do have
something to breathe — everything else is pretty dire," Jennifer Glass, an
astrobiologist at Georgia Tech's School of Earth and Atmospheric Sciences, said
in an interview.
Mars is rich in
perchlorate, a salt often used in propellants on Earth. This might be toxic to
humans, but some microbes thrive on it, like Earth's marine microbes thrive on
carbon dioxide.
"People might
think that’s nasty stuff," said Glass, who wasn't involved in the
research. "That's not true. Microbes can breathe perchlorate — a lot of
life can breathe perchlorate."
And the extreme cold,
too, doesn't eliminate the potential for life.
There are microbes
living in cold glacial lakes in both Antarctica and the Arctic, Jackie
Goordial, who researches extreme microbial life at the Bigelow Laboratory for
Ocean Sciences, said in an interview.
"Currently, the
world champion of cold temperatures is negative 15 degrees Celsius [5 degrees
Fahrenheit]," said Goordial, who took no part in the research. "And
that was from permafrost in the Canadian Arctic."
Microbes living in
frigid liquid water can withstand salt-ridden environments too, noted
Goordial.
"We have life on
Earth that doesn’t just manage to survive, but thrives under these
conditions," she said.
For this reason,
scientists like Goordial are intrigued — if not enthusiastic — about the
potential of a large, long-lived body of water under Mars.
"If this were
true, it would be quite exciting," she said.
Though, getting down
there to actually obtain a sample is extremely challenging.
"Drilling to 1.5
kilometers is hard, even on Earth," said Glass.
It would seem to
require a spacecraft with a formidable drilling apparatus. And scientists would
have to ensure that no earthly microbes aboard the robot would contaminate the
alien water.
"That kind of
mission may be a little far off right now, but would be an exciting
prospect," said Goordial.
"Actually having a
sample in our hands to prove that there’s life — that's the gazillion-dollar
scientific answer we want," said Glass.
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