For years, the conventional
wisdom was that Mars existed as little more than a cold, barren dust
ball in space. The idea that it once supported life was considered
unlikely. But then we started sending probes the the Red Planet, and
more recently rovers like
Curiosity.
Since its arrival in 2012, Curiosity has covered more ground than all
previous rovers, and now mission scientists are comfortable saying that
Mars would have been capable of harboring life for hundreds of millions
of years in the past.
Curiosity landed in a region known as
Yellowknife in Gale Crater, and has been making its way up to higher
elevations around Mount Sharp, which is in the middle of Gale Crater.
This gives it a chance to investigate the strata as it ascends,
essentially scanning the Martian past.
The new proclamation of Mars as a potential
long-term home to ancient life comes from Curiosity science team member
John Grotzinger, who
spoke on the topic
at a recent meeting of the American Geophysical Union (AGU). We’ve
known from samples all the way back to Yellowknife that Gale Crater most
likely played host to a vast lake and stream system, but it was not
present continuously. That doesn’t necessarily mean everything living
there disappeared with the water, though.
According to Grotzinger, analysis of Curiosity
data from various levels in Gale Crater paint a picture of fresh,
neutral pH water that got more acidic and salty over time. The lakes
also completely dried up and refilled repeatedly over the course of
millions of years. Despite this, simple microorganisms could have
persisted in the groundwater, ready to take advantage when standing
water again flooded the surface.
Curiosity has also identified a great diversity of minerals on
Mars,
which points to a complex chemical history — just the sort of thing
life requires. The rover has detected many of the same minerals we have
on Earth, including clays, magnetite, and boron.
There’s even silica,
which scientists are particularly happy about. On Earth, silica has
been good at preserving microscopic fossils. If life did exist on Mars
in the past, we might find strong evidence for it in silica deposits.
This is all assuming alien life on Mars
operates by the same rules as life on Earth. That’s certainly not a
given. Even life on Earth can seem almost alien at times. Single-celled
extremophiles can survive (and even thrive) in conditions too hot,
acidic, or salty for any other organism. Maybe something like that lived
(or lives?) on Mars. We might find more clues when
NASA’s 2020 rover project heads to the Red Planet.
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