A Hidden Ocean On Enceladus That May Harbor Life
It's
turning out that the outer reaches of the solar system may be more
hospitable to life than we ever imagined. Gravity measurements made by
Cassini have confirmed that Enceladus, a tiny moon orbiting Saturn,
hosts a subsurface ocean in its southern latitudes. Astronomers are now
saying it's potentially habitable.
The
idea that Enceladus may host a subsurface ocean is nothing new. Back in
2005, NASA's Cassini spacecraft beamed back images showing what
appeared to be plumes of water vapor spewing out from fractures, called
"tiger stripes," near the icy moon's southern pole (similar to what was recently detected on Europa,
another icy moon with a subsurface ocean). By itself, these plumes
didn't prove that liquid water existed under the ice. It's conceivable,
for example, that massive tectonic forces exerted by Saturn's gravity
was creating friction along the plates of ice, resulting in cracks and
the jettisoning of liquid water.
But
now, after an analysis of gravity measurements made by Cassini from
2010 to 2012, astronomers have confirmed that a large reservoir of
liquid water exists underneath Enceladus's icy surface. And just as
importantly, they've confirmed that the tiny moon is a differentiated
celestial body; it's comprised of two layers — an external icy layer and
an internal rocky core made up of silicates. Excitingly, this layer of
silicate rock, in conjunction with liquid water, means that Enceladus
features a potentially habitable environment — one that could be even
more hospitable to life than Europa.
A Negative Gravity Anomaly
Geophysical
data provided by Cassini revealed a rather strange thing about
Enceladus. The moon's southern region featured a negative gravity
anomaly. These anomalies exist when there's less mass in a particular
region that what would be expected in an otherwise uniform spherical
body. Enceladus has a depression on its surface at the south pole, so
scientists were expecting to find this negative mass anomaly. But what
they weren't expecting to find was one so large; it was considerably
bigger than what would be predicted by the depression alone.
What
this suggested to the astronomers, a team consisting of Luciano Iess of
Sapienza University of Rome and David Stevenson, a professor of
Planetary Science at Caltech, is that a denser mass must exist under the
surface to compensate. And because water is denser than ice, the only
reasonable explanation is that liquid water resides underneath.
The Southern Reservoir
Unlike
Europa and its global subsurface ocean, Enceladus has an ocean in the
southern regions. It extends from the south pole in all directions to
about 50 degrees south — about half-way to the equator. This ocean is
deepest near the south pole. Astronomers haven't ruled out the
possibility of something larger, but the current data does not support
it.
Enceladus,
which is only 310 miles (500 km) in diameter, features a large water
reservoir about 18 to 25 miles (30 to 40 km) beneath the icy surface.
This liquid layer is about 5 to 6 miles (8 to 10 km) deep. Its total
water volume is similar to that of Lake Superior's — the largest of the
Great Lakes.
That
Enceladus can host liquid water comes as somewhat of a surprise. The
surface temperature of the moon is -180 degrees C (-292 degrees F).
Speaking at a press conference yesterday, Stevenson conjectured that
Saturn's intense gravitational forces are likely responsible for
creating the required energy. Alternately, there could be some kind of
internal energy source. Enceladus's small size may account for its
partial ocean (Europa is much bigger — about the size of our moon).
The
scientists aren't entirely sure why the ocean is located in the south,
but it's likely that the flexing and heating of the ice is pronounced in
the polar regions — a process that feeds back on itself creating
increasing amounts of lubrication.
As
for the plumes, they're probably caused by tidal forces that are
flexing and heating the ice. A kind of plumbing system likely connects
the ocean through the cracks to the surface.
The Importance of Silicates to Life
As
noted, Enceladus features a rocky core made up of silicates and at a
density of about 2.4 grams per cubic centimeter. This is exciting for
astrobiologists because silicate provides many materials essential for
life, such as phosphorous and sulphur. And in fact, scientists have
already detected evidence of salts and organic molecules in the plumes
and near the tiger stripes. Because the water is in contact with
silicates in the presence of energy, chemical reactions are possible.
Taken together, this means that Enceladus is — in the words of the
researchers — "an attractive place to look for life."
Related: The rocket that could take us to Enceladus.
Interestingly,
astronomers don't know if Europa hosts organic molecules or silicates
(water ice in contact with liquid water behaves much differently). But
Enceladus does. This means that Enceladus may actually be a better candidate for life than Europa.
Indeed,
one of the main take-aways from this research is that potentially
habitable environments are emerging in completely unexpected places. In
time, the outer solar system may yield a cornucopia of life-friendly
environments. Given that Titan, Callisto and Ganymede may also host
subsurface oceans (still unconfirmed), a certain kind of "habitablezone
for outer gas giants" may actually exist — though the potential for
these remote regions to foster the development of intelligent life is
unknown and likely at an extremely low probability.
Next Steps
Looking
ahead, astronomers would like to gain a better understanding of the
moon's interior structure. They'd like to know the exact location, size,
and shape of the reservoir that supplies the jets. Measuring gravity
anomalies will continue to inform this research.
As
for future missions, spectrographic measurements of the plumes could
yield more insights into the molecular makeup of the water.
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