Extreme
Environments in the Solar System
Humans have
never been limited by their curiosity of the world around them. Rather, they have only been constrained by
the technology enabling them to extend their explorations further and further. We are still discovering and exploring the
nooks and crannies of Earth. For
instance, it has only been within the last few decades that we have had the
technology to venture into the greatest depths of the oceans. In fact, we were
able to set foot on the Moon before exploring parts of our own planet!! In our explorations, we have discovered
unusual and mind-boggling environments.
And many of these environments, despite their often extreme conditions,
have also been identified as harboring living organisms. On Earth, we have started creating lists of
these extreme environments. Ranging from
the dry, cold
Since we
define environments as extreme with respect to a human’s ability to survive, it
shouldn’t come as a surprise that our solar system has many extreme
environments. A handful of these
environments are of interest to astrobiologists as possibly yielding insight
into the origins and evolution of life on Earth. For instance, the environment on Saturn’s
moon Titan may at first seem to be so strange as to be completely unrelated to
anything ever seen on Earth. With a
thick atmosphere, frigid temperatures, and liquid methane lakes, the scenery on
Titan is certainly like nothing beheld by human eyes. However, scientists have long contended that
Titan could be a frozen analog of early Earth.
Consequently, scientists were elated when the Cassini spacecraft
successfully captured images of the surprisingly dynamic moon. With sufficient evidence of tectonism and
erosion, Titan’s extreme environment may reveal secrets about our own planet’s
childhood.
Another
moon within our solar system represents another interesting extreme
environment. Europa, one of Jupiter’s
moons, is covered by a thick, water ice crust that is thought to conceal a
global ocean. With only a very thin
oxygen atmosphere, this cold moon is highly vulnerable to the ionizing
radiation emitted from Jupiter. Life on
the surface of Europa would find it extremely difficult to survive. However, beneath the icy crust life might be
able to seek haven from radiation and find geothermal energy sources at the
bottom of the ocean. Nearly absent of
impact craters, Europa is thought to have a very active surface. Explorations of our own planet might help us
plan future missions to Europa.
One of our
closest neighbors, Mars, has been of the utmost interest to scientists. Its proximity to Earth has made it possible
to send several spacecraft and satellites to the red planet. What has all this instrumentation
revealed? Mars is a cold planet with a
thin atmosphere consisting primarily of carbon dioxide. Bombarded with ultra violet radiation from
our Sun, the surface of Mars is highly oxidized. However, recent Mars missions have revealed
frozen subsurface water in several regions, including a possible frozen sea
near the equator. Frozen water is of the
utmost interest to astrobiologists as most agree that liquid water is the one
prerequisite for life. Despite the harsh
conditions on the planet’s surface, the possibility for pockets of subsurface
liquid water is all too intriguing. Mars
represents one extreme environment in the solar system from which we are able
to collect a significant amount of data.
Extreme
environments in our solar system are the rule rather than the exception. For instance, one look at Jupiter’s four
largest moons reveals four very distinct and extreme environments. Venus, our sister planet, has extremely high
temperatures and acidic conditions.
Mercury is boiling on the side facing our Sun and freezing on the
other. The challenge is not identifying
extreme environments. No, the challenge
will be to identify life in these extreme environments if it does indeed exist
there.
RECOMMENDATIONS:
Life in the
Solar System
Life on
Mars
Life on
Venus
Life on Gas
Giant Planets
Potential
for Life on Europa
Potential
for Life on Titan