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Cassini
Finds Mingling Moons May Share a Dark Past
Tuesday, February 19, 2008
Credit:
NASA/JPL/Space Science Institute
Despite the incredible
diversity of Saturn's icy moons, theirs is a story of great
interaction. Some of them are pock-marked, some seemingly dirty,
others pristine, one spongy, one two-faced, some still spewing
with activity and some seeming to be captured from the far
reaches of the solar system. Yet many of them have a common
thread -- black "stuff" coating their surfaces.
"We
are beginning to unravel the mysteries of these different and
strange moons," said Rosaly Lopes, Cassini scientist at
NASA's Jet Propulsion Laboratory, Pasadena, Calif. She
coordinated a special section of 14 papers about Saturn's icy
moons that appears in the February issue of the journal Icarus.
Taken together, the papers bring an idea that Cassini scientist
Bonnie Buratti calls "the ecology of the Saturn system"
to the forefront. "Ecology is about your entire environment
-- not just one body, but how they all interact," said
Buratti. "The Saturn system is really interesting, and if
you look at the surfaces of the moons, they seem to be altered in
ways that aren't intrinsic to them. There seems to be some
transport in this system."
Though the details of that
transport are not yet clear, mounting evidence suggests that some
mechanism has spread the mysterious dark material found on
several of the moons from one to another; the material may even
have a common cometary origin. Along those lines, several of the
new papers focus on similarities between the dark material found
on different moons -- on Hyperion and Iapetus, for example, or
between Phoebe and Iapetus.
Roger Clark of the U.S.
Geological Survey in Denver goes further, saying, "We see
the same spectral signature on all the moons that have coatings
of dark material." Clark is lead author of one of the new
papers, which focuses on Saturn's moon Dione. His team found the
dark material there to be extremely fine-grained, making up only
a very thin layer on the moon's trailing side. Its distribution
and composition, as measured by the Cassini visual and infrared
mapping spectrometer, indicate that the dark material is not
native to Dione. And scientists see many of the same signatures
there that appear on the moons Phoebe, Iapetus, Hyperion and
Epimetheus, and also in Saturn's F-ring.
As for where
this material comes from and what the dark material is, Clark
said, "It's a mystery, which makes it intriguing. We're
still trying to find the exact match." The visual and
infrared spectrometer detected unique absorption bands in the
dark material within the Saturn system, which scientists have not
seen anywhere else in the solar system. "The data keep
getting better and better," he said. "We're ruling
things out and figuring out pieces." So far, the team has
identified bound water and, possibly, ammonia in the dark
material.
Ongoing geologic activity is another component
of Saturn's ecology as some of the moons continue to feed the
planet's rings, which in turn affect many of the moons.
Clark's
team reports tentative evidence to support the hypothesis
presented earlier this year that Dione is still geologically
active. In one series of observations, the infrared spectrometer
detected a cloud of methane and water ice encircling Dione in its
orbit within the outer portions of Saturn's E-ring.
Of
course the big story is the icy plumes spewing from the warm,
south polar region of Enceladus. These plumes are believed to be
feeding the E-ring. A paper led by Frank Postberg of the Max
Planck Institute for Nuclear Physics in Heidelberg, Germany, says
there are traces of organic compounds or silicate materials
within the water ice-dominated E-ring, close to Enceladus. This
implies that the moon's rocky core and liquid water are
dynamically interacting. The finding could bolster a theory that
Dennis Matson and Julie Castillo of JPL put forth this year,
which said that a warm, organic brew might lie just below
Enceladus' surface.
Cassini's next close study of an icy
moon is the highly-anticipated flyby of Enceladus scheduled for
March 12. During that flyby, Cassini will pass by the active moon
at a distance of only 50 kilometers (30 miles) at its point of
closest approach, and at a distance of around 200 kilometers (120
miles) when it passes through the plumes.
The
Cassini-Huygens mission is a cooperative project of NASA, the
European Space Agency and the Italian Space Agency. JPL, a
division of the California Institute of Technology in Pasadena,
manages the Cassini-Huygens mission for NASA's Science Mission
Directorate, Washington. The Cassini orbiter was designed,
developed and assembled at JPL.
Source:
NASA / JPL
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Several
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