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Saturn's
Dynamic Moon Enceladus Shows More Signs of Activity
Monday, December 15, 2008
Credit:
NASA/JPL/Space Science Institute
The closer scientists look
at Saturn's small moon Enceladus, the more they find evidence of
an active world. The most recent flybys of Enceladus made by
NASA's Cassini spacecraft have provided new signs of ongoing
changes on and around the moon. The latest high-resolution images
of Enceladus show signs that the south polar surface changes over
time.
Close views of the southern polar region, where
jets of water vapor and icy particles spew from vents within the
moon's distinctive "tiger stripe" fractures, provide
surprising evidence of Earth-like tectonics. They yield new
insight into what may be happening within the fractures. The
latest data on the plume -- the huge cloud of vapor and particles
fed by the jets that extend into space -- show it varies over
time and has a far-reaching effect on Saturn's magnetosphere.
"Of all the geologic provinces in the Saturn system
that Cassini has explored, none has been more thrilling or
carries greater implications than the region at the southernmost
portion of Enceladus," said Carolyn Porco, Cassini imaging
team leader at the Space Science Institute in Boulder, Colo.
A
panel of Cassini scientists, including Porco, presented these new
findings today in a news briefing at the American Geophysical
Union's fall meeting in San Francisco.
"Enceladus
has Earth-like spreading of the icy crust, but with an exotic
difference -- the spreading is almost all in one direction, like
a conveyor belt," said panelist Paul Helfenstein, Cassini
imaging associate at Cornell University in Ithaca, N.Y.
"Asymmetric spreading like this is unusual on Earth and not
well understood."
"Enceladus has asymmetric
spreading on steroids," Helfenstein added. "We are not
certain about the geological mechanisms that control the
spreading, but we see patterns of divergence and
mountain-building similar to what we see on Earth, which suggests
that subsurface heat and convection are involved."
The
tiger stripes are analogous to the mid-ocean ridges on Earth's
seafloor where volcanic material wells up and creates new crust.
Using Cassini-based digital maps of the south polar region of
Enceladus, Helfenstein reconstructed a possible history of the
tiger stripes by working backward in time and progressively
snipping away older and older sections of the map. Each time he
found that the remaining sections fit together like puzzle
pieces.
Images from recent close Enceladus flybys also
have bolstered an idea the Cassini imaging team has that
condensation from the jets erupting from the surface may create
ice plugs that close off old vents and force new vents to open.
The opening and clogging of vents also corresponds with
measurements indicating the plume varies from month to month and
year to year.
"We see no obvious distinguishing
markings on the surface in the immediate vicinity of each jet
source, which suggests that the vents may open and close and thus
migrate up and down the fractures over time," Porco said.
"Over time, the particles that rain down onto the surface
from the jets may form a continuous blanket of snow along a
fracture."
Enceladus' output of ice and vapor
dramatically impacts the entire Saturnian system by supplying the
ring system with fresh material and loading ionized gas from
water vapor into Saturn's magnetosphere.
"The ions
added to the magnetosphere are spun up from Enceladus' orbital
speed to the rotational speed of Saturn," said Cassini
magnetometer science team member Christopher Russell of the
University of California, Los Angeles. "The more material is
added by the plume, the harder this is for Saturn to do, and the
longer it takes to accelerate the new material."
With
water vapor, organic compounds and excess heat emerging from
Enceladus' south polar terrain, scientists are intrigued by the
possibility of a liquid-water-rich habitable zone beneath the
moon's south pole.
Cassini's flybys on Aug. 11 and Oct.
31 of this year targeted Enceladus' fractured southern region. An
Oct. 9 flyby took the spacecraft deep into the plume of water
vapor and ice shooting out of the moon's vents. Cassini's next
flyby of Enceladus will be in November 2009.
The
Cassini-Huygens mission is a cooperative project of NASA, the
European Space Agency and the Italian Space Agency. The Jet
Propulsion Laboratory, 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 and its two onboard cameras were designed, developed and
assembled at JPL. The imaging team is based at the Space Science
Institute, Boulder, Colo. The magnetometer team is based at
Imperial College in London, working with team members from the
United States and several European countries.
Source:
NASA / JPL
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