[meteorite-list] Mystery on Saturn's Satellite: Icy Debris Formed Iapetus' Ridge?

From: Ron Baalke <baalke_at_meteoritecentral.com>
Date: Mon, 13 Dec 2010 12:36:07 -0800 (PST)
Message-ID: <201012132036.oBDKa75q003832_at_zagami.jpl.nasa.gov>

The Johns Hopkins University Applied Physics Laboratory
Office of Communications and Public Affairs
Laurel, Maryland

Media Contacts: Michael Buckley, JHU/APL
(240) 228-7536 or (443) 778-7536
Michael.Buckley at jhuapl.edu

Paul Francuch, University of Illinois at Chicago
(312) 996-3457
Francuch at uic.edu

Diana Lutz, Washington University in St. Louis
(314) 935-5272
dlutz at wustl.edu

December 13, 2010

FOR IMMEDIATE RELEASE

MYSTERY ON SATURN'S SATELLITE: ICY DEBRIS FORMED IAPETUS' RIDGE?

As space-based probes and telescopes continue to reveal new and
seemingly unimaginable features of our universe, a geological
landmark on Saturn's moon Iapetus ranks high on the list of things
particularly peculiar.

Images provided by NASA's Cassini spacecraft in 2005 reveal an almost
straight-line mountain range that towers higher than 12 miles and
spreads as wide as 60 miles, spanning more than 75 percent of the
equatorial belt on Iapetus - the ringed planet's third-largest moon
at 900 miles in diameter. It is shaped like a walnut, which has a
ridge between the halves of its shell, but the Iapetus ridge is
higher than Mount Everest and extends for thousands of miles - almost
completely around the moon's equator.

"There's nothing else like it in the solar system," says Andrew
Dombard, associate professor of earth and environmental sciences at
the University of Illinois at Chicago (UIC). "It's something we've
never seen before and didn't expect to see."

While other scientists have hypothesized that Iapetus' mountains were
formed by internal forces such as volcanism, Dombard, along with
Andrew Cheng, chief scientist in the Space Department at the Johns
Hopkins University Applied Physics Laboratory in Laurel, Md., William
McKinnon, professor of earth and planetary sciences at Washington
University in St. Louis and Jonathan Kay, a UIC graduate student
studying with Dombard, think the mountains resulted from icy debris
raining down from a sub-satellite, a mini-moon orbiting Iapetus that
burst into bits under tidal forces of the larger moon.

"Imagine all of these particles coming down horizontally across the
equatorial surface at about 400 meters per second - the speed of a
rifle bullet, one after another, like frozen baseballs," says
McKinnon. "At first, the debris would have made holes to form a
groove that eventually filled up."

The scientists think the phenomenon is the result of what planetary
scientists call a "giant impact," where crashing and coalescing
debris during the solar system's formation more than 4 billion years
ago created satellites such as Earth's moon and Pluto's largest
satellite, Charon.

They've done a preliminary analysis demonstrating the plausibility of
impact formation and subsequent evolution of Iapetus' sub-satellite.
Dombard says Iapetus is the solar system's moon with the largest Hill
Sphere - the zone surrounding a moon where the gravitational force is
stronger than that of the planet it circles. "It is the only moon far
enough from its planet, and large enough relative to its planet, that
a giant impact may be able to form a sub-satellite," Cheng says.

This fact lends plausibility to the rain of debris along the equator
hypothesis, Dombard says, but he adds that more sophisticated
computer modeling and analysis is planned in the coming years to back it up.

Several other models have been proposed by scientists about what
caused this odd formation of mountains on Iapetus, but Dombard says
they all have shortcomings.

"There are three critical observations that you need to explain," he
says "Why the mountains sit on the equator, why it's found only on
the equator, and why only on Iapetus? Previous models address maybe
one or two of those critical observations. We think we can explain all three."

The planetary scientists will present details of their model on Dec.
15 at the American Geophysical Union Fall Meeting in San Francisco.

###

The Applied Physics Laboratory, a division of The Johns Hopkins
University, meets critical national challenges through the innovative
application of science and technology. For more information, visit
http://www.jhuapl.edu
Received on Mon 13 Dec 2010 03:36:07 PM PST


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