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NASA space assets detect ocean inside Saturn Moon

pia18071 enceladus-interior (1)
-Courtesy Photo

NASA’s Cassini spacecraft and Deep Space Network have uncovered evidence Saturn’s
moon Enceladus harbors a large underground ocean of liquid water, furthering scientific
interest in the moon as a potential home to extraterrestrial microbes.

Researchers theorized the presence of an interior reservoir of water in 2005 when Cassini
discovered water vapor and ice spewing from vents near the moon’s south pole. The new
data provide the first geophysical measurements of the internal structure of Enceladus,
consistent with the existence of a hidden ocean inside the moon. Findings from the gravity
measurements are in the Friday, April 4 edition of the journal Science.

“The way we deduce gravity variations is a concept in physics called the Doppler Effect, the
same principle used with a speed-measuring radar gun,” said Sami Asmar of NASA’s Jet
Propulsion Laboratory in Pasadena, Calif., a coauthor of the paper. “As the spacecraft flies
by Enceladus, its velocity is perturbed by an amount that depends on variations in the
gravity field that we’re trying to measure. We see the change in velocity as a change in radio
frequency, received at our ground stations here all the way across the solar system.”

The gravity measurements suggest a large, possibly regional, ocean about 6 miles (10
kilometers) deep, beneath an ice shell about 19 to 25 miles (30 to 40 kilometers) thick. The
subsurface ocean evidence supports the inclusion of Enceladus among the most likely
places in our solar system to host microbial life. Before Cassini reached Saturn in July 2004,
no version of that short list included this icy moon, barely 300 miles (500 kilometers) in
diameter.

“This then provides one possible story to explain why water is gushing out of these fractures
we see at the south pole,” said David Stevenson of the California Institute of Technology,
Pasadena, one of the paper’s co-authors.

Cassini has flown near Enceladus 19 times. Three flybys, from 2010 to 2012, yielded
precise trajectory measurements. The gravitational tug of a planetary body, such as
Enceladus, alters a spacecraft’s flight path. Variations in the gravity field, such as those
caused by mountains on the surface or differences in underground composition, can be
detected as changes in the spacecraft’s velocity, measured from Earth.

The technique of analyzing a radio signal between Cassini and the Deep Space Network
can detect changes in velocity as small as less than one foot per hour (90 microns per
second). With this precision, the flyby data yielded evidence of a zone inside the southern
end of the moon with higher density than other portions of the interior.

The south pole area has a surface depression that causes a dip in the local tug of gravity.
However, the magnitude of the dip is less than expected given the size of the depression,
leading researchers to conclude the depression’s effect is partially offset by a high-density
feature in the region, beneath the surface.

“The Cassini gravity measurements show a negative gravity anomaly at the south pole that
however is not as large as expected from the deep depression detected by the onboard
camera,” said the paper’s lead author, Luciano Iess of Sapienza University of Rome. “Hence
the conclusion that there must be a denser material at depth that compensates the missing
mass: very likely liquid water, which is seven percent denser than ice. The magnitude of the
anomaly gave us the size of the water reservoir.”

There is no certainty the subsurface ocean supplies the water plume spraying out of surface
fractures near the south pole of Enceladus, however, scientists reason it is a real possibility.
The fractures may lead down to a part of the moon that is tidally heated by the moon’s
repeated flexing, as it follows an eccentric orbit around Saturn.

Much of the excitement about the Cassini mission’s discovery of the Enceladus water plume
stems from the possibility that it originates from a wet environment that could be a favorable
environment for microbial life.

“Material from Enceladus’ south polar jets contains salty water and organic molecules, the
basic chemical ingredients for life,” said Linda Spilker, Cassini’s project scientist at JPL.
“Their discovery expanded our view of the ‘habitable zone’ within our solar system and in
planetary systems of other stars. This new validation that an ocean of water underlies the
jets furthers understanding about this intriguing environment.”

The Cassini-Huygens mission is a cooperative project of NASA, the European Space
Agency and the Italian Space Agency. JPL manages the mission for NASA’s Science
Mission Directorate in Washington. For more information about Cassini, visit: http://www.nasa.gov/cassini and http://saturn.jpl.nasa.gov.

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Posted by on April 10, 2014. Filed under Current News. You can follow any responses to this entry through the RSS 2.0. You can leave a response or trackback to this entry

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