Dwayne Brown
Headquarters, Washington
Geoff Brown
Johns Hopkins University Applied Physics
Laboratory, Laurel, Md.
Guy Webster
Jet Propulsion Laboratory, Pasadena,
Calif.
WASHINGTON -- NASA's Mars Reconnaissance
Orbiter (MRO) has revealed that movement in sand dune fields on the Red Planet
occurs on a surprisingly large scale, about the same as in dune fields on
Earth.
This is unexpected because Mars has a
much thinner atmosphere than Earth, is only about one percent as dense, and its
high-speed winds are less frequent and weaker than Earth's.
For years, researchers debated whether
or not sand dunes observed on Mars were mostly fossil features related to past
climate, rather than currently active. In the past two years, researchers using
images from MRO's High Resolution Imaging Science Experiment (HiRISE) camera
have detected and reported sand movement.
Now, scientists using HiRISE images have
determined that entire dunes as thick as 200 feet are moving as coherent units
across the Martian landscape. The study was published online today by the
journal Nature.
"This exciting discovery will
inform scientists trying to better understand the changing surface conditions
of Mars on a more global scale," said Doug McCuistion, director of NASA's
Mars Exploration Program in Washington. "This improved understanding of
surface dynamics will provide vital information in planning future robotic and
human Mars exploration missions."
Researchers analyzed before-and-after
images using a new software tool developed at the California Institute of
Technology (Caltech) in Pasadena. The tool measured changes in the position of
sand ripples, revealing the ripples move faster the higher up they are on a
dune.
The study examined images taken in 2007
and 2010 of the Nili Patera sand dune field located near the Martian equator.
By correlating ripples' movement to their position on the dune, the analysis
determined the entire dunes are moving. This allows researchers to estimate the
volume, or flux, of moving sand.
"We chose Nili Patera because we
knew there was sand motion going on there, and we could quantify it," said
Nathan Bridges, a planetary scientist at Johns Hopkins University Applied
Physics Laboratory in Laurel, Md., and lead author of the Nature paper.
"The Nili dunes also are similar to dunes in places like Antarctica and to
other locations on Mars."
The study adds important information
about the pace at which blowing sand could be actively eroding rocks on Mars.
Using the new information about the volume of sand that is moving, scientists
estimate rocks in Nili Patera would be worn away at about the same pace as
rocks near sand dunes in Antarctica, where similar sand fluxes occur.
"Our new data shows wind activity
is indeed a major agent of evolution of the landscape on Mars," said
Jean-Philippe Avouac, Caltech team leader. "This is important because it
tells us something about the current state of Mars and how the planet is
working today, geologically."
Scientists calculate that if someone
stood in the Nili Patera dunes and measured out a one-yard width, they would
see more than two cubic yards of sand pass by in an Earth year, about as much
as in a children's sand box.
"No one had estimates of this flux
before," said Bridges. "We had seen with HiRISE that there was dune
motion, but it was an open question how much sand could be moving. Now, we can
answer that."
Scientists will use the information to
understand broader mysteries on Mars, like why so much of the surface appears
heavily eroded, how that occurred, and whether it is a current process or it
was done in the past. Scientists can now point to sand flux as a mechanism
capable of creating significant erosion today on the Red Planet.
The HiRISE camera provides unprecedented
resolution in studying the Martian landscape. NASA's Jet Propulsion Laboratory
manages MRO for NASA's Science Mission Directorate in Washington. Lockheed
Martin Space Systems, Denver, built the spacecraft. HiRISE is operated by the
University of Arizona and was built by Ball Aerospace & Technologies Corp.,
Boulder, Colo.
For related images and more information
about MRO, visit http://www.nasa.gov/mro.
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