Surprise: Martian sand dunes are speedy

Rare winds jump-start sand movement on Mars, according to scientists.

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NASA/JPL/University of Arizona
Sand dunes on Nili Patera, just north of the equator, are moving at a steady clip.

Towering sand dunes on Mars, once thought to be ancient and unchanging, are actually dynamic and active today, new satellite observations show.

Using advanced optical images taken by the High Resolution Imaging Science Experiment (HiRISE) on NASA's Mars Reconnaissance Orbiter, scientists tracked the horizontal and vertical motion of sand over time with unprecedented detail.

"We can actually see movement, potentially, of just a few centimeters," planetary geologist Nathan Bridges of Johns Hopkins University told SPACE.com.

Sand in motion

Bridges and his team studied the Nili Patera dune field just north of the Martian equator, taking detailed, high-resolution images over 105 days.

Using a computer program previously used to examine earthquakes and landslides on Earth, the scientists measured movements of the dunes, finding that some of the surface ripples traveled as much as 15 feet (4.5 meters) over the course of the study.  Fast dunes may travel a distance equal to their length over 170 years, while slower dunes take a few thousand years to move. [Video: Sand Dunes Crawl Across Mars' Surface]

Interestingly, the dunes in the Nili Patera move similarly to those in Victoria Valley, Antarctica, on Earth.

Bridges previously worked on a 2010 study that first identified Martian dune motion in the Nili Patera region. So when he wanted a more detailed look at sand dunes, the region seemed like a good place to start.

"We thought, let's test this technology on an area where we know the motion is occurring," Bridges said.

Located on a volcanic feature inside the Syrtis Major region, Nili Patera is a crater with an opening at one end that allows dunes to blow inside of it. However, this area of Mars isn't likely to be unique.

"There's no reason to think that we would not see this in some other areas of Mars, as well," Bridges said.

The researchers intend to examine the dune and ripple motion on other areas of Mars, including regions where the motion may not be obvious without their technique.

A sand-scoured landscape

For a long time, the thin atmosphere on Mars was thought to hinder significant motion of sand across its surface. In order to lift sand from the ground, winds must be about ten times faster than required on Earth.

"These winds do occur on Mars, but they occur very rarely, much more rarely than they do on Earth," Bridges said.

But independent research has shown that the thin atmosphere and the lower gravity may help sustain the motion of the sand by allowing the sand to travel farther and faster without impediment. After the sand has been lifted, the winds needed to keep it moving are only a tenth of the strength of the originating winds.

When grains of sand touch down on the surface, the new grains they kick up travel short distances to create ripples across the dunes. Again, the wind needed to keep them in motion is significantly less than the wind needed to start the process.

This method of travel, suggested independently for the motion of sand on Earth, would explain how Martian dunes are moving despite the fact that the high winds needed to jumpstart the grains are few and far between.

"You need very rare winds to start the sand moving, but once it starts moving, you can keep it going with winds that are more common," Bridges explained.

The research, which will appear in an upcoming edition of the journal Nature, also looks at how much rock can be eroded by wind-blown sand. The team found that as much as 50 microns (millionths of a meter) of rock per year could be scoured away.

"A lot of sand can be moved in the current atmosphere," Bridges said. "By implication, that landscape modification through abrasion by the sand can be significant in the current atmosphere, even though the atmosphere is very thin."

Features on Mars can still suffer erosion by sand, so they may continue to change over time.

"Past climates and such are not necessary to explain the features that we see," he said.

Follow SPACE.com for the latest in space science and exploration news on Twitter @Spacedotcom and on Facebook.

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