HiRISE image of the Bagnold Dunes (Image: NASA/JPL via Mathieu Lapotre)

No, it’s not aliens writing messages in the sand. But there is something weird happening on Mars’ surface—and it’s something that hasn’t been seen anywhere else in the universe.




Researchers looking at images from the Mars Reconnaissance Orbiter and the Curiosity rover spotted a strange combination of almost wave-like ripples forming in the sands of Mars. Over time, these formations often even solidified into rock, resulting in these strange landscape photos:

Wind-drag ripples in formation on High Dune (Image: NASA/JPL-Caltech via Mathieu Lapotre)


The research into the unique Martian features was led by Caltech’s Mathieu Lapôtre and is detailed today in Science. The researchers say that the ripples are formed by the wind, and they owe their unique appearance to some peculiarities of the Martian atmosphere.



We see sand dunes formed by the wind here on Earth, too, of course. But these Martian sand formations are something completely different. The tiny peaks are not as big as the dunes we see form on Earth, and yet they’re much bigger and sturdier than the ripples that a breeze stirs up in the sand. In fact, the formations, which the researchers are calling “wind-drag ripples,” look like something on Earth—but not anything we see on land. Instead, they look remarkably similar to underwater currents.

Wind-drag ripples in formation at Nili Patera (Image: NASA/JPL via Mathieu LaPotre)

The reason for the similarity, Lapôtre told Gizmodo, is Mars’ thin atmosphere.



“It is the low density of the Martian atmosphere that increases the viscosity of air on Mars,” he said, “and thus promotes the formation of the large Martian ripples through wind-drag.”


Although the feature has only been spotted on Mars so far, Lapôtre thinks it’s possible we’ll find similar features elsewhere—we just haven’t gotten close enough to see them yet.

“Comet 67P/Churyumov Gerasimenko and Pluto come to mind,” he said. “While ripple-like features have been previously observed on the comet during the Rosetta mission, the spatial resolution of the beautiful images taken by the New Horizons spacecraft are likely too coarse to resolve possible wind-drag ripples on the grounds of Pluto.”


HiRise photo of wind-drag ripples in formation on Namib Dune (Image: NASA/JPL via Mathieu Lapotre)

The formations don’t just look interesting—they could also reveal how Mars’ atmosphere, which was once more Earth-like, became the way it is.




“Because the spacing and size of wind-drag ripples vary with the density of the atmosphere under which they form, we can now look for preserved ‘fossil’ wind-drag ripples in ancient sandstones on Mars, and constrain past atmospheric conditions,” Lapôtre said.

He’s already used the technique on the 3.7 billion year old Burns Formation in Victoria crater, which Opportunity visited in 2007. Although the formation is incredibly old, the ripples are still present. That means that Mars probably lost its thick atmosphere sometime before that 3.7 billion year mark.