Skip to main content
  1. Home
  2. Emerging Tech
  3. News

Only on Mars! Why the odd dunes spotted by Curiosity can’t occur on Earth

Add as a preferred source on Google

All eyes are on Jupiter as Juno dove into the gas giant’s orbit yesterday, but last week scientists announced an intriguing finding from Mars – close-up observations from NASA’s Curiosity rover revealed details of unique kinds of wind-sculpted sand ripples.

These mid-sized ripples are unlike those found here in Earth’s deserts, which can be classified as either small ripples (decimeter-scale) or large dunes (hundred-meter-scale). “On Mars, we found that there is an additional type of bedform of an intermediate scale,” the science team collaborator for the Curiosity mission, Matheiu Laporte, told Digital Trends. “These large Martian wind ripples have crest-to-crest spacings ranging between one and five meters, and they do not look like bedforms one would find in sand in Earth’s deserts.” Laporte and his team published there findings on Friday in the journal Science.

Recommended Videos

The Martian ripples weren’t unknown to the Curiosity team. “They are ubiquitous on the Red Planet, and are large enough to be resolved by HiRISE (the highest-resolution camera that is currently orbiting Mars),” Laporte says. But when Curiosity got up close and personal, the scientists were able to see the formations in finer details and appreciate how truly unique they are.

“Our first thought was that they look just like current-ripples that form along Earth’s riverbeds,” Laporte says. “One of the most important observations was that there are small, decimeter-scale ripples superimposed on the large ripples. The coexistence of two scales of superimposed active ripples called for two distinct formation mechanisms.”

On Earth, sand on riverbeds is dispersed differently than sand in deserts. Whereas water drags grains of sand due to the liquid’s high viscosity, air’s low viscosity means that desert sand hops on the surface and collides with other grains of sand, which hop and collide with more sand, creating small impact ripples.

“Now on Mars, the very low density of the Martian atmosphere actually enhances the relative efficiency of drag; such that both types of bedforms appear to form by the action of winds on a sandy surface,” Laporte explains. “We thus call the intermediate-scale bedforms ‘wind-drag ripples,’ by analogy to the fluid-drag ripples formed underwater on Earth, and by opposition to the impact-ripples found in Earth’s sandy deserts.”

The study of these mid-sized ripples is just the beginning of the discovery. Since the ripples’ size and spacing differ depending on atmospheric density, preserved wind-drag ripples in Martian rock can give clues to atmospheric conditions in the planet’s history. “This is very exciting because it is thought that Mars once had a thicker atmosphere,” Laporte says, “but the timing and duration of the decline of the Martian atmosphere remains an open question.”

Dyllan Furness
Former Contributor
Dyllan Furness is a freelance writer from Florida. He covers strange science and emerging tech for Digital Trends, focusing…
Study finds humans will talk to AI ghosts of the dead as reincarnations, and it’s pretty grim
The first AI ghost study is in. The results are about as complicated as you'd expect.
VR Headset, Person, Face

A new study from the University of Colorado Boulder confirms something that sounds both impressive and concerning. People find interacting with AI simulations of their dead loved ones deeply meaningful, and most will come away wanting to do it again.

The researchers call it a "generative ghost," which is a clear reference to generative AI, but I’d still prefer to call it unsettling.

Read more
China’s UBTech unveils eerily lifelike companion robots, and yes, they want to move in with you
UBTech's new humanoid robots are built for companionship, using emotion-aware AI, long-term memory, and humanlike expressions to become part of your everyday life.
UBTech Uworld U1 series robot launch

A humanoid robot designed to live in your house, learn your habits, and pick up on your mood without being prompted is no longer science fiction. Shenzhen-based UBTech Robotics unveiled its Uworld U1 series this week, introducing three robots built for companionship rather than factory work or household chores.

A body that moves like yours, and a brain that reads how you feel

Read more
This $249 LED sign wants to fix your work-life balance
My productivity isn't worth $249... or is it?
Flipper Busy Bar

Flipper Devices has built a reputation among hackers and hardware enthusiasts with the Flipper Zero, a pocket-sized gadget capable of interacting with RFID, NFC, Bluetooth, and other wireless protocols. Now, the London-based company is taking a very different approach.

Its latest product, the Busy Bar, is a desktop productivity display designed to help users stay focused, signal their availability, and automate parts of their workflow. After being teased last year, the device is finally going on sale on July 14. While the concept is genuinely clever, its starting price of up to $249 may make many buyers think twice.

Read more