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- Mars has huge dust storms<\/strong> that can cover the entire planet. But what about in the past?<\/li>\n
- Odd ripple marks on slabs of bedrock,<\/strong> which the Curiosity rover found, are evidence of an even stronger sandstorm about 3.5 billion years ago.<\/li>\n
- The ripples are also further evidence<\/strong> that Mars\u2019 thin atmosphere used to be much thicker billions of years ago.<\/li>\n<\/ul>\n
Ancient sandstorm on Mars<\/h3>\n
Mars is well-known for its huge dust storms, or sandstorms. They are common, even in Mars\u2019 extremely thin atmosphere. Now, NASA\u2019s Curiosity rover has found the first definitive evidence of an ancient sandstorm on Mars, about 3.5 billion years ago. A team of researchers, led by the Imperial College London in the U.K., said on April 4, 2026, that the intense sandstorm blew through Gale Crater, a large Martian crater that includes regions such as Jawbone Canyon. The clues come from \u201ccrinkly\u201d ripple marks that the rover found on rock slabs.<\/p>\n
These kinds of ripple marks are rare on Earth, and it\u2019s the first time we\u2019ve seen them on Mars. Sustained winds blowing sand are needed to form them. Most other sedimentary structures record trends from seasonal to thousands of years. But these kinds of ripples record wind storms that lasted from only minutes to hours.<\/p>\n
The journal Geology<\/em> published the peer-reviewed details of this discovery on March 27, 2026.<\/p>\n
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The martian atmosphere is currently 200 times thinner than that of Earth. A 3 billion-year-old sandstorm recorded in the rocks could be the first direct evidence that wasn’t always so. My latest for @science.org.??? ??<\/p>\n
\u2014 James Dinneen (@jamesdinneen.bsky.social) 2026-04-06T19:22:13.723Z<\/p>\n<\/blockquote>\n
Ripples in the sediments<\/h3>\n
So how did the researchers find evidence for this huge ancient sandstorm? The answer is in ripple structures in the sedimentary rock slabs. These small millimeter-thick \u201ccrinkly\u201d lamination-type markings are rarely seen on Earth. These ripples are also known as supercritical climbing wind ripple strata<\/em>. Only sustained winds moving a lot of sand can form them.<\/p>\n
And indeed, Mars had a much thicker atmosphere a few billion years ago. So that means it must have had stronger winds, too. It still has winds today, but those winds are weaker in the thinner atmosphere. Steven Banham is a planetary geologist at Imperial College London and lead author of the new study. He said:<\/p>\n
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Everybody knows that the wind blew on Mars. There was an atmosphere, so it must have moved, forming breezes and gusts, and so there must have been storms, too. But this is the first definitive evidence that we\u2019ve found of such a sandstorm.<\/p>\n<\/blockquote>\n
![\"Black](\"https:\/\/earthsky.org\/upl\/2026\/04\/wind-ripples-rocks-Mars-Curiosity-rover-wider-view-Jawbone-Canyon-sol-4391-December-13-2024.jpg\")
View larger. | Wider view of the region on Mars, including Jawbone Canyon, where Curiosity found the ancient ripples. Image via NASA\/ JPL-Caltech\/ Phys.org.<\/figcaption><\/figure>\n Short and long wind events<\/h3>\n
The ripples record single wind gusts that last only a few minutes. But they also document a longer sustained wind event lasting several hours or more. The paper states:<\/p>\n
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These are the shortest duration fluctuations in wind speed identified for ancient Mars thus far, recording extremely transient atmospheric conditions during a time when the Martian climate was becoming increasingly arid. Finally, these climbing ripple sets occur in a thin succession, which suggests that they record a broader sustained event, such as a sandstorm or gale, lasting several hours or more. This is the first direct physical evidence of such an event on Mars.<\/p>\n<\/blockquote>\n
The sandstorm was short-lived, but intense, as Banham explained:<\/p>\n
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The thing that absolutely amazes me, is you just think that on a Tuesday afternoon, sometime, maybe 3.6 billion or so years ago, there was a sandstorm that rolled into Gale Crater. It would be like one of those scenes in [the movie] \u201cDune\u201d where there\u2019s a sandstorm happening and these ripple structures would be forming as a result. Then maybe the next day, the wind returns to normal, and it\u2019s just another sunny day in Gale Crater. But that sandstorm happened, and we have the physical evidence for it here.<\/p>\n<\/blockquote>\n
![\"Large](\"https:\/\/earthsky.org\/upl\/2018\/07\/mars-dust-April-2018-ESA-Mars-Express-cp-e1532014930898.jpg\")
View larger. | ESA\u2019s Mars Express spacecraft imaged a local dust storm on Mars in April 2018, a precursor to a dramatic planet-circling event. Image via ESA.<\/figcaption><\/figure>\n A serendipitous discovery<\/h3>\n
The discovery of the ripples was a lucky one, as it turned out. Banham and his colleagues happened to notice the ripples in the black-and-white panorama images from the rover. The ripples were in bedrock blocks in an area called Jawbone Canyon. Curiosity took images of them on sol 4391 (December 13, 2024). But the researchers weren\u2019t quite sure what they were at first. Closer inspection showed they were ripples in the rock slabs, but they looked a bit unusual. Banham said:<\/p>\n
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This was very serendipitous. We weren\u2019t really looking for these deposits, and then lo and behold, we drove around the corner and found them. We were lucky that we had just the right people on shift that recognized them.<\/p>\n<\/blockquote>\n
In fact, the ripples looked just like the millimeter-thick \u201ccrinkly\u201d laminations seen on Earth, a kind that only blowing sand can produce.<\/p>\n
![\"Smiling](\"https:\/\/earthsky.org\/upl\/2026\/04\/Steven-Banham-Imperial-College-London-e1776171073682.jpeg\")
Steven Banham is a planetary geologist at Imperial College London and the lead author of the new study about sandstorms on Mars. Image via Imperial College London.<\/figcaption><\/figure>\n Evidence for a denser atmosphere long ago<\/h3>\n
There is already ample evidence that Mars\u2019 atmosphere used to be denser and more earthlike billions of years ago. These new findings now add to that evidence. Currently, the thin atmosphere isn\u2019t thick enough to blow sand at the intensity revealed by the ripples. So that means the atmosphere must have been substantially denser than it is now. As Banham noted:<\/p>\n
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These deposits in themselves indicate that the atmosphere was denser at the time than it is now, to form these structures.<\/p>\n<\/blockquote>\n
![\"Reddish-brown](\"https:\/\/earthsky.org\/upl\/2025\/04\/river-lake-rain-Gale-crater-Mars-artist-concept-December-10-2014.jpg\")
View larger. | Artist\u2019s concept of the ancient lake in Gale Crater on Mars and the river that flowed into it. Besides sandstorms, scientists have also found evidence that rain or snow on Mars created rivers that fed the lakes billions of years ago. The sandstorm researchers are now hoping to find evidence of ancient raindrops preserved in rocks. Image via Kevin Gill\/ Flickr (CC BY 2.0).<\/figcaption><\/figure>\n Looking for ancient raindrops on Mars<\/h3>\n
A study from 2025 showed how rain or snow created rivers that fed ancient lakes on Mars. The researchers are now hoping to find definitive evidence for that ancient rain on Mars, in the form of preserved rain impact marks. So far, rovers and landers haven\u2019t found any yet. Banham said:<\/p>\n
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People have been looking for those since Pathfinder and the MER rovers, and nobody\u2019s seen them. It must have rained, as we\u2019ve seen evidence of rivers and lake deposits. But we\u2019ve not got that definitive evidence of rain until we see rain impacts. That would be magic if we found those.<\/p>\n<\/blockquote>\n
Bottom line: Dust storms are common on Mars. But ripples in blocks of bedrock have revealed evidence of a more intense sandstorm on Mars about 3.5 billion years ago.<\/p>\n
You deserve a daily dose of good news.<\/strong> For the latest in science and the night sky, click here to subscribe to our free daily newsletter.<\/p>\n
Source: An ancient sandstorm recorded by supercritical climbing wind ripple strata in Gale Crater, Mars<\/p>\n
Via Geological Society of America\/ Astrobiology<\/p>\n
Read more: Dust storms swirl at Mars\u2019 north pole<\/p>\n
Read more: Lightning on Mars? Electric sparks in dust devils confirmed<\/p>\n
<\/div>\n
\n - Odd ripple marks on slabs of bedrock,<\/strong> which the Curiosity rover found, are evidence of an even stronger sandstorm about 3.5 billion years ago.<\/li>\n