The results explain the geography of Gale Crater (the Curiosity rover’s landing site) as well as other high-topped places on the Red Planet, and confirm that wind is currently the dominant force in Mars’ geology. (Mars has no widespread plate tectonics or liquid water today).
Martian mounds have been known for decades, ever since the NASA Viking program saw them in the 1970s. More recently, the Curiosity rover has performed detailed analysis of the mound in Gale Crater. The data shows that the mound is made of sedimentary (layered) rock. Sediments at the mound’s bottom came from water, while those at the top of the mound were laid down by wind.
It was unclear, however, how the entire mound was formed. To test the theory that perhaps wind created mounds like that found in Gale Crater, researchers created a mini-crater on Earth and put it in a wind tunnel.
The crater was 30 centimeters (12 inches) wide and four centimeters (1.6 inches) deep. After putting damp sand inside, researchers watched the wind shape the sand until it was blown away. Through the process, researchers captured pictures of the “crater” that showed similar shapes to real craters and mounds on Mars.
Results were backed up by a computer model showing the wind’s movements through the crater as it progressed through different erosion stages. Researchers also pointed out that the mounds’ structure — with water-borne sediments on the bottom, and wind-borne at the top — again shows evidence of a warmer, wetter Mars in the distant past.
Read more at Discovery News
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