High-resolution photos of lava flows on Mars reveal coiling spiral patterns that resemble snail or nautilus shells. Such patterns have been found in a few locations on Earth, but never before on Mars. The discovery, made by Arizona State University graduate student Andrew Ryan, is announced in a paper published April 27, 2012, in the scientific journal Science.
The new result came out of research into possible interactions of lava flows and floods of water in the Elysium volcanic province of Mars.
“I was interested in Martian outflow channels and was particularly intrigued by Athabasca Valles and Cerberus Palus, both part of Elysium,” says Ryan, who is in his first year as a graduate student in ASU’s School of Earth and Space Exploration, part of the College of Liberal Arts and Sciences. Philip Christensen, Regents’ Professor of Geological Sciences at ASU, is second author on the paper.
“Athabasca Valles has a very interesting history,” Ryan says.
“There’s an extensive literature on the area, as well as an intriguing combination of seemingly fluvial and volcanic features.”
Among the features are large slabs or plates that resemble broken floes of pack ice in the Arctic Ocean on Earth. In the past, a few scientists have argued that the plates in Elysium are in fact underlain by water ice.
Assessing those claims that ice was present today beneath the lava plates drove Ryan to study the area. “My initial goal,” he says, “was to model the nighttime infrared temperatures of the plates. Then I became fascinated by the terrain lying between the plates and the high-centered polygonal patterns found there.” This led him to look closely at every available image of the region.
“I examined probably 100 HiRISE images of the area,” he says, referring to the High Resolution Imaging Science Experiment camera on the Mars Reconnaissance Orbiter. In addition, he pored over daytime and nighttime infrared and visual images from the Thermal Emission Imaging System (THEMIS) camera on Mars Odyssey orbiter. (Christensen is THEMIS’ principal investigator.) Images taken by the Context Camera (CTX) on Mars Reconnaissance Orbiter, the High Resolution Stereo Camera (HRSC) on Mars Express, and the Mars Orbiter Camera
“One evening,” Ryan recounts, “I was making a second pass over the HiRISE images when I first noticed puzzling spiral patterns in an image near the southern margin of Cerberus Palus. I actually nearly overlooked that particular frame, thinking that it might not be too useful, being so far away from main study area farther north.”
He notes, “The coils become noticeable in the full-resolution HiRISE image only when you really zoom in. They also tend to blend in with the rest of the light-gray terrain — that is, until you stretch the contrast a bit.
“I don’t find it surprising that these were overlooked in the past. I nearly missed them too.”
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