From orbit, this landscape on Mars looks like a lacy honeycomb or a spider web. But the unusual polygon-shaped features aren’t created by Martian bees or spiders; They are actually formed from an ongoing process of seasonal change from created from water ice and carbon dioxide.
The HiRISE camera (High Resolution Imaging Science Experiment) on the Mars Reconnaissance Orbiter has seen a lot of polygon shapes in the years since 2006 when it went into orbit of Mars. The science team from HiRISE say that both water and carbon dioxide in the solid form of dry ice play a major role in sculpting Mars’ surface at high latitudes. Water ice frozen in the soil splits the ground into the polygon shapes. Then, dry ice sublimating from just under the surface when the ground warms in the spring creates even more erosion, creating channels around the boundaries of the polygons.
The polygons form over many years as the near-surface ice contracts and expands seasonally.
Remove All Ads on Universe Today
Join our Patreon for as little as $3!
Get the ad-free experience for life
But this polygon-covered region shows even more springtime activity, evidenced by the blue fan-shaped features. Scientists say the layer of translucent dry ice coating the surface develops vents that allow gas to escape.
“The gas carries along fine particles of material from the surface further eroding the channels,” the team wrote on the HiRISE website. “The particles drop to the surface in dark fan-shaped deposits. Sometimes the dark particles sink into the dry ice, leaving bright marks where the fans were originally deposited. Often the vent closes, then opens again, so we see two or more fans originating from the same spot but oriented in different directions as the wind changes.”
Scientists study polygonally-patterned ground on Mars because these features help them understand the recent and past distribution of ices in the shallow subsurface, as well as providing clues about climate conditions.
And Mars isn’t the only place with polygons. Polygons can be found in Earth’s arctic and Antarctic regions, and the 2015 flyby by the New Horizons spacecraft revealed polygons on Pluto as well.