Supervolcanoes erupted on ancient Mars, study suggests
Before this, only small, young volcanoes had been identified on Red Planet
Scientists have found evidence of massive, extremely explosive ancient volcanoes on Mars that could once have had a big influence on the climate of the Red Planet.
The discovery of such “supervolcanoes” on Mars “fundamentally changes the picture of ancient volcanism and climate evolution on Mars,” said a paper published Wednesday in the journal Nature, describing the evidence.
Supervolcanoes are giant, very explosive volcanoes that blast out more than 1,000 cubic kilometres of volcanic material when they erupt – enough to fill two lakes the size of Lake Erie. On Earth, one of the most well-known is the one beneath Yellowstone National Park in the U.S. Because supervolcanoes erupt too quickly and violently to build up a large amount of lava around their vent, they don’t have the characteristic cone shape typically associated with smaller volcanoes. The ancient supervolcanoes on Mars, which are estimated to have been active more than 3.5 billion years ago, now appear as irregularly shaped craters on a highland area of Mars called Arabia Terra. Previously, scientists that thought the craters might have been caused by the impact of an object such as a meteor.
However, Joseph Michalski, a researcher at the Planetary Science institute in Tucson, Ariz., and Jacob Bleacher, a researcher at the NASA Goddard Space Flight Center at the Natural History Museum in London, England, carefully analyzed the craters, including one known as Eden patera that was described as the “best example.”
Similar to supervolcanoes on Earth
They found that Eden patera did not show any evidence of an impact – for example, it isn’t surrounded by debris that would have been ejected by an impact, it doesn’t have an uplifted rim, it isn’t circular enough, and it’s much deeper than would be expected for an impact crater of its diameter.
Meanwhile, it had features very similar to those of supervolcanoes on Earth. The researchers concluded it is more likely the craters were produced by supervolcanoes that underwent a massive eruption, and then collapsed.
The apparent supervolcanoes were also well positioned to have produced huge deposits of layered rock and powdery sediments in the areas where Curiosity and previous rovers landed. Up until now, scientists have puzzled over where those deposits might have come from.
Researchers had already known about younger volcanoes on Mars, smaller than supervolcanoes (although some, such as Olympus Mons, are very large nevertheless), which are similar in shape to those in Hawaii, said Michalski in a statement from the Museum of Natural History.