We May Have Just A Year To Prepare For A Supervolcanic Eruption

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When the next supervolcanic eruption comes around, we’ll probably only have a year’s warning. As scary as this sounds, this is actually good news – we have time to evacuate those most at risk, if we know what to look for when one of them is about to blow its top.

As described in a new study in PLOS ONE, analysis of an ancient supereruption in eastern California has provided volcanologists with a detailed history of the last moments of these monstrous magma-filled beasts. It seems that you can tell a lot from the beautiful patterns hidden within magmatic crystals – including how long it takes for magma to prime itself for a cataclysmic eruption.

After a supervolcano empties its magmatic contents into the sky, it takes a while to refill its magma chamber again – some say this recharge process takes just 500 years, but most say at least tens of thousands of years. When the chamber is full, it slowly builds up pressure. As it sits there, different parts of the magma cool and experience localized changes in pressure, and these environmental fluctuations are chemically recorded in the rims of the crystals that begin to form as a result.

Just before the magma breaches the overlying rock in an eruption, there will be an accelerating drop in pressure as dissolved gas begins escaping from the liquid magma. In line with findings from a previous study focusing on Mount St. Helens, this team found that the crystals from the 760,000-year-old Californian Long Valley Caldera supereruption reveal that, from the end of the chamber’s recharge period to the point of eruption, no more than a year of time passes.

Although this sounds short, this means that when the next supereruption is due to occur somewhere else on Earth, humanity – if it’s lucky – may have a full year to prepare for it.

“Supereruptions have been described as the ultimate geologic hazard,” the team of researchers, from Vanderbilt University and the University of Chicago, write in their paper. “Understanding the potential hazards associated with supereruptions is the ultimate geologic exercise.”

760,000 years ago, an enormous explosion ripped through California, and created a cauldron-like pit (caldera) that measured 32 by 18 kilometers (20 by 11 miles) across. The supervolcanic blast was so violent that the entire magma chamber was emptied and a vast section of the land collapsed in on itself, and almost the entire western US was buried in ash.

Although powerful, it pales in comparison to other eruptions. Toba’s last supereruption, for example, would have wiped out an area equivalent to 25 New York Cities. This research, therefore, may in the long-term prove to be a game-changer for volcanological prediction.

The business of determining when a volcano will erupt is less tricky than the equivalent for dangerous earthquakes, but it’s still no easy task. Certain warning signs – like ground deformation, sulfurous gas release, and precursor earthquakes – do provide volcanologists with perhaps a few days warning, but in many other cases, the eruption occurs with little to no warning at all, and many lives are often lost.

If this research is validated, then – providing we can recognize the surface-level signs of its impending explosion – societies may be able to provide their citizens with a considerable amount of time to evacuate the region. Yellowstone and Campi Flegrei, two other dormant calderas, currently sleep beneath highly populated villages, towns, and cities.

Ultimately, if properly applied, this is the sort of research that can save millions of lives.

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