We’ll have only 1-year to get ready for a super-eruption

Volcanic events large enough to devastate Earth have taken place in a number of places worldwide in the recent geological past. It seems inevitable that another super-eruption will strike in the future.

Now scientists say the warning signs would probably show up about a year before a big eruption.

In the United States, Yellowstone has experienced three super-eruptions over the last two million years.

That’s the conclusion of a new microscopic analysis of quartz crystals in pumice taken from the Bishop Tuff in eastern California, which is the site of the super-eruption that formed the Long Valley Caldera 760,000 years ago.

“The evolution of a giant, super-eruption-feeding magma body is characterized by events taking place at a variety of time scales,” says Guilherme Gualda, associate professor of earth and environment sciences at Vanderbilt University.

Tens of thousands of years are needed to prime the crust to generate sufficient eruptible magma. Once established, these melt-rich, giant magma bodies are unstable features that last for only centuries to few millennia.

“Now we have shown that the onset of the process of decompression, which releases the gas bubbles that power the eruption, starts less than a year before eruption.”

Bishop Tuff in California
Bishop Tuff in California, the site of a super-eruption. (Credit: US Geological Survey)

Gualda and Stephen Sutton at the University of Chicago analyzed dozens of small quartz crystals from the Bishop Tuff. Previous investigations of quartz crystals from several super-eruptions, including Long Valley, have noted that they have distinctive surface rims. These studies concluded that the rims formed in less than a century before eruption.

The new study, published in PLOS ONE, uses a more accurate method for measuring rim growth times pinned on variations in the concentration of titanium in the crystal.

Days to months before eruption

Titanium is one of the few impurities that is incorporated into quartz in appreciable amounts and it diffuses fast enough to permit probing of time scales as short as minutes. However, it is extremely difficult to measure the small levels of titanium involved at sufficient spatial resolution. So the researchers established that the concentration of titanium in quartz directly correlates with the amount of light produced when a material is bombarded by electrons, an effect called cathodoluminescence.

This allowed them to use cathodoluminescence images to make high-resolution measurements of variations in titanium concentration and, based on this, to determine rim growth times and growth rates.

‘Blebs’ of magma say super-eruptions form quickly

“Maximum rim growth times span from approximately 1 minute to 35 years, with a median of approximately 4 days. More than 70 percent of rim growth times are less than 1 year, showing that quartz rims have mostly grown in the days to months prior to eruption,” they write in the paper. “Growth took place under conditions of high supersaturation suggesting that rim growth marks the onset of decompression and the transition from pre-eruptive to syn-eruptive conditions.”

According to Gualda, the decompression period would likely be accompanied by the expansion of the magma body, which should have detectable effects on the Earth’s surface. While more work is needed to understand what exactly the signs at the surface would be, the study suggests that signs of an impending super-eruption would start to be felt within a year of eruption, and they would intensify as the eruption neared.

Past super-eruptions

The Taupo Volcanic Zone in New Zealand was the site of the most recent super-eruption—the Oruanui eruption at 26,500 years—and it includes deposits from more than a dozen very large eruptions that took place in the last couple of million years.

Campi Flegrei in Italy produced a very large eruption 40,000 years ago.

Indonesia was the site of the Toba super-eruption in Sumatra 75,000 years ago and the Tambora eruption in 1815.

In the United States, Yellowstone has experienced three super-eruptions over the last two million years.

“As far as we can determine, none of these places currently house the type of melt-rich, giant magma body needed to produce a super-eruption,” says Gualda. “However, they are places where super-eruptions have happened in the past so are more likely to happen in the future.”

Gualda and Sutton’s study provides new insights into the timescales over which the initiation of such a potentially civilization-ending event would take place.

The National Science Foundation supported the project.

Source: Vanderbilt University

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Source: Futurity