LOS ANGELES — Scientists dissecting the remains of the disastrous 1980 explosion of Mount St. Helens in Washington state say that crystal formations trapped in volcanic rocks hold important clues about when a magma-loaded mountain is about to blow — a discovery that could help volcanologists make more accurate predictions about future eruptions.
The findings, published in Friday’s edition of the journal Science, link the movement of underground magma to earthquakes, gas emissions and other warning signs that are more accessible to experts who monitor active volcanoes above ground.
Volcanic eruptions, like earthquakes, are notoriously difficult to predict. Volcanoes are able to stay dormant for decades, even centuries, before suddenly exploding and wreaking havoc around them. The 2010 eruption of Iceland’s glacier-bound Eyjafjallajokull volcano after nearly 200 years of peaceful slumber filled the skies with ash, grounding flights into and out of northern Europe.
An imminent eruption can often be picked up if seismometers in the area detect the smaller earthquakes that precede an eruption. This is what occurred in the lead-up to the Mount St. Helens event, allowing officials to evacuate the surrounding areas before the eruption — which saw the crumbling of the mountain’s north slope, 57 deaths, ash deposited in 11 states and more than $1 billion in damage at the time. Smaller eruptions continued through 1986; the volcano was last active in 2008.
But scientists weren’t able to firmly link the signs they see above ground with what’s happening below, said Olivier Bachmann, a volcanologist at the University of Washington who was not involved in the study.
“It is an ongoing challenge,” Bachmann said. “I think this paper is a step forward toward trying to better understand this link.”
To find out what was happening beneath the surface, scientists looked at a type of crystal that forms in the magma when it’s underground. These so-called orthopyroxene crystals can be magnesium-rich or iron-rich, and their chemical qualities depend on the magma around them — how hot it is, how much water or how many gas bubbles it contains, what sort of pressure the molten rock is under and what the magma is made out of in the first place.
“Crystals are a bit like a book: If you know your alphabet you can read the book,” said volcanologist Kate Saunders of the University of Bristol in England, who led the study. “They provide a record for what happens. If we know what to look for and how to read them, we can work out the processes that formed the magma and how long it took these processes to occur.”
The crystals form what look like tree rings and can tell scientists about the surrounding magma.
Front Section, Pages 11 on 05/27/2012