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Volcanic Crystals Give a New View of Magma

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Volcano in New Zealand
Mount Tarawera, New Zealand. An eruption 700 years ago created these lava domes, and brought to the surface zircon crystals that reveal the history of changes in the magma chamber below. Understanding what happens in the magma chamber could lead to a better understanding of when and how volcanoes erupt. The volcano was split by another eruption in 1886. Photo by Kari Cooper, 澳门六合彩资料库 Davis.

Quick Summary

  • Crystals from rocks expelled in earlier eruptions reveal past conditions in magma
  • Magma is usually cold and solid, process of melting before eruption is relatively short
  • Could ultimately help forecast when volcanos are most dangerous

Volcanologists are gaining a new understanding of what鈥檚 going on inside the magma reservoir that lies below an active volcano, and they鈥檙e finding a colder, more solid place than previously thought, according to new research published June 16 in the journal . It鈥檚 a new view of how volcanoes work, and could eventually help volcanologists get a better idea of when a volcano poses the most risk.

鈥淥ur concept of what a magma reservoir looks like has to change,鈥 said Kari Cooper, professor of earth and physical sciences at the University of California, Davis, and corresponding author on the paper.

It鈥檚 hard to study magma directly. Even at volcanic sites, it lies miles beneath the earth鈥檚 surface and while geologists have occasionally drilled into magma by accident or design, heat and pressure destroy any instrument you could try to put into it.

Instead, Cooper and her colleagues collected zircon crystals from debris deposited around Mount Tarawera in New Zealand by an eruption about 700 years ago. That eruption, roughly five times the size of Mount St. Helens in 1980, brought lava to the surface that had resided in the reservoir, exposed to its temperature and chemistry. Once on the surface, that record of the past was frozen in place.

The crystals are like a 鈥渂lack box鈥 flight recorder for studying volcanic eruptions, Cooper said. 鈥淚nstead of trying to piece together the wreckage, the crystals can tell us what was going on while they were below the surface, including the run-up to an eruption.鈥

By studying trace components within seven zircon crystals, they could determine when the crystals first formed and how long during their life within the magma reservoir they were exposed to high heat (over 700 degrees Celsius). The crystals give information about the state of the part of the magma reservoir in which they resided.

Zircon crystal
One of the crystals used in the study. The hole at upper right is where a piece was removed with a laser. The chemical profile across the crystal reveals the conditions under which it formed and survived in the magma chamber. Credit: Allison Rubin

The researchers found that all but one of the seven crystals were at least tens of thousands of years old, but had spent only a small percentage (less than about 4 percent) exposed to molten magma.

A snow cone, not a molten lake

The picture that emerges, Cooper said, is less a seething mass of molten rock than something like a snow cone: mostly solid and crystalline, with a little liquid seeping through it.

To create an eruption, a certain amount of that solid, crystalline magma has to melt and mobilize, possibly by interacting with hotter liquid stored elsewhere in the reservoir. The pre-eruption magma likely draws material from different parts of the reservoir, and it happens very quickly in geological time 鈥 over decades to centuries. That implies that it may be possible to identify volcanoes at highest risk of eruption by looking for those where the magma is most mobile.

Interestingly, all the crystals studied had remained unmelted in Mount Tarawera鈥檚 magma reservoir through a gigantic eruption that occurred about 45,000 years ago, before being blown out in the smaller eruption 700 years ago. That shows that magma mobilization must be a complex process.

鈥淭o understand volcanic eruptions, we need to be able to decipher signals the volcano gives us before it erupts,鈥 says Jennifer Wade, a program director in the National Science Foundation鈥檚 Division of Earth Sciences, which funded the research. 鈥淭his study backs up the clock to the time before an eruption, and uses signals in crystals to understand when magma goes from being stored to being mobilized for an eruption.鈥 

Co-authors on the paper are: Allison Rubin at 澳门六合彩资料库 Davis; Christy Till and Maitrayee Bose, Arizona State University; Adam Kent, Oregon State University; Fidel Costa, Nanyang Technical University, Singapore; Darren Gravley and Jim Cole, University of Canterbury, Christchurch, New Zealand; and Chad Deering, Michigan Technological University. 

Media Resources

Kari Cooper, 澳门六合彩资料库 Davis Earth and Planetary Sciences, 530-754-8826, kmcooper@ucdavis.edu

Andy Fell, 澳门六合彩资料库 Davis News and Media Relations, 530-752-4533, ahfell@ucdavis.edu

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