'Supervolcano' forming near New Zealand

STACEY KIRK
Last updated 18:54 13/02/2013
BENEATH THE CRUST: Earth’s surface superimposed on a depiction of what a new University of Utah study indicates is happening 2900 kilometres deep at the boundary between Earth’s warm, rocky mantle and its liquid outer core.
MICHAEL S THORNE/University of Utah

BENEATH THE CRUST: Earth’s surface superimposed on a depiction of what a new University of Utah study indicates is happening 2900 kilometres deep at the boundary between Earth’s warm, rocky mantle and its liquid outer core.

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A "supervolcano" forming deep below the Earth's crust north of New Zealand, will have the power to destroy the world, but scientists are urging people not to worry - it could be 100 million years away.

University of Utah seismologist Michael Thorne has been studying seismic waves beating through the Earth's crust, and says the ingredients are there for a "cataclysmic" eruption.

"What we may be detecting is the start of one of these large eruptive events that - if it ever happens - could cause very massive destruction on Earth."

But Thorne cautioned people not to cancel their cruises just yet.

"This is the type of mechanism that may generate massive plume eruptions, but on the timescale of 100 million to 200 million years from now."

The study has found that deep beneath the Pacific Ocean, near Samoa, two or more continent-sized piles of rock were colliding as they moved at the bottom of Earth's thick mantle and atop the thicker core.

Published this week in international science journal Earth and Planetary Science, the study has found a huge zone of partly-molten rock is forming which had the potential to end in two ways.

It could end in a "hotspot plume supervolcano eruption", similar to one two million years ago in Wyoming, which covered North America in ash.

Otherwise, the likely alternative was a "gargantuan flood basalt eruption", which created large areas of igneous rock, like the Pacific Northwest's Columbia River basalts 17 million to 15 million years ago.

"These very large, massive eruptions may be tied to some extinction events."

Thorne said high resolution seismic imaging showed an ongoing collision between the piles of rock was merging in a "spongy blob of partly molten rock" underneath the volcanically active hotspot.

Seismic imaging uses earthquake waves to make images of Earth's interior similar to the way X-rays make CT scan pictures of the inside of the human body.

The study has pieced together the largest set of data ever used to map the lower mantle in the Pacific region by using 4,221 seismograms from hundreds of seismometers around the world that detected 51 deep earthquakes originating more than 100 kilometres under the surface. 

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- © Fairfax NZ News

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