Evidence Of Vast Mantle Plume Discovered Stretching From The Yellowstone Supervolcano To Mexico

From geysers to hot springs, Yellowstone is a literal hotbed for geothermal activity. This new study could explain why. Nina B./Shutterstock

Madison Dapcevich 21 Mar 2018, 23:15

The supervolcano may have last erupted 630,000 years ago, but its presence still strikes fear in some and it’s easy to see why.

Yes, the caldera is changing shape. Sure, eruptions might prime over just a few decades. Alright, there was that earthquake swarm last month. Now, we've got a new one for you. Yellowstone’s heat source could be coming from much deeper in the Earth than previously believed.

Researchers from the University of Texas discovered fresh evidence of a gigantic plume that extends from the core-mantle boundary (CMB) – the solid segment between the core and mantle – beneath the park to the California-Mexico border. 

If accurate, it backs up the hotly debated plume theory developed in the 1970s, which says the heat that drives activity here – like geysers and hot springs, and volcanism – comes from superheated mantle material rising upward from within the Earth to melt within the lower crust and generate vast amounts of magma.

But finding these deep mantle plumes is no easy task. Typically, scientists measure the arrival of seismic waves from earthquakes to measure the Earth’s interior. Different arrival times lets them see the type of material waves pass through. Here’s the catch: Seismic waves travel horizontally through thin, vertical plumes, which means the waves aren’t really affected by the plume’s presence.

This time around, researchers gathered data from EarthScope’s USArray that records how a seismic wave reflects off and travels through the Earth's core. These waves traveled slower in a “long, thin, sloping zone,” suggesting a section of the mantle is between 600 and 800°C warmer than the surrounding area. And voila! A 350-kilometer (215-mile) cylinder emerged beneath Yellowstone that runs all the way to Mexico.


Courtesy of Nature Geoscience

The volcanic island chain that makes up the Hawaiian archipelago is a classic example of a plume story. Tectonic plates gradually drift over the malleable part of the mantle, but the superheated mantle plumes remain in a fixed position. This means that you get a chain of volcanoes, with old ones losing their heat source as new ones emerge further along the line.

“There are many suspected plumes, or hot spots, around the Earth,” said Michael Poland, scientist-in-charge at the Yellowstone Volcano Observatory, who was not part of the study, in an interview with IFLScience. “Yellowstone is one of them, but it’s a bit more complex.”

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