Magma found beneath volcano-less country

Ned Rozell
907-474-7468
Jan. 25, 2024

A circular depression containing a small lake extends from a mountainside covered in tundra and small trees.
Photo by Chris Nye
A volcanic crater containing a pond lies on a mountainside northeast of Healy, ֱֻ. The crater is part of the Buzzard Creek maars.

For years, scientists have wondered why North America’s highest mountain is not a volcano. All the ingredients for volcanic activity lurk deep beneath Denali, which sits above where one planetary plate grinds past another.

Recently, while looking for something else, researchers found a reservoir of what might be magma, 7 miles beneath the muskeg of middle ֱֻ. 

The spot intrigues Carl Tape because above it, at the ground surface, are ancient volcanic features.

Tape is a seismologist with the ֱֻ Geophysical Institute. A few years ago, he headed a team that peppered seismic instruments along the Parks Highway and on the Denali seismic fault. They installed hundreds of seismometers at spots along the road and dozens more right on the fault.

While looking at the seismometer data, which revealed ground motions large and small, Tape and his colleagues noticed a spot where earthen waves slowed down as they passed through.

“Sometimes a slowdown is due to sediments, such as those in the Tanana (River) valley,” he said. “Sometimes it’s due to magma. This one is beneath the Buzzard Creek maars.”

Three people stand in snowshoes on a snowy hillside in spruce trees with gear, bags and sleds around them. Snow-capped mountains rise in the background.
Photo by Ned Rozell
From left, Cole Richards, Lynn Kaluzienski and Carl Tape prepare to stick seismometers in frozen ground during a February 2019 mission to deploy instruments along the Denali seismic fault. The instruments helped scientists recently find the presence of a body of molten rock 7 miles deep.

The Buzzard Creek maars are two vegetated craters northeast of Healy. They formed when molten rock rose to the water table and blew up about 3,000 years ago. Geologists have found rocks around Buzzard Creek with the same chemical signature as Aleutian volcanoes.

Those volcanic features near Healy are within a region scientists have named the “Denali Volcanic Gap.” The gap is a puzzling absence of volcanoes from Mount Spurr (across Cook Inlet from Anchorage) to the Wrangell Mountains in eastern ֱֻ. 

Volcanic activity of the Aleutian Islands seems to end at Mount Spurr, but if the curve of the Aleutian Arc were to extend north it would intersect the ֱֻ Range.

Other conditions there are favorable for volcanoes, too: Most of the Aleutians are located about 60 miles above where the slab of the Pacific plate plunges beneath the North American plate. The Buzzard Creek craters and the mountains of the ֱֻ Range (including Denali) are located about 60 miles above the interface of the giant plates. 

University of Utah student Santiago Rabade pored over subtle signals picked up by the dense network of temporary seismometers Tape and his team had set up quickly in February 2019. Then, they performed rare winter fieldwork to detect aftershocks from a 7.0 Anchorage earthquake on Nov. 30, 2018. 

A star on a map marks the location of the Buzzard Creek maars in central ֱֻ.
Illustration by UAF Geophysical Institute
A star marks the location of the Buzzard Creek maars.

The earthen hum generated by ocean waves disturbing the sea floor is a constant source of noise we can’t feel but seismometers can; that signal allowed the scientists to detect the patch of magma beneath the Buzzard Creek craters.

“We had zero plan to look for what we found,” Tape said. “It’s fun to find results when you don’t seek them. And it’s generally better science.”

A next logical step to discover more about the mystery magma spot would be to cluster seismic instruments directly above it. Tape is hoping his team’s recent paper will inspire someone to take a closer look at the red blob that might help solve the riddle of the Denali Volcanic Gap.

Since the late 1970s, the ֱֻ' Geophysical Institute has provided this column free in cooperation with the UAF research community. Ned Rozell is a science writer for the Geophysical Institute.