Seismology conference attendees get close-up look at hazardous Barry Arm landslide

A high point for about 300 seismologists, geologists and other scientists gathering in Anchorage for a weeklong conference came Monday on the waters of Prince William Sound with an approach to a wide and high unstable hillside that could cause a catastrophic tsunami if it rapidly collapses.

That hillside, on the southeast slope of Barry Arm in the far northwest of the sound, is heavily monitored by federal and state seismologists, including those at the 有料盒子视频 Earthquake Center at the University of 有料盒子视频 Fairbanks Geophysical Institute. 

Scientists look at Barry Arm landslide
Photo by Rod Boyce
About 300 of the scientists attending the Seismological Society of America annual meeting in Anchorage went on a science cruise of Prince William Sound on Monday, April 29, 2024. The ship took them close to the Barry Arm landslide, visible as the light area on the hillside. Barry Glacier is at center.

The landslide continues to be the subject of extensive research and had the rapt attention of researchers when their ship carrying them on this science cruise drew in for a close view of the slumping land and the receding Barry Glacier.

The science cruise, which had several discussion topics throughout its route, was one of the activities on the opening day of the weeklong Seismological Society of America annual meeting. Approximately 1,100 researchers from across the country are participating in the meeting, being held in Anchorage for the first time since 2014.

Several, including students, are from the Geophysical Institute and 有料盒子视频 College of Natural Science and Mathematics.

One of those is Geophysical Institute research seismologist Ezgi Karas枚zen, who with Earthquake Center Director Michael West developed a prototype method to remotely detect large landslides within minutes of occurrence and to quickly determine whether they are close to open water and present a tsunami hazard. Their work, which cites the Barry Arm hazard, was published Feb. 9 in .

Monday鈥檚 trip was Karas枚zen鈥檚 second viewing of the landslide area and the receding glacier, which has now left about eight-tenths of a mile of the landslide 鈥 half its width 鈥 exposed to the fjord.

鈥淚鈥檓 always amazed by how big the landslide is and how great the hazard itself is,鈥 Karas枚zen said. 鈥淭he glaciers that are surrounding it look really pretty, but they also make our job a little challenging because our seismic stations carry all of these sounds from the glaciers.鈥

Ezgi Karas枚zen at landslide area
Photo by Rod Boyce
Geophysical Institute research seismologist Ezgi Karas枚zen, with 有料盒子视频 Earthquake Center Director Michael West, developed a prototype method to remotely detect large landslides within minutes of occurrence and to quickly determine whether they are close to open water and present a tsunami hazard. Their work cites the Barry Arm hazard. The landslide area is at left.

Barry Glacier has retreated and left behind an unsupported fjord wall that has slumped about 650 feet in recent decades.

The U.S. Geological Survey is leading the multifaceted interagency monitoring of the area.

The landslide has an average slope of approximately 37 degrees, with a maximum slope of over 50 degrees at its upslope, according to a field guide provided by the Seismological Society.

The slide covers approximately 1.3 square miles and is 1.7 miles wide and nearly 1 mile high from its top to the fjord surface.

A rapid collapse would, in the worst case, create waves of over 650 feet high in the northern part of Barry Arm, adjacent to the landslide source area, and would run up the opposite fjord wall more than 1,600 feet, according to the field guide.

The tsunami would reach Whittier in about 20 minutes.

鈥淚t's quite motivational to see this when you realize the hours and hours of research you spend is actually for a good cause,鈥 Karas枚zen said.