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Technology: New method to detect landslides and weather they pose tsunami hazard

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Los Angeles: Researchers have developed a method for remotely detecting massive landslides within minutes of their occurrence and determining whether they are near open water and pose a tsunami hazard.

They claimed in a new study that their approach to detecting a landslide's location, volume, and possible impact is fast enough to support the National Oceanic and Atmospheric Administration's goal of providing a tsunami warning within 5 minutes of a landslide.

"The warming climate is causing glaciers to retreat, leaving behind valleys whose mountainsides and hillsides have lost their support," said research seismologist Ezgi Karasozen of the UAF Geophysical Institute. "This is important, especially in regions like southern coastal Alaska, because huge masses of land can and do spill into water and cause tsunamis."

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Karasozen and Michael West, director of the Alaska Earthquake Center at the Geophysical Institute, detailed their method in a paper published in the journal The Seismic Record. West also serves as Alaska's state seismologist.

Their paper calls attention to the danger by pointing to a 2015 landslide that sent 100 million cubic yards of rock into Alaska's Taan Fjord, located off Icy Bay, 65 miles northwest of Yakutat. The slide created a tsunami that stripped vegetation as high as 620 feet above the waterline.

A prototype system by Karasozen and West capable of real-time detection has been in place since August in the area of the Barry Arm of Prince William Sound. It uses data from seismic stations already in the Alaska network.

State and federal agencies fear a landslide and tsunami could occur at Barry Arm, where Barry Glacier has retreated and left behind an unsupported fjord wall that has slumped about 650 feet in recent decades. A retrospective analysis of seismic station data at Barry Arm revealed three landslides that occurred in 2020 and 2021.

Karasozen and West write that the instability "has prompted concerns that a catastrophic failure could generate a tsunami with several meters of peak wave height reaching nearby communities in just 20 minutes."

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

"With an earthquake, there are instruments that measure ocean wave heights, and tsunami warning centres are on alert after an earthquake," Karasozen said. "But landslides aren't systematically monitored in Alaska or elsewhere in the world. If a landslide-triggered tsunami were to happen, we wouldn't know. That's a major concern."

The method by Karasozen and West involves quickly identifying a landslide's long-period waves amid a seismic record busy with short-period waves created not only by a landslide but also by nearby earthquakes and glaciers and by human-caused activity.

A landslide's initial onset generally registers as short-period waves; it isn't until the slide accelerates that the identifiable long-period waves materialize. Landslides produce disproportionately more long-period energy compared with other sources. Most earthquake ruptures last only seconds, while landslides routinely last a minute or more.

Coastal fjords present a significant challenge for landslide detection because glaciers can create hundreds of prominent seismic events daily, the researchers write.

Karasozen and West created an algorithm to continually scan seismic data from multiple seismic stations to look for a landslide wave signature. Finding a match, their system will estimate the slide's location and volume. In areas with good seismic station coverage, the location can be estimated to be within a few miles.

The goal is to have the system alert tsunami and seismology agency personnel, but more work remains before that can occur.

To create the algorithm, the two researchers analyzed data from the three recent Barry Glacier landslides and six additional landslides -- five of them in Southeast Alaska and one on the west side of lower Cook Inlet, across from the Kenai Peninsula.

Other efforts have been tried over recent decades. Several researchers have shown that landslide seismograms can be used to estimate location and volume, but those efforts usually were unique to a region, required considerable fine-tuning and were not designed for real-time purposes.

Determining landslide location from distant seismic stations doesn't allow for real-time assessment, due to the time it would take for the seismic waves to reach those stations.

West said the research augments ongoing monitoring and alert efforts.

"The potential for real-time monitoring of large landslides is one important component of the interagency effort underway to address Alaska's landslide challenge," he said. (ANI)

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