Bigger, Faster Avalanches, Triggered by Climate Change

The Newyorktimes

A deadly 2016 glacier collapse in Tibet surpassed scientists’ expectations — until it happened again. They worry it’s only the beginning.

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A satellite image showing the aftermath of two avalanches in western Tibet in 2016, when two glaciers on the Aru range collapsed and spread across five miles. Researchers say this unusual event was due to climate change. 

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When 247 million cubic feet of snow and ice collapsed off a glacier in the dry, mountainous region of western Tibet in 2016, the roiling mass took with it nine human lives and hundreds of animals, spreading more than five miles in three minutes at speeds of nearly 200 miles per hour. The event surprised scientists, who had seen a collapse that big and that fast only once before.

And then it happened again, three months later, on a neighboring glacier, though without fatalities. Glaciologists hadn’t quite believed that glaciers could behave this way, and suddenly they had witnessed two similar collapses in a year.

An analysis of the events, published this week in the journal Nature Geoscience, found that climate change was the culprit in both collapses. The study suggests that in addition to the known risks posed by a warming climate, such as sea level rise, we may also be in line for some cataclysmic surprises.

To understand what the researchers found, it helps to know that generally there are two kinds of mountain glaciers: flat and steep. When a flat glacier collapses, it can move a lot of snow and ice, but in slow motion. These “surges” can last weeks and even years, but move no more than a few hundred feet a day.

Steep glaciers appear perilously affixed to mountain walls, and when they do collapse they create avalanches with speeds up to 250 m.p.h. Those avalanches may imperil mountain climbers, but over all they don’t move as much snow and ice.

In Tibet, however, researchers saw a frightening hybrid of the two. “It was a flat glacier, but it produced speeds of up to 300 kilometers per hour,” or 186 m.p.h., said Andreas Kääb, a professor of geosciences at the University of Oslo in Norway and lead author of the study.

On top of the speed, each of the collapses moved enough snow and ice to fill one million freight train cars stretching 7,500 miles, Dr. Kääb said. That’s roughly the distance between New York City and Shanghai.

The only other comparable event scientists have recorded was the 2002 collapse of the Kolka glacier in the Caucasus Mountains. That collapse tumbled eight miles downriver, reaching speeds of 179 m.p.h. and killing more than 120 people in the North Ossetia region of southwestern Russia.

“It happened during the second Chechen war, very close to the boundary to Chechnya, so there were a lot of refugees camping,” Dr. Kääb said.

Photo

The glacier after the second collapse in Tibet in September 2016. CreditLide Tian

Researchers thought that collapse was linked to factors specific to the region — the glacial equivalent of a freak accident. Then came the first collapse in Tibet.

“We were thinking, ‘It happened again. It’s not only in the Caucasus. This is crazy, it can happen somewhere else,’” Dr. Kääb said. “We were not even finished thinking that, then the second one came down.”

It’s not certain what caused the Caucasus collapse. But scientists say the driving factor in Tibet was climate change.

Normally, the cold air in the Tibetan plateau can’t hold much moisture. But warmer air caused by climate change — the region has warmed 0.4 degrees Celsius per decade since the 1960s — holds more moisture, leading to more winter snowfall. While many glaciers around the world are in retreat because warmer temperatures are melting them, the Tibetan glaciers that collapsed are among those that are growing because of more snow.

In the summer months, there has also been more rain. That water created crevices through the glacier and saturated the ground below, acting as a kind of lubricant. With more weight on top and less friction to hold the glacier in place on the bottom, it collapsed.

“You have a thicker glacier soaked with water,” said Dr. Kääb. “That’s two climate change impacts that contributed to making the glaciers unstable.”

Photo

Another view from July 2016, left, showing the aftermath of one of the avalanches. The image at right is from June 2016, before both glaciers collapsed. CreditNASA Earth Observatory

Lonnie G. Thompson, a professor of geological sciences at Ohio State University, said the underlying mountain range didn’t help, either. “The bedrock of this mountain range was laminated shales and sandstone, which are not extremely resistant to start with,” said Dr. Thompson, who was not a part of the study but by chance was in Tibet when the first glacier collapsed.

Dr. Kääb said he hoped that the study would be a wake-up call to people living near mountain glaciers that this kind of collapse, though rare, can happen. “The travel of the Tibetan avalanches was eight, nine kilometers. The one in the Caucasus traveled 18 kilometers. If you draw an 18-kilometer-diameter circle around glaciers of the world you see that even cities are within this reach,” he said.

“If this happens in areas that are not as loosely populated as Tibet, this is a huge disaster.”

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