Global warming is increasing the risk of catastrophic glacier detachments, geologists have warned.

Meltwater generated by warmer summers is posing a new threat “that we are only just beginning to understand”, according to researchers who investigated what unleashed a torrent of ice and rock that slid for seven miles through a valley in Alaska.

The 500-metre-long slab of the Flat Creek glacier broke off suddenly in August 2013 and cascaded down a rugged mountain valley in the remote Wrangell-St. Elias National Park and Preserve.

A similar event was documented at the same location two years later by National Park Service geologist Michael Loso, who recruited researchers at the University of Colorado Boulder to investigate.

“We were aware of glacier detachments that had happened in Tibet, Russia, and Argentina, but started out thinking we were investigating a regular landslide,” said Mylene Jacquemart, a PhD student. “Then we noticed that the entire glacier was missing.”

Glacier collapse shows climate impact Show all 20 1 /20 Glacier collapse shows climate impact Glacier collapse shows climate impact An iceberg floats in a fjord near the town of Tasiilaq Reuters Glacier collapse shows climate impact Meltwater pools on top of the Helheim glacier near Tasiilaq Reuters Glacier collapse shows climate impact Safety officer Brian Rougeux works with student Febin Magar to assemble a radar dome while working in a science camp on the side of the Helheim glacier Reuters Glacier collapse shows climate impact Airplane Mechanic, David Fuller, left, works with a local worker to move a Nasa Gulfstream III during a pre-flight inspection before a flight to support the Oceans Melting Greenland research mission Reuters Glacier collapse shows climate impact Meltwater pools on top of the Helheim glacier Reuters Glacier collapse shows climate impact Earth Science Flight Programs Director at Nasa, Eric Ianson, looks out at the Greenland ice sheet Reuters Glacier collapse shows climate impact Glacial ice is seen from the window during the Nasa flight Reuters Glacier collapse shows climate impact Oceanographer David Holland's science camp on the side of the Helheim glacier Reuters Glacier collapse shows climate impact An iceberg floats in a fjord near the town of Tasiilaq Reuters Glacier collapse shows climate impact A large crevasse forms near the calving front of the Helheim glacier Reuters Glacier collapse shows climate impact Safety officer Brian Rougeux uses a drill to install antennas for scientific instruments that will be left on top of the Helheim glacier Reuters Glacier collapse shows climate impact Tabular icebergs float in the Sermilik Fjord after a large calving event at the Helheim glacier Reuters Glacier collapse shows climate impact Radar Engineer, Ron Muellerschoen, monitors data collection inside a NASA Gulfstream III flying above Greenland to measure loss to the country's ice sheet Reuters Glacier collapse shows climate impact GPS tracking equipment is left on top of the Helheim glacier REUTERS Glacier collapse shows climate impact Sunshine lights up the Helheim glacier Reuters Glacier collapse shows climate impact A glacial terminus above the east coast of Greenland REUTERS Glacier collapse shows climate impact Student Febin Magar watches as leftover wood burns in a research camp Reuters Glacier collapse shows climate impact Tabular icebergs float in the Sermilik Fjord after a large calving event Reuters Glacier collapse shows climate impact Oceanographer David Holland repairs a broken GPS module at his research camp Reuters Glacier collapse shows climate impact An iceberg floats in a fjord near the town of Tasiilaq Reuters

No one was hurt in either of the ice surges in Alaska, but similar glacier detachments in less remote areas in the last two decades have been deadly.

Some 140 people were killed when masses of ice broke loose from the Kolka glacier and buried an entire village in Russia’s North Ossetia region in 2002.

In July 2016, a wall of ice and rocks from the Aru glacier gushed down a narrow valley in Tibet, killing nine herders and hundreds of sheep and yaks — and baffling scientists who were unsure what had caused the surge.

A study published by the Colorado Boulder researchers in the journal Geology found both Alaskan detachments occurred at the height of the summer melt seasons and suggests these highly destructive events could occur more frequently in a warming world.

The team began a research project to investigate what had happened at Flat Creek after preliminary research by Mr Loso ruled out a seismic trigger.

They used a variety of tools, including satellite imagery, field measurements, digital elevation models, and meltwater modelling, to piece together what happened.

“This project was a real sleuthing challenge,” said Ms Jacquemart. “And the pieces finally fell into place when we discovered the bulge on the Flat Creek glacier.”

Ten-year-old, high-resolution satellite images showed that an unusual, 70-metre-high ice bulge existed on the glacier’s tongue prior to the first detachment in 2013.

“Our data indicate that the lowermost part of the glacier tongue was very thin, stagnant, and firmly frozen to the glacier bed,” Ms Jacquemart said.

“We believe this frozen tongue did two things: it blocked ice flowing down from higher on the glacier, forcing it to bulge; and it slowed meltwater drainage, allowing the water to pool under the glacier.”

The resulting increase in water pressure under the glacier eventually caused the tongue to suddenly detach, resulting in two mass flows so large that they each buried about three square kilometres of 400-year-old forest.

The similarity of the glacier detachments in Alaska and Tibet suggest they shared a common cause, according to the researchers.

Other detachments elsewhere in the world have also been recently discovered, suggesting that large-scale glacier detachments may be exacerbated by global warming, said Ms Jacquemart.

She added: “We conclude that the meltwater produced by increasingly warmer summers has the potential to create unexpected consequences in the form of hazards that we didn’t previously know about and that we are only just beginning to understand.”

Glaciers are known to be shrinking as a result of their ice melting at a faster pace, but Ms Jacquemart said: “The new insights we’re gaining from places like Flat Creek show that we also need to consider new processes we weren’t previously aware of”.

Ultimately, she added, scientists will need to develop a better understanding of these new processes and potentially reevaluate hazard assessments in mountain communities.

The risk is not confined to the immediate vicinity of the glacier, given how far mass flows produced by detachment can travel.

Emergency planners may also need to consider knock-on impacts such as the temporary damming of a river by ice and rocks and subsequent release of water.