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A RUMBLE ECHOED AROUND THE WORLD FOR NINE DAYS. HERE’S WHAT CAUSED IT.

It took about 70 people from 15 different countries and more than 8,000
exchanged messages to crack the case.

7 min
402

A boat cruises in August by the rockslide gully of a destroyed glacier in
Greenland. (Soren Ryesgaard)
By Kasha Patel
September 12, 2024 at 2:00 p.m. EDT

The strange rumble was detected mid-September last year. An odd seismic signal
appeared at scientific stations around the globe, but it didn’t look like the
busy squiggles of an earthquake. A day passed, and the slow tremor still
reverberated. When it continued for a third day, scientists worldwide began
assembling to discuss what was causing the grumble in the ground.



Ask your climate questions. With the help of generative Al, we'll try to deliver
answers based on our published reporting.


Some initially thought the seismic instruments recording the signal were broken,
but that was quickly nixed. Maybe it was a new volcano emerging before their
eyes, others said. One jokingly ruled out an alien party. As theories were
checked off, the scientists dubbed the signal an “Unidentified Seismic Object,”
or USO.

“No one had ever seen this. We have nothing to compare it with,” said Kristian
Svennevig, a geologist at the Geological Survey of Denmark and Greenland.

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Nine days later, the vibrations greatly dissipated. But the mystery of the USO
lasted much longer. A year later, the puzzle has been solved, according to a
study published in the journal Science on Thursday. It took about 70 people from
15 different countries and more than 8,000 exchanged messages (long enough for a
900-page detective novel) to crack the case.

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The short answer: A mega-tsunami created waves that sloshed back and forth in a
fjord in Greenland, creating vibrations that traveled around the world.


A LANDSLIDE, A TSUNAMI AND A SEICHE

The long answer begins in the atmosphere. As greenhouse gas concentrations
increase due to climate change, those heat-trapping gases accelerate ice melt
particularly around Earth’s poles. On Sept. 16 last year, that extra heat
thinned a glacier in eastern Greenland over time so much that it could no longer
support the mountain rock above it.

A 500-foot-thick piece of metamorphic rock, about a third of a mile wide and
long, fell and triggered a massive landslide. Rock and ice, enough to fill
10,000 Olympic-size swimming pools, let loose as fast as 47 meters per second
and ran for more than a mile. The avalanche plunged into the Dickson Fjord,
triggering a 650-foot-high tsunami — one of the highest seen in recent history.



Farther away from the fjord, tsunami waves reaching 13 feet high damaged an
unoccupied research station and destroyed cultural and archaeological heritage
sites, including an old trapper hut that had never been affected by tsunamis
during its century-old history. It destroyed about $200,000 worth of
infrastructure. Although the Dickson Fjord is commonly visited by tourist cruise
ships, no ships were nearby. No fatalities were reported.

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Meanwhile, in the fjord, the mega-tsunami wave traveled back and forth in the
inlet and created a standing wave called a seiche. We often see small-scale
seiches — this rhythmic oscillation in water — in a swimming pool or bathtub.
This tsunami source was so energetic that the seiche radiated seismic waves
globally, shaking the planet for nine days before it petered out.

Members of the Danish military sailed into the fjord only days after the event
to collect drone imagery of the collapsed mountain face and glacier front and
scars left by the tsunami.

Of course, Svennevig and many of his close colleagues didn’t fully know of the
connection between the tsunamigenic landslide and the seiche as the events
unfolded, which is detailed in the study.

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At the time, they were scratching their heads about the data at the seismograph
stations. The seiche appeared as a single slow vibration, like a
monotonous-sounding hum, as opposed to the frantic lines of a typical earthquake
reading. The wave peaked every 92 seconds, which is slow compared with an
earthquake.

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Seiches are well known, but no one had seen something of this variety.
Svennevig, the lead author of the study, said it was like seeing a rainbow but
with an extra color that no one had observed before.

“When we started doing this research, nobody had any ideas about what was the
root cause,” said Carl Ebeling, a co-author of the study and a seismologist at
the Scripps Institution of Oceanography at the University of California at San
Diego. “Even for a large landslide under normal circumstances, it would be hard
to see that on a global scale, so something special is going on here.”


NOT QUITE BATHTUB SCIENCE

As some scientists investigated the peculiar seismic data, another group of
authorities and researchers had heard of a large tsunami in a remote fjord in
eastern Greenland. The two teams, among others, joined forces, quickly growing
into a 24/7 international collaboration via a messaging system. The group
brought a variety of local field data and remote, global-scale observations.

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“We knew there was a landslide and a tsunami. You could pull the seismic signal
of those,” Svennevig said. “But then there was this other seismic signal that
continued for nine days, and they were taken from roughly the same area, so they
must be associated somehow.”

The seiche signal was so befuddling that one team member tried to re-create the
long-lasting seiche wave in his bathtub, using a small Styrofoam float and a
tape measure. It didn’t work — to no surprise to tsunami modelers.



Instead, tsunami modelers turned to advanced mathematical models to simulate how
to create the wave’s height, slow movement and duration. Even then, they
initially failed.

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The breakthrough came when they received new bathymetry data of the fjord,
similar to a topographic map, from the Danish military, which allowed them to
better map the seabed in the computer models. Once incorporated, the team used
an unprecedentedly high resolution model to show how the landslide direction,
along with the uniquely narrow and bendy fjord channel, led to the nine-day
seiche.

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Svennevig and his colleagues aren’t the only ones who have been studying the
global event. In August, a team of six German researchers studied the event
primarily through satellite imagery. Their published findings revealed a similar
story that a massive landslide caused the tsunami and long-lasting seiche,
although the new study details the entire sliding process.

“This event with its fascinating, more-than-a-week-long oscillations triggered
the interest of many working groups around the globe,” said Gesa Petersen, who
was an author of the August study but was not involved in the new one. “The
methods chosen by the teams are different, but the results agree well.”

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While the landslide is the obvious instigator of events, “the root cause of this
lies in climate change,” said Alice Gabriel, a co-author of the new study and a
seismologist at the Scripps Institution of Oceanography. She said this is the
first landslide of this size to occur in eastern Greenland. Large landslides are
more well known in western Greenland, like a massive event in 2017 that caused
four fatalities and left two villages abandoned permanently.

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Many aspects of climate change are already destabilizing mountain slopes
worldwide, whether from increased precipitation, increased air temperatures, or
snow or ice loss, said Leigh Stearns, a glaciologist at the University of
Pennsylvania who was not involved in either study. She said this landslide and
tsunami event highlights the domino effect that can happen with loss of even a
small glacier, but it probably won’t be the last one as temperatures rise.

“It would not be surprising if there are more destabilization events in east
Greenland and elsewhere,” she said.

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