September 13, 2024
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‘Unidentified Seismic Object’ Shook Earth for 9 Days — Now We Know What It Was
Scientists have traced the source of a mysterious monotonous planetary noise that lasted for nine days to a Greenland glacier.
Before Dikson Fjord (August 2023) (left) or later (September 2023) (right)Landslide.
Soren Lissgaard (left); Danish Army (right)
The following essay is 
conversationAn online publication covering the latest research.
Seismologists detected an unusual signal at monitoring stations used to detect seismic activity in September 2023. They saw it with sensors everywhere, from the Arctic to the Antarctic.
We were puzzled because the signal was different from any other signal recorded before: instead of the rich vibrational tone typical of earthquakes, this was a monotonous hum, containing only a single vibrational frequency. Even more puzzling, the signal continued for nine days.
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Initially classified as a “USO” (Unidentified Seismic Object), the signal was eventually traced back to a massive landslide in Dikson Fjord, on the remote edge of Greenland. A massive volume of rock and ice — the equivalent of 10,000 Olympic-sized swimming pools — slid into the fjord, triggering a 200-metre-high tsunami and a phenomenon known as a seiche, where the waves in the ice-covered fjord rock back and forth about 10,000 times over a nine-day period.
To put the tsunami in context, the 200 metre wave was twice the height of London’s Big Ben tower and many times higher than the tsunami that hit Indonesia in 2004 (the Boxing Day tsunami) and the 2011 Fukushima tsunami in Japan (the Fukushima nuclear plant tsunami). It was possibly the tallest wave on Earth. Since 1980.
Planet Labs satellite images taken before (30 minutes) and after (7 minutes) the landslide occurred.
Our findings have now been published in the journal Sciencewas the collaboration of 66 scientists from 40 institutions in 15 countries. As with any plane crash investigation, solving this mystery required pulling together a wide range of evidence, from a treasure trove of seismic data to satellite imagery, water-level monitors in the fjord, and detailed simulations of how the tsunami waves evolved.
All this highlights a series of catastrophic events, from decades to seconds before the collapse: the landslides plunging the glacier down a very steep valley into a narrow, enclosed fjord, until finally, decades of global warming thinned the glacier by tens of metres, and it could no longer support the mountain towering above it.
Uncharted territory
But beyond the strangeness of this scientific marvel, the incident highlights a deeper, more disturbing truth: Climate change is transforming our planet and the scientific method in ways that we are only just beginning to understand.
This is a stark reminder that we are navigating uncharted waters. Just a year ago, the idea that a seiche could last nine days would have been dismissed as absurd. Similarly, a century ago, the idea that a warming climate would destabilize the Arctic slopes, causing massive landslides and tsunamis almost every year would have seemed unrealistic. Yet these once unthinkable events are now becoming commonplace. new reality.
As we move deeper into this new era, we expect to see more phenomena that defy our understanding because our experience does not include the extreme conditions we are currently facing. We have discovered nine-day waves that no one could have ever imagined existed.
Before and after the landslide and tsunami.
Soren Lissgaard (left); Danish Army (right)
Traditionally, discussions of climate change have focused on looking upwards and outwards to the atmosphere and oceans with changing weather patterns and rising sea levels, but Dikson Fjord challenges us to look downwards, to the very crust beneath our feet.
Perhaps for the first time, climate change has triggered an earthquake with global impact. The Greenland landslide sent vibrations across the globe, shaking the Earth and setting off seismic waves that traveled across the planet within an hour of the event. No piece of land beneath our feet was safe from these vibrations, metaphorically opening a fissure in our understanding of these events.
This will happen again
While landslide-induced tsunamis have been recorded before, the September 2023 tsunami was the first to be observed in East Greenland, an area thought to be immune to catastrophic events caused by climate change.
This certainly won’t be the last such landslide-induced megatsunami, as more such events are expected as the permafrost on the steep slopes continues to warm and the glaciers continue to thin. More frequently and on a larger scale Unstable slopes have recently been identified in polar and mountainous regions around the world. West Greenland and Alaska These are clear examples of impending disaster.
In the face of such extreme and unexpected events, it is becoming clear that existing scientific methods and toolkits may need to be less than adequately equipped to deal with them. There was no standard workflow for analyzing the 2023 Greenland event. And because our current understanding is shaped by a once-stable, but now-near-extinct, climate, we need to embrace new ways of thinking.
As Earth’s climate continues to change, we must prepare for unexpected phenomena that will challenge our current understanding and demand new ways of thinking. The ground is shaking beneath our feet, literally and figuratively. The scientific community must adapt and pave the way to make informed decisions, but it is up to decision makers to act.
This article was originally published on conversation.Please read Original article.
