| Glacial Lake Outburst Floods GLOF |
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Bhutan Glaciers - Glacial Lakes |
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Climate Change Increases Risk of Successive Natural Hazards in the Himalayas |
Massive damage caused by tsunami wave
On 3 October 2023, approximately 14.7 million cubic meters of frozen moraine material collapsed into South Lhonak Lake, triggering a tsunami-like impact wave up to 20 meters high.
The subsequent glacial lake outburst flood breached the moraine and released approximately 50 million cubic meters of water - enough to fill 20,000 Olympic-sized swimming pools.
The flood caused massive damage along the 385-kilometer-long valley, washing away some 270 million cubic meters of sediment and inundating infrastructure such as hydroelectric power plants on the Teesta River.
At least 55 people were killed, and 70 others were reported missing.
"This event is a stark reminder of the vulnerability of high mountain regions to the e.ects of climate change," says Christian Huggel, co-author of the study and head of the Environment and Climate research group at UZH. "The thawing of permafrost and the instability of rock, ice and moraine structures pose major risks."
High-resolution remote sensing data crucial
Using state-of-the-art scientific methods, the researchers analyzed the dynamics and e.ects of the flood disaster in detail. High-resolution satellite images, digital elevation models and numerical simulations provided a detailed reconstruction of the event. Seismic data helped the researchers to determine the exact time of the moraine collapse, while geomorphological analyses quantified the volume of water and sediment released. The combination of satellite technology and physical models provided a comprehensive picture of the disaster and its far-reaching consequences.
"The use of high-resolution remote sensing data was crucial to understanding the complex processes and cascading e.ects of the flood in detail," explains first author Ashim Sattar, a former postdoctoral researcher at UZH and now an assistant professor at the Indian Institute of Technology in Bhubaneswar. "Collaboration among researchers from different disciplines was key in gaging the full extent of this event."
Urgent need for early warning systems
The flood not only destroyed infrastructure, including five hydroelectric power plants, but also caused massive erosion and sedimentation, with serious consequences for farmers and local businesses. "Our findings highlight the urgent need for early warning systems and international cooperation to address such challenges," emphasizes Sattar. The study also shows that the instability of the moraines had been evident years before the event, with shifts of up to 15 meters per year. This underlines the need for coordinated monitoring of critical high mountain areas and further preventive measures that could have mitigated the damage.
Better risk assessment
The researchers emphasize that similar disasters are likely to become more common in the future as rising temperatures increase the risk of glacial lake outbursts. "The case of South Lhonak Lake is a reminder to take climate risks in mountain regions worldwide more seriously," says Christian Huggel. Ashim Sattar adds: "We need better risk modeling and assessment, as well as robust adaptation strategies, to minimize future disasters."
The team also calls for stronger regulation of hydropower development in high-risk areas, better monitoring of glacial lakes, and the integration of early warning systems. The study provides important insights that can help to better prepare local communities for the growing challenges of climate change.
Literature
A. Sattar et al. The Sikkim flood of October 2023: Drivers, causes and impacts of a multihazard cascade. Science. 30 January 2025. DOI: 10.1126/science.ads2659
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| Source: University of Zurich, Department of Geography , 30 January 2025 |
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