Rocky Road for Swiss Glaciers
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- swissbadmelt_oli2_2022237_lrg.jpg (5972x4574, JPEG)
Metadata
- Sensor(s):
- Landsat 7 - ETM+
- Landsat 9 - OLI-2
- Data Date: August 15, 2001 - August 25, 2022
- Visualization Date: October 27, 2022
In 2022, glaciers in the Swiss Alps melted more than any other year on record. It was the latest downturn for the country’s glaciers, which have lost more than half of their volume of ice since the 1930s.
This pair of natural-color images shows the changes to a glaciated area in western Switzerland in just over two decades. The right image was acquired on August 25, 2022, with the Operational Land Imager-2 (OLI-2) on Landsat 9. For comparison, the left image shows the same area on August 15, 2001, acquired with the Enhanced Thematic Mapper Plus (ETM+) on Landsat 7.
The images feature the Tsanfleuron and Scex Rouge glaciers, located in the Diablerets mountain group. The glaciers rest on different sides of a mountain slope, but they have long been connected at Tsanfleuron pass. According to Matthias Huss, director of the Swiss Glacier Monitoring Network (GLAMOS), melting during summer 2022 exposed a rocky path between the two glaciers at Tsanfleuron pass for the first time in several thousand years.
The pass is located near the highest point of the two glaciers, in an area where snowfall has historically accumulated. The snow eventually turns into a compressed porous layer, known as “firn,” which in turn becomes glacial ice. “In a healthy state, the pass should remain snow-covered all year,” Huss said. But in recent decades, winter snow has disappeared in summer, allowing the firn and ice to melt. The record losses in 2022 finally exposed the bare ground between the glaciers.
The melting season for Switzerland’s snow and ice typically starts in May and ends in early October. Melting in 2022 caused the Tsanfleuron and Scex Rouge glaciers to thin by an average of 4 meters (13 feet)—about triple the average amount of thinning observed at Swiss glaciers in the past decade, according to Huss. GLAMOS data show that across Switzerland in 2022, glaciers lost about 6 percent of their remaining volume—exceeding the previous record in 2003 when losses were almost 4 percent.
One reason for the significant amount of melting in 2022 was the small amount of snowfall in winter. The snow melted quickly, sped up in spring by the warming effect of dust from the Sahara Desert falling on the snow. By early summer, the glaciers had lost their protective blanket of snow, leaving them vulnerable to the summer heat.
Despite the summer heat, melting stopped relatively early this year. “Already from mid-September onwards there was a bit of fresh snow every week,” Huss said. “This does not change anything regarding the incredible losses of 2022, but at least they are not going on at the moment.”
References
- AP News (2022, October 27) Battle of the Alps? Water woes loom amid climate change. Accessed October 27, 2022.
- AP News (2022, August 22) Study: Already shrunk by half, Swiss glaciers melting faster. Accessed October 27, 2022.
- GLAMOS Swiss Glaciers. Accessed October 27, 2022.
- The Local (2022, August 12) ‘Land unseen in centuries’: Swiss mountain pass ice to melt completely. Accessed October 27, 2022.
- Mannerfelt, E. S. et al. (2022) Halving of Swiss glacier volume since 1931 observed from terrestrial image photogrammetry. The Cryosphere.
- NASA Earth Observatory (2019, April 1) Länta Glacier: Small and Getting Smaller.
- Reuters (2022, September 28) Worst melt year on record for Swiss glaciers, data shows. Accessed October 27, 2022.
- Reuters (2022, September 11) Rocky path revealed between Swiss glaciers in extreme melt season. Accessed October 27, 2022.
- Reuters (2022, July 6) Exclusive: Glaciers vanishing at record rate in Alps following heatwaves. Accessed October 27, 2022.
- Swiss Academy of Sciences (2022, September 28) Worse than 2003: Swiss glaciers are melting more than ever before. Accessed October 27, 2022.
NASA Earth Observatory images by Lauren Dauphin, using Landsat data from the U.S. Geological Survey. Story by Kathryn Hansen.
This image record originally appeared on the Earth Observatory. Click here to view the full, original record.