acquired September 7, 1984
Grand Plateau Glacier
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- Sensor(s):
- Landsat 5 - TM
- Landsat 8 - OLI
- Data Date: September 7, 1984 - September 17, 2019
- Visualization Date: August 12, 2020
Glacier Bay National Park in southeast Alaska is famous for its glaciers that flow into the sea. A handful of these tidewater glaciers are accessible via boat, giving visitors a close-up view of towering ice fronts and dramatic calving events. But most of the park’s glaciers are inland, deep in the Alaskan wilderness, where the changes are more difficult to observe with human eyes.
“Glacier Bay National Park is a well-known and visited area that is showing significant ice loss,” said Christopher Shuman, a University of Maryland, Baltimore County glaciologist based at NASA’s Goddard Space Flight Center. “But all the glacier thinning and retreat, as well as increased debris-cover and dramatic landslides, haven’t been fully documented yet.”
Views from above, acquired by aircraft or satellites, are helping scientists understand the extent of change across the region. The images above show the remote Grand Plateau Glacier, located about 50 kilometers west of Glacier Bay across the Fairweather Range. The first image was acquired on September 7, 1984, with Landsat 5; the second image was acquired on September 17, 2019, with Landsat 8.
Ice was already retreating before satellites were there to observe it. At its maximum extent during the Little Ice Age, Grand Plateau Glacier reached all the way to the Pacific Ocean coastline. Since then, it has progressively retreated from a series of end moraines--debris shoveled into a heap at the front edge of the glacier when it was advancing.
In the images, a moraine near the coastline acts like a dam, trapping meltwater and forming a proglacial lake. Also note the end moraine visible poking above the surface of the lake in the 2019 image. This mound was left behind by a lobe of the glacier front that appears in the 1984 image.
Over the past 35 years, the entire flow of the glacier system changed. In the 1984 image, many of the glacier’s branches flow toward the lake to the southwest; by 2019, retreat caused some branches to change course and flow toward the northwest. Notice the change in direction of the thin brown lines tracing the flow of the glacier’s branches. These are medial moraines: rocky debris from the sides of glaciers (lateral moraines) that have merged, causing the debris to be carried down the center of the combined glacier.
Retreat is not the only change; Grand Plateau is also visibly narrowing and thinning. The island in the center of the 2019 image appears larger as ice has pulled away from its sides leaving more land exposed. The same phenomenon is apparent along the sides of the glacier, as wasting ice has exposed more of the valley walls.
Another key indicator of change is the appearance of “ogives”—the arc-shaped brown marks on the lower-right part of the glacier in 2019. Rocks that come crashing down onto the glacier are initially spread out. Over time, seasonal accelerations of the glacier compress the debris into arc-shaped bands. There is a stark absence of ogives in the 1984 image. This could be due in part to more snow cover at the time or fewer rockfalls decades ago.
“The frequency of them is concerning,” Shuman said. “There’s a chance of even more of these rockfalls as the climate continues to warm, melting mountain slopes and causing steep slopes to lose their grip.”
References
- Eos (2019, July 24) The Little Ice Age Wasn’t Global, but Current Climate Change Is. Accessed August 12, 2020.
- From a Glacier’s Perspective (2011, February 4) Grand Plateau Glacier Retreat, Alaska. Accessed August 12, 2020.
- Johnson, A. J. et al. (2013) Mass balance in the Glacier Bay area of Alaska, USA, and British Columbia, Canada, 1995–2011, using airborne laser altimetry. Journal of Glaciology, 59 (216), 632–648.
- Landsat Science (2019, December 11) Watching Glacier Bay National Park Change. Accessed August 12, 2020.
- NASA Hyperwall (2019, July 17) 2016 Lamplugh Glacier Landslide in Glacier Bay National Park. Accessed August 12, 2020.
- National Park Service (2020) Glacier Bay National Park & Preserve. Accessed August 12, 2020.
- NOAA Ocean Exploration and Research Glacier Bay National Park. Accessed August 12, 2020.