image: Seals resting on an iceberg in Johns Hopkins Inlet, Glacier Bay National Park. Credit: Jamie Womble/NPS
Credit: Seals resting on an iceberg in Johns Hopkins Inlet, Glacier Bay National Park. If using, please credit: Jamie Womble/NPS
AGU Annual Meeting
9 – 13 December 2024
Walter E. Washington Convention Center
801 Allen Y. Lew Place NW
Washington, D.C. 20001
10 December 2024
Press Release 24-43
For Immediate Release
This press release is available online at: https://news.agu.org/press-release/harbor-seals-strategic-iceberg-riding/
Researcher contact:
Lynn Kaluzienski, University of Alaska Southeast, lmkaluzienski@alaska.edu (UTC-9 hours)
AGU press contact:
Rebecca Dzombak, news@agu.org (UTC-5 hours)
WASHINGTON — Harbor seals in icy regions use icebergs shed by glaciers as safe platforms to give birth, care for young and molt. New research finds that as glaciers change with the climate, the resulting changes in size, speed and number of icebergs affect seals’ critical frozen habitat. Mother seals prefer stable, slower-moving bergs for giving birth and caring for newborn pups, while in the molting season, they and the rest of the seal population favor speedier ice near the best foraging grounds.
“Our work provides a direct link between a glacier’s advance and seals’ distribution and behavior,” said Lynn Kaluzienski, a postdoctoral fellow at the University of Alaska Southeast who led the study. “Interdisciplinary studies like this one coupled with long-term monitoring campaigns will be important to understand how climate change will influence tidewater glacier fjord ecosystems in the future.”
Kaluzienski will present the findings at AGU’s 2024 Annual Meeting in Washington, D.C., on Tuesday, 10 December. From 9-13 December, #AGU24 brings together more than 30,000 scientists to discuss the latest in Earth and space science research.
The study focused on harbor seals and icebergs in Johns Hopkins Inlet and Glacier, located in Glacier Bay National Park, Alaska. Johns Hopkins is one of the few glaciers on Earth that is advancing (growing thicker and flowing forward into the fjord) rather than retreating due to global warming, partly thanks to its terminal moraine, comprising crushed rock and other sediment, which effectively barricades the front of the glacier from warmer ocean water that would increase the glacier’s melt rate.
But that wall of sediment reduces the number of icebergs the glacier sheds into the fjord. Fewer icebergs means less habitat for seals, making it crucial that researchers understand how seals use the icebergs available to them.
Kaluzienski, university colleagues, and collaborators from the U.S. National Park Service spent the last few years documenting fine-scale variations in icebergs and in the distribution of seals in the fjord, using time-lapse cameras and aerial photographic surveys.
“Icebergs are found throughout the fjord in regions of fast flow, within eddies, and close to the glacier,” Kaluzienski said. “We wanted to understand which of these areas seals were using and how this habitat is changing in response to advances at the glacier front and reduction in iceberg numbers.”
When an iceberg breaks away from a glacier, its speed and path are affected by wind, ocean currents and freshwater runoff streaming from the base of the glacier. Called a plume, this jet of water is more buoyant than the salty ocean water in the fjord. The plume brings plankton and fish to the surface, creating a moving buffet that seals can snack on from icebergs.
The researchers used remote sensing data to find the plume and compared it to where icebergs and seals are during the pupping season in June and molting season in August. They found that during the pupping season, seals that were out of the water generally could be found on slower-moving icebergs, with speeds slower than 7-8 inches (0.2 meters) per second. Conversely, during the molting season, the seals were increasingly likely to be found on faster-moving icebergs in or near the plume.
It’s possible that icebergs in slower waters are more stable, giving adult seals a sturdier platform for caring for young pups. The stability of the ice may be less critical when the seals are molting, and bergs near the plume may offer more foraging opportunities.
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Abstract information:
Fine-scale variability in iceberg velocity fields and implications for harbor seals
Tuesday, 10 December, 8:30 – 12:20 EST
Hall B-C (Poster Hall, Convention Center)
AGU’s Annual Meeting (#AGU24) will bring more than 30,000 Earth and space scientists to the Walter E. Washington Convention Center in Washington, D.C. from 9-13 December. Members of the press and public information officers can request complimentary press registration for the meeting now through the end of the conference. Learn more about the press AGU24 experience in our online Press Center.
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