APL-UW

Kristin Laidre

Senior Principal Oceanographer

Professor, School of Aquatic + Fishery Sciences

Email

klaidre@uw.edu

Phone

206-616-9030

Department Affiliation

Polar Science Center

Education

B.S. Zoology, University of Washington - Seattle, 1999

Ph.D. Aquatic & Fishery Sciences, University of Washington - Seattle, 2003

Publications

2000-present and while at APL-UW

Characterizing southeast Greenland fjord surface ice and freshwater flux to support biological applications

Moon, T.A., B. Cohen, T.E. Black, K.L. Laidre, H.L. Stern, and I. Joughin, "Characterizing southeast Greenland fjord surface ice and freshwater flux to support biological applications," Cryosphere, 18, 4845-4872, doi:10.5194/tc-18-4845-2024, 2024.

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29 Oct 2024

Southeast Greenland (SEG) is characterized by complex morphology and environmental processes that create dynamic habitats for top marine predators. Active glaciers producing solid-ice discharge, freshwater flux, offshore sea ice transport, and seasonal landfast-ice formation all contribute to a variable, transient environment within SEG fjord systems. Here, we investigate a selection of physical processes in SEG to provide a regional characterization that reveals physical system processes and supports biological research. SEG fjords exhibit high fjord-to-fjord variability regarding bathymetry, size, shape, and glacial setting, influencing some processes more than others. For example, during fall, the timing of offshore sea ice formation near SEG fjords progresses temporally when moving southward across latitudes, while the timing of offshore sea ice disappearance is less dependent on latitude. The rates of annual freshwater flux into fjords, however, are highly variable across SEG, with annual average input values ranging from ~1 x 108 to ~1.25 x 1010 m3 (~0.1–12.5 Gt) for individual fjords. Similarly, the rates of solid-ice discharge in SEG fjords vary widely — partly due to the irregular distribution of active glaciers across the study area (60–70°N). Landfast sea ice, assessed for eight focus fjords, is seasonal and has a spatial distribution highly dependent on individual fjord topography. Conversely, glacial ice is deposited into fjord systems year-round, with the spatial distribution of glacier-derived ice depending on the location of glacier termini. As climate change continues to affect SEG, the evolution of these metrics will vary individually in their response, and next steps should include moving from characterization to system projection. Due to the projected regional ice sheet persistence that will continue to feed glacial ice into fjords, it is possible that SEG could remain a long-term refugium for polar bears and other ice-dependent species on a centennial to millennial scale, demonstrating a need for continued research into the SEG physical environment.

Icing-related injuries in polar bears (Ursus maritimus) at high latitudes

Laidre, K.L., and S.N. Atkinson, "Icing-related injuries in polar bears (Ursus maritimus) at high latitudes," Ecology, EOR, doi:, 2024.

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22 Oct 2024

We report on icing-related lesions observed in wild polar bears during live-capture research in two high-latitude subpopulations, Kane Basin (KB) and East Greenland (EG), between 2012 and 2022. We observed ice buildup, hair loss (alopecia), and skin ulcerations primarily affecting the feet of adult bears as well as other parts of the body. The most severely affected individuals had blocks of ice up to 30 cm in diameter adhered to the foot pads, deep, bleeding ulcerations of foot pads, and exhibited lameness. These injuries have not been observed during previous research in these areas or reported in the scientific literature. To further document this phenomenon, we conducted interviews with Indigenous polar bear subsistence hunters in West and East Greenland and Nunavut regarding the frequency and potential causes of icing-related injuries.

The acoustic presence and migration timing of subarctic baleen whales in the Bering Strait in relation to environmental factors

Escajeda, E.D., K.M. Stafford, R.A. Woodgate, and K.L. Laidre, "The acoustic presence and migration timing of subarctic baleen whales in the Bering Strait in relation to environmental factors," Polar Bio., EOR, doi:10.1007/s00300-024-03314-0, 2024.

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17 Oct 2024

Subarctic baleen whales, including humpback (Megaptera novaeangliae), fin (Balaenoptera physalus), and gray whales (Eschrichtius robustus), migrate through the Bering Strait every summer to feed in the Chukchi Sea. When and where the whales are found in the region likely reflects environmental conditions. Using recordings collected between 2009 and 2018 from a hydrophone similar to 35 km north of the strait, we identified whale calls during the open-water season (May–December), examined migration timing, and investigated potential drivers of whale presence. The acoustic presence of fin and humpback whales varied across the years, while gray whales were consistently detected each year. We compared detection rates for October and November since these months had recordings each year. We observed the highest proportion of recordings with humpback whale calls for October–November in 2009, 2017, and 2018 (66–80% of recordings); the highest proportion of recordings with fin whale calls in 2015, 2017, and 2018 (75–79% of recordings); and the highest proportion of recordings with gray whale calls in 2013 and 2015 (46 and 51% of recordings, respectively). Fin and humpback whales departed the Bering Strait similar to 3 and 2 days later per year over the study period (p < 0.04). Both fin and humpback whales delayed their southward migration in years with warmer water temperatures (Pearson r >= 0.73, p < 0.02). Generalized additive models of location, shape, and scale identified day of the year, water temperatures, and the lagged presence of a thermal front the previous month as drivers of acoustic presence for all three species during the open-water season.

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In The News

Paws of polar bears sustaining ice-related injuries in a warming Arctic

UW News, Hannah Hickey

While surveying the health of two polar bear populations, researchers found lacerations, hair loss, ice buildup and skin ulcerations primarily affecting the feet of adult bears as well as other parts of the body.

22 Oct 2024

In the gateway to the Arctic, fat, ice and polar bears are crucial. All three are in trouble

Associated Press, Seth Borenstein

Searching for polar bears where the Churchill River dumps into Canada’s massive Hudson Bay, biologist Geoff York scans a region that’s on a low fat, low ice diet because of climate change.

“To live in the Arctic you need to be fat, or live on fat, or both,” said Kristin Laidre.

24 Sep 2024

For threatened polar bears, the climate change diet is a losing proposition

Associated Press, Seth Borenstein

With Arctic sea ice shrinking from climate change, many polar bears have to shift their diets to land during parts of the summer. Commenting on a recent study, Kristin Laidre notes that there is a growing body of evidence that polar bears cannot sustain themselves on land as the climate warms and sea ice habitat is lost.

13 Feb 2024

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