Evidence of Emperor Penguins’ Sensitivity to Sea Ice Fluctuations

Authors

• Rose T.N. Foster-Dyer, University of Canterbury
• David Iles, Environment and Climate Change Canada
• Leo Salas, Point Blue Conservation Science
• David G. Ainley, H.T. Harvey & Associates
• Birgitte McDonald, Moss Landing Marine LaboratoriesFollow
• Sharon Stammerjohn, University of Colorado Boulder
• Lise Viollat
• David Ortega, College of Science and Engineering
• Annie E. Schmidt, Point Blue Conservation Science
• Grant Ballard, Point Blue Conservation Science
• Carolynne Hultquist, University of Canterbury
• Jonathan D. Tonkin, University of Canterbury
• Michelle LaRue, University of Canterbury

Publication Date

3-18-2026

Document Type

Article

Publication Title

Proceedings of the Royal Society B Biological Sciences

Volume

293

Issue

2067

DOI

10.1098/rspb.2025.2431

Abstract

Using satellite-derived abundance indices over 20 years, we investigated population change among the seven Ross Sea emperor penguin (Aptenodytes forsteri) colonies. We found a 90% probability that the Ross Sea metapopulation had lower springtime attendance between 2005 and 2024 (mean change = -23%; 95% CI: -46 to +20%). We identified two distinct phases of change: slightly increasing 2005 to 2019/2020, followed by a steep decline 2020-2024, resulting in a decrease of approximately 23 000 birds in 5 years or approximately 32% of the regional population. Over the 20 years, the two southernmost colonies, Cape Crozier and Cape Colbeck, increased in size, yet Beaufort, Coulman, Roget and Washington declined, resulting in a negative population trend especially evident from 2021. Asynchronous population change suggests metapopulation dynamics, with immigration from western colonies possibly driving increases at Colbeck and Crozier. Winter and spring sea ice concentration anomalies (5 year lag) and El Niño phases (1 year lag) statistically explained the most variance in our time series. Our results indicate that emperor penguins may be sensitive to sea ice fluctuations, offering insight into how this species may have adapted throughout their history and emphasizing the need for timely re-evaluation of targeted conservation strategies in an era of sea ice change.

Keywords

Antarctica, emperor penguin, metapopulation, population dynamics, remote sensing, sea ice concentration

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Department

Moss Landing Marine Laboratories

Recommended Citation

Rose T.N. Foster-Dyer, David Iles, Leo Salas, David G. Ainley, Birgitte McDonald, Sharon Stammerjohn, Lise Viollat, David Ortega, Annie E. Schmidt, Grant Ballard, Carolynne Hultquist, Jonathan D. Tonkin, and Michelle LaRue. "Evidence of Emperor Penguins’ Sensitivity to Sea Ice Fluctuations" Proceedings of the Royal Society B Biological Sciences (2026). https://doi.org/10.1098/rspb.2025.2431