Understanding how species adapt to climate change is one of the most pressing challenges in evolution and conservation biology. As climate shifts increasingly disrupt ecosystems, species that are able to evolve rapidly may be more resilient to such changes. This is particularly relevant for long-lived wild vertebrates, for which evolutionary responses are typically more challenging to study. The Poly2Adapt project, supported by the European Commission’s Marie Skłodowska-Curie Actions program, aims to transform our understanding of how adaptation operates at the genomic level in such organisms.
Focusing on the iconic King penguin (Aptenodytes patagonicus), a long-lived and iconic seabird of the Southern Ocean, this project explores the genetic basis of reproductive success and adaptation over time. The King penguin is highly suitable for such research due to its well-documented life-history traits, recent environmental pressures, and the availability of long-term ecological monitoring data. By combining genomic, transcriptomic, and epigenetic data with long-term life-history data, Poly2Adapt seeks to reveal how reproductive fitness and climate-linked adaptation manifest in the genome.
The project is producing key genomic resources and analytical frameworks that can be applied to other wildlife species. It also provides evidence relevant to EU biodiversity and climate adaptation policy, particularly in terms of developing evolutionary indicators of resilience for climate-threatened species.