Major evolutionary transitions, such as the shift of cetaceans from terrestrial to marine life, can put pressure on sensory systems to adapt to a new set of relevant stimuli. Relatively little is known about the role of smell in the evolution of mysticetes (baleen whales). While their toothed cousins, the odontocetes, lack the anatomical features to smell, it is less clear whether baleen whales have retained this sense, and if so, when the pressure on olfaction diverged in the cetacean evolutionary lineage. We examined eight genes encoding olfactory signal transduction pathway components and key chaperones for signs of inactivating mutations and selective pressures. All of the genes we examined were intact in all eight mysticete genomes examined, despite inactivating mutations in odontocete homologs in multiple genes. We also tested several models representing various hypotheses regarding the evolutionary history of olfaction in cetaceans. Our results support a model where olfactory ability is specifically reduced in the odontocete lineage following their split from stem cetaceans and serve to clarify the evolutionary history of olfaction in cetaceans.
Keywords: Baleen whale; Bioinformatics; Evolutionary genetics; Functional genomics; Sensory ecology.
© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.