A1 Refereed original research article in a scientific journal
Translocation experiment of taiga bean geese Anser fabalis provides evidence for oblique social learning of moult migration
Authors: Sokolovskis, Kristaps; Piironen, Antti; Laaksonen, Toni
Publisher: Wiley
Publishing place: HOBOKEN
Publication year: 2024
Journal: Journal of Avian Biology
Journal name in source: Journal of Avian Biology
Journal acronym: J AVIAN BIOL
Article number: e03263
Number of pages: 9
ISSN: 0908-8857
eISSN: 1600-048X
DOI: https://doi.org/10.1111/jav.03263
Web address : https://doi.org/10.1111/jav.03263
Self-archived copy’s web address: https://research.utu.fi/converis/portal/detail/Publication/477081888
While there is ample evidence supporting genetic control of migratory behaviour in short-lived passerines, long-lived social species have been assumed to rely solely on cultural inheritance of migratory routes. Evidence from experimental studies supporting this idea is scarce. We tested whether the moult migration in taiga bean geese Anser fabalis has an inherited component or whether the birds need oblique social learning (where knowledge on migration is transferred from any experienced individual to any na & iuml;ve individual conspecific) to carry out this journey. In many waterfowl species, non-breeders and failed breeders migrate to remote places for wing moult while successful breeders stay at the breeding grounds and moult with their chicks. We translocated one-year-old taiga bean geese before their first moult migration to sites outside of the breeding range to examine whether they display innate moult migration behaviour without experienced conspecifics or not. The birds were equipped with GPS-transmitters and released in randomly assigned groups of two. Wild control one-year-old birds were released immediately after capture with other non-breeding geese, while a procedural control group consisting of older birds was held in captivity until being released at the same time with the translocated one-year-old birds but in the place where they were captured. Most translocated birds found conspecifics and either joined locally moulting breeders or followed experienced birds to moulting sites in Russia. Two of the translocated birds did not find other bean geese and settled to moult together in southwest Finland. The wild control birds moult-migrated as expected, while only one of the procedural control birds moult-migrated to Russia and the remaining three stayed with locally moulting breeders in Finland. Our results support the idea that moult migration in geese is culturally inherited, highlighting the importance of the non-relative, experienced adult individuals in maintaining population-specific behaviours.
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Funding information in the publication:
The study was funded by the University of Turku (a grant to TL).
