Complex foraging behaviours in wild birds emerge from social learning and recombination of components. Wild, S., Chimento, M., McMahon, K., Farine, D. R., Sheldon, B. C., & Aplin, L. M. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 377:20200307, 2022.
doi  abstract   bibtex   
Recent well-documented cases of cultural evolution towards increasing efficiency in non-human animals have led some authors to propose that other animals are also capable of cumulative cultural evolution, where traits become more refined and/or complex over time. Yet few comparative examples exist of traits increasing in complexity, and experimental tests remain scarce. In a previous study, we introduced a foraging innovation into replicate subpopulations of great tits, the 'sliding-door puzzle'. Here, we track diffusion of a second 'dial puzzle', before introducing a two-step puzzle that combines both actions. We mapped social networks across two generations to ask if individuals could: (1) recombine socially-learned traits and (2) socially transmit a two-step trait. Our results show birds could recombine skills into more complex foraging behaviours, and naive birds across both generations could learn the two-step trait. However, closer interrogation revealed that acquisition was not achieved entirely through social learning-rather, birds socially learned components before reconstructing full solutions asocially. As a consequence, singular cultural traditions failed to emerge, although subpopulations of birds shared preferences for a subset of behavioural variants. Our results show that while tits can socially learn complex foraging behaviours, these may need to be scaffolded by rewarding each component. This article is part of a discussion meeting issue 'The emergence of collective knowledge and cumulative culture in animals, humans and machines'.
@Article{Wild2022,
  author          = {Wild, S. and Chimento, M. and McMahon, K. and Farine, D. R. and Sheldon, B. C. and Aplin, L. M.},
  journal         = {Philosophical transactions of the Royal Society of London. Series B, Biological sciences},
  title           = {Complex foraging behaviours in wild birds emerge from social learning and recombination of components.},
  year            = {2022},
  issn            = {1471-2970},
  pages           = {20200307},
  volume          = {377},
  abstract        = {Recent well-documented cases of cultural evolution towards increasing efficiency in non-human animals have led some authors to propose that other animals are also capable of cumulative cultural evolution, where traits become more refined and/or complex over time. Yet few comparative examples exist of traits increasing in complexity, and experimental tests remain scarce. In a previous study, we introduced a foraging innovation into replicate subpopulations of great tits, the 'sliding-door puzzle'. Here, we track diffusion of a second 'dial puzzle', before introducing a two-step puzzle that combines both actions. We mapped social networks across two generations to ask if individuals could: (1) recombine socially-learned traits and (2) socially transmit a two-step trait. Our results show birds could recombine skills into more complex foraging behaviours, and naive birds across both generations could learn the two-step trait. However, closer interrogation revealed that acquisition was not achieved entirely through social learning-rather, birds socially learned components before reconstructing full solutions asocially. As a consequence, singular cultural traditions failed to emerge, although subpopulations of birds shared preferences for a subset of behavioural variants. Our results show that while tits can socially learn complex foraging behaviours, these may need to be scaffolded by rewarding each component. This article is part of a discussion meeting issue 'The emergence of collective knowledge and cumulative culture in animals, humans and machines'.},
  citation-subset = {IM},
  country         = {England},
  doi             = {10.1098/rstb.2020.0307},
  groups          = {Cooperation and Cultural Evolution},
  issn-linking    = {0962-8436},
  issue           = {1843},
  keywords        = {NBDA; Parus major; animal culture; cumulative cultural evolution; social learning; social networks},
  nlm-id          = {7503623},
  pmid            = {34894740},
  pubmodel        = {Print-Electronic},
  pubstate        = {ppublish},
  revised         = {2021-12-14},
}
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