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Social Learning, Intelligence, and Brain Evolution.

Street, S.E.; Laland, K.N.

Authors

K.N. Laland



Contributors

Stephen V. Shepherd
Editor

Abstract

Social learning-learning influenced by observation of, or interaction with, other animals -allows individuals to acquire information, concerning, for instance, the location and quality of food, mates, predators, rivals, and pathways, as well as foraging techniques, vocalizations and a variety of social behavior. Intelligence can be broadly defined as a cross-domain measure of cognitive ability in learning, problem-solving and abstract reasoning, characterized by behavioral flexibility. Trends in vertebrate brain size evolution commonly follow simple allometric scaling rules, with individual brain regions evolving in concert with each other. Theoretical analyses demonstrate that cumulative culture and high-fidelity copying are mutually reinforcing. Currently, the nature of the relationship between social learning, brain size, and cognition is poorly understood. Theoretical models have shown that social learning is not always beneficial and can be costly, due to the risks of copying errors, receiving bad information, and information becoming outdated in a changing environment.

Citation

Street, S., & Laland, K. (2016). Social Learning, Intelligence, and Brain Evolution. In S. V. Shepherd (Ed.), The Wiley Handbook of Evolutionary Neuroscience (495-513). John Wiley and Sons. https://doi.org/10.1002/9781118316757.ch18

Online Publication Date Dec 23, 2016
Publication Date 2016
Deposit Date Aug 9, 2017
Pages 495-513
Book Title The Wiley Handbook of Evolutionary Neuroscience
ISBN 9781119994695
DOI https://doi.org/10.1002/9781118316757.ch18
Public URL https://durham-repository.worktribe.com/output/1638624



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