2014
DOI: 10.1073/pnas.1404176111
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Experimental evolution of prepared learning

Abstract: Animals learn some things more easily than others. To explain this so-called prepared learning, investigators commonly appeal to the evolutionary history of stimulus-consequence relationships experienced by a population or species. We offer a simple model that formalizes this long-standing hypothesis. The key variable in our model is the statistical reliability of the association between stimulus, action, and consequence. We use experimental evolution to test this hypothesis in populations of Drosophila. We sy… Show more

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Cited by 111 publications
(59 citation statements)
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“…The assumption of no change requires us to posit a lack of genetic variance in learning mechanisms, which runs counter to substantial evidence (39,(41)(42)(43)(44)(45), or else to explain how the selection regime was miraculously unaffected by the new social niche. The assumption of evolutionary change may also be viewed as scientifically more productive, as it encourages further research (46).…”
mentioning
confidence: 98%
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“…The assumption of no change requires us to posit a lack of genetic variance in learning mechanisms, which runs counter to substantial evidence (39,(41)(42)(43)(44)(45), or else to explain how the selection regime was miraculously unaffected by the new social niche. The assumption of evolutionary change may also be viewed as scientifically more productive, as it encourages further research (46).…”
mentioning
confidence: 98%
“…In reality, of course, unlike in the beak example, learning mechanisms are not necessarily constrained to be uniform across all domains; there is plenty of evidence for adaptive specialization in associative learning mechanisms (e.g., refs. [38][39][40].…”
mentioning
confidence: 99%
“…Experimental evolution paradigms provide evidence that environments where particular cue types are reliably useful for decision-making select for changes to the attentional or perceptual mechanisms that determine stimulus salience. For example, Drosophila lines for which learning about olfactory stimuli is the best method of identifying a good brood host develop enhanced sensitivity to such cues and ignore visual alternatives, and vice versa (36). In a social context, the question of whether social cues are especially salient has rarely been directly addressed [with the exception of Galef et al (64)], but a number of bee studies touch upon the topic, with mixed results.…”
Section: Salience Of Social Stimulimentioning
confidence: 99%
“…These latter two alternatives-that bees are particularly sensitive to social CSs when learning about where to find food, or that they are particularly likely to learn positive social CS-sucrose combinations-are qualitatively different traits. Theory correspondingly predicts that they should evolve under different circumstances (36,71). To visualize the difference, consider again the Garcia effect (35).…”
Section: Social Associationsmentioning
confidence: 99%
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