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• W2045677402 abstract "•Animals can copy others to acquire successful behaviours, but social information is not always adaptive. •Insects provide accessible experimental model systems to study the strategic use of information. •Research demonstrates that insects tailor social information use to those circumstances in which it is beneficial. Copying others can greatly improve individual fitness and is fundamental for the organisation of societies. Yet in some situations it is better to ignore social information and either explore the world individually or use personal information obtained through prior experience. Insects provide excellent models to study the strategic use of social information, but insights from recent research have rarely been viewed in the light of social learning strategies. Here we discuss how insects tailor their reliance on social information to those circumstances for which it is most beneficial, and suggest that insects and vertebrates use similar information-use strategies. We highlight future research avenues, including the use of molecular tools to study the genetic and genomic basis of social information use. Copying others can greatly improve individual fitness and is fundamental for the organisation of societies. Yet in some situations it is better to ignore social information and either explore the world individually or use personal information obtained through prior experience. Insects provide excellent models to study the strategic use of social information, but insights from recent research have rarely been viewed in the light of social learning strategies. Here we discuss how insects tailor their reliance on social information to those circumstances for which it is most beneficial, and suggest that insects and vertebrates use similar information-use strategies. We highlight future research avenues, including the use of molecular tools to study the genetic and genomic basis of social information use. animal society characterised by reproductive division of labour between reproductive and (partially) sterile individuals. Brood care is cooperative and adult generations overlap (so adult workers might care for broods that are their siblings). gaining new information about the environment through individual sampling. information about the environment (e.g., the location of a feeding site) that an animal has acquired (either socially or asocially) and acted on previously. trait such as a behaviour, or the products of a behaviour, that has been shaped by selection specifically because it conveys information from one animal to another. In the context of this article, we discuss signals that convey information about the environment, rather than about the motivation or qualities of the signaller. trait such as a behaviour, or its products, that conveys information from one individual to another but has not evolved specifically for that function, such as the presence of an animal at a particular food site. information about the environment that an animal acquires through observation or interaction with another animal or its products. learning about the environment that is influenced by interaction with, or observation of, another animal or its products. In the examples discussed in this review, social information use usually involves social learning. However, there are cases in which responding to social information might not necessarily involve learning, such as responses to alarm pheromones." @default.
• W2045677402 created "2016-06-24" @default.
• W2045677402 creator A5030309668 @default.
• W2045677402 creator A5067105933 @default.
• W2045677402 date "2014-03-01" @default.
• W2045677402 modified "2023-09-27" @default.
• W2045677402 title "Insights from insects about adaptive social information use" @default.
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• W2045677402 doi "https://doi.org/10.1016/j.tree.2014.01.004" @default.
• W2045677402 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24560544" @default.
• W2045677402 hasPublicationYear "2014" @default.
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