Abstract
Even the simplest of animals exhibit behavioral sequences with complex temporal dynamics. Prominent among the proposed organizing principles for these dynamics has been the idea of a hierarchy, wherein the movements an animal makes can be understood as a set of nested subclusters. Although this type of organization holds potential advantages in terms of motion control and neural circuitry, measurements demonstrating this for an animal’s entire behavioral repertoire have been limited in scope and temporal complexity. Here, we use a recently developed unsupervised technique to discover and track the occurrence of all stereotyped behaviors performed by fruit flies moving in a shallow arena. Calculating the optimally predictive representation of the fly’s future behaviors, we show that fly behavior exhibits multiple time scales and is organized into a hierarchical structure that is indicative of its underlying behavioral programs and its changing internal states.
Funder
NSF | MPS | Division of Physics
HHS | NIH | National Institute of General Medical Sciences
NSF | CISE | Division of Computing and Communication Foundations
Publisher
Proceedings of the National Academy of Sciences
Reference28 articles.
1. Tinbergen N (1951) The Study of Instinct (Oxford Univ Press, Oxford, UK).
2. Dawkins R (1976) in Hierarchical Organization: A Candidate Principle for Ethology in Growing Points in Ethology, eds Bateson P Hinde R (Cambridge Univ Press, Cambridge, UK), pp 7–54.
3. The architecture of complexity;Simon;Proc Am Philos Soc,1962
4. Hierachical organization and postural facilitation: Rules for grooming in flies
5. A suppression hierarchy among competing motor programs drives sequential grooming in Drosophila
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