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Precise visuomotor transformations underlying collective behavior in larval zebrafish

Roy Harpaz, Minh Nguyet Nguyen, Armin Bahl, Florian Engert

2021Nature Communications68 citationsDOIOpen Access PDF

Abstract

Complex schooling behaviors result from local interactions among individuals. Yet, how sensory signals from neighbors are analyzed in the visuomotor stream of animals is poorly understood. Here, we studied aggregation behavior in larval zebrafish and found that over development larvae transition from overdispersed groups to tight shoals. Using a virtual reality assay, we characterized the algorithms fish use to transform visual inputs from neighbors into movement decisions. We found that young larvae turn away from virtual neighbors by integrating and averaging retina-wide visual occupancy within each eye, and by using a winner-take-all strategy for binocular integration. As fish mature, their responses expand to include attraction to virtual neighbors, which is based on similar algorithms of visual integration. Using model simulations, we show that the observed algorithms accurately predict group structure over development. These findings allow us to make testable predictions regarding the neuronal circuits underlying collective behavior in zebrafish.

Topics & Concepts

ZebrafishSensory systemComputer scienceFish <Actinopterygii>Collective behaviorShoalNeuroscienceBiologyHuman–computer interactionFisheryGeneAnthropologyGeologyOceanographyBiochemistrySociologyZebrafish Biomedical Research ApplicationsRetinal Development and DisordersNeural dynamics and brain function