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Ancestral photoreceptor diversity as the basis of visual behaviour

Tom Baden

2024Nature Ecology & Evolution48 citationsDOIOpen Access PDF

Abstract

Animal colour vision is based on comparing signals from different photoreceptors. It is generally assumed that processing different spectral types of photoreceptor mainly serves colour vision. Here I propose instead that photoreceptors are parallel feature channels that differentially support visual-motor programmes like motion vision behaviours, prey capture and predator evasion. Colour vision may have emerged as a secondary benefit of these circuits, which originally helped aquatic vertebrates to visually navigate and segment their underwater world. Specifically, I suggest that ancestral vertebrate vision was built around three main systems, including a high-resolution general purpose greyscale system based on ancestral red cones and rods to mediate visual body stabilization and navigation, a high-sensitivity specialized foreground system based on ancestral ultraviolet cones to mediate threat detection and prey capture, and a net-suppressive system based on ancestral green and blue cones for regulating red/rod and ultraviolet circuits. This ancestral strategy probably still underpins vision today, and different vertebrate lineages have since adapted their original photoreceptor circuits to suit their diverse visual ecologies.

Topics & Concepts

VertebrateBiologyPerceptionComputer visionArtificial intelligenceNeuroscienceEvolutionary biologyComputer scienceGeneBiochemistryRetinal Development and DisordersFish biology, ecology, and behaviorIchthyology and Marine Biology
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