Abstract
Coral reef fishes are among the most colourful animals in the world. Given the diversity of lifestyles and habitats on the reef, it is probable that in many instances coloration is a compromise between crypsis and communication. However, human observation of this coloration is biased by our primate visual system. Most animals have visual systems that are ‘tuned’ differently to humans; optimized for different parts of the visible spectrum. To understand reef fish colours, we need to reconstruct the appearance of colourful patterns and backgrounds as they are seen through the eyes of fish. Here, the coral reef associated triggerfish, Rhinecanthus aculeatus, was tested behaviourally to determine the limits of its colour vision. This is the first demonstration of behavioural colour discrimination thresholds in a coral reef species and is a critical step in our understanding of communication and speciation in this vibrant colourful habitat. Fish were trained to discriminate between a reward colour stimulus and series of non-reward colour stimuli and the discrimination thresholds were found to correspond well with predictions based on the receptor noise limited visual model and anatomy of the eye. Colour discrimination abilities of both reef fish and a variety of animals can therefore now be predicted using the parameters described here.
Highlights
The fish that inhabit the coral reefs of the world live in an environment where light is abundant and a stunning assemblage of colours and patterns are present
Understanding the reasons behind a given species choice of colour pattern is complicated by a lack of understanding of what reef fish ‘see’ when they look at the reef
The aims of our study were firstly to test if the receptor noise limited (RNL) model describes colour thresholds in a fish and to calibrate the model against behavioural data for a marine triggerfish R. aculeatus
Summary
The fish that inhabit the coral reefs of the world live in an environment where light is abundant and a stunning assemblage of colours and patterns are present. This diversity of colour on the reef has long been noted [1,2,3], and in more recent decades investigated via methods such as spectroscopy, anatomical investigation and more recently behavioural testing [4,5,6,7]. Understanding the reasons behind a given species choice of colour pattern is complicated by a lack of understanding of what reef fish ‘see’ when they look at the reef.
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