Abstract
ABSTRACTSpatial vision was recently reported in a brittle star, Ophiomastix wendtii, which lacks discrete eyes, but little is known about its visual ecology. Our aim was to better characterize the vision and visual ecology of this unusual visual system. We tested animal orientation relative to vertical bar stimuli at a range of angular widths and contrasts, to identify limits of angular and contrast detection. We also presented dynamic shadow stimuli, either looming towards or passing the animal overhead, to test for potential defensive responses. Finally, we presented animals lacking a single arm with a vertical bar stimulus known to elicit a response in intact animals. We found that O. wendtii orients to large (≥50 deg), high-contrast vertical bar stimuli, consistent with a shelter-seeking role and with photoreceptor acceptance angles estimated from morphology. We calculate poor optical sensitivity for individual photoreceptors, and predict dramatic oversampling for photoreceptor arrays. We also report responses to dark stimuli moving against a bright background – this is the first report of responses to moving stimuli in brittle stars and suggests additional defensive uses for vision in echinoderms. Finally, we found that animals missing a single arm orient less well to static stimuli, which requires further investigation.
Highlights
Light is a critical biological cue, and detecting it can play a role in habitat selection, defensive behaviour, UV protection, and biological rhythms
Spatial vision was recently reported in a brittle star, Ophiomastix wendtii, which lacks discrete eyes, but little is known about its visual ecology
We found that O. wendtii orients to large (≥50°), high-contrast vertical bar stimuli, consistent with a shelter-seeking role and with photoreceptor acceptance angles estimated from morphology
Summary
Light is a critical biological cue, and detecting it can play a role in habitat selection, defensive behaviour, UV protection, and biological rhythms. Recent experiments evince extraocular photoreceptors mediating vision in echinoderms (Blevins and Johnsen, 2004; Kirwan et al, 2018; Sumner-Rooney et al, 2020; Yerramilli and Johnsen, 2010) In both sea urchins (Ullrich-Lüter et al, 2011) and brittle stars (Delroisse et al, 2014; Johnsen, 1997; Sumner-Rooney et al, 2018), putative photoreceptors are spread over the body surface, and in select species these appear to mediate responses to visual stimuli, undetectable by non-visual photoreception (Kirwan et al, 2018; Sumner-Rooney et al, 2020)
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