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Type: Journal article
Title: Phototactic tails: evolution and molecular basis of a novel sensory trait in sea snakes
Author: Crowe-Riddell, J.M.
Simões, B.F.
Partridge, J.C.
Hunt, D.M.
Delean, S.
Schwerdt, J.G.
Breen, J.
Ludington, A.
Gower, D.J.
Sanders, K.L.
Citation: Molecular Ecology, 2019; 28(8):1-16
Publisher: Wiley
Issue Date: 2019
ISSN: 0962-1083
Statement of
Jenna M. Crowe‐Riddell, Bruno F. Simões, Julian C. Partridge, David M. Hunt, Steven Delean, Julian G. Schwerdt, James Breen, Alastair Ludington, David J. Gower, Kate L. Sanders
Abstract: Dermal phototaxis has been reported in a few aquatic vertebrate lineages spanning fish, amphibians and reptiles. These taxa respond to light on the skin of their elongate hind-bodies and tails by withdrawing under cover to avoid detection by predators. Here, we investigated tail phototaxis in sea snakes (Hydrophiinae), the only reptiles reported to exhibit this sensory behaviour. We conducted behavioural tests in 17 wild-caught sea snakes of eight species by illuminating the dorsal surface of the tail and midbody skin using cold white, violet, blue, green and red light. Our results confirmed phototactic tail withdrawal in the previously studied Aipysurus laevis, revealed this trait for the first time in A. duboisii and A. tenuis, and suggested that tail photoreceptors have peak spectral sensitivities between blue and green light (457-514 nm). Based on these results, and an absence of photoresponses in five Aipysurus and Hydrophis species, we tentatively infer that tail phototaxis evolved in the ancestor of a clade of six Aipysurus species (comprising 10% of all sea snakes). Quantifying tail damage, we found that the probability of sustaining tail injuries was not influenced by tail phototactic ability in snakes. Gene profiling showed that transcriptomes of both tail skin and body skin lacked visual opsins but contained melanopsin (opn4x) in addition to key genes of the retinal regeneration and phototransduction cascades. This work suggests that a nonvisual photoreceptor (e.g., Gq rhabdomeric) signalling pathway underlies tail phototaxis, and provides candidate gene targets for future studies of this unusual sensory innovation in reptiles.
Keywords: Dermal photoreception
dermal phototaxis
sea snakes
Rights: © 2019 John Wiley & Sons Ltd.
DOI: 10.1111/mec.15022
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Zoology publications

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