‘Seeing’ Tails Help Sea Snakes Avoid Predators


  • newswise-fullscreen ‘Seeing’ Tails Help Sea Snakes Avoid Predators

    Credit: Chris Malam.

    Sea snakes have the rare ability to sense light on their tail skin, making it easier for them to sense where their tail is while their head is busy.

  • newswise-fullscreen ‘Seeing’ Tails Help Sea Snakes Avoid Predators

    Credit: Chris Malam.

    An olive sea snake (Aipysurus laevis) diving underwater. Sea snakes live their entire lives at sea and must come up to the sea surface to breath air.

  • newswise-fullscreen ‘Seeing’ Tails Help Sea Snakes Avoid Predators

    Credit: Graham Edgar.

    An olive sea snake (Aipysurus laevis) swimming underwater.

  • newswise-fullscreen ‘Seeing’ Tails Help Sea Snakes Avoid Predators

    Credit: Chris Malam.

    An olive sea snake (Aipysurus laevis) resting under rocks. Sea snakes have a flattened paddle-shape tail for swimming. The tail skin of some Australian sea snakes is sensitive to light, helping them to conceal themselves under rocks to hide from predators.

  • newswise-fullscreen ‘Seeing’ Tails Help Sea Snakes Avoid Predators

    Credit: Chris Malam.

    An olive sea snake (Aipysurus laevis) foraging for fish with paddle-tail vulnerable to predators.

  • newswise-fullscreen ‘Seeing’ Tails Help Sea Snakes Avoid Predators

    Credit: Ruchira Somaweera.

    Shining a light on sea snake senses. Lead author and PhD candidate, Jenna Crowe-Riddell, with a baby stokes sea snake (Hydrophis stokesii).

Newswise — New research has revealed the fascinating adaptation of some Australian sea snakes that helps protect their vulnerable paddle-shaped tails from predators.

An international study led by the University of Adelaide shows that several species of Australian sea snakes can sense light on their tail skin, prompting them to withdraw their tails under shelter. The study has also produced new insights into the evolution and genetics of this rare light sense.

The researchers found that olive sea snakes (Aipysurus laevis) and other Aipysurus species move their tail away from light. They believe this is an adaptation to keep the tail hidden from sharks and other predators.

“Sea snakes live their entire lives at sea, swimming with paddle-shaped tails and resting at times during the day under coral or rocky overhangs,” says study lead author Jenna Crowe-Riddell, PhD candidate in the University of Adelaide’s School of Biological Sciences. “Because sea snakes have long bodies, the tail-paddle is a large distance from the head, so benefits from having a light-sense ability of its own.

“The olive sea snake was the only reptile, out of more than 10,000 reptile species, that was known to respond to light on the skin in this way

The researchers tested for light-sensitive tails in eight species of sea snakes, but found that only three species had the light-sense ability. They concluded the unique ability probably evolved in the ancestor of just six closely related Australian species. 

“There are more than 60 species of sea snake so that’s less than 10% of all sea snakes,” says Ms Crowe-Riddell. “We don’t know why this rare sense has evolved in just a few Aipysurus species.”

The researchers used RNA sequencing to see what genes are active in the skin of sea snakes. They discovered a gene for a light-sensitive protein called melanopsin, and several genes that are involved in converting light into information in the nervous system. 

“Melanopsin is used in a range of genetic pathways that are linked to sensing overall light levels around us. It is even used by some animals, including humans, for regulating sleep cycles and in frogs to change their skin colour as a camouflage,” says Ms Crowe-Riddell.

Lead scientist Dr Kate Sanders, ARC Future Fellow at the University of Adelaide, says: “We’ve confirmed the ability of olive sea snakes to sense light in their tails and found the same ability in two other species. We’ve identified a shortlist of genes that are likely to be involved in detecting light. But further study will be needed to target these genes before we can really understand the genetic pathways involved in this fascinating behaviour.” 

Published in the journal Molecular Ecology, the study is a collaboration between the University of Adelaide, the University of Bristol, the University of Western Australia and the Natural History Museum, London.

 

Media Contact:

Ms Jenna Crowe-Riddell, PhD candidate, School of Biological Sciences, University of Adelaide. Phone: +61 8 8313 3698. Mobile: +61 (0)404 280 092, jenna.crowe-riddell@adelaide.edu.au

Dr Kate Sanders, ARC Future Fellow and Senior Lecturer, School of Biological Sciences, University of Adelaide. Mobile: +61 490 020 562, kate.sanders@adelaide.edu.au

Robyn Mills, Media Officer, Unversity of Adelaide. Phone: +61 8 8313 6341, Mobile: +61 (0)410 689 084, robyn.mills@adelaide.edu.au

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