Researchers confirm shark solution is black and white

University News

The University of Western Australia

Wednesday, 19 September 2012

New research which could help to deter and conserve sharks has confirmed that many of the ocean predators are probably completely colour blind.

The joint study between researchers at The University of Western Australia and The University of Queensland looked at the visual adaptations of two species of wobbegong sharks Orectolobus maculatus and Orectolobus ornatus, which are also known as carpet sharks.

Wobbegongs spend most of their time on the sea floor and hunt mostly at night using an unusual sit-and-wait ambush strategy.

The original PhD study by Dr. Susan Theiss showed that the wobbegong visual system contains only a single class of cone photoreceptor.  Cone photoreceptors are the retinal cells that are used for vision under bright light conditions, whereas as rod photoreceptors are used in dim light.

In many animals, more than one type of cone is present in the retina, some of which are sensitive to different parts of the visible spectrum of light.  The nervous system can compare these signals to distinguish colours.  However, if only one cone type is present, there is no possibility of colour vision.

In the latest study:  Cone monochromacy and visual pigment spectral tuning in wobbegong sharks, published in The Royal Society’s Biology Letters, the researchers isolated the genes that encode the cone visual pigment proteins and found that only one cone pigment gene was present.

Research team leader Assistant Professor Nathan Hart from the UWA Oceans Institute and School of Animal Biology said the study is important to understand how sharks view the world.

“The results from this study will help us not only to understand the evolutionary selection pressures operating on shark vision, but may also provide to key to how we can influence their behaviour.

“Sharks are highly visual animals, but the world they see lacks colour and will appear as shades of grey like we see when we watch a black and white movie.  It may be possible to use this knowledge to change the way a shark reacts to certain objects.

“For example, it may be possible to design long-line fishing lures that are less attractive to sharks to reduce the incidence of shark bycatch.  It may also lead to better design of equipment such as wetsuits and surfboards that reduce the risk of shark attack,” Assistant Professor Hart said.

Professor Hart and the Neuroecology group at UWA led by Winthrop Professor Shaun Collin are already developing shark attack mitigation wetsuits in a project co-funded by local WA company Dunbar Harper and the WA State Government.

The group is hopeful that it will be able to secure further funding to develop shark deterrent devices to respond to concerns raised by the recent spate of shark attacks in Australia.

Media references

Winthrop Professor Shaun Collin
(UWA School of Animal Biology, UWA Oceans Institute)  (+61 8)  6488 2632
Research Associate Professor Nathan S. Hart
(UWA School of Animal Biology, UWA Oceans Institute)  (+61 8)  6488 3960
Michael Sinclair-Jones
(UWA Public Affairs)  (+61 8)  6488 3229  /  (+61 4) 00 700 783

Source:  University of Western Australia

 

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