Sharks are colour-blind: study
Page 1 of 1 • Share
Sharks are colour-blind: study
PARIS: Sharks may be unable to distinguish between colours, according to a lab study published on Tuesday that could benefit swimmers, surfers and sharks themselves.
Researchers in Australia, using a technique called micro-spectrophotometry, looked at the retinal cells of 17 species of shark caught off Queensland and Western Australia.
In all 17 species, the commonest kind of light receptors were "rod" cells, which are highly sensitive to light and allow night vision but cannot tell colours apart, they found.
Yet the sharks lacked cone cells, which respond individually to light at specific wavelengths. In human eyes, a variety of cone cells helps us to distinguish between colours.
In 10 of the 17 shark species, no cone cells were found at all. Cone cells were found in the other seven species, but they were all of a single type, sensitive to wavelengths of around 530 nanometres, which is green.
This retinal system means sharks are able to tell between shades of grey but, most probably, not between colours, say the investigators.
Monochromatic vision is very rare among land species, because colour vision is a tool for survival in terrestrial habitats.
But it is less important in the marine environment, where colours are progressively filtered out at depth and survival depends on distinguishing contrasts, to determine whether a shape in the gloom is prey or predator.
Previous research has found that whales, dolphins and seals also possess green-sensitive cone cells, which suggests that these marine mammals and sharks arrived at the same visual design in parallel, says the paper.
The study, published in English in the German journal Naturwissenschaften, could help prevent shark attacks on humans and develop fishing gear that could reduce accidental catches of sharks by long-line trawlers.
"Our study shows that contrast against the background, rather than colour per se, may be more important for object detection by sharks," said lead scientist Nathan Scott Hart at the University of Western Australia.
"This may help us to design long-line fishing lures that are less attractive to sharks as well as to design swimming attire and surf craft that have a lower visual contrast to sharks and therefore are less 'attractive' to them."
Researchers in Australia, using a technique called micro-spectrophotometry, looked at the retinal cells of 17 species of shark caught off Queensland and Western Australia.
In all 17 species, the commonest kind of light receptors were "rod" cells, which are highly sensitive to light and allow night vision but cannot tell colours apart, they found.
Yet the sharks lacked cone cells, which respond individually to light at specific wavelengths. In human eyes, a variety of cone cells helps us to distinguish between colours.
In 10 of the 17 shark species, no cone cells were found at all. Cone cells were found in the other seven species, but they were all of a single type, sensitive to wavelengths of around 530 nanometres, which is green.
This retinal system means sharks are able to tell between shades of grey but, most probably, not between colours, say the investigators.
Monochromatic vision is very rare among land species, because colour vision is a tool for survival in terrestrial habitats.
But it is less important in the marine environment, where colours are progressively filtered out at depth and survival depends on distinguishing contrasts, to determine whether a shape in the gloom is prey or predator.
Previous research has found that whales, dolphins and seals also possess green-sensitive cone cells, which suggests that these marine mammals and sharks arrived at the same visual design in parallel, says the paper.
The study, published in English in the German journal Naturwissenschaften, could help prevent shark attacks on humans and develop fishing gear that could reduce accidental catches of sharks by long-line trawlers.
"Our study shows that contrast against the background, rather than colour per se, may be more important for object detection by sharks," said lead scientist Nathan Scott Hart at the University of Western Australia.
"This may help us to design long-line fishing lures that are less attractive to sharks as well as to design swimming attire and surf craft that have a lower visual contrast to sharks and therefore are less 'attractive' to them."
Maryam Mirza- Monstars
-
Posts : 981
Join date : 2011-06-18
Age : 33
Character sheet
Experience:
(500/500)
Similar topics
» Thousands of sharks migrate to Florida waters
» Half of 1.8mn glaucoma patients in Pak already blind
» India to host T20 Blind Cricket World Cup in Dec 2012
» Genes predict hair colour, say scientists
» How we should study ?
» Half of 1.8mn glaucoma patients in Pak already blind
» India to host T20 Blind Cricket World Cup in Dec 2012
» Genes predict hair colour, say scientists
» How we should study ?
Page 1 of 1
Permissions in this forum:
You cannot reply to topics in this forum
Yesterday at 12:21 pm by ali001
» Hemangiom'App
Tue Nov 05, 2024 11:25 am by ali001
» MindfulMe - Mental Health App
Mon Nov 04, 2024 10:50 am by ali001
» Learn Candlestick Patterns
Tue Oct 15, 2024 5:51 am by ali001
» Woh Pagal Si Episode 52 to 62 - Top Pakistani Drama
Sat Sep 21, 2024 6:26 pm by Mir Emmad Ali Khan Domki
» Nearu - share your socials
Sat Sep 21, 2024 1:12 pm by ali001
» Nightclub Tycoon: Idle Empire
Thu Sep 19, 2024 9:16 pm by ali001
» Carnivore - Meat Diet Recipes
Wed Sep 18, 2024 2:37 pm by ali001
» Eid Milad un Nabi Mubarak 2024 (Rabiʻ I 14, 1446 AH)
Tue Sep 17, 2024 3:44 pm by Mir Emmad Ali Khan Domki