News Release

Remarkable fish see color in deep, dark water

Peer-Reviewed Publication

University of Queensland

The Tub-eye Fish, <em>Stylephorus chordatus</em>

image: This species was found to use five different rod opsins within its eyes. The long cylindrical shape of its eyes increases light capture and also enables the fish to move the eyes from a horizontal to a vertical position. view more 

Credit: Dr. Wen-Sung Chung, University of Queensland, Australia

Fish living up to 1500 metres below the surface have developed surprisingly diverse vision that could help them determine predator from prey in the dimly-lit depths of their fish-eats-fish world.

An international research team involving University of Queensland scientists believes the deep-sea discovery which suggests fish may see colour in the dark, shines new light on the evolution of vision in vertebrates, including humans.

UQ Queensland Brain Institute scientist Dr Fabio Cortesi said vertebrates used two types of photoreceptor cells -- rods and cones -- in order to see.

"Cones are used in bright-light conditions, while rods are generally used in dim-light."

Both rods and cones contain light-sensitive proteins called opsins that absorb light at specific wavelengths.

Colour vision in vertebrates is due to the fact that cones use around four different opsins, said Dr Cortesi.

"This variety allows sensitivity to a broad range of colours."

"Ninety-nine per cent of all vertebrates have just one opsin protein in their rods, so most are colour-blind in dim-light conditions because they rely only on that single rod opsin," he said.

Deep sea fish that live at 200 to 1500 meters below the surface tend to be no exception.

UQ deep-sea visual ecology specialist Dr Fanny de Busserolles said water at that depth filtered most light out.

"Down there it's very monochromatic, and most fish just perceive blue light," she said.

"But we have discovered some spectacular exceptions."

Dr Cortesi said researchers examined the genomes of 101 species of fish.

"We found 13 species had more than one rod opsin gene, and one - the silver spinyfin fish - had a remarkable 38 of these opsins.

He said gene sequence analysis and experiments on how those rod opsins function suggested silver spinyfins are able to pick up a wide range of wavelengths of light, meaning they probably see many colours.

Dr Cortesi said this ability could have evolved as a survival weapon.

"There are many colours of bioluminescence - light produced and emitted by living organisms - down there, and it mainly appears in flashes coming from other fish.

"If you want to survive down there you need to quickly decide if you are seeing a potential predator or potential prey," he said.


In addition to Drs Cortesi and de Busserolles, and UQ QBI's Professor Justin Marshall the research team included a large international team including Assistant Professor Zuzana Musilova at Charles University in the Czech Republic and Professor Walter Salzburger at Switzerland's University of Basel. The study is published in the journal Science.

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