Most people wouldn鈥檛 give a second thought to the inner workings of the fish eye.
But research by University of Queensland scientists is unlocking the secrets hidden behind these fishy lenses.
Professor Justin Marshall, and colleagues from the Sensory Neurobiology Group within 国产探花鈥檚 , have found, for the first time, how certain types of fish see colour.
Professor Marshall鈥檚 work revolves around the role double cones play in the vision of trigger fishes.
Cones are light sensitive cells in eyes that allow us to see, and double cones are two such cells fused together.
鈥淚t has been suggested that double cones are used for achromatic (non-colour) tasks such as luminance, motion and polarization vision,鈥 Professor Marshall said.
鈥淭his is the first direct evidence that individual members of double cones are used in colour vision as independent spectral channels.鈥
鈥淭his is odd as they are the commonest photoreceptor in the eyes of most diurnal animals and these new results show for the first time that in the trigger fish, a colourful inhabitant of The Great Barrier Reef, these cones are used for colour vision.鈥
He said while the eyes of most vertebrates including fish, frogs, reptiles and kangaroos, are packed with double cones, their function was not previously known.
鈥淭hese photoreceptors are not present in human retina or other placental mammals and, perhaps as a result, we have overlooked the fact that we do not know what they do,鈥 he said.
鈥淭he discovery that reef fish use double cones for colour vision solves a centuries old mystery.鈥
The research, which was a collaboration between 国产探花 researchers and Dr Misha Vorobyev, from the University of Auckland, was published recently in scientific journal
Media: Professor Justin Marshall (07 3365 1397, 0423 024 162) or Anna Bednarek, QBI Communications Manager (07 3346 6414, 0416 500 598).
Backgrounder
The Queensland Brain Institute (QBI) was established as a research institute of the University of Queensland in 2003. The Institute is now operating out of a new $63 million state-of-the-art facility and houses 27 Principal Investigators with strong international reputations. QBI is one of the largest neuroscience institutes in the world dedicated to understanding the mechanisms underlying brain function. Details of the current QBI interdisciplinary research programs and themes can be found at