Consumed content does not have a uuid. Unable to continue. -- Colour in the eye of the beholder - Queensland Brain Institute - The University of Queensland, Australia

Status message

Consumed content does not have a uuid. ==
22 June 2010

Neurobiologists at the Queensland Brain Institute have found that animals are not always as brightly coloured as they seem – at least not to their counterparts.

Neurobiologists at the Queensland Brain Institute have found that animals are not always as brightly coloured as they seem – at least not to their counterparts.

Researchers have delved deep inside the eye of the brightly coloured cichlid fish – which many people would recognise from their fish tanks at home – to observe its vision from the inside out. In doing so they have found the animals are camouflaged to other cichlids.

“When you compare humans to many of the animals who are using colour we are comparatively colour blind,” researcher Professor Justin Marshall said.

“When you start to look at the animal through the animal’s eyes, they are well camouflaged. Many of the brightly coloured reef fish are in fact very well camouflaged to the eyes of the animals themselves.”

The research, featured on the front cover of the latest edition of the Journal of Experimental Biology, focused on cichlids in Lake Malawi in southern Africa.

Scientists found cichlids could see ultra-violet colours, making their sight much better than that of humans, who can only see the basic red, green and blue spectrums.

The scientists also studied the cichlid’s sexual communication and found that while female cichlids are brightly coloured to the human eye, they are relatively inconspicuous to their potential mating partners.

Meanwhile, the males are brightly coloured to the female cichlid and stand out in much the same way as a bowerbird.

“The males have to make themselves standout. It’s definitely worth it because it shows the female they are fit and healthy,” Professor Marshall explained.

Further, the neurobiologist said cichlids provided a fascinating research model for scientists, as they had evolved very quickly over the last million years.

“Understanding the eyes and the way in which they’re put together and what advantage they give to the animal’s sensory systems is very important for future discoveries,” Professor Marshall said.

ENDS 

Media Contact:
Anna Bednarek
Communications Manager
Phone: +61 7 3346 6414
Email: a.bednarek@uq.edu.au

Notes to the Editor:

PROFESSOR JUSTIN MARSHALL
Justin Marshall completed his Doctorate of Philosophy in Neurobiology at the University of Sussex in 1991.  He moved to the Vision Touch and Hearing Research Centre at The University of Queensland in 1996, before being recruited to the Queensland Brain Institute in 2010. His predominant research interests include colour and polarisation vision in the marine environment, animal communication and sensory systems in the deep-sea.

QUEENSLAND BRAIN INSTITUTE
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.