WASHINGTON — A squid with a novel type of reflective plates that form a built-in light it may use to confuse predators has been discovered by scientists in Hawaii.
While other luminous sea creatures are known, the reflective plates on the Hawaiian bobtail squid differ from those of other animals, according to researchers at Kewalo Marine Laboratory, University of Hawaii-Manoa.
The light itself is provided by colonies of luminescent bacteria that live on the squids, the researchers report in Friday’s issue of the journal Science.
“Light organs are not uncommon in nature,” observed Wendy J. Crookes, first author of the paper. “In this one the light organ does have a lens similar to an eye in some respects, but we don’t really know its capabilities in terms of specifically directing light.”
“The light is subtle, but it’s there,” she added. “We think it’s a counter-predatory camouflage.”
The two- to three-inch (5- to 7.5-centimeter) squids forage and mate at night, and predators that eat them tend to hide in the sand, looking upward.
“We think it projects light down, and that looks like moonlight so the squid doesn’t cast a shadow and is not silhouetted against the night sky,” Crookes said.
Different kind of protein
The plates that reflect and seem to focus the light differ from reflective plates found in other animals, the researchers said.
While reflective plates in many aquatic species are formed from chemicals called purines, in this squid they were made from an unusual type of protein the researchers named reflectin.
The chemical composition of that tissue is very unusual, agreed Michael Vecchione, director of the National Systematics Laboratory of the National Marine Fisheries Service.
Crookes said the research team led by Margaret J. McFall-Ngai is now studying the relationship between the squids and the bacteria that produce the light. The bacteria and squids have a mutually beneficial relationship, Crookes said. Such relationships are common in nature, including beneficial bacteria in the human gut, she noted.
© 2012 The Associated Press. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.