Moon's blue light a coral aphrodisiac, say scientists

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Ancient light-sensitive genes may be the trigger for the annual mass spawning of corals shortly after a full moon on the Great Barrier Reef, according to a study by Australian and Israeli scientists.The cryptochromes genes occur in corals, insects, fish and mammals -- including humans -- and are primitive light-sensing pigment mechanisms which predate the evolution of eyes.

SYDNEY (Reuters) - Ancient light-sensitive genes may be the trigger for the annual mass spawning of corals shortly after a full moon on the Great Barrier Reef, according to a study by Australian and Israeli scientists.

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The cryptochromes genes occur in corals, insects, fish and mammals -- including humans -- and are primitive light-sensing pigment mechanisms which predate the evolution of eyes.

The Cry2 gene, stimulated by the faint blue light of the full moon, appears to play a central role in triggering the mass synchronized coral spawning, said the scientists in a paper published in the international journal Science on Friday.

"This is the key to one of the central mysteries of coral reefs," said Professor Ove Hoegh-Guldberg, who lead the University of Queensland laboratory which discovered the genes.

"We have always wondered how corals without eyes can detect moonlight and get the precise hour of the right couple of days each year to spawn," Hoegh-Guldberg said in a statement.

The annual mass spawning of corals occurs across a third of a million square kilometers of Australia's Great Barrier Reef, shortly after a full moon.

Exposing corals to different colors and intensities of light and sampling live corals on reefs around the time of the full moon, Israeli researcher Oren Levy found the Cry2 gene at its most active in Acropora corals during full moon nights.

The genes developed in primitive life forms in the Precambrian, more than 500 million years ago, as a way of sensing light to synchronies their body clocks and breeding cycles, said the researchers.

"They are, in a sense, the functional forerunners of eyes," said Hoegh-Guldberg.

Cryptochromes still tune humans to the rhythms of the planet, he said, but had lost their light-sensing function.

"They play important roles in regulating the body-clocks of many species, from corals to fruit flies, to zebra fish and mice," said David Miller from Australia's James Cook University.