WASHINGTON (AP) 鈥 Many animals can glow in the dark. Fireflies famously blink on summer evenings. But most animals that light up are found in the depths of the ocean.
In a new study, scientists report that deep-sea corals that may have been the first animals to glow, far earlier than previously thought.
鈥淟ight signaling is one of the earliest forms of communication that we know of 鈥 it鈥檚 very important in deep waters,鈥 said Andrea Quattrini, a co-author of the study published Tuesday in the journal Proceedings of the Royal Society B.
Today, marine creatures that glimmer include some fish, squid, octopuses, jellyfish, even sharks 鈥 all the result of chemical reactions.
Some use light to startle predators, 鈥渓ike a burglar alarm," and others use it to lure prey, as anglerfish do, said Quattrini, who is curator of corals at the Smithsonian 春色直播 Museum of Natural History.
Still other animals use light as a beacon to find mates.
Many deep-sea soft coral species light up briefly when bumped 鈥 or when stroked with a paintbrush. That鈥檚 what scientists used, attached to a remote-controlled underwater rover, to identify and study luminous species, said Steven Haddock, a study co-author and marine biologist at the Monterey Bay Aquarium Research Institute.
Soft coral may look like waving reeds, skeleton fingers or stalks of bamboo 鈥 and glow pink, orange, white, blue and purple under the researchers' spotlight, he said.
鈥淔or some species, the whole body glows 鈥 for others, only parts of their branches will glow,鈥 said Danielle DeLeo, a study co-author and evolutionary marine biologist at the Smithsonian.
For corals, scientists aren't sure if this luminous reaction is meant to attract or repel other organisms, or perhaps both. But its frequency suggests that it serves a crucial function in many coral species, she said.
But how long have some coral species had the ability to glow?
To answer this question, the researchers used genetic data from 185 species of luminous coral to construct a detailed evolutionary tree. They found that the common ancestor of all soft corals today lived 540 million years ago and very likely could glow 鈥 or bioluminescence.
That date is around 270 million years before the previously earliest known example: a glowing prehistoric shrimp. It also places the origin of light production to around the time of the Cambrian explosion, when life on Earth evolved and diversified rapidly 鈥 giving rise to many major animal groups that exist today.
鈥淚f an animal had a novel trait that made it really special and helped it survive, its descendants were more likely to endure and pass it down,鈥 said Stuart Sandin, a marine biologist at the Scripps Institution of Oceanography, who was not involved in the study.
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