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NewsA Mystery Solved: Why Does Coral Glow?

A Mystery Solved: Why Does Coral Glow?

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Corals display glowing colors (fluorescence). Credit: Tel Aviv University

Researchers have proved for the first time that corals’ fluorescent colors are intended to attract prey.

For the first time, a recent study from Tel Aviv University, in association with the Steinhardt Museum of Natural History and the Interuniversity Institute for Marine Sciences in Eilat, has established that the magical phenomenon in deep reefs where corals exhibit glowing colors (fluorescence) is intended to serve as a mechanism for luring prey. The research demonstrates that the marine creatures that corals feed on are drawn to fluorescent colors.

Professor Yossi Loya from the School of Zoology and the Steinhardt Museum of Natural History at Tel Aviv University supervised the research, which was led by Dr. Or Ben-Zvi, Yoav Lindemann, and Dr. Gal Eyal.

According to the researchers, the ability of aquatic organisms to glow has long attracted both scientists and those who love nature. The biological role of the phenomena, which occurs often in corals that produce reefs, has been fiercely disputed.

A variety of possibilities have been explored over the years, including: Does this phenomenon defend against radiation? improve

In order to test the planktons’ potential attraction to fluorescence, the researchers used, inter alia, the crustacean Artemia salina, which is used in many experiments as well as for food for corals. The researchers noted that when the crustaceans were given a choice between a green or orange fluorescent target versus a clear “control” target, they showed a significant preference for the fluorescent target.

Moreover, when the crustaceans were given a choice between two clear targets, their choices were observed to be randomly distributed in the experimental setup. In all of the laboratory experiments, the crustaceans vastly exhibited a preferred attraction toward a fluorescent signal. Similar results were presented when using a native crustacean from the Red Sea. However, unlike the crustaceans, fish that are not considered coral prey did not exhibit these trends, and rather avoided the fluorescent targets in general and the orange targets in particular.

A scientist obtaining data for the study. Credit: Tel Aviv University

In the second phase of the study, the experiment was carried out in the corals’ natural habitat, about 40 meters deep in the sea, where the fluorescent traps (both green and orange) attracted twice as many plankton as the clear trap.

Dr. Or Ben-Zvi says, “We conducted an experiment in the depths of the sea in order to examine the possible attraction of diverse and natural collections of plankton to fluorescence, under the natural currents and light conditions that exist in deep water. Since fluorescence is ‘activated’ principally by blue light (the light of the depths of the sea), at these depths the fluorescence is naturally illuminated, and the data that emerged from the experiment were unequivocal, similar to the laboratory experiment.”

In the last part of the study, the researchers examined the predation rates of mesophotic corals that were collected at 45-meter depth in the Gulf of Eilat and found that corals that displayed green fluorescence enjoyed predation rates that were 25 percent higher than corals exhibiting yellow fluorescence.

Professor Loya: “Many corals display a fluorescent color pattern that highlights their mouths or tentacle tips, a fact that supports the idea that fluorescence, like bioluminescence (the production of light by a chemical reaction), acts as a mechanism to attract prey. The study proves that the glowing and colorful appearance of corals can act as a lure to attract swimming plankton to ground-dwelling predators, such as corals, and especially in habitats where corals require other energy sources in addition or as a substitute for photosynthesis (sugar production by symbiotic algae inside the coral tissue using light energy).”

Dr. Ben-Zvi concludes: “Despite the gaps in the existing knowledge regarding the visual perception of fluorescence signals by plankton, the current study presents experimental evidence for the prey-luring role of fluorescence in corals. We suggest that this hypothesis, which we term the ‘light trap hypothesis’, may also apply to other fluorescent organisms in the sea, and that this phenomenon may play a greater role in marine ecosystems than previously thought.”

Reference: “Coral fluorescence: a prey-lure in deep habitats” by Or Ben-Zvi, Yoav Lindemann, Gal Eyal, and Yossi Loya, 2 June 2022, Communications Biology.
DOI: 10.1038/s42003-022-03460-3

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