New research shows corals emit an enticing fluorescent green light that attracts the mobile microalgae, known as Symbiodinium, critical to the establishment of a healthy partnership.
The study, led by researchers at the (Coral CoE) at and Japan’s , sheds new light on the mechanism that brings corals and Symbiodinium together – for example, following a bleaching episode.
“Most reef corals cannot function without Symbiodinium,” said Shunichi Takahashi from the ³Ô¹ÏÍøÕ¾ Institute of Basic Biology.
“Following the back-to-back mass bleaching events, images of bleached white coral contrasted with healthy, vibrantly coloured coral were widespread. The key difference between the two is the abundance of Symbiodinum in the coral’s tissue. Without sufficient Symbiodinum, which provide corals with nutrients via photosynthesis, the coral will starve.”
“Thirty percent of corals receive their Symbiodinium from their parents, the other seventy percent, need a different mechanism,” said co-author Prof Andrew Baird of Coral CoE
“But what brings the two organisms together? Corals are stationary creatures, however Symbiodinium can move freely through the water column.”
The study reveals that corals have evolved a cunning plan to draw the Symbiodinium to them.
The researchers used the chalice coral, Echinophyllia aspera, to test whether the green fluorescent light emitted by corals under certain conditions can signal the Symbiodinium in the water column to move towards them: a process known as ‘positive phototaxis’.
“Our research identifies a novel biological signalling tool that underlies the success of a relationship essential for healthy coral reef ecosystems,” said Prof Baird.
The paper “Green fluorescence from cnidarian hosts attracts symbiotic algae” is published in the journal Proceedings of the ³Ô¹ÏÍøÕ¾ Academy of Sciences.
Paper:
Yusuke Aihara, Shinichiro Maruyam, Andrew H. Baird, Akira Iguchid, Shunichi Takahashi, and Jun Minagawa. Green fluorescence from cnidarian hosts attracts symbiotic algae in Press at , DOI 10.1073/pnas.181225711
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