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“Robust” corals primed to resist coral bleaching

Tuesday, 6 November 2018

Source: James Cook University

A world-first study has revealed that “robust” reef-building corals are the only known organisms in the animal kingdom to make one of the “essential” amino acids, which may make them less susceptible than other corals to global warming.

Using advanced genomic techniques, a team of researchers including Prof David Miller of the ARC Centre of Excellence for Coral Reef Studies (Coral CoE) at James Cook University (JCU) and led by Dr Hua (Emily) Ying of The Australian National University (ANU), Research School of Biology, have found that the group of corals classified as “robust,” which includes a number of the brain corals and mushroom corals, have a key physiological advantage over “complex” corals, including common branching corals such as the staghorn coral.

In a new paper published today in the prestigious journal Genome Biology, the researchers report ‘robust’ corals possess a unique capacity to generate an ‘essential’ amino acid.

“Amino acids are the building blocks of life,” said Dr Ying.

 “They are crucial, for example, in repairing tissue or growing new tissue. But, generating amino acids is energetically costly for animals, so they usually only generate 11 of the 20 required for life.

“The remaining nine amino acids are called the ‘essential’ amino acids because they must be supplied by the animal’s diet. For corals, this includes tiny drifting animals known as zooplankton.”

But this is not the only form of sustenance for corals. Through a mutually-beneficial relationship with microalgae known as Symbiodinium, corals are supplied the energy needed to build their hard skeletons.

Symbiodinium also supplies the coral with some of the ‘essential’ amino acids, making them less dependent on their diet than other animals,” said senior author Prof David Miller of Coral CoE at JCU.

For example, when global warming causes corals to bleach, they expel their resident Symbiodinium and are therefore suddenly fully dependent on their diet to meet this nutritional requirement.

“We now know that ‘robust’ corals can make at least one of the ‘essential’ amino acids without relying on Symbiodinium. This suggests that they may be more resilient, at least in the short term, to bleaching than the ‘complex’ corals such as the branching staghorns,” explained Prof Miller. 

Until now, scientists had few clues about why some corals only host a specific Symbiodinium type and others are less particular.

“Our research also suggests that ‘robust’ corals are less choosey about which species of microalgae can take up residence in the coral’s tissue. The ability to host a broader range of Symbiodinium types could facilitate more rapid acclimation to higher temperatures,” said Prof Miller.

Paper details: Hua Ying, Ira Cooke, Susanne Sprungala, Weiwen Wang, David C Hayward, Yurong Tang, Gavin Huttley, Eldon E Ball, Sylvain Foret, David J Miller. (2018) Comparative genomics reveals the distinct evolutionary trajectories of the robust and complex coral lineages. Genome Biology DOI: 10.1186/s13059-018-1552-8

Images available here

Contacts:

Prof David Miller

Coral CoE at JCU

Townsville, Queensland

E: david.miller@jcu.edu.au

Dr Hua Ying

ANU’s Research School of Biology

Canberra, ACT

E: Hua.Ying@anu.edu.au

More information:

Catherine Naum, Communications Mgr

Coral CoE

T: +61 (7) 4781 6067

M: +61 (0) 428 785 895

E: catherine.naum1@jcu.edu.au

Will Wright, Media Officer

ANU

T: +61 2 6125 7979

E: media@anu.edu.au

Background:

  • Since 1996, coral taxonomists have recognised the existence of two “superfamilies” of reef-building corals: “robust” and “complex.”
  • Symbiodinium is a photosynthetic micro-alga that has a mutually beneficial relationship with reef-building corals – in exchange for the stable environment inside the coral cells, it supplies most of the energy needs of the host animal.
  • Coral bleaching is the loss of Symbiodinium by coral hosts when they are stressed – especially by high temperatures. Sybiodinium cells depart from stressed corals, which makes the corals pale.