The work, which appeared on 20 March 2008 in the prestigious UK scientific journal the Proceedings of the Royal Society, has shown that a phenomenon known as “symbiont shuffling” took place after a bleaching event in 2006 in the Acropora millepora coral population studied. According to the lead author on the paper, PhD student Ms Alison Jones, this means that of the range of algae available to live in partnership with the corals, the ones best suited to helping reef-building corals beat the heat have come to dominate.
Corals survive by hosting single-celled algae known as zooxanthellae in their tissues. It’s the heat tolerance of the algae that determines the fate of the coral, and the range of temperatures that can be tolerated by different kinds of zooxanthellae is quite wide. When the tolerance threshold is reached, zooxanthellae may be lost from the coral, causing coral bleaching and often the death of the coral. The AIMS researchers found that the corals in the Keppel area now have a much higher proportion of two more thermally tolerant strains of zooxanthellae living in them than they did before the 2006 bleaching event, and therefore they are better able to cope with higher sea surface temperatures.
“There has been a dramatic shift in the Miall Island coral’s symbiotic community, mainly as a result of the change in the predominant algal types after bleaching,” Ms Jones said. The researchers sampled and tagged colonies before and after the bleaching event and were able to show that while before the 2006 bleaching event about 94 per cent of the algae in the corals in the population were thermally sensitive, after the event about 71 per cent of the surviving tagged colonies had the more heat-tolerant strains of algae living in them.
“This work shows that the symbiont communities of inshore corals such as those in the Keppels are much more dynamic than we have given them credit for so far,” AIMS scientist and co-author Dr Ray Berkelmans said. “This may give them a natural advantage over those corals without this flexibility to change predominant symbiont type. We argue that if this shift is sustained and community wide, the reefs in this area are likely to have substantially increased their capacity to withstand the next bleaching event.”…
NASA photo of Australia's Great Barrier Reef
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