Abstract
One of the principle ways in which reef building corals are likely to cope with a warmer climate is by changing to more thermally tolerant endosymbiotic algae (zooxanthellae) genotypes. It is highly likely that hosting a more heat-tolerant algal genotype will be accompanied by tradeoffs in the physiology of the coral. To better understand one of these tradeoffs, growth was investigated in the Indo-Pacific reef-building coral Acropora millepora in both the laboratory and the field. In the Keppel Islands in the southern Great Barrier Reef this species naturally harbors nrDNA ITS1 thermally sensitive type C2 or thermally tolerant type D zooxanthellae of the genus Symbiodinium and can change dominant type following bleaching. We show that under controlled conditions, corals with type D symbionts grow 29% slower than those with type C2 symbionts. In the field, type D colonies grew 38% slower than C2 colonies. These results demonstrate the magnitude of trade-offs likely to be experienced by this species as they acclimatize to warmer conditions by changing to more thermally tolerant type D zooxanthellae. Irrespective of symbiont genotype, corals were affected to an even greater degree by the stress of a bleaching event which reduced growth by more than 50% for up to 18 months compared to pre-bleaching rates. The processes of symbiont change and acute thermal stress are likely to act in concert on coral growth as reefs acclimatize to more stressful warmer conditions, further compromising their regeneration capacity following climate change.
Highlights
Coral reefs are generally thought to be highly vulnerable to climate change as they live in a narrow range of thermal tolerance
Growth will be affected by symbiont population shuffling to more thermally tolerant types in response to thermal stress
A community shift from thermally sensitive type C2 to thermally tolerant types D and C1 symbionts occurred in A. millepora colonies at Miall Island in the southern Great Barrier Reef following severe bleaching in 2006 [6]
Summary
Coral reefs are generally thought to be highly vulnerable to climate change as they live in a narrow range of thermal tolerance. Indicates that scleractinian (reef-building) corals may have considerable scope for acclimatization to warmer conditions [1,2,3]. Changing to thermally tolerant Symbiodinium type D in one study was found to increase thermal tolerance between 1.0–1.5uC in a common Indo-Pacific coral species, A. millepora [7]. Symbiont change on reefs must essentially involve a community shift in the symbionts of multiple coral species to realize an increase the thermal tolerance of the entire reef [3]. Field studies have yet to demonstrate how widespread the phenomenon of shuffling is, whether all corals have the ability to shuffle symbiont types, or what ecological benefits may result from ‘new’ host-symbiont combinations
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