- Title
- Thylakoid fatty acid composition and response to short-term cold and heat stress in high-latitude Symbiodiniaceae
- Creator
- Oakley, Clinton A.; Pontasch, Stefanie; Fisher, Paul L.; Wilkinson, Shaun P.; Keyzers, Robert A.; Krueger, Thomas; Dove, Sophie; Hoegh-Guldberg, Ove; Leggat, William; Davy, Simon K.
- Relation
- Coral Reefs Vol. 41, Issue 2, p. 343-353
- Publisher Link
- http://dx.doi.org/10.1007/s00338-022-02221-2
- Publisher
- Springer
- Resource Type
- journal article
- Date
- 2022
- Description
- Coral reefs are restricted to warm waters, but are increasingly threatened by coral bleaching induced by sustained high sea surface temperatures. Coral endosymbiont thermal resilience has been proposed to depend, at least in part, on the lipid composition of their thylakoid membranes, which influences photosynthetic performance under sub- and super-optimal thermal conditions in photosynthetic organisms. Dinoflagellate symbionts of high-latitude coral reefs experience large seasonal changes in temperature, requiring a wide range of thermal tolerance, and so the thermal responses of their membrane lipids are of particular interest. Using gas chromatography–mass spectrometry, we investigated the composition and response to high- and low-temperature stress of thylakoid fatty acids of dinoflagellate symbionts isolated from corals of Lord Howe Island, the world’s southernmost coral reef. We detected genotype-specific differences in the quality of thylakoid fatty acids of two Cladocopium ITS2 consortia/genotypes, C100/118 and C111*, common local symbionts of the corals Pocillopora damicornis and Porites heronensis. The capability to adjust thylakoid fatty acid composition in response to temperature differed between distinct Cladocopium genotypes, and between the same Cladocopium consortium (C100/118) in the same coral species from different locations. Fatty acid adjustments were highly similar in response to short-term cold and heat stresses, with substantial increases in long-chain polyunsaturated fatty acids and a corresponding increase in the ratio of unsaturated to saturated fatty acids, but these changes did not correlate with the quantum yield of photosystem II. The response of thylakoid fatty acid composition to changes in temperature was a function of symbiont genotype, coral host species and, potentially, environmental history. Our data suggest the existence of common responses to high- and low-temperature stresses and that thylakoid fatty acid saturation is an unreliable predictor of photosystem efficiency under thermal stress in dinoflagellate symbionts.
- Subject
- coral bleaching; fatty acids; photophysiology; Thylakoids; Symbiodiniaceae; SDG 14; Sustainable Development Goals
- Identifier
- http://hdl.handle.net/1959.13/1487819
- Identifier
- uon:52262
- Identifier
- ISSN:0722-4028
- Language
- eng
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