PLoS ONE (Jan 2011)

Symbiodinium genotypic and environmental controls on lipids in reef building corals.

  • Timothy F Cooper,
  • Michael Lai,
  • Karin E Ulstrup,
  • Sandra M Saunders,
  • Gavin R Flematti,
  • Ben Radford,
  • Madeleine J H van Oppen

DOI
https://doi.org/10.1371/journal.pone.0020434
Journal volume & issue
Vol. 6, no. 5
p. e20434

Abstract

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BackgroundLipids in reef building corals can be divided into two classes; non-polar storage lipids, e.g. wax esters and triglycerides, and polar structural lipids, e.g. phospholipids and cholesterol. Differences among algal endosymbiont types are known to have important influences on processes including growth and the photobiology of scleractinian corals yet very little is known about the role of symbiont types on lipid energy reserves.Methodology/principal findingsThe ratio of storage lipid and structural lipid fractions of Scott Reef corals were determined by thin layer chromatography. The lipid fraction ratio varied with depth and depended on symbiont type harboured by two corals (Seriatopora hystrix and Pachyseris speciosa). S. hystrix colonies associated with Symbiodinium C1 or C1/C# at deep depths (>23 m) had lower lipid fraction ratios (i.e. approximately equal parts of storage and structural lipids) than those with Symbiodinium D1 in shallow depths (Conclusions/significanceThis study has demonstrated that Symbiodinium exert significant controls over the quality of coral energy reserves over a large-scale depth gradient. We conclude that the competitive advantages and metabolic costs that arise from flexible associations with divergent symbiont types are offset by energetic trade-offs for the coral host.