Effects of phosphate on growth and skeletal density in the scleractinian coral Acropora muricata: A controlled experimental approach

Phosphate contamination can negatively affect corals, modifying growth rates, skeletal density, reproduction, mortality, and zooxanthellae. We determined the effects of elevated phosphate on coral growth and density. Genetically distinct colonies of Acropora muricata were sub-divided and distributed...

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Bibliographic Details
Published in:Journal of experimental marine biology and ecology 2012-01, Vol.411, p.34-44
Main Authors: Dunn, Jeremy G., Sammarco, Paul W., LaFleur, Gary
Format: Article
Language:English
Subjects:
Acropora
Acropora muricata
Coral
Density
Growth
Marine
Phosphate
Scleractinia
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Summary:Phosphate contamination can negatively affect corals, modifying growth rates, skeletal density, reproduction, mortality, and zooxanthellae. We determined the effects of elevated phosphate on coral growth and density. Genetically distinct colonies of Acropora muricata were sub-divided and distributed among three 110-L aquaria, and exposed to phosphate levels of 0.09, 0.20, and 0.50mgL−1 for four months. Total skeletal length, living tissue length, weight, branch production, and polyp extension were measured. Linear extension and tissue growth increased under all conditions. Growth rates were highest at a phosphate concentration of 0.50mgL−1. Weight increased through time, graded from low to high with phosphate concentration. Density decreased through time, and was significantly lowest in the high phosphate treatment. Phosphate concentration produced no visible effects of stress on the corals, as indicated by polyp extension and lack of mortality. It is suggested that the phosphate enhanced growth was due to increased zooxanthellar populations and photosynthetic production within the coral. Skeletal density reduction may be due to phosphate binding at the calcifying surface and the creation of a porous and structurally weaker calcium carbonate/calcium phosphate skeleton. Increased phosphate concentrations, often characteristic of eutrophic conditions, caused increased coral growth but also a more brittle skeleton. The latter is likely more susceptible to breakage and damage from other destructive forces (e.g., bioerosion) and makes increased coral growth a poor indicator of reef health. ►Effects of elevated phosphate on coral growth and density, Acropora formosa. ►Exptl. phosphate levels — 0.09, 0.20, and 0.50mg/L, > four months lab exposure. ►Growth rates and weight gain highest at 0.50mg phosphate/L, but skeletal density lowest there. ►Phosphate increases growth but lowers density; coral growth is a poor reef health indicator. ►Results support the Janus effect concept on coral reefs.
ISSN:0022-0981
1879-1697
DOI:10.1016/j.jembe.2011.10.013