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Summer autotrophy and winter heterotrophy in the temperate symbiotic coral Cladocora caespitosa

TitleSummer autotrophy and winter heterotrophy in the temperate symbiotic coral Cladocora caespitosa
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2011
AuthorsFerrier-Pagès, C., Peirano Andrea, Abbate M., Cocito Silvia, Negri A., Rottier C., Riera P., Rodolfo-Metalpa R., and Reynaud S.
JournalLIMNOLOGY AND OCEANOGRAPHY
Volume56
Pagination1429-1438
ISSN00243590
KeywordsAnthozoa, autotrophy, carbon isotope ratio, Cladocora caespitosa, coral, heterotrophy, marine ecosystem, nitrogen isotope, Seawater, symbiont, symbiosis, zooxanthella
Abstract

Carbon and nitrogen isotope ratios (delta C-13 and delta N-15) were determined in the zooxanthellae, host tissue, and whole symbiotic association of the symbiotic temperate coral Cladocora caespitosa, as well as in the different components of the coral's potential food sources (plankton, particulate organic matter in seawater and in the sediment). Data were collected both in winter and summer at three different locations, to assess the extent of auto- and heterotrophy in this species and get a better understanding of the functioning of temperate symbioses. There was a marked seasonal difference in the signature of the zooxanthellae and host tissue, highlighting two clear feeding patterns. In summer, delta C-13 signatures of the coral host and the zooxanthellae were similar (-17 parts per thousand) and very different from the signature of the food sources (from -21 parts per thousand to -25 parts per thousand), suggesting that corals were relying on autotrophy for the acquisition of carbon. delta N-15 values also suggested that nitrogen was not acquired through feeding. Conversely, in winter, the delta C-13 signature of the host decreased by ca. -23 parts per thousand to -28 parts per thousand, and was more comparable to the signature of the external food sources (between -24 parts per thousand and -25 parts per thousand), suggesting a substantial reliance of C. caespitosa on external food sources during this season. There was also a 3 parts per thousand enrichment between the delta N-15 signatures of the food (4-5 parts per thousand) and the signature of the symbiotic association (7-8 parts per thousand), suggesting that nitrogen was also acquired through feeding. Overall, these results give evidence that C. caespitosa and temperate corals in general derive a large fraction of their energy from heterotrophic feeding in winter.

DOI10.4319/lo.2011.56.4.1429
Citation Key ISI:000294603400020