Journal
JOURNAL OF EXPERIMENTAL BIOLOGY
Volume 214, Issue 20, Pages 3351-3357Publisher
COMPANY OF BIOLOGISTS LTD
DOI: 10.1242/jeb.058354
Keywords
Galaxea fascicularis; heterotrophy; extracoelenteric; Artemia; zooplankton; coral; scleractinian
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Funding
- Wageningen University
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Internal and external feeding on zooplankton may provide scleractinian corals with important nutrients. However, the latter process has never been properly quantified. To quantify the dynamics of zooplankton capture, digestion and release for a scleractinian coral, we performed detailed video analyses of Galaxea fascicularis feeding on Artemia nauplii. A highly dynamic process of prey capture, digestion and release was observed. A single G. fascicularis polyp (N=3) captured 558 +/- 67 and released 383 +/- 75 Artemia nauplii over a 6h interval. On average, 98.6% of prey captured was not ingested. Instead, prey items were clustered into aggregates that were digested externally by mesenterial filaments. In addition, we employed carbon, nitrogen and phosphorus analysis of zooplankton before and after digestion by G. fascicularis colonies (N=6). For total organic carbon, 43.1% (0.298 +/- 0.148 mu g Artemia(-1)) was lost after 6h of digestion. For total organic nitrogen, total organic phosphorus and orthophosphate (PO(4)(3-)), these values were 51.3% (0.059 +/- 0.028 mu g Artemia(-1)), 50.9% (0.009 +/- 0.004 mu g Artemia(-1)) and 84.6% (0.0019 +/- 0.0008 mu g Artemia(-1)), respectively. For extracoelenteric zooplankton feeding alone, total estimated nutrient inputs for G. fascicularis colonies were 76.5 +/- 0.0 mu g organic carbon, 15.2 +/- 0.0. g organic nitrogen, 2.3 +/- 0.2 mu g organic phosphorus and 0.5 +/- 0.8 mu g inorganic phosphorus per cm(2) coral tissue per day. These values exceed calculations based on intracoelenteric feeding by up to two orders of magnitude. Our results demonstrate that extracoelenteric zooplankton feeding is a key mechanism of nutrient acquisition for a scleractinian coral. These results are of importance to coral aquaculture and our understanding of benthic-pelagic coupling on coral reefs.
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