Impact of symbiotic algae on sea anemone metabolism: analysis by in vivo 31P nuclear magnetic resonance spectroscopy.
Sleutelwoorden
Abstract
High-field pulsed Fourier-transform nuclear magnetic resonance spectroscopy (NMR) was used to quantify the adenylate levels of sea anemones (Aiptasia pulchella) with and without symbiotic dinoflagellates (Symbiodinium sp.). Animals were fed to repletion, then starved in darkness for up to six days before collection of in vivo NMR spectra. The host adenylate ratio of ATP: (ATP + ADP) declined significantly with increasing periods of starvation in both symbiotic and aposymbiotic hosts (P less than 0.05). However, the decline in the animal adenylate ratio was significantly more rapid in animals bearing symbiotic algae (P less than 0.05). This suggests that symbiotic algae in darkness cause more rapid depletion of host energy reserves, possibly by drawing on host pools of organic substrates. In vivo NMR spectroscopy was also used to evaluate the effect on A. pulchella of photosynthesis by zooxanthellae. Symbiotic anemones were fed to repletion, then starved under high irradiance (300 to 320 mu Ein m-2 s-1) or low irradiance (70 to 80 mu Ein m-2 s-1) conditions for up to five days. The host adenylate ratio declined significantly (P less than 0.01) with starvation under both treatments, but no significant difference was detected between treatments (P greater than 0.35). Blotted wet weight of anemones under high and low irradiance declined by 50% over eight days of starvation, but there was no significant difference in the rate of weight loss by anemones in the two treatments. There results suggest that translocation of photosynthate from symbiotic zooxanthellae does not significantly affect host adenylate ratio or have a sparing effect on host biomass during starvation in this symbiotic sea anemone.