a Department of Life Science, Bar Ilan University, Ramat Gan, Israel
b Department of Biology, University of California, Los Angeles, California, USA
Abstract:
Individuals in a population of aposymbiotic Aiptasia pulchella Carlgren were each inoculated with homologous zooxanthellae. The rate of repopulation of the anemones (i.e. the in situ growth rate of the zooxanthellae) was determined non-destructively from the mean in vivo fluorescence per anemone over 19 days. As zooxanthellae cell density increased, chlorophyll a per cell increased, but fluorescence per cell decreased, probably as a result of self-shading. The emergent relationship between in vivo fluorescence and number of zooxanthellae was linear over the range of cell densities investigated. The-specific growth rate during exponential growth was 0.4·day−1 between days 7 and 15. As repopulation approached saturation (ca. 0.5 × 106 cells per mg animal soluble protein) at about 19 days, the growth rate decreased and approached the steady state growth rate of about 0.02 · day−1 of normal symbiotic anemones. Rates of repopulation of A. pulchella by freshly isolated and cultured homologous zooxanthellae were virtually identical.