Inducing lipid accumulation in microalgae cells without suppressing cell growth is vital to the economical production of biodiesel from microalgae. In two experiments, we demonstrate that the cell concentration and lipid content of marine microalgae Isochrysis galbana depend upon the iron concentration in the growth media. In Experiment I, adding chelated FeCl 3 to the medium at the late exponential growth phase prolonged this phase and increased the lipid content in I. galbana cells. The fi nal cell density and lipid content of I. galbana supplemented with chelated FeCl 3 was approximately 2 and 1.65 times higher than that of non-supplemented cultures, respectively. In Experiment II, I. galbana cells in the late exponential phase were collected and re-inoculated into new media containing Fe 3+ at various concentrations. The fi nal cell concentration and lipid content were maximized at the highest iron concentration(38% biomass by dry weight at 1.2×10-5 mol/L Fe 3+). In this study, intracellular neutral lipid storage was evaluated by fl uorescent spectrophotometry using fl uorochrome Nile red, and the measurement conditions were optimized. Inducing lipid accumulation in microalgae cells without suppressing cell growth is vital to the economical production of biodiesel from microalgae. We demonstrate that the cell concentration and lipid content of marine microalgae Isochrysis galbana depend upon the iron concentration in the growth medium. In Experiment I, adding chelated FeCl 3 to the medium at the late exponential growth phase prolonged this phase and increased the lipid content in I. galbana cells. The fi nal cell density and lipid content of I. galbana supplemented with chelated FeCl 3 was approximately 2 and 1.65 times higher than that of non-supplemented cultures, respectively. In Experiment II, I. galbana cells in the late exponential phase were collected and re-inoculated into new media containing Fe 3+ at various concentrations. The fi nal cell concentration and lipid content were maximized at the highest iron concentration (38% biomass by dry weight at 1.2 × 10 -5 mol / L Fe 3+). In this study, in tracellular neutral lipid storage was evaluated by fl uorescent spectrophotometry using fl uorochrome Nile red, and the measurement conditions were optimized.