C. vulgaris
|
180.0 |
Nitrogen limitation (Gouveia and Oliveira, 2009Gouveia, L., Oliveira, A. C., Microalgae as a raw material for biofuels production. Journal of Industrial Microbiology & Biotechnology, 36, 269-74 (2009).) |
147.0 |
Semi-continuous cultivation in bubble column photobioreactors (Feng et al., 2011Feng, Y., Li, C., Zhang, D., Lipid production ofChlorella vulgaris cultured in artificial wastewater medium. Bioresource Technology, 102, 101-105 (2011).) |
77.1 |
Nitrogen limitation (Mujtaba et al., 2012Mujtaba, G., Choi, W., Lee, C., Lee, K., Lipid production byChlorella vulgaris after a shift from nutrient-rich to nitrogen starvation conditions. Bioresource Technology, 123, 279-283 (2012).) |
67.0 |
Nitrogen limitation (Griffiths et al., 2011Griffiths, M. J., Hille, R. P., Harrison, S. T. L., Lipid productivity, settling potential and fatty acid profile of 11 microalgal species grown under nitrogen replete and limited conditions. Journal of Applied Phycology (2011).) |
54.0 |
Nitrogen starvation of Chlorella sp. BUM11008 (Praveenkumar et al.,2012Praveenkumar, Shameera, R., K., Mahalakshmi, G., Akbarsha, M. A., Thajuddin, N., Influence of nutrient deprivations on lipid accumulation in a dominant indigenous microalgaChlorella sp., BUM11008: Evaluation for biodiesel production. Biomass Bioenergy, 37, 60-66 (2012).). |
40.0 |
Optimized productivity limiting nitrogen source, adding CO2 and varying the light intensity (Lv et al.,2010Lv, J., Cheng, L., Xu, X., Zhang, L., Chen, H., Enhanced lipid production ofChlorella vulgaris by adjustment of cultivation conditions. Bioresource Technology, 101, 6797-6804 (2010).) |
16.9 |
Nitrogen starvation (Widjaja et al., 2009Widjaja, A., Chien, C., Ju, Y., Study of increasing lipid production from fresh water microalgaeChlorella vulgaris. Journal of the Taiwan Institute of Chemical Engineer, 40, 13-20 (2009).) |
20.4 |
Reduced nitrate culture (Converti et al.,2009Converti, A., Casazza, A. A., Ortiz, E. Y., Perego, P., Del Borghi, M., Effect of temperature and nitrogen concentration on the growth and lipid content ofNannochloropsis oculata and Chlorella vulgaris for biodiesel production. Chemical Engineering and Processing: Process Intensification, 48, 1146-1151 (2009).) |
S. obliquus
|
140.4 |
Five-day nitrogen starvation in S. obliquus CNW-N (Ho et al., 2012Ho, S., Chen, C., Chang, J., Effect of light intensity and nitrogen starvation on CO2 fixation and lipid/ carbohydrate production of an indigenous microalgaScenedesmus obliquus CNW-N. Bioresource Technology, 113, 244-252 (2012).) |
106.0 |
Nitrogen limitation (Griffiths et al., 2011Griffiths, M. J., Hille, R. P., Harrison, S. T. L., Lipid productivity, settling potential and fatty acid profile of 11 microalgal species grown under nitrogen replete and limited conditions. Journal of Applied Phycology (2011).) |
90.0 |
Nitrogen limitation (Gouveia and Oliveira, 2009Gouveia, L., Oliveira, A. C., Microalgae as a raw material for biofuels production. Journal of Industrial Microbiology & Biotechnology, 36, 269-74 (2009).) |
78.73 |
Nine-day nitrogen starvation in S. obliquus CNW-N (Ho et al., 2010Ho, S., Chen, W., Chang, J.,Scenedesmus obliquus CNW-N as a potential candidate for CO2 mitigation and biodiesel production. Bioresource Technology, 101, 8725-8730 (2010).) |