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- Mixotrophic cultivation of microalgae to enhance the biomass and lipid . . .
Under the optimum IAA treatment and irradiation with red light, the highest biomass, lipid content and lipid productivity were 28 34%, 3 53 g L −1 and 140 04 mg L −1 d −1, respectively
- Maximizing Nitrogen Removal and Lipid Production by Microalgae under . . .
The present study aimed to enhance the growth and lipid accumulation coupled with high nitrogen removal by the green microalga Chlorella sp in mixotrophic growth medium under different nitrate, salinity, and glycerol conditions
- CCD-RSM optimization of CO2, nitrate, and nanoparticle levels for . . .
The study employed a central composite design (CCD) response surface method (RSM) to optimize initial CO 2 levels, nitrate concentrations, and ZnO nanoparticle concentration in the culture media for enhancing biomass, lipid, and carbohydrate yield in Chlorella pyrenoidosa
- Effects of Temperature and Nitrogen Concentration on Growth and Lipid . . .
The changes in temperature and nitrate concentration led to significant changes in the cell composition, facilitating the accumulation of lipid components in microalgae during batch culture
- Monitoring lipids profile, CO2 fixation, and water recyclability for . . .
These findings suggest the importance of growing the microalgae biomass in an optimum nitrate concentration for lipid induction under the absence of nitrogen in a two-stage process
- Simultaneous enhancement of microalgae biomass growth and lipid . . .
To overcome the opposing trends in biomass yield and lipid accumulation, Chlorella PY-ZU1 cultures were continuously aerated with 15% CO2 to simultaneously enhance biomass yield (2 78 g L−1) and lipid content (47 04%)
- Biochemical and Morphological Changes Triggered by Nitrogen Stress in . . .
The aim of this study was to investigate the effect of nitrogen limitation and starvation on biochemical and morphological changes in the microalga Chlorella vulgaris FACHB-1068, thereby obtaining the optimal nitrogen stress strategy for maximizing the lipid productivity of microalgal biomass
- Enhancing the mixotrophic production of PUFA lipid-rich microalga
The findings of this study align with these studies in that enhanced lipid accumulation was observed at intermediate light intensities, with diminishing lipid production at very high intensities, supporting the notion that light intensity has an optimal range for lipid biosynthesis
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