Services on Demand
Journal
Article
Indicators
Cited by SciELO
Access statistics
Related links
Cited by Google
Similars in SciELO
Similars in Google
Share
Nova
Print version ISSN 1794-2470
Abstract
LANCHEROS DIAZ, Ana Graciela; DIAZ BARRERA, Luis Eduardo and CAMACHO KURMEN, Judith Elena. Astaxanthin production under stress factors using a 5L laboratory scale bioreactor. Nova [online]. 2021, vol.19, n.37, pp.99-119. Epub Mar 06, 2022. ISSN 1794-2470. https://doi.org/10.22490/24629448.5498.
Introduction.
Haematococcuspluvialis is a microalgae that produces astaxanthin, a beta-carotene and antioxidant widely used in industry. In order to obtain a higher production of astaxanthin, the objective was to use different stress factors, in a 5-liter laboratory-scale bioreactor.
Methodology.
The microalgae was cultivated in the RM medium, pH 6.8, temperature 20 ± 2°C, filtered air, illumination with white lamps 20h light/4h darkness, irradiance 70 μE m-2s-1, different concentrations of sodium acetate and chloride of sodium. Cell growth, morphological changes and quantification of astaxanthin and chlorophyll were determined by spectrophotometry. Statistical analysis was performed using ANOVA (95%).
Results.
Using 0.299 mg/L of sodium acetate a cell growth of 2.0 x 104 Cel/mL and an astaxanthin concentration of 2.530 μg/mL were obtained, while with 1.6 mg/L of sodium acetate the cell growth It was 3.5 x 104 Cel/mL and an astaxanthin concentration of 1.9 μg/mL. The treatment to which 1.6 g L of sodium acetate and 6.4 g/L of sodium chloride were added showed the highest astaxanthin production, 7.3 μg/ml. Treatment with 0.320 g/L sodium acetate + 1.28 g/L sodium chloride showed the highest cell growth with 1.64x105 cells/ml.
Conclusion.
This research highlights the importance of initially cultivating the microalgae using the 5-liter Tecferm bioreactor and, after its exponential phase, subjecting it to stress factors with sodium acetate and sodium chloride, thus achieving the highest production of 7.325 μg/ml astaxanthin.
Keywords : microalgae; cell growth; stress; beta-carotene; chlorophyll; sodium acetate.