4.5 Article

Potential of the microalgae Chlorella fusca (Trebouxiophyceae, Chlorophyta) for biomass production and urban wastewater phycoremediation

Journal

AMB EXPRESS
Volume 12, Issue 1, Pages -

Publisher

SPRINGER
DOI: 10.1186/s13568-022-01384-z

Keywords

Microalgae; Chlorella fusca; Nutrient removal efficiency; Urban wastewater bioremediation; Lipid; Protein

Funding

  1. Photobiology and Biotechnology of Aquatic Organisms (FYBOA) research group [RNM-295]

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This study focuses on evaluating the potential of Chlorella fusca to grow and synthesize metabolites of biotechnological interest after exposure to urban wastewater. The study also investigates the capacity of C. fusca to bioremediate the wastewater and the effect of the wastewater on the physiological status of C. fusca. The results show that wastewater has a stressful effect on the photosynthetic activity and lipid production of C. fusca. This study is important as it contributes to the understanding of using C. fusca biomass for biofuel production and other biotechnological areas.
The present work focuses on: (1) the evaluation of the potential of Chlorella fusca to grow and synthesize metabolites of biotechnological interest, after being exposed for fourteen days to urban wastewater (UW) from Malaga city (UW concentrations: 25%, 50%, 75%, and 100%); (2) the study of the capacity of C. fusca to bioremediate UW in photobioreactors at laboratory scale; and (3) the evaluation of the effect of UW on the physiological status of C. fusca, as photosynthetic capacity by using in vivo Chl a fluorescence related to photosystem II and the production of photosynthetic pigments. C. fusca cell density increased in treatments with 50% UW concentration, followed by the treatment with 100% UW, 75% UW, the control, and finally 25% UW. Protein content increased to 50.5% in 75% UW concentration. Stress induced to microalgal cultures favored the increase of lipid production, reaching a maximum of 16.7% in 100% UW concentration. The biological oxygen demand (BOD5) analysis indicated a 75% decrease in 100% UW concentration. Dissolved organic carbon (DOC) levels decreased by 41% and 40% in 50% UW and 100% UW concentration, and total nitrogen (TN) decreased by 55% in 50% UW concentration. The physiological status showed the stressful effect caused by the presence of UW on photosynthetic activity, with increasing impact as UW concentration grew. In the framework of circular economy, we seek to deepen this study to use the biomass of C. fusca to obtain metabolites of interest for biofuel production and other biotechnological areas.

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