Biomass production and urban centrate nutrient removal using native microalgae tolerant to high nitrogen concentration and temperature

This paper focuses on the evaluation of the biomass production of a novel native microalgal strain Chlorella sorokiniana using centrate from municipal wastewater as the sole source of nutrients and six different temperatures. The experiments were performed in semi-continuous cultures using Bold’s Ba...

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Bibliographic Details
Published in:Journal of applied phycology 2021-10, Vol.33 (5), p.2921-2931
Main Authors: Romero-Villegas, G. I., Burboa-Charis, V. A., Navarro-López, E., Cerón-García, M. C., Acién-Fernandez, F. G., Estrada-Alvarado, M. I., Rout, N. P., Cira-Chávez, L. A.
Format: Article
Language:English
Subjects:
Algae
Ammonium
Ammonium compounds
Aquatic microorganisms
Biomass
Biomedical and Life Sciences
Chlorella sorokiniana
Chlorophyll
Chlorophylls
Culture media
Dry weight
Ecology
Fatty acids
Fluorescence
Freshwater & Marine Ecology
Life Sciences
Microalgae
Mineral nutrients
Municipal wastewater
Nitrogen
Nutrient concentrations
Nutrient removal
Nutrients
Phosphorus
Phytoplankton
Plant Physiology
Plant Sciences
Removal
Temperature
Temperature tolerance
Wastewater treatment
Wastewater treatment plants
Weight
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Summary:This paper focuses on the evaluation of the biomass production of a novel native microalgal strain Chlorella sorokiniana using centrate from municipal wastewater as the sole source of nutrients and six different temperatures. The experiments were performed in semi-continuous cultures using Bold’s Basal Medium and centrate separately, modifying the temperature (25–50 °C). The study aimed to elucidate whether a thermotolerant strain can be used for both the production of biomass and the removal of nutrients from wastewater. It was observed that C. sorokiniana biomass can be produced using centrate as the sole nutrient source. The highest biomass yield, for both culture media, was achieved at 35 °C showing maximum values for centrate (1.0 g biomass ·L −1 , 0.20 g biomass ·L −1 ·day −1 dry weight), surpassing the productivity obtained when using Bold’s Basal Medium (BBM) (0.60 g biomass ·L −1 ; 0.13 g biomass ·L −1 ·day −1 dry weight). Variable chlorophyll fluorescence confirmed that the excess of ammonium (601 mg NH4 ·L −1 ) did not inhibit the growth of C. sorokiniana , and thus, the biomass productivity was not affected. The maximum nutrient removals reached for BBM and centrate were 96% and 61.5% for nitrogen, 53.2% and 61% for phosphorus, and 93% and 0.18% for total carbon, respectively. Fatty acids accumulating in the microalgal biomass were mainly composed of arachidonic, oleic, and eicosatetraenoic acids. Consequently, it is demonstrated that microalgae native to desertic areas can be used to produce microalgal biomass using centrate from wastewater treatment plants as the exclusive nutrient source, reaching high productivities.
ISSN:0921-8971
1573-5176
DOI:10.1007/s10811-021-02487-z