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Bicarbonate for microalgae cultivation: a case study in a chlorophyte, Tetradesmus wisconsinensis isolated from a Norwegian lake

Ikumi Umetani, Eshetu Janka, Michał Sposób, Chris J. Hulatt, Synne Kleiven, Rune Bakke

2021Journal of Applied Phycology35 citationsDOIOpen Access PDF

Abstract

Abstract Bicarbonate was evaluated as an alternative carbon source for a green microalga, Tetradesmus wisconsinensis , isolated from Lake Norsjø in Norway. Photosynthesis, growth, and lipid production were studied using four inorganic carbon regimes: (1) aeration only, (2) 20 mM NaHCO 3 , (3) 5% (v/v) CO 2 gas, and (4) combination of 20 mM NaHCO 3 and 5% CO 2 . Variable chlorophyll a fluorescence analysis revealed that the bicarbonate treatment supported effective photosynthesis, while the CO 2 treatment led to inefficient photosynthetic activity with a PSII maximum quantum yield as low as 0.31. Conversely, bicarbonate and CO 2 treatments gave similar biomass and fatty acid production. The maximum growth rate, the final cell dry weight, and total fatty acids under the bicarbonate-only treatment were 0.33 (± 0.06) day −1 , 673 (± 124) mg L −1 and 75 (± 5) mg g −1 dry biomass, respectively. The most abundant fatty acid components were α-linolenic acid and polyunsaturated fatty acids constituting 69% of the total fatty acids. The fatty acid profile eventuated in unsuitable biodiesel fuel properties such as high degree of unsaturation and low cetane number; however, it would be relevant for food and feed applications. We concluded that bicarbonate could give healthy growth and comparative product yields as CO 2 .

Topics & Concepts

BicarbonatePolyunsaturated fatty acidPhotosynthesisChemistryBiomass (ecology)Food scienceBiodieselFatty acidDegree of unsaturationBioenergyBotanyBiofuelBiologyBiochemistryAgronomyOrganic chemistryEcologyCatalysisAlgal biology and biofuel productionPhotosynthetic Processes and Mechanisms