The mixotrophic cultivation of microalgae often couples high biomass production with lipid accumulation, and thus it is considered a useful approach to obtain high quantities of added value microalgal biomass. In this study, the marine diatom Thalassiosira pseudonana was supplied with glycerol to determine the potential of the mixotrophic alga for the accumulation of lipids. In preliminarily experiments, T. pseudonana was cultivated in the presence of increasing concentrations of glucose, acetate and glycerol in order to select the best organic carbon source for growth promotion, and glycerol was selected for further experiments. The best glycerol dose for both biomass productivity and lipid production was 2.5 g L-1. To overcome the costs of the pure glycerol supply, the crude glycerol derived from a biodiesel production plant was also tested, as a low-cost alternative. Beside growth and photosynthetic parameters useful to monitor the algal conditions, lipid amount and profile were compared between autotrophic and pure/crude glycerol-treated algae. Interestingly, an almost doubled lipid content was accumulated in mixotrophic algae compared to the autotrophic ones. Moreover, an evident increase in a relatively short-chain fatty acid (C14:0, myristic acid), potentially useful for bio-jet fuels, and in a long-chain omega3-polyunsaturated fatty acid (C18:4; stearidonic acid), interesting for nutritional purposes, was highlighted in mixotrophic samples, especially when cultivated with crude glycerol. Differently, the fatty acid profile obtained from the autotrophic cultures suggested a preferable employment of the algal biomass for biodiesel production, owing to the prevalence of palmitic and palmitoleic acids. This study highlights that the mixotrophic cultivation of T. pseudonana drives the algal metabolism towards the production of different lipids, suitable for diversified applications. Moreover, the use of biodiesel-derived crude glycerol could make mixotrophy economically advantageous, in particular considering a bio-refinery approach.
Mixotrophic cultivation of Thalassiosira pseudonana with pure and crude glycerol: Impact on lipid profile
Costanza BaldisserottoCo-primo
Writing – Original Draft Preparation
;Alessandra SabiaCo-primo
Writing – Original Draft Preparation
;Alessandra GuerriniInvestigation
;Sara DemariaInvestigation
;Michele MaglieInvestigation
;Lorenzo FerroniPenultimo
Formal Analysis
;Simonetta Pancaldi
Ultimo
Supervision
2021
Abstract
The mixotrophic cultivation of microalgae often couples high biomass production with lipid accumulation, and thus it is considered a useful approach to obtain high quantities of added value microalgal biomass. In this study, the marine diatom Thalassiosira pseudonana was supplied with glycerol to determine the potential of the mixotrophic alga for the accumulation of lipids. In preliminarily experiments, T. pseudonana was cultivated in the presence of increasing concentrations of glucose, acetate and glycerol in order to select the best organic carbon source for growth promotion, and glycerol was selected for further experiments. The best glycerol dose for both biomass productivity and lipid production was 2.5 g L-1. To overcome the costs of the pure glycerol supply, the crude glycerol derived from a biodiesel production plant was also tested, as a low-cost alternative. Beside growth and photosynthetic parameters useful to monitor the algal conditions, lipid amount and profile were compared between autotrophic and pure/crude glycerol-treated algae. Interestingly, an almost doubled lipid content was accumulated in mixotrophic algae compared to the autotrophic ones. Moreover, an evident increase in a relatively short-chain fatty acid (C14:0, myristic acid), potentially useful for bio-jet fuels, and in a long-chain omega3-polyunsaturated fatty acid (C18:4; stearidonic acid), interesting for nutritional purposes, was highlighted in mixotrophic samples, especially when cultivated with crude glycerol. Differently, the fatty acid profile obtained from the autotrophic cultures suggested a preferable employment of the algal biomass for biodiesel production, owing to the prevalence of palmitic and palmitoleic acids. This study highlights that the mixotrophic cultivation of T. pseudonana drives the algal metabolism towards the production of different lipids, suitable for diversified applications. Moreover, the use of biodiesel-derived crude glycerol could make mixotrophy economically advantageous, in particular considering a bio-refinery approach.File | Dimensione | Formato | |
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2021 Algal Res - Thalassiosira glycerol.pdf
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