Centrate is a low-cost alternative to synthetic fertilizers for microalgal cultivation, reducing environmental burdens and remediation costs. Adapted microalgae need to be selected and characterised to maximise biomass production and depuration efficiency. Here, the performance and composition of six microalgal communities cultivated both on synthetic media and centrate within semi-open tubular photobioreactors were investigated through Illumina sequencing. Biomass grown on centrate, exposed to a high concentration of ammonium, showed a higher quantity of nitrogen (5.6% dry weight) than the biomass grown on the synthetic media nitrate (3.9% dry weight). Eukaryotic inocula were replaced by other microalgae while cyanobacterial inocula were maintained. Communities were generally similar for the same inoculum between media, however, inoculation with cyanobacteria led to variability within the eukaryotic community. Where communities differed, centrate resulted in a higher richness and diversity. The higher nitrogen of centrate possibly led to higher abundance of genes coding for N metabolism enzymes.
Centrate as a sustainable growth medium : impact on microalgal inocula and bacterial communities in tubular photobioreactor cultivation systems / E. Clagnan, G. D'Imporzano, M. Dell'Orto, A. Bani, A.J. Dumbrell, K. Parati, F.G. Acién-Fernández, A. Portillo-Hahnefeld, A. Martel-Quintana, J.L. Gómez-Pinchetti, F. Adani. - In: BIORESOURCE TECHNOLOGY. - ISSN 0960-8524. - 363:(2022 Nov), pp. 127979.1-127979.10. [10.1016/j.biortech.2022.127979]
Centrate as a sustainable growth medium : impact on microalgal inocula and bacterial communities in tubular photobioreactor cultivation systems
E. Clagnan;G. D'Imporzano
;M. Dell'Orto;A. Bani;F. AdaniUltimo
2022
Abstract
Centrate is a low-cost alternative to synthetic fertilizers for microalgal cultivation, reducing environmental burdens and remediation costs. Adapted microalgae need to be selected and characterised to maximise biomass production and depuration efficiency. Here, the performance and composition of six microalgal communities cultivated both on synthetic media and centrate within semi-open tubular photobioreactors were investigated through Illumina sequencing. Biomass grown on centrate, exposed to a high concentration of ammonium, showed a higher quantity of nitrogen (5.6% dry weight) than the biomass grown on the synthetic media nitrate (3.9% dry weight). Eukaryotic inocula were replaced by other microalgae while cyanobacterial inocula were maintained. Communities were generally similar for the same inoculum between media, however, inoculation with cyanobacteria led to variability within the eukaryotic community. Where communities differed, centrate resulted in a higher richness and diversity. The higher nitrogen of centrate possibly led to higher abundance of genes coding for N metabolism enzymes.
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