Litcius/Paper detail

Heterotrophic Cultivation of the Cyanobacterium Pseudanabaena sp. on Forest Biomass Hydrolysates toward Sustainable Biodiesel Production

Dimitra Karageorgou, Alok Patel, Ulrika Rova, Paul Christakopoulos, Petros Katapodis, Λεωνίδας Μάτσακας

2022Microorganisms13 citationsDOIOpen Access PDF

Abstract

Environmental pollution, greenhouse gas emissions, depletion of fossil fuels, and a growing population have sparked a search for new and renewable energy sources such as biodiesel. The use of waste or residues as substrates for microbial growth can favor the implementation of a biorefinery concept with reduced environmental footprint. Cyanobacteria constitute microorganisms with enhanced ability to use industrial effluents, wastewaters, forest residues for growth, and concomitant production of added-value compounds. In this study, a recently isolated cyanobacterium strain of Pseudanabaena sp. was cultivated on hydrolysates from pretreated forest biomass (silver birch and Norway spruce), and the production of biodiesel-grade lipids was assessed. Optimizing carbon source concentration and the (C/N) carbon-to-nitrogen ratio resulted in 66.45% w/w lipid content when microalgae were grown on glucose, compared to 62.95% and 63.79% w/w when grown on spruce and birch hydrolysate, respectively. Importantly, the lipid profile was suitable for the production of high-quality biodiesel. The present study demonstrates how this new cyanobacterial strain could be used as a biofactory, converting residual resources into green biofuel.

Topics & Concepts

BiodieselBiofuelBiomass (ecology)Environmental scienceBioenergyPulp and paper industryBiorefineryPopulationRenewable energyAgronomyBiologyEcologyBiochemistryCatalysisEngineeringSociologyDemographyAlgal biology and biofuel productionMicrobial Metabolic Engineering and BioproductionBiodiesel Production and Applications