Litcius/Paper detail

Light Stress after Heterotrophic Cultivation Enhances Lutein and Biofuel Production from a Novel Algal Strain <i>Scenedesmus obliquus</i> ABC-009

Hyun Gi Koh, Yong Tae Jeong, Bong‐Soo Lee, Yong Keun Chang

2021Journal of Microbiology and Biotechnology10 citationsDOIOpen Access PDF

Abstract

were largely similar to those grown in YM medium, the disparity in the biomass yield was largely attributed to the larger cell volume in heterotrophically cultivated cells. Post-cultivation light treatment was found to further enhance the biomass productivity in all three cases and lutein content in heterotrophic conditions. Consequently, the maximum biomass (757.14 ± 20.20 mg/l/d), FAME (92.78 ± 0.08 mg/l/d), and lutein (1.006 ± 0.23 mg/l/d) productivities were obtained under heterotrophic cultivation. Next, large-scale lutein production using microalgae was demonstrated using a 1-ton open raceway pond cultivation system and a low-cost fertilizer (Eco-Sol). The overall biomass yields were similar in both media, while slightly higher lutein content was obtained using the fertilizer owing to the higher nitrogen content.

Topics & Concepts

LuteinBiomass (ecology)HeterotrophScenedesmusBiofuelFood scienceFertilizerBotanyProductivityBiologyCarotenoidAlgaeAgronomyBiotechnologyBacteriaEconomicsMacroeconomicsGeneticsAlgal biology and biofuel productionPhotosynthetic Processes and MechanismsMarine and coastal ecosystems