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Use of rare earth element (REE)-contaminated acidic water as Euglena gracilis growth stimulator: A strategy for bioremediation and simultaneous increase in biodiesel productivity

Authors
Kim, Jee YoungKim, Ka YoungKim, Shin MyungChoi, Yoon-E
Issue Date
1-10월-2022
Publisher
ELSEVIER SCIENCE SA
Keywords
Microalgae; Biofuel; Lanthanum; Heterotrophic cultivation; Wax ester fermentation; Water treatment
Citation
CHEMICAL ENGINEERING JOURNAL, v.445
Indexed
SCIE
SCOPUS
Journal Title
CHEMICAL ENGINEERING JOURNAL
Volume
445
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/142860
DOI
10.1016/j.cej.2022.136814
ISSN
1385-8947
Abstract
Rare earth elements (REEs) have emerged as contaminants in water systems because their use and disposal are on the rise in many industries. To achieve environmentally benign treatment of REE-contaminated acidic water, we examined a strategy that uses Euglena gracilis for the bioremediation of REEs and simultaneous biodiesel production from used biomass. The presence of lanthanum (La3+) in the medium (0-100 mu M) stimulated the growth of E. gracilis. The removal efficiency of La3+ was 99.9%, indicating that bioremediation using E. gracilis is feasible. The La3+ treatment accelerated the endocytic activity of E. gracilis and enabled cells to take up more nutrients (glucose and macro/micro elements). Also, La3+ increased the paramylon yield of E. gracilis, with the fatty acid methyl ester (FAME) yield below 3 wt% in both the control and La3+-treated cells. To increase the FAME yield and productivity, wax ester fermentation was conducted under anaerobic conditions. After wax ester fermentation, the FAME yield and productivity of the La3+-treated sample were 9.49 wt% and 78.76 g/L/day, 1.4- and 1.6-fold higher than the yield and productivity of the control sample. Moreover, the series of La treatment and wax ester fermentation enhanced the quality of biodiesel by increasing its saturated fatty acid (SFA) content. We confirmed that other REE species (cerium, neodymium, and a mixture) also stimulated the growth and biodiesel production of E. gracilis. Taken together, our E. gracilis-based bioremediation of REEcontaminated water provides high removal efficiency and a chance to simultaneously improve biodiesel productivity and quality.
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College of Life Sciences and Biotechnology > Division of Environmental Science and Ecological Engineering > 1. Journal Articles

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