Enhanced saturated fatty acids accumulation in cultures of newly-isolated strains of Schizochytrium sp. and Thraustochytriidae sp. for large-scale biodiesel production

Heterotrophic marine protists (Thraustochytrids) have received increasingly global attention as a renewable, sustainable and alternative source of biodiesel because of their high ability of saturated fatty acids (SFAs) accumulation. Yet, the influence of extrinsic factors (nutrients and environmenta...

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Bibliographic Details
Published in:The Science of the total environment 2018-08, Vol.631-632, p.994-1004
Main Authors: Wang, Qiuzhen, Sen, Biswarup, Liu, Xianhua, He, Yaodong, Xie, Yunxuan, Wang, Guangyi
Format: Article
Language:English
Subjects:
Biodiesel
Bioreactor
Fed-batch culture
Saturated fatty acids
Thraustochytrids
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Summary:Heterotrophic marine protists (Thraustochytrids) have received increasingly global attention as a renewable, sustainable and alternative source of biodiesel because of their high ability of saturated fatty acids (SFAs) accumulation. Yet, the influence of extrinsic factors (nutrients and environmental conditions) on thraustochytrid culture and optimal conditions for high SFAs production are poorly described. In the present study, two different thraustochytrid strains, Schizochytrium sp. PKU#Mn4 and Thraustochytriidae sp. PKU#Mn16 were studied for their growth and SFAs production profiles under various conditions (carbon, nitrogen, temperature, pH, KH2PO4, salinity, and agitation speed). Of the culture conditions, substrates (C and N) source and conc., temperature, and agitation speed significantly influenced the cell growth and SFAs production of both strains. Although both the strains were capable of growth and SFAs production in the broad range of culture conditions, their physiological responses to KH2PO4, pH, and salinity were dissimilar. Under their optimal batch culture conditions, peak SFAs productions of 3.3g/L and 2.2g/L with 62% and 49% SFAs contents (relative to total fatty acids) were achieved, respectively. The results of 5-L fed-batch fermentation under optimal conditions showed a nearly 4.5-fold increase in SFAs production (i.e., 7.5g/L) by both strains compared to unoptimized conditions. Of the two strains, the quality of biodiesel produced from the fatty acids of PKU#Mn4 met the biodiesel standard defined by ASTM6751. This study, to the knowledge of the authors, is the first comprehensive report of optimal fermentation conditions demonstrating enhanced SFAs production by strains belonging to two different thraustochytrid genera and provides the basis for large-scale biodiesel production. [Display omitted] •Culture conditions for two thraustochytrids were optimized to maximize SFAs yield.•SFAs yield varied between the two strains when cultured under different conditions.•Peak SFAs (3.3g/L and 2.2g/L) with 62% and 49% relative contents were achieved.•5-L scale fermentation showed ca. 4.5 fold enhanced SFAs content in both strains.•Both the strains showed potential in large-scale biodiesel production.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2018.03.078