Bioremediation of Pyropia-processing wastewater coupled with lipid production using Chlorella sp.

Shiyan Zheng, Shanyi Chen, Shangyun Zou, Yiwen Yan, Guang Gao, Meilin He, Changhai Wang, Hui Chen, Qiang Wang

Bioresource technology 2021 Feb

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Pyropia-processing wastewater (PPW) contains diverse organic nutrients and causes environmental pollution. To explore the nutrient removal efficiency and growth performance of Chlorella sp. on PPW, the cultures were conducted in different culture substrates. Results showed that, after 7 days of incubation, the removal rates of total nitrogen (TN), total phosphorus (TP) and phycobiliprotein (PP) all reached more than 90% by cultivating Chlorella sp. C2 and C. sorokiniana F-275 in PPW. The chemical oxygen demand (COD) removal efficiencies could be over 50%. Meanwhile, the increments of biomass in two tested Chlorella strains were 1.39 and 4.89 times higher than those of BG11 and BBM substrates and the increases in lipid productivity were 1.34 and 10.18- fold, respectively. The C18:3 fatty acid proportions were markedly reduced by 27.89% and 29.10%. These results suggest that Chlorella sp. could efficiently reduce various nutrients in PPW and simultaneously accumulate higher biomass with higher biodiesel characteristics. Copyright © 2020 Elsevier Ltd. All rights reserved.

Citation

Shiyan Zheng, Shanyi Chen, Shangyun Zou, Yiwen Yan, Guang Gao, Meilin He, Changhai Wang, Hui Chen, Qiang Wang. Bioremediation of Pyropia-processing wastewater coupled with lipid production using Chlorella sp. Bioresource technology. 2021 Feb;321:124428