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Mechanism of bio-electrokinetic remediation of pyrene contaminated soil: Effects of an electric field on the degradation pathway and microbial metabolic processes. | LitMetric

Mechanism of bio-electrokinetic remediation of pyrene contaminated soil: Effects of an electric field on the degradation pathway and microbial metabolic processes.

J Hazard Mater

School of Biological Science & Engineering, North Minzu University, Yinchuan 750021, China; Key Laboratory of Ecological Protection of Agro-pastoral Ecotones in the Yellow River Basin, National Ethnic Affairs Commission of the People's Republic of China, Yinchuan 750021, China.

Published: January 2022

AI Article Synopsis

  • A study examined the effectiveness of bio-electrokinetic (BIO-EK) remediation for breaking down pyrene, finding it outperforms traditional bioremediation and electrokinetic methods in terms of degradation efficiency.
  • The research identified two main degradation pathways involved in BIO-EK: biological metabolism and electrochemical oxidation, as well as various intermediate products generated during the process.
  • Additionally, the study revealed changes in the microbial community and functional gene expression, indicating that the electric field enhances metabolism related to carbohydrates, lipids, amino acids, energy, and xenobiotics, aiding in pollutant degradation.

Article Abstract

In this study, the mechanism of bio-electrokinetic (BIO-EK) remediation to improve the degradation of pyrene was evaluated based on an analysis of the intermediate products and the microbial community. The results show that BIO-EK remediation has a higher pyrene degradation efficiency on pyrene and its intermediate products than the bioremediation and electrokinetic (EK) remediation processes. A series of intermediate products were detected. According to the type of the intermediate products, two degradation pathways, biological metabolism and electrochemical oxidation, are proposed in the BIO-EK remediation of pyrene. Furthermore, the primary microbial taxa involved in the pollutant degradation changed, which led to variations in the functional gene components. The abundant and functional genes related to metabolism were specifically analyzed. The results indicate that the electric field promotes the expression of metabolisms associated with 14 carbohydrates, 13 lipids, 13 amino acids, five energies, and in particular, 11 xenobiotics. These results suggest that in addition to the promotion effect on the microbial metabolism caused by the electric field, BIO-EK remediation can promote the degradation of pollutants due to the coexistence of a microbial metabolic pathway and an electrochemical oxidation pathway.

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Source
http://dx.doi.org/10.1016/j.jhazmat.2021.126959DOI Listing

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