Insight to Microbial Fe(III) Reduction Mediated by Redox-Active Humic Acids with Varied Redox Potentials

Duan, Jingtao; Xu, Zhiyuan; Yang, Zhen; Jiang, Jie

Insight to Microbial Fe(III) Reduction Mediated by Redox-Active Humic Acids with Varied Redox Potentials

Jingtao Duan, Zhiyuan Xu, Zhen Yang and Jie Jiang
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Jingtao Duan: College of Environmental Science and Engineering, Beijing Forestry University, Beijing 100083, China
Zhiyuan Xu: College of Environmental Science and Engineering, Beijing Forestry University, Beijing 100083, China
Zhen Yang: College of Urban and Environmental Science, Peking University, Beijing 100871, China
Jie Jiang: College of Environmental Science and Engineering, Beijing Forestry University, Beijing 100083, China

IJERPH, 2021, vol. 18, issue 13, 1-12

Abstract: Redox-active humic acids (HA) are ubiquitous in terrestrial and aquatic systems and are involved in numerous electron transfer reactions affecting biogeochemical processes and fates of pollutants in soil environments. Redox-active contaminants are trapped in soil micropores (<2 nm) that have limited access to microbes and HA. Therefore, the contaminants whose molecular structure and properties are not damaged accumulate in the soil micropores and become potential pollution sources. Electron transfer capacities (ETC) of HA reflecting redox activities of low molecular weight fraction (LMWF, <2.5) HA can be detected by an electrochemical method, which is related to redox potentials (E h ) in soil and aquatic environments. Nevertheless, electron accepting capacities (EAC) and electron donating capacities (EDC) of these LMWF HA at different E h are still unknown. EDC and EAC of different molecular weight HA at different E h were analyzed using electrochemical methods. EAC of LMWF at ?0.59 V was 12 times higher than that at ?0.49 V, while EAC increased to 2.6 times when the Eh decreased from ?0.59 V to ?0.69 V. Afterward, LMWF can act as a shuttle to stimulate microbial Fe(III) reduction processes in microbial reduction experiments. Additionally, EAC by electrochemical analysis at a range of ?0.49–?0.59 V was comparable to total calculated ETC of different molecular weight fractions of HA by microbial reduction. Therefore, it is indicated that redox-active functional groups that can be reduced at E h range of ?0.49–?0.59 are available to microbial reduction. This finding contributes to a novel perspective in the protection and remediation of the groundwater environment in the biogeochemistry process.

Keywords: low molecular weight fraction humic acids (LMWF HA); electrochemical reduction; microbial Fe(III) reduction; redox potentials (E h ) (search for similar items in EconPapers)
JEL-codes: I I1 I3 Q Q5 (search for similar items in EconPapers)
Date: 2021
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