Pyrogenic Carbon Promotes Anaerobic Oxidation of Methane Coupled with Iron Reduction via the Redox-Cycling Mechanism

Article

Zhang, Xueqin, Xie, Mengying, Cai, Chen, Rabiee, Hesamoddin, Wang, Zhiyao, Virdis, Bernardino, Tyson, Gene W., McIlroy, Simon J., Yuan, Zhiguo and Hu, Shihu. 2023. "Pyrogenic Carbon Promotes Anaerobic Oxidation of Methane Coupled with Iron Reduction via the Redox-Cycling Mechanism." Environmental Science and Technology. 57 (48), pp. 19793 - 19804. https://doi.org/10.1021/acs.est.3c05907
Article Title

Pyrogenic Carbon Promotes Anaerobic Oxidation of Methane Coupled with Iron Reduction via the Redox-Cycling Mechanism

ERA Journal ID4674
Article CategoryArticle
AuthorsZhang, Xueqin, Xie, Mengying, Cai, Chen, Rabiee, Hesamoddin, Wang, Zhiyao, Virdis, Bernardino, Tyson, Gene W., McIlroy, Simon J., Yuan, Zhiguo and Hu, Shihu
Journal TitleEnvironmental Science and Technology
Journal Citation57 (48), pp. 19793 - 19804
Number of Pages12
Year2023
PublisherAmerican Chemical Society
Place of PublicationUnited States
ISSN0013-936X
1520-5851
Digital Object Identifier (DOI)https://doi.org/10.1021/acs.est.3c05907
Web Address (URL)https://pubs.acs.org/doi/10.1021/acs.est.3c05907
Abstract

Pyrogenic carbon (PC) can mediate electron transfer and thus catalyze biogeochemical processes to impact greenhouse gas (GHG) emissions. Here, we demonstrate that PC can contribute to mitigating GHG emissions by promoting the Fe(III)-dependent anaerobic oxidation of methane (AOM). It was found that the amendment PCs in microcosms dominated by Methanoperedenaceae performing Fe(III)-dependent AOM simultaneously promoted the rate of AOM and Fe(III) reduction with a consistent ratio close to the theoretical stoichiometry of 1:8. Further correlation analysis showed that the AOM rate was linearly correlated with the electron exchange capacity, but not the conductivity, of added PC materials, indicating the redox-cycling electron transfer mechanism to promote the Fe(III)-dependent AOM. The mass content of the C═O moiety from differentially treated PCs was well correlated with the AOM rate, suggesting that surface redox-active quinone groups on PCs contribute to facilitating Fe(III)-dependent AOM. Further microbial analyses indicate that PC likely shuttles direct electron transfer from Methanoperedenaceae to Fe(III) reduction. This study provides new insight into the climate-cooling impact of PCs, and our evaluation indicates that the PC-facilitated Fe(III)-dependent AOM could have a significant contribution to suppressing methane emissions from the world’s reservoirs.

Keywordsanaerobic oxidation of methane; anaerobic methanotrophic archaea; methane mitigation; extracellular electron transfer; Methanoperedenaceae
Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020401199. Environmental engineering not elsewhere classified
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Byline AffiliationsUniversity of Queensland
University of Science and Technology of China, Hefei, China
Centre for Future Materials
Queensland University of Technology
City University of Hong Kong, China
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