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Integrated metagenomic and metaproteomic insights into current-carrying-coil magnetic field enhanced synergistic methanogenic system and antibiotic resistance gene reduction in cow manure anaerobic digestion.

Created on 06 Jul 2026

Authors

Rouf Ahmad Dar, To-Hung Tsui, Zhaoxiang Du, Le Zhang, Adam Smoliński, Guanning Xiang, Ronghou Liu

Published in

Bioresource technology. Pages 135326. Jul 05, 2026. Epub Jul 05, 2026.

Abstract

Anaerobic digestion (AD) is a sustainable strategy for valorizing cow manure (CM). However, the high ammonia (NH3) concentration and low biodegradability of CM limit hydrolysis and methane production. This study investigated the application of a current-carrying-coil-based magnetic field (CCC-MF) to AD of CM. The CCC-MF digesters showed higher soluble chemical oxygen demand and attained 16.59 % higher ammonium nitrogen reduction, contributing to a 37.50 % higher average methane yield than the control. Further, CCC-MF digesters showed higher enzyme activities (alkaline protease + 30 %, acetate kinase + 22 % and hydrazine dehydrogenase + 26 %) and increased microbial metabolic indices (dehydrogenase activity + 17 % and electron transport system activity + 10 %) than the control. Metagenomics analysis revealed that abundances of the bacterial genera Mesotoga, Aminobacterium, Xiashengella, unclassified Candidatus Cloacimonadota, Advenella, Pseudomonas, and Comamonas increased, whereas the acetoclastic methanogen Methanothrix decreased by 2.58 %, accompanied by 2.07- and 1.64-fold increases in hydrogenotrophic methanogens Methanospirillum and Methanobacterium, respectively, in CCC-MF digesters. The abundance of nitrogen dissimilation and assimilation genes NirK, NorB, NarB, NapA, nmo, and GLT1 were enhanced by 1.14, 1.04, 2.30, 1.32, 1.17, and 1.29-fold in CCC-MF digesters compared to the control. Moreover, metaproteomics revealed higher up-regulated differentially expressed proteins in NH3 reduction-related amino acid metabolism pathways in CCC-MF digester compared to control. Additionally, reduced abundances of bacitracin, polymyxin, sulfonamide, and multidrug antibiotic resistance (MAR) gene types were observed in the CCC-MF digesters. The findings suggest that applying CCC-MF may be associated with higher methane production and ammonium reduction, potentially linked to a more favorable synergistic methanogenic system and nitrogen transformation pathways.

PMID:
42402284
Bibliographic data and abstract were imported from PubMed on 06 Jul 2026.

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