1. Characterization of anaerobic oxidation of methane and microbial community in landfills with aeration.
- Author
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Jiang, Lei, Chu, Yi-Xuan, Zhang, Xuan, Wang, Jing, He, Xiaosong, Liu, Chen-Yang, Chen, Ting, and He, Ruo
- Subjects
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LANDFILLS , *METHANOTROPHS , *MICROBIAL communities , *NITROGEN cycle , *ELECTROPHILES , *METHANE , *COMMUNITIES - Abstract
Landfills are the third largest source of anthropogenic CH 4 emissions. Anaerobic oxidation of methane (AOM) activity and communities of methane-oxidizing bacteria were investigated in three informal landfills in this study, namely, BJ, CH and SZ landfills, among which BJ and CH represent traditional anaerobic landfills, while the SZ landfill was subjected to aeration to accelerate waste stabilization. The AOM rates of the investigated landfilled wastes ranged from 3.66 to 23.91 nmol g−1 h−1. Among the three landfills, the AOM rate was highest in the SZ-1-Top sample, which was closest to the aeration pipe. Among the possible electron acceptors for AOM, including NO 3 −, NO 2 −, SO 4 2− and Fe3+, the NO 2 −-N content was the only variable that was positively correlated with the AOM rate. Compared with α- Proteobacteria methanotrophs, γ- Proteobacteria methanotrophs were more abundant in the landfilled waste, especially Methylobacter, which was detected in nearly all samples. Members of the family Methylomirabilaceae, including Candidatus Methylomirabilis, were also detected in the SZ-1 and SZ-2-Bot samples. The relative abundance of the main methanotrophs in the families Methylomonadaceae, Methylococcaceae , Rokubacteriales and Methylomirabilaceae , the genus Methylocystis and the phylum NC10 were all positive correlations with the contents of NO 2 −-N in the landfilled waste samples. Additionally, significantly positive correlations were observed between the AOM rates and the relative abundance of the main methanotrophs except for the family Methylococcaceae. This indicated that aeration could enhance the conversion of nitrogen compounds in the landfilled waste, in which the high contents of NO 2 −-N could stimulate the growth of methanotrophs and increase AOM rate. These findings are helpful for understanding the mechanisms of CH 4 oxidation in landfills and for taking effective measures to mitigate CH 4 emissions from landfills. • Aeration could enhance the AOM activity of landfilled waste. • NO 2 −-N content of landfilled waste had a positive relationship with AOM rate. • TS, NH 4 +-N, TN were the main factors affecting microbial community in landfills. • Methylobacter was rich in nearly all the landfilled waste samples. • NO 2 −-N content was positively related with the relative abundance of methanotrophs. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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