Iron-Coupled Anaerobic Oxidation of Methane Performed by a Mixed Bacterial-Archaeal Community Based on Poorly Reactive Minerals

甲烷厌氧氧化 甲烷 环境化学 缺氧水域 化学 古细菌 赤铁矿 甲烷单加氧酶 硫黄 铁质 产甲烷 碳纤维 生物量(生态学) 生态学 矿物学 生物 生物化学 复合数 复合材料 有机化学 基因 材料科学
作者
Itay Bar-Or,Marcus Elvert,Werner Eckert,Ariel Kushmaro,Hanni Vigderovich,Qingzeng Zhu,Yair Ben‐Dov,Orit Sivan
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:51 (21): 12293-12301 被引量:130
标识
DOI:10.1021/acs.est.7b03126
摘要

Anaerobic oxidation of methane (AOM) was shown to reduce methane emissions by over 50% in freshwater systems, its main natural contributor to the atmosphere. In these environments iron oxides can become main agents for AOM, but the underlying mechanism for this process has remained enigmatic. By conducting anoxic slurry incubations with lake sediments amended with 13C-labeled methane and naturally abundant iron oxides the process was evidenced by significant 13C-enrichment of the dissolved inorganic carbon pool and most pronounced when poorly reactive iron minerals such as magnetite and hematite were applied. Methane incorporation into biomass was apparent by strong uptake of 13C into fatty acids indicative of methanotrophic bacteria, associated with increasing copy numbers of the functional methane monooxygenase pmoA gene. Archaea were not directly involved in full methane oxidation, but their crucial participation, likely being mediators in electron transfer, was indicated by specific inhibition of their activity that fully stopped iron-coupled AOM. By contrast, inhibition of sulfur cycling increased 13C-methane turnover, pointing to sulfur species involvement in a competing process. Our findings suggest that the mechanism of iron-coupled AOM is accomplished by a complex microbe-mineral reaction network, being likely representative of many similar but hidden interactions sustaining life under highly reducing low energy conditions.
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