Anaerobic oxidation of methane in terrestrial wetlands: The rate, identity and metabolism

The recent discovery of anaerobic oxidation of methane (AOM) in freshwater ecosystems has caused a great interest in '' cryptic methane cycle '' in terrestrial ecosystems. Anaerobic methanotrophs appears widespread in wetland ecosystems, yet, the scope and mechanism of AOM in natural wetlands remain poorly understood. In this paper, we review the recent progress regarding the potential of AOM, the diversity and distribution, and the metabolism of anaerobic methanotrophs in wetland ecosystems. The potential of AOM determined through laboratory incubation or in situ isotopic labeling ranges from 1.4 to 704.0 nmol CH4.g(-1) dry soil.d(-1). It appears that the availability of electron acceptors is critical in driving different AOM in wetland soils. The environmental temperature and salinity exert a significant influence on AOM activity. Reversal methanogenesis and extracellular electron transfer are likely involved in the AOM process. In addition to anaerobic methanotrophic archaea, the direct involvement of methanogens in AOM is also probable. This review presented an overview of the rate, identity, and metabolisms to unravel the biogeochemical puzzle of AOM in wetland soils.

Automated summary

The recent discovery of anaerobic oxidation of methane (AOM) in freshwater ecosystems has sparked great interest in the "cryptic methane cycle" in terrestrial ecosystems. Although anaerobic methanotrophs are widely present in wetland ecosystems, the scope and mechanism of AOM in natural wetlands are still poorly understood. This review highlights the potential, diversity, and distribution of AOM as well as the metabolism of anaerobic methanotrophs in wetland ecosystems, aiming to unravel the biogeochemical puzzle of AOM in wetland soils.