Biogeographical distribution of denitrifying anaerobic methane oxidizing bacteria in Chinese wetland ecosystems

The discovery of denitrifying anaerobic methane oxidation with nitrite as electron acceptor mediated by CandidatusMethylomirabilis oxyfera' connected the biogeochemical carbon and nitrogen cycle in a new way. However, it is important to have a comprehensive understanding about the distribution of M.oxyfera-like bacteria in the terrestrial realm, especially the wetland ecosystems that are known as the largest natural source of atmospheric methane. Here, our molecular evidence demonstrated that a wide geographical distribution of M.oxyfera-like bacteria at oxic/anoxic interfaces of various wetlands (n=91) over the Chinese territory. Intriguingly, the M.oxyfera-like bacteria were detected in some extreme environments, indicating that M.oxyfera-like bacteria occupied a wide range of habitats. Quantitative polymerase chain reaction estimated that the abundance of M.oxyfera-like bacteria ranged from 2.2x10(3) to 2.3x10(7) copiesg(-1) dry soil, and up to around 0.62% of the total number of bacteria. Moreover, the M.oxyfera-like bacteria showed high biodiversity in wetland ecosystems based on the analysis of 462 pmoA and 287 16S rRNA gene sequences. The current study revealed the widespread distribution and biogeography of M.oxyfera-like bacteria in the terrestrial system.