Large amounts of methane, a potent greenhouse gas, are produced in anoxic sediments by
methanogenic archaea. Nonetheless, over 90% of the produced methane is oxidized via …

The deep ocean is a rich reservoir of unique organisms with great potential for
bioprospecting, ecosystem services, and the discovery of novel materials. These organisms …

Coastal wetlands are an important source of methane emissions, and understanding the
mechanisms that control methane emissions from coastal wetlands is of great significance to …

Microbial communities play a vital role in urban river biogeochemical cycles. However, the
seasonal variations in microbial community characteristics, particularly phylogenetic group …

Conventional aerobic CH 4-oxidizing bacteria (MOB) are frequently detected in anoxic
environments, but their survival strategy and ecological contribution are still enigmatic. Here …

Estuarine and coastal wetlands, which act as large sources of methane (CH 4) and undergo
substantial loading of anthropogenic nitrogen (N), provide ideal conditions for denitrifying …

Denitrifying anaerobic methane oxidation (DAMO) microorganisms, using nitrate/nitrite to
oxidize methane, have been proved to be an important microbial methane sink in natural …

Microbes play a crucial role in mediating the methane flux in deep-sea cold seep
ecosystems, where only methane-related microbes have been well studied, while the whole …

Nitrite/nitrate-dependent anaerobic methane oxidation (n-DAMO) plays an important role in
methane (CH 4) consumption in intertidal wetlands. However, little is known about the …

Aerobic granular sludge (AGS) is a powerful biotechnology to remove various heavy metal
(loid) s from wastewater, but not including arsenic (As). In this study, a novel manganese …