Current trends in electromicrobiology of methane oxidation.

Abstract

With many methane oxidation processes now recognized as being electrochemically driven, microbial methane oxidation is becoming an emerging focus in electromicrobiology. This review examines the current trends in the electromicrobiology of methane oxidation. We begin by reviewing recent advances in the understanding of the microbial and physiological diversity involved in microbial methane oxidation. We highlight the versatile role of aerobic methane-oxidizing bacteria in electrochemically driven methane oxidation, and the non-syntrophic lifestyle of anaerobic methanotrophic archaea (ANME) enabled by their extracellular electron transfer (EET) pathways. These aspects are followed by a review of recent findings on the potential reversibility of methanogen metabolism, with a focus on the proposed EET pathways that may facilitate their shift to a methane-oxidizing phenotype, a topic that remains under active investigation and debate. Finally, we examine the biogeochemical cycles and the application potential involving electrochemically driven methane oxidation.