Aerobic bacterial methane synthesis
Qian Wang, Abdullah M. Alowaifeer, Patricia Kerner, Narayanaganesh Balasubramanian, Angela Patterson, William Christian, Angela Tarver, John E. Dore, Roland Hatzenpichler, Brian Bothner, Timothy R. McDermott
Abstract
Significance Observations summarized herein contribute to an ongoing paradigm shift in microbial ecology, documenting an emergent property of ecosystem function that further challenges the perception that biogenic methane (CH 4 ) production is strictly an anaerobic process. Relevant metabolites, a model bacterial isolate, gene, and enzyme are identified, and we show how this property can conceivably be broadly distributed in the biosphere and contribute to global CH 4 emissions. Scientifically, this study will enable lines of investigation that will expand our understanding of CH 4 synthesis and emission in nature and illustrates how CH 4 synthesis may actually serve as a nexus for the C and N cycles in nature.