German researchers make biomethane fermentation breakthrough

In Germany, microbial production of methane from organic material is an essential process in the global carbon cycle and an important source of renewable energy. This natural process is based on a cooperative interaction between different types of microorganisms: the fermenting bacteria and the methane-producing archaea. The former converts so-called primary fermentation products from biomass decomposition, including fatty acids into intermediate products such as acetic acid, formate or H2. Specialized archaea can then form methane from them. The syntrophic interaction of fermenting bacteria with methanogenic archaea is crucial for the globally relevant conversion of biomass into methane. However, scientists have not yet been able to clarify how the oxidation of saturated fatty acids can be coupled with the thermodynamically extremely unfavorable reduction of CO2 to methane and how such a process can enable the growth of both microorganisms involved. A research team from the University of Freiburg, the Technical University of Darmstadt and the University of Bern in Switzerland has now been able to uncover a crucial step in this process: they found the missing enzymatic link and its function, which makes methane formation from fatty acids traceable from an energetic standpoint. The researchers published their findings in the journal Proceedings of the National Academy of Sciences.