From the oilfield to the lab: How a special microbe turns oil into gases

Journal Reference:

  1. Zhuo Zhou, Cui-jing Zhang, Peng-fei Liu, Lin Fu, Rafael Laso-Pérez, Lu Yang, Li-ping Bai, Jiang Li, Min Yang, Jun-zhang Lin, Wei-dong Wang, Gunter Wegener, Meng Li, Lei Cheng. Non-syntrophic methanogenic hydrocarbon degradation by an archaeal species. Nature, 2021; DOI: 10.1038/s41586-021-04235-2

Enzymes just in case

This “miracle microbe” breaks down oil into methane (CH4) and carbon dioxide (CO2). “Methanoliparia is a kind of hybrid creature that combines the properties of an oil degrader with those of a methanogen, i.e. a methane producer,” explains study author Gunter Wegener from the Max Planck Institute for Marine Microbiology and the MARUM — Center for Marine Environmental Sciences at the University of Bremen.

Now that the researchers have succeeded in cultivating these microorganisms in the laboratory, they were able to investigate the underlying processes in detail. They discovered that its genetic make-up gives Methanoliparia unique capabilities. “In its genes it carries the blueprints for enzymes that can activate and decompose various hydrocarbons. In addition, it also has the complete gear kit of a methane producer,” says Wegener.

New pathway of methanogenesis

In their laboratory cultures, the researchers offered the microbes various kinds of food and used a variety of different methods to keep a close eye on how Methanoliparia deal with it. What was particularly surprising to see was that this archaeon activated all the different hydrocarbons with one and the same enzyme. “So far, we have only cultivated archaea that live on short-chain hydrocarbons such as ethane or butane. Methanoliparia, on the other hand, prefers heavy oil with its long-chain compounds,” says co-author Rafael Laso-Pérez, who now works at Spain’s National Center for Biotechnology (CNB). “Methanogenic microbes that use long-chain hydrocarbons directly — we didn’t know these existed until now. Even complicated hydrocarbons with ring-like or aromatic structures are not too bulky for Methanoliparia, at least if they are bound to at least one longer carbon chain. This means that besides our other exciting results we have also found a previously completely unknown pathway of methanogenesis. “

Detectable from the oil tank to the deep sea

The Methanoliparia cells cultured for the present study originate from one of China’s largest oil fields, the Shengli oil field. However, genetic analyses show that these microbes are distributed all over the world, even down to the deep sea. “Our results hold an entirely new understanding of oil exploitation in subsurface oil reservoirs. Both the wide distribution of these organisms and the potential industrial applications make this an exciting field of research in the coming years,” Wegener concludes.

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From the oilfield to the lab: How a special microbe turns oil into gases

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