Methanogenesis facilitated by electric syntrophy via (semi)conductive iron‐oxide minerals
The University of Tokyo · In-Q-Tel · +3 more institutions
Abstract
Methanogenesis is an essential part of the global carbon cycle and a key bioprocess for sustainable energy. Methanogenesis from organic matter is accomplished by syntrophic interactions among different species of microbes, in which interspecies electron transfer (IET) via diffusive carriers (e.g. hydrogen and formate) is known to be the bottleneck step. We report herein that the supplementation of soil microbes with (semi)conductive iron-oxide minerals creates unique interspecies interactions and facilitates methanogenesis. Methanogenic microbes were enriched from rice paddy field soil with either acetate or ethanol as a substrate in the absence or presence of (semi)conductive iron oxides (haematite or…
Citation impact
- FWCI
- 11.14
- Percentile
- 100%
- References
- 57
Authors
3- SKSouichiro Kato
The University of Tokyo
- KHKazuhito HashimotoCorresponding
In-Q-Tel, Kaya University, Hashimoto Municipal Hospital, The University of Tokyo
- KWKazuya WatanabeCorresponding
Tokyo University of Pharmacy and Life Sciences, In-Q-Tel, Kaya University, Hashimoto Municipal Hospital, The University of Tokyo
Topics & keywords
- Methanogenesis
- Geobacter
- Environmental chemistry
- Biology
- Iron oxide
- Ferrihydrite
- Ferrous
- Methane
- Responsible consumption and production