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Sparking Anaerobic Digestion: Promoting Direct Interspecies Electron Transfer to Enhance Methane Production

Zhiqiang Zhao, Yang Li, Yaobin Zhang, Derek R. Lovley

2020iScience188 citationsDOIOpen Access PDF

Abstract

. DIET is also more resilient to perturbations such as increases in organic load inputs or toxic compounds. However, with current digester practices DIET rarely predominates. Improvements in anaerobic digestion associated with the addition of electrically conductive materials have been attributed to increased DIET, but experimental verification has been lacking. This deficiency may soon be overcome with improved understanding of the diversity of microbes capable of DIET, which is leading to molecular tools for determining the extent of DIET. Here we review the microbiology of DIET, suggest molecular strategies for monitoring DIET in anaerobic digesters, and propose approaches for re-engineering digester design and practices to encourage DIET.

Topics & Concepts

Anaerobic digestionMethaneElectron transferDigestion (alchemy)ChemistryAnaerobic exerciseProduction (economics)Biochemical engineeringEnvironmental chemistryEnvironmental scienceBiologyPhotochemistryEngineeringChromatographyPhysiologyMacroeconomicsOrganic chemistryEconomicsAnaerobic Digestion and Biogas ProductionMicrobial Fuel Cells and BioremediationHybrid Renewable Energy Systems
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