Anaerobic gut fungi (AGF) were the last phylum to be identified within the rumen microbiome and account for 7-9% of microbial biomass. They produce potent lignocellulases that degrade recalcitrant plant cell walls, and rhizoids that can penetrate the cuticle of plant cells, exposing internal components to other microbiota. Interspecies H2 transfer between AGF and rumen methanogenic archaea is an essential metabolic process in the rumen that occurs during the reduction of CO2 to CH4 by methanogens. This symbiotic relationship is bolstered by hydrogensomes, fungal organelles that generate H2 and formate. Interspecies H2 transfer prevents the accumulation of reducing equivalents that would otherwise impede fermentation. The extent to which hydrogenosomes serve as a conduit for H2 flow to methanogens is unknown, but it is likely greater with low quality forages. Strategies that alter the production of CH4 could also have implications for H2 transfer by anaerobic fungi. Understanding the factors that drive these interactions and H2 flow could provide insight into the effect of reducing CH4 production on the activity of ruminal fungi and the digestion of low-quality feeds.
Keywords: anaerobic fungi; hydrogen transfer; hydrogenosomes; methanogen.
© 2025, The Authors. Published by Elsevier Inc. on behalf of the American Dairy Science Association®. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).