Litcius/Paper detail

Impact of Fungal Hyphae on Growth and Dispersal of Obligate Anaerobic Bacteria in Aerated Habitats

Bijing Xiong, Sabine Kleinsteuber, Heike Sträuber, Christian Dusny, Hauke Harms, Lukas Y. Wick

2022mBio27 citationsDOIOpen Access PDF

Abstract

Although a few studies have reported on the presence of anoxic microniches in fungal biofilms, knowledge of the effects of fungal oxygen consumption on bacterial-fungal interactions is limited. Here, we demonstrate the existence and persistence of oxygen-free zones in air-exposed mycelia enabling spore germination, growth, fermentative activity, and dispersal of the obligate anaerobe. Our study points out a previously overlooked role of aerobic fungi in creating and bridging anoxic microniches in ambient oxic habitats. Air-exposed hyphae hence may act as a scaffold for activity and dispersal of strictly anaerobic microbes. Given the short-term tolerance of strict anaerobes to oxygen and reduced oxygen content in the mycosphere, hyphae can promote spatial organization of both obligate anaerobic and aerobic bacteria. Such finding may be important for a better understanding of previously observed co-occurrences of aerobes and anaerobes in well-aerated habitats such as upland soils.

Topics & Concepts

Obligate anaerobeObligateAnoxic watersBiologyHyphaBiological dispersalBotanyMicrobiologyBacteriaEcologyPopulationDemographySociologyGeneticsMicrobial Community Ecology and PhysiologyProtist diversity and phylogenyPlant Pathogens and Fungal Diseases