Mycena species can be opportunist-generalist plant root invaders

Abstract

SummaryRecently, several saprotrophic genera have been found to invade/interact with plant roots in laboratory growth experiments, and this coincides with reports of abundant saprotrophic fungal sequences in plant roots. However, it is uncertain if this reflects field phenomena, and if reports on coincidentally amplified saprotrophs are simply coincidental.We investigated root invasion by presumed saprotrophic fungi by focusing on the large genus Mycena in 1) a systematic analysis of the occurrence of saprotrophic fungi in new and previously published ITS1/ITS2 datasets generated from roots of 10 mycorrhizal plant species, and 2) we analysed natural abundances of 13C/15N stable isotope signatures of fungal/plant communities from five comparable field locations to examine the trophic status of Mycena species.Mycena was the only saprotrophic genus consistently found in 9 of 10 plant host roots, with high within-host variation in Mycena sequence proportions (0-80%) recovered. Mycena carpophores displayed isotopic signatures consistent with published 13C/15N profiles of both saprotrophic or mutualistic lifestyles, with considerable intraspecific variation, resembling the patterns seen in growth experiments. These results indicate that multiple Mycena species opportunistically invade the roots of a range of plant species, possibly forming a spectrum of interactions. This potentially challenges our general understanding of fungal ecology.Originality significance statementThis is the first study to apply a dual approach of systematic metabarcoding of plant roots and stable isotope signatures on dried field material to the large and common saprotrophic fungal genus Mycena. This is significant as it shows that members of this genus, normally not expected to be found inside plant roots at all, are in fact associated eith multiple plant hosts. The study furthermore shows that species in this genus may occupy different ecological roles in the field besides being saprotrophic. That a large and common fungal genus known to be a quantitatively important litter decayer can be an opportunistic root invader and interact with host plants is of interest to all mycologists and ecologists working on plant-fungus/microb symbiosis.