Microbial community associated with ectomycorrhizal Russula symbiosis and dominated nature areas in southern China

Abstract

ABSTRACT Russula griseocarnosa is one of the uncultivable important mycorrhizal edible fungi. Currently, there is a limited insight into the dynamic composition of the microbial communities associated with Russula. Here, the microbiota in the root and mycorrhizosphere from Russula-Fagaceae nature areas of Fujian province were identified by Illumina MiSeq high-throughput sequencing. First, we compared three types of fungal communities associated with Russula-Fagaceae root mycelia-running stage (stage-1), Russula sporocarping stage-2 (stage-2) and Russula-free Fagaceae root (stage-3). Fungal diversity negatively correlated with Russula. Russula, Tomentella and Lactarius were core EcM in Fagaceae roots. A total of eight genera, including Boletus, are likely a positive indicator of Russula sporocarp production in Russula-Fagaceae roots, while Tomentella and Elaphomyces for Russula symbiosis. Secondly, analysis of fungal and bacterial communities within rhizosphere soils from the three stages revealed six genera, including Dacryobolus and Acidocella, as possible indicator species associated with sporocarping in Russula. Elaphomyces, Tomentella, Sorangium, Acidicaldus, Acidobacterium and Haliangium occurred more frequently in the Russula rhizosphere. Furthermore, operational taxonomic unit (OTU) network analysis showed a positive correlation between Russula,Tomentella, Elaphomyces and Sorangium. Overall, our results revealed a relationship between micro-community and Russula, which may provide a new strategy for improving Russula symbiosis and sporocarp production.