Spatial Pattern of Endophytic Fungi and the Symbiotic Germination of Tulasnella Fungi from Wild Cymbidium goeringii (Orchidaceae) in China.

Abstract

The endophytic microbiome in orchid plants is rich and diverse; however, few studies have analyzed the endophytic microbiome of Cymbidium plants in different tissues and soils. This study implemented the Illumina Miseq technology to investigate the diversity of endophytic fungi in different tissues of wild Cymbidium goeringii. The results demonstrated that different tissue samples harbor a rich fungal endophytic community, and those fungi could be classified into 4 phyla, at least 145 families, and 185 genera. The endophytic fungal community diversity differed among the orchid tissues and soils, and some fungal taxa were clearly concentrated in certain orchid tissues, with more operational taxonomic units (OTUs) being detected. Investigation of mycorrhizal associations showed that 43 (about 3.8%) of the total 1137 OTUs could be assigned as Orchidaceae mycorrhizal fungi (OMF), while about 96.2% the OTUs were non-mycorrhizal fungi. Among the OMFs, OTUs of the ectomycorrhizal fungi Russulaceae and Thelephoraceae families were the most abundant, with different richness in the soil, followed by Tulasnellaceae and Ceratobasidiaceae, which were dominant in the root communities of C. goeringii. In the seeds, the absolutely dominant family was Nectriaceae, and the common OMFs Ceratobasidiaceae (five OTUs) and Tulasnellaceae (one OTU) were also detected in the seeds. Two Tulasnella spp. isolates from the roots of wild C. goeringii could effectively promote seed germination and rhizome formation of wild C. goeringii, and these strains might be particularly important in the practice of conservation for many endangered C. goeringii in China.