Additional file 1 of Host genetic variation drives the differentiation in the ecological role of the native Miscanthus root-associated microbiome

Additional file 1: Table S1. Site name, locations, plant species of Miscanthus collecting sites. Table S2. The edaphic values of the sampling sites. Table S3. Microsatellite SNP information. Table S4. List of enriched fungal OTUs in different compartments, their taxonomic information, and relative abundances. Table S5. Results of endophyte and rhizosphere prokaryotic and fungal community compositions predicted by significantly environmental variables by PERMANOVA models. Table S6. Results of endophyte and rhizosphere core and non-core prokaryotic community compositions predicted by significantly environmental variables by PERMANOVA models. Table S7. Topological properties of microbial co-occurrence networks and their associated random networks in each compartment in Miscanthus sinensis and Miscanthus floridulus.

附加文件1：表S1：芒草属（Miscanthus）采集点的站点名称、地理位置及植物物种信息。表S2：采样点的土壤理化参数值。表S3：微卫星单核苷酸多态性（Microsatellite SNP）信息。表S4：不同生境微域中富集的真菌操作分类单元（operational taxonomic unit，OTU）列表、其分类学信息及相对丰度。表S5：通过置换多元方差分析（PERMANOVA）模型，基于显著环境变量预测的内生菌与根际原核生物、真菌群落组成结果。表S6：通过置换多元方差分析（PERMANOVA）模型，基于显著环境变量预测的内生菌与根际核心、非核心原核生物群落组成结果。表S7：中华芒草（Miscanthus sinensis）与五节芒（Miscanthus floridulus）各生境微域中微生物共现网络及其对应随机网络的拓扑属性。