Environmental factors and host genotype control foliar epiphytic microbial community of wild soybeans across China

• Published in: Frontiers in microbiology Vol. 14; p. 1065302
• Main Authors: Zhou, Rui, Duan, Gui-Lan, García-Palacios, Pablo, Yang, Guang, Cui, Hui-Ling, Yan, Ming, Yin, Yue, Yi, Xing-Yun, Li, Lv, Delgado-Baquerizo, Manuel, Zhu, Yong-Guan
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Media S.A 13.03.2023
• Subjects: core microbiome; foliar microbiome; host genotype; microbial community assembly; Microbiology; wild soybean; host genotype; foliar microbiome; microbial community assembly; wild soybean; core microbiome
• ISSN: 1664-302X; 1664-302X
• DOI: 10.3389/fmicb.2023.1065302

The microbiome inhabiting plant leaves is critical for plant health and productivity. Wild soybean ( ), which originated in China, is the progenitor of cultivated soybean ( ). So far, the community structure and assembly mechanism of phyllosphere microbial community on were poorly understood. Here, we combined a national-scale survey with high-throughput sequencing and microsatellite data to evaluate the contribution of host genotype vs. climate in explaining the foliar microbiome of , and the core foliar microbiota of were identified. Our findings revealed that both the host genotype and environmental factors (i.e., geographic location and climatic conditions) were important factors regulating foliar community assembly of . Host genotypes explained 0.4% and 3.6% variations of the foliar bacterial and fungal community composition, respectively, while environmental factors explained 25.8% and 19.9% variations, respectively. We further identified a core microbiome thriving on the foliage of all populations, including bacterial (dominated by - , , , , and ) and fungal (dominated by , , and ) taxa. Our study revealed the significant role of host genetic distance as a driver of the foliar microbiome of the wild progenitor of soya, as well as the effects of climatic changes on foliar microbiomes. These findings would increase our knowledge of assembly mechanisms in the phyllosphere of wild soybeans and suggest the potential to manage the phyllosphere of soya plantations by plant breeding and selecting specific genotypes under climate change.