The rhizosphere, where plant roots interact intensely with the soil, is a crucial but understudied area in terms of the impact of virus infection. In this study, we investigated the effects of lily symptomless virus (LSV) and cucumber mosaic virus (CMV) on the Lanzhou lily (Lilium davidii var. unicolor) rhizosphere using metagenomics and bioinformatics analysis. We found that virus infection significantly altered soil pH, inorganic carbon, nitrate nitrogen, and total sulfur. Co-infection with LSV and CMV had a greater influence than single infections on the α- and β-diversity of the rhizosphere viral community in which the absolute abundance of certain virus families (Siphoviridae, Podoviridae, and Myoviridae) increased significantly, whereas bacteria, fungi, and archaea remained relatively unaffected. These altered virus populations influenced the rhizosphere microbial carbon and nitrogen cycles by exerting top-down control on bacteria. Co-infection potentially weakened rhizosphere carbon fixation and promoted processes such as methane oxidation, nitrification, and denitrification. In addition, the co-occurrence network of bacteria and viruses in the rhizosphere revealed substantial changes in microbial community composition under co-infection. Our partial-least-squares path model confirmed that the diversity of the rhizosphere viral community indirectly regulated the carbon and nitrogen cycling functions of the microbial community, thus affecting the accumulation of carbon and nitrogen nutrients in the soil. Our results are the first report of the effects of virus infection on the lily rhizosphere, particularly for co-infection; they therefore complement research on the plant virus pathogenic mechanisms, and increase our understanding of the ecological role of rhizosphere soil viruses.
Keywords: Cucumber mosaic virus; Lanzhou lily; Lily symptomless virus; Metagenome; Rhizosphere.
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