Phosphorus (P) is crucial for tree growth and development, and it significantly influences the rhizosphere microbial community. However, the effects of phosphorus addition on the microbial communities in the rhizosphere soil of Idesia polycarpa remain understudied. In this study, two-year-old “Yuji” Idesia polycarpa seedlings were used to investigate the effects of phosphorus fertilization at four different levels of 0 g (control, CK), 0.92 g (low phosphorus, LP), 1.83 g (medium phosphorus, MP), and 2.75 g (high phosphorus, HP) per plant. The fertilizers were applied every 40 days over 120 days. MiSeq high-throughput sequencing of the 16S rRNA and ITS1 genes was employed to analyze the microbial community composition and diversity of bacteria and fungi in the rhizosphere soil under different phosphorus levels. The results showed that compared with CK treatment, the application of phosphorus fertilizer changed the physicochemical properties of the soil. The LP treatment significantly increased the soil pH, while the HP treatment group exhibited the highest soil-available phosphorus (AP) content. LP treatment significantly increased the number of microbial OTUs in the early and rapid growth stages and the richness and diversity of microbial communities. In addition, the bacterial community structure was significantly correlated with soil pH and AP, while the fungal community had no significant effect. The primary metabolic pathway function of bacteria in the rhizosphere soil of Idesia polycarpa seedlings is mainly metabolism, while fungi are mainly biosynthesis. Compared with CK treatment, 20 differential metabolic pathways were screened out in the bacterial community. Only two differential metabolic pathways were screened out in the fungal community by LP treatment at 120 days. In summary, applying low-level phosphate fertilizer is conducive to promoting the diversity of rhizosphere soil microorganisms. Therefore, potted planting of Idesia polycarpa seedlings is more suitable for applying low phosphorus levels.
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