Long-Term Organic Fertilization Enhances Soil Fertility and Reshapes Microbial Community Structure with Decreasing Effects Across Soil Depth
Suyao Li, Yulin Li, Xu Yan, Zhengyang Gu, Dong Xue, Kaihua Wang, Yuting Yang, Min Lv, Yujie Han, Jinbiao Li, Yanyan Lv, Anyong Hu

TL;DR
Long-term use of organic fertilizer improves soil fertility and changes microbial communities, but these effects become weaker with increasing soil depth.
Contribution
The study reveals depth-dependent effects of long-term organic fertilization on soil microbial communities and fertility in paddy soils.
Findings
Organic fertilization significantly increased soil organic matter, nitrogen, phosphorus, and potassium in topsoil.
Microbial community structure varied more by soil depth than by fertilization treatment in deeper layers.
Surface soil microbial networks were more complex and nutrient-driven, while deeper layers showed adaptation to nutrient-limited conditions.
Abstract
Sustaining agricultural productivity and soil health under intensive cultivation requires a comprehensive understanding of fertilization effects, particularly on deeper soil layers, which has received limited attention compared to surface soils. This study investigated how different fertilization regimes (inorganic, organic, and combined organic–inorganic fertilizers) influence soil physicochemical properties, microbial diversity, community structure, and functional gene abundances at three soil depths (0–20 cm, 20–40 cm, and 40–60 cm) in a 40-year fertilization experiment. Organic fertilization significantly improved topsoil fertility indicators such as soil organic matter (56.6–109.2%), total nitrogen (66.7–122.0%), total phosphorus (198.6–413.2%), and available phosphorus (984.8–1622.1%) and potassium (35.3–438.1%). Compared with the unfertilized control and nitrogen-only treatment,…
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Taxonomy
TopicsSoil Carbon and Nitrogen Dynamics · Microbial Community Ecology and Physiology · Clay minerals and soil interactions
