期刊论文

Yang, Lili;Ji, L

英文

JOURNAL OF ENVIRONMENTAL MANAGEMENT

0301-4797

2024

371

123101

10.1016/j.jenvman.2024.123101

Technology Program for Ecology Geological Survey and Monitoring Institute of Hunan Province [2024-SKY-001]; Science and Technology Program of Changsha City [kq2208416]; Scientific Research Project of Hunan Provincial Education Department [23B0265]; Forestry Science and Technology promotion project of the Central Finance [2023XT04]; National Key Research and Development Program of China [2021YFD2201303]; Natural Science Foundation of China [32071752]; Forestry Science and Technology Innovation Program of Hunan Province of China [XLKT202202]; Central South University of Forestry and Technology (2024) Postgraduate Science and Technology Innovation Fund Project [2024CX02046]

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Anthropogenic nitrogen (N) deposition is expected to increase substantially and continuously in terrestrial ecosystems, endangering the balance of N and phosphorus (P) in P-deficient subtropical forest soil. Despite the widely reported responses of the microbial community to simulated N deposition, there is limited understanding of how N deposition affects the rhizosphere soil processes by mediating functional genes and community compositions of soil bacteria. Here, five levels of simulated N deposition treatments (N0, 0 g m- 2 center dot yr- 1; N1, 100 g m- 2 center dot yr- 1; N2, 200 g m- 2 ...