Warming enhances the effects of nitrogen addition on fungal but not on bacterial diversity in an alpine meadow

Warming enhances the effects of nitrogen addition on fungal but not on bacterial diversity in an alpine meadow

Warming and nitrogen (N) deposition significantly affect soil microbial community characteristics. However, the responses of bacterial and fungal diversity to warming and N deposition, as well as the dominant influencing factors, remain unclear, especially in N-limited and low-temperature ecosystems...

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Bibliographic Details
Main Authors: Ling Han, Hasbagan Ganjurjav, Guozheng Hu, Jianshuang Wu, Xuexia Wang, Yulong Yan, Yilun Hu, Guoxu Ji, Luobu Danjiu, Qingzhu Gao
Format: Article
Language:English
Published: Elsevier 2025-05-01
Series:Basic and Applied Ecology
Subjects:
Alpine meadow
Nitrogen deposition
Warming
Microbial diversity
Plant community composition
Online Access:http://www.sciencedirect.com/science/article/pii/S1439179125000210
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Summary:Warming and nitrogen (N) deposition significantly affect soil microbial community characteristics. However, the responses of bacterial and fungal diversity to warming and N deposition, as well as the dominant influencing factors, remain unclear, especially in N-limited and low-temperature ecosystems. We employed a field-controlled experimental design with warming (W, using open-top chambers at +2 °C), N addition (N, 40 kg N ha−1 yr−1 NH4NO3), and their interaction (NW) to simulate their effects on soil microbial community composition and diversity, as well as plant community characteristics. Our results showed a significant decrease in bacterial richness (Chao1) under warming. N addition had a positive effect on bacterial richness (Chao1) but a negative effect on fungal diversity (Shannon and Chao1), which led to a considerable shift in bacterial community composition. Conversely, N addition combined with warming significantly increased fungal diversity but decreased bacterial diversity compared with N addition alone. Bacterial diversity was positively influenced by soil moisture but negatively affected by soil temperature and forb dominance. Fungal diversity was negatively influenced by soil NH4+-N content and belowground biomass. Additionally, our results showed a synergistic effect on fungi owing to changes in plant community composition, while an antagonistic effect on bacterial diversity was observed owing to reduced water and nutrient availability under warming plus N addition. Our findings underscore the importance of considering plant productivity and diversity when examining microbial diversity responses to warming and N addition in alpine meadows.
ISSN:1439-1791

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