Mitigating gaseous nitrogen emissions in cotton fields through green manure and reduced nitrogen fertilization
文献类型: 外文期刊
第一作者: Ma, Ru
作者: Ma, Ru;Li, Ke;Hou, Mengyao;Zhang, Shijie;Li, Yabing;Zhang, Zhenggui;Wang, Jian;Han, Yingchun;Lei, Yaping;Xiong, Shiwu;Yang, Beifang;Zhi, Xiaoyu;Jiao, Yahui;Li, Yabing;Hou, Mengyao;Zhang, Shijie;Lin, Tao
作者机构:
关键词: N2O emissions; NH3 volatilization; green manure; N fertilizer reduction; bacterial keystone taxa
期刊名称:FRONTIERS IN MICROBIOLOGY ( 影响因子:4.5; 五年影响因子:5.2 )
ISSN:
年卷期: 2025 年 16 卷
页码:
收录情况: SCI
摘要: Integrating green manure with reduced nitrogen (N) fertilization is a promising strategy to mitigate N emissions in intensive cotton cultivation, however, the underlying mechanisms remain poorly understood. This study investigated the effects of three green manure incorporation patterns-no green manure (NG), Orychophragmus violaceus (OVG), and Vicia villosa (VVG)-combined with four N reduction levels (100, 50, 25%, and conventional) on gaseous N emissions (NH3 and N2O), soil physicochemical properties, and bacterial community characteristics using a cotton field experiment in the Yellow River Basin. Results showed that OVG incorporation with 25% N reduction (N2 treatment) significantly reduced total gaseous N emissions by 36.07% on average during the cotton growth period, reducing NH3 and N2O emissions by 13.31-54.11% and 32.25-68.77%, respectively, compared with N2 application without OVG. OVG application also increased the relative abundance of Proteobacteria (28.10%), enhanced heterogeneous selection in bacterial community assembly (200%), and increased the complexity of co-occurrence networks, compared with NG. Compared with conventional N fertilization (N3 treatment), >= 50% N reduction significantly lowered NH3 (>25.51%) and N2O (>32.76%) emissions, reduced the relative abundance of Acidobacteria (-20.23%), simplified co-occurrence networks, and increased homogeneous selection in bacterial assembly (50.00%). Integrating green manure with 25% N reduction substantially reduced gaseous N emissions, which was associated with the enhanced microbial biomass carbon (MBC) and facilitated recruitment of key bacterial taxa (e.g., Sphingosinicella, Azohydromonas, Phototrophicus) within the microbial co-occurrence network. These findings provide insight into how green manure application coupled with N reduction can mitigate gaseous N losses and reshape soil microbial ecology, offering a theoretical basis for sustainable nutrient management during cotton production.
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