Organic Fertilizers as Partial Substitutes for Chemical Fertilizers Enhance Nitrogen Immobilization and Optimize Nitrogen Fate in Paddy Soils
文献类型: 外文期刊
第一作者: Hou, Hongqian
作者: Hou, Hongqian;Ji, Jianhua;Lan, Xianjin;Liu, Xiumei;Lv, Zhenzhen;Liu, Yiren;Hou, Hongqian;Ji, Jianhua;Lan, Xianjin;Liu, Xiumei;Lv, Zhenzhen;Liu, Yiren;Hou, Hongqian;Ji, Jianhua;Lan, Xianjin;Liu, Xiumei;Lv, Zhenzhen;Liu, Yiren;Hou, Hongqian;Ji, Jianhua;Lan, Xianjin;Liu, Xiumei;Lv, Zhenzhen;Liu, Yiren;Drosos, Marios;Cheng, Zhengxin;Zhou, Weijun
作者机构:
关键词: N-15 tracer techniques; organic N fractions; N immobilization; N fertilizer fate; paddy soil
期刊名称:AGRICULTURE-BASEL ( 影响因子:3.6; 五年影响因子:3.8 )
ISSN:
年卷期: 2024 年 14 卷 12 期
页码:
收录情况: SCI
摘要: Organic fertilizers as partial substitutes for chemical fertilizers improve soil nitrogen (N) retention capacity. However, the relative importance of biotic and abiotic N immobilization at different levels of organic N substitution and the subsequent effects on N utilization in paddy soils are not well elucidated. To address these, a combination of N-15 incubation experiments and pot experiments were conducted to investigate biotic and abiotic N immobilization features and their effects on N fertilizer fate under long-term different fertilization regimes in paddy soils in China. Test soils that had received chemical fertilization (NPK), chemical N was substituted with 30%, 50%, and 70% organic N (70 F + 30 M, 50 F + 50 M, and 30 F + 70 M, respectively), and no fertilization (control) for 36 years. The results revealed that both abiotic and biotic NH4+-N immobilization were enhanced under organic N substitution soils. The highest NH4+-N abiotic and biotic N immobilization was observed under 50 F + 50 M soil, significantly increasing by 195.5% and 51.4%, respectively, compared to the NPK soil. In contrast, only abiotic NO3--N immobilization increased with rising organic substitution N proportions. N fertilizer utilization efficiency was significantly enhanced in 50 F + 50 M soil (36.7%) compared to the NPK soil (30.3%), which was primarily attributed to the enhanced N pool activity and N immobilization capacity. However, the N fertilizer residue rate was significantly higher in the 30 F + 70 M soil (23.6%) compared to the NPK soil (21.6%), largely attributed to the soil properties improvement. Our results suggest that N immobilization capacity and N fertilizer utilization can be optimized with a 50% organic substitution ratio in our studied soil-crop system.
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