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Organic Fertilizers as Partial Substitutes for Chemical Fertilizers Enhance Nitrogen Immobilization and Optimize Nitrogen Fate in Paddy Soils

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  • Hongqian Hou

    (Institute of Soil, Fertilizer, Resources and Environment, Jiangxi Academy of Agricultural Sciences, Nanchang 330200, China
    National Engineering and Technology Research Center for Red Soil Improvement, Nanchang 330200, China
    Key Laboratory of Acidified Soil Amelioration and Utilization, Ministry of Agriculture and Rural Affairs, Nanchang 330200, China
    National Agricultural Experimental Station for Agricultural Environment, Yichun 336000, China)

  • Jianhua Ji

    (Institute of Soil, Fertilizer, Resources and Environment, Jiangxi Academy of Agricultural Sciences, Nanchang 330200, China
    National Engineering and Technology Research Center for Red Soil Improvement, Nanchang 330200, China
    Key Laboratory of Acidified Soil Amelioration and Utilization, Ministry of Agriculture and Rural Affairs, Nanchang 330200, China
    National Agricultural Experimental Station for Agricultural Environment, Yichun 336000, China)

  • Xianjin Lan

    (Institute of Soil, Fertilizer, Resources and Environment, Jiangxi Academy of Agricultural Sciences, Nanchang 330200, China
    National Engineering and Technology Research Center for Red Soil Improvement, Nanchang 330200, China
    Key Laboratory of Acidified Soil Amelioration and Utilization, Ministry of Agriculture and Rural Affairs, Nanchang 330200, China
    National Agricultural Experimental Station for Agricultural Environment, Yichun 336000, China)

  • Marios Drosos

    (Department of Agricultural, Forest, Food and Environmental Sciences (DAFE), University of Basilicata, Viale Dell’Ateneo Lucano 10, 85100 Potenza, Italy)

  • Xiumei Liu

    (Institute of Soil, Fertilizer, Resources and Environment, Jiangxi Academy of Agricultural Sciences, Nanchang 330200, China
    National Engineering and Technology Research Center for Red Soil Improvement, Nanchang 330200, China
    Key Laboratory of Acidified Soil Amelioration and Utilization, Ministry of Agriculture and Rural Affairs, Nanchang 330200, China
    National Agricultural Experimental Station for Agricultural Environment, Yichun 336000, China)

  • Zhenzhen Lv

    (Institute of Soil, Fertilizer, Resources and Environment, Jiangxi Academy of Agricultural Sciences, Nanchang 330200, China
    National Engineering and Technology Research Center for Red Soil Improvement, Nanchang 330200, China
    Key Laboratory of Acidified Soil Amelioration and Utilization, Ministry of Agriculture and Rural Affairs, Nanchang 330200, China
    National Agricultural Experimental Station for Agricultural Environment, Yichun 336000, China)

  • Yiren Liu

    (Institute of Soil, Fertilizer, Resources and Environment, Jiangxi Academy of Agricultural Sciences, Nanchang 330200, China
    National Engineering and Technology Research Center for Red Soil Improvement, Nanchang 330200, China
    Key Laboratory of Acidified Soil Amelioration and Utilization, Ministry of Agriculture and Rural Affairs, Nanchang 330200, China
    National Agricultural Experimental Station for Agricultural Environment, Yichun 336000, China)

  • Zhengxin Cheng

    (Jiangxi Academy of Agricultural Sciences, Nanchang 330200, China)

  • Weijun Zhou

    (College of Resources, Hunan Agricultural University, Changsha 410128, China)

Abstract

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 15 N 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 NH 4 + -N immobilization were enhanced under organic N substitution soils. The highest NH 4 + -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 NO 3 − -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.

Suggested Citation

  • Hongqian Hou & Jianhua Ji & Xianjin Lan & Marios Drosos & Xiumei Liu & Zhenzhen Lv & Yiren Liu & Zhengxin Cheng & Weijun Zhou, 2024. "Organic Fertilizers as Partial Substitutes for Chemical Fertilizers Enhance Nitrogen Immobilization and Optimize Nitrogen Fate in Paddy Soils," Agriculture, MDPI, vol. 14(12), pages 1-16, December.
    • Handle: RePEc:gam:jagris:v:14:y:2024:i:12:p:2300-:d:1544091
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    References listed on IDEAS

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    1. Weifu PENG & Yongjun ZENG & Qinghua SHI & Shan HUANG, 2017. "Responses of rice yield and the fate of fertilizer nitrogen to soil organic carbon," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 63(9), pages 416-421.
    2. Xin Zhang & Eric A. Davidson & Denise L. Mauzerall & Timothy D. Searchinger & Patrice Dumas & Ye Shen, 2015. "Managing nitrogen for sustainable development," Nature, Nature, vol. 528(7580), pages 51-59, December.
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