Combination of Inorganic Nitrogen and Organic Soil Amendment Improves Nitrogen Use Efficiency While Reducing Nitrogen Runoff

Nitrogen Pub Date : 2022-01-20 DOI:10.3390/nitrogen3010004

I. Phillips, C. Paungfoo-Lonhienne, Iman Tahmasbian, Benjamin Hunter, Brianna Smith, D. Mayer, M. Redding

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引用次数: 3

Abstract

Improved nitrogen fertiliser management and increased nitrogen use efficiency (NUE) can be achieved by synchronising nitrogen (N) availability with plant uptake requirements. Organic materials in conjunction with inorganic fertilisers provide a strategy for supplying plant-available N over the growing season and reducing N loss. This study investigated whether a combined application of inorganic N with an organic soil amendment could improve nitrogen use efficiency by reducing N loss in runoff. Nitrogen runoff from a ryegrass (Lolium multiflorum) cover was investigated using a rainfall simulator. Nitrogen was applied at low, medium and high (50, 75 and 100 kg/ha) rates as either (NH4)2SO4 or in combination with a poultry manure-based organic material. We showed that the NUE in the combination (58–75%) was two-fold greater than in (NH4)2SO4 (24–42%). Furthermore, this combination also resulted in a two-fold lower N runoff compared with the inorganic fertiliser alone. This effect was attributed to the slower rate of N release from the organic amendment relative to the inorganic fertiliser. Here, we demonstrated that the combined use of inorganic and organic N substrates can reduce nutrient losses in surface runoff due to a better synchronisation of N availability with plant uptake requirements.

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无机氮与有机土壤改良剂配合施用可提高氮素利用效率，减少氮素径流

改善氮肥管理和提高氮利用效率(NUE)可以通过同步氮(N)有效性与植物吸收需求来实现。有机材料与无机肥料相结合提供了一种在生长季节供应植物有效氮和减少氮损失的策略。本研究探讨了无机氮与有机土壤改良剂联合施用是否能通过减少径流中氮的损失来提高氮的利用效率。利用降雨模拟器对黑麦草(Lolium multiflorum)覆盖层的氮径流进行了研究。施氮量分别为低、中、高(50、75和100 kg/ha)，或以(NH4)2SO4的形式施氮，或与禽粪基有机材料联合施氮。结果表明，该组合的NUE(58-75%)是(NH4)2SO4(24-42%)的两倍。此外，与单独施用无机肥相比，这一组合还导致氮径流减少两倍。这一效应归因于有机肥料相对于无机肥料的氮释放速度较慢。在这里，我们证明了无机和有机氮基质的联合使用可以减少地表径流中的养分损失，因为氮有效性与植物吸收需求更好地同步。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nitrogen

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