有机肥替代化肥对紫色土坡耕地氮素流失的影响

Impact of substitution of synthetic nitrogen fertilizer with organic fertilizers on nitrogen loss from sloping cropland of purple soil

  • 摘要: 为明确紫色土有机肥替代化肥的农学与环境效应, 减少紫色土氮素面源污染, 进一步为紫色土化肥“零增长”策略提供科学依据, 利用紫色土坡地养分管理长期试验平台, 结合自由排水采集器(Free-drain Lysimeter)定位观测, 研究紫色土坡耕地小麦-玉米轮作期间(2012—2013年)不同施肥方式下的土壤无机氮动态、作物产量、氮素流失路径与总量。等氮下设置5个施肥处理: 单施化学氮肥(N)、常规化肥(NPK)、猪厩肥(猪厩肥替代100%的化肥氮, OM)、猪厩肥与氮磷钾配施(猪厩肥替代30%的化肥氮, OMNPK)、秸秆还田与氮磷钾配施(秸秆替代15%的化肥氮, CRNPK), 以不施肥(NF)为对照。结果表明, 紫色土坡耕地壤中流流量占总径流量的54.5%~84.6%, 随壤中流淋失的氮占氮流失总量的90.6%, 以壤中流为介导的氮淋失是紫色土坡耕地氮素流失的首要途径, 且氮淋失量高达12.53~76.72 kg(N)·hm−2, 远高于我国其他地区农田氮淋失量, 紫色土地区是氮淋失的热点区域。与常规施肥(NPK)相比, 有机肥替代化肥显著降低紫色土氮素流失量, 其中猪厩肥(OM)、猪厩肥与氮磷钾配施(OMNPK)、秸秆还田与氮磷钾配施(CRNPK)总氮素流失量分别减少32.1% (P<0.05)、27.5% (P<0.05)与21.2% (P<0.05), 其关键机制在于有机肥替代化肥对氮淋失的减控作用, 通过壤中流淋失的氮素分别减少32.0% (P<0.05)、26.7% (P<0.05)与18.0% (P<0.05); 此外, 氮流失系数分别降低44.8%、38.5%及24.3%, 玉米-小麦轮作系统年产量分别增加23.0%、17.8%及4.1%。因此, 长期有机肥替代化肥能在减量施用化肥的基础上保证作物产量, 同时显著降低紫色土坡耕地氮流失风险, 是当前紫色土坡耕地可推荐的减氮增效技术。

     

    Abstract: Excessive N fertilizer application not only increases crop productivity, but also induces substantial environmental N losses that cause large environmental pollution risks. This study aimed to examine the effects of substituting synthetic N fertilizers with organic fertilizers on the reduction in environmental N losses from croplands in purple soil areas. Therefore, we conducted a one year field investigation to measure N-loss pathways and fluxes, crop productivity, and soil environmental variables in a wheat-maize rotation system under long-term different fertilization regimes with the same N rate, including the control (no fertilizer; NF); synthetic N fertilizer only (N); pig manure substituting 100% synthetic N fertilizer (pig manure; OM); regular synthetic N, P, and K fertilizer (NPK); combination of pig manure with synthetic N, P, and K fertilizer (OMNPK; pig manure substituting 30% synthetic N fertilizer); and combination of straw residue returned with synthetic N, P, and K fertilizer (CRNPK; straw residue substituting 15% synthetic N fertilizer). The results showed that N losses via surface runoff and sediment were in the range of 1.12–3.52 kg(N)∙hm−2 and 1.48–7.26 kg(N)∙hm−2, respectively. The N leaching losses via interflow ranged from 12.53 to 76.72 kg(N)∙hm−2, which were over 10 times greater than those for surface runoff; nevertheless, N leaching losses accounted for 90.6% of the total hydrological N losses. These results indicate that N leaching via interflow is the predominant pathway of hydrological N losses, thereby highlighting that sloping cropland of purple soil is one of the hotspots of N leaching losses from agricultural soils in China. Compared with that of the NPK treatment, the substitution of synthetic N fertilizer with organic fertilizers (OM, OMNPK, and CRNPK treatments) decreased the total hydrological N losses by 32.1%, 27.5%, and 21.2%, respectively. This was mainly because practices with substitution of synthetic N fertilizer with organic fertilizers significantly decreased N leaching losses via interflow compared with the application of synthetic N fertilizer only. Furthermore, considering the crop yields, the substitution of synthetic N fertilizer with organic fertilizer treatments (OM, OMNPK, and CRNPK treatments) significantly increased the total annual crop yields by 23.0%, 17.8%, and 4.1%, respectively, and decreased the yield-scaled total hydrological N losses by 24.3% to 44.8%. Therefore, the long-term substitution of synthetic N fertilizer with organic fertilizer can not only increase the crop productivity of both wheat and maize, but also decrease environmental N losses, thereby decreasing the risk of agricultural non-point source pollution in the purple soil region. Overall, the substitution of synthetic N fertilizer with organic fertilizers can be recommended as an optimized agricultural N management strategy to reduce synthetic N fertilizer rates and improve N use efficiency in agricultural systems of the purple soil region.

     

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