John Kormla Nyameasem, Reiner Ruser, Christof Kluß, Christoph Essich, Mareike Zutz, Martin ten Huf, Caroline Buchen-Tschiskale, Heinz Flessa, Hans-Werner Olfs, Friedhelm Taube, Thorsten Reinsch
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引用次数: 0
Abstract
The effect of slurry application techniques and slurry N stabilizing strategies on nitrous oxide emission from grasslands is poorly understood and, therefore, can result in large uncertainties in national/regional inventories. Field experiments were, thus, conducted to estimate the effect of different fertilization techniques on nitrous oxide (N2O) emissions. Fertilizer was applied (135–270 kg N ha−1 year−1) as calcium ammonium nitrate (CAN), untreated or treated cattle slurry. The slurry was either treated with sulfuric acid (target pH = 6.0), applied using trailing shoes or treated with 3,4-dimethyl pyrazole phosphate and applied via slot injection. N2O fluxes were sampled using the closed chamber technique. Cumulative N2O emissions ranged 0.1–2.9 kg N ha−1 year−1 across the treatment, sites and years. The N application techniques showed inconsistent effects on soil mineral N content, cumulative N2O emission and N yield. The fertilizer replacement value of slurry was low due to low N use efficiencies at the sites. However, a close positive relationship (r = 0.5; p = .013) between slurry value and biomass yield was observed, highlighting the benefit of high slurry value on crop productivity. N2O-N emission factors were low for all treatments, including CAN, but were 2–6 times higher in 2019 than in 2020 due to lower precipitation in 2020. Variations in N2O emission were largely explained by soil and climatic factors. Even with the low N2O emissions, this study highlights the benefit (significant mitigation of N2O emissions) of replacing the increasingly expensive chemical fertilizer N with input from slurry under favourable conditions for denitrification.
灌浆技术和灌浆N稳定策略对草原氧化亚氮排放的影响尚不清楚,因此可能导致国家/区域清单的不确定性很大。因此,进行了田间试验,以估计不同施肥技术对一氧化二氮(N2O)排放的影响。施肥(135-270 kg N ha−1年−1年)为硝酸铵钙(CAN),未经处理或处理的牛浆。浆液要么用硫酸(目标pH = 6.0)处理,然后用拖鞋施用,要么用3,4-二甲基吡唑磷酸盐处理,然后通过槽状注射施用。采用封闭室技术取样N2O通量。在整个处理、地点和年份中,N2O的累积排放量为0.1-2.9 kg N ha−1年−1。不同施氮方式对土壤矿质氮含量、累积N2O排放和氮素产量的影响不一致。由于土壤氮素利用效率较低,土壤浆液的肥料替代价值较低。然而,密切的正相关关系(r = 0.5;(P = 0.013),表明高浆值对作物生产力有显著的促进作用。包括CAN在内的所有处理的N2O-N排放因子均较低,但由于2020年降水较少,2019年的N2O-N排放因子比2020年高2-6倍。N2O排放的变化主要由土壤和气候因子解释。即使N2O排放量较低,本研究也强调了在有利的反硝化条件下,用泥浆投入取代日益昂贵的化肥N的好处(显著减少N2O排放)。
期刊介绍:
Grass and Forage Science is a major English language journal that publishes the results of research and development in all aspects of grass and forage production, management and utilization; reviews of the state of knowledge on relevant topics; and book reviews. Authors are also invited to submit papers on non-agricultural aspects of grassland management such as recreational and amenity use and the environmental implications of all grassland systems. The Journal considers papers from all climatic zones.
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