Determining N2O and N2 fluxes in relation to winter wheat and sugar beet growth and development using the improved 15N gas flux method on the field scale

IF 5.1 1区 农林科学 Q1 SOIL SCIENCE Biology and Fertility of Soils Pub Date : 2024-04-04 DOI:10.1007/s00374-024-01806-z
Jonas Eckei, Reinhard Well, Martin Maier, Amanda Matson, Klaus Dittert, Pauline Sophie Rummel
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Abstract

The objectives of this field trial were to collect reliable measurement data on N2 emissions and N2O/(N2O + N2) ratios in typical German crops in relation to crop development and to provide a dataset to test and improve biogeochemical models. N2O and N2 emissions in winter wheat (WW, Triticum aestivum L.) and sugar beet (SB, Beta vulgaris subsp. vulgaris) were measured using the improved 15N gas flux method with helium–oxygen flushing (80:20) to reduce the atmospheric N2 background to < 2%. To estimate total N2O and N2 production in soil, production-diffusion modelling was applied. Soil samples were taken in regular intervals and analyzed for mineral N (NO3 and NH4+) and water-extractable Corg content. In addition, we monitored soil moisture, crop development, plant N uptake, N transformation processes in soil, and N translocation to deeper soil layers. Our best estimates for cumulative N2O + N2 losses were 860.4 ± 220.9 mg N m−2 and 553.1 ± 96.3 mg N m−2 over the experimental period of 189 and 161 days with total N2O/(N2O + N2) ratios of 0.12 and 0.15 for WW and SB, respectively. Growing plants affected all controlling factors of denitrification, and dynamics clearly differed between crop species. Overall, N2O and N2 emissions were highest when plant N and water uptake were low, i.e., during early growth stages, ripening, and after harvest. We present the first dataset of a plot-scale field study employing the improved 15N gas flux method over a growing season showing that drivers for N2O and N2O + N2 fluxes differ between crop species and change throughout the growing season.

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利用改进的 15N 气体通量法在田间测定与冬小麦和甜菜生长发育有关的 N2O 和 N2 通量
此次田间试验的目的是收集与作物生长有关的德国典型作物的 N2 排放量和 N2O/(N2O + N2) 比率的可靠测量数据,并为测试和改进生物地球化学模型提供数据集。采用改进的 15N 气体通量法测量了冬小麦(WW,Triticum aestivum L.)和甜菜(SB,Beta vulgaris subsp.为估算土壤中的一氧化二氮和二氧化氮总产量,采用了产量扩散模型。我们定期采集土壤样本,分析其中的矿物氮(NO3- 和 NH4+)和水提取钙含量。此外,我们还监测了土壤湿度、作物生长、植物对氮的吸收、土壤中氮的转化过程以及氮向更深土层的转移。在 189 天和 161 天的实验期间,我们对累积 N2O + N2 损失的最佳估计分别为 860.4 ± 220.9 毫克 N m-2 和 553.1 ± 96.3 毫克 N m-2,WW 和 SB 的总 N2O/(N2O + N2) 比率分别为 0.12 和 0.15。生长中的植物影响着反硝化的所有控制因素,不同作物种类的反硝化动态明显不同。总体而言,当植物对氮和水的吸收量较低时,即生长初期、成熟期和收获后,N2O 和 N2 的排放量最高。我们首次展示了采用改进的 15N 气体通量法进行的生长季小区尺度田间研究数据集,该数据集显示,N2O 和 N2O + N2 通量的驱动因素因作物种类而异,并在整个生长季发生变化。
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来源期刊
Biology and Fertility of Soils
Biology and Fertility of Soils 农林科学-土壤科学
CiteScore
11.80
自引率
10.80%
发文量
62
审稿时长
2.2 months
期刊介绍: Biology and Fertility of Soils publishes in English original papers, reviews and short communications on all fundamental and applied aspects of biology – microflora and microfauna - and fertility of soils. It offers a forum for research aimed at broadening the understanding of biological functions, processes and interactions in soils, particularly concerning the increasing demands of agriculture, deforestation and industrialization. The journal includes articles on techniques and methods that evaluate processes, biogeochemical interactions and ecological stresses, and sometimes presents special issues on relevant topics.
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