Mineralized nitrogen uptake by plants of the use of synthetic nitrogen fertilization in agriculture

IF 5.4 Q1 ENVIRONMENTAL SCIENCES Environmental and Sustainability Indicators Pub Date : 2024-06-13 DOI:10.1016/j.indic.2024.100423
Ausra Baksinskaite , Monika Toleikiene , Ruta Bariseviciute , Raminta Skipityte , Vita Tilvikiene
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Abstract

The underground transfer of nitrogen from non-food crop residues to cash crops is an important tool to ensure decent crop yields and balance N use in agroecosystems. Laboratory experiments were performed to determine nitrogen migration in spring wheat at different growth stages using labelled nitrogen. In the first stage of the experiment, Artemisia dubia was grown in climate chambers (Climacell CLC-707-TV), with air temperature cycles of 8 h at 15 °C and 16 h at 20 °C, and fertiliz using 15N isotope enriched ammonia nitrate. In the second stage of the experiment, spring wheat was sown and grown to full maturity in two soils of differing soil acidity (pH 3.93 ± 0,04 and pH 7.07 ± 0,08) and mixed with the chopped pieces (3–5 cm mean length) of Artemisia dubia above-ground biomass obtained in the first stage of the experiment. Each soil had four experimental treatments: non-enriched biomass; non-enriched biomass and fertilizer (170 N kg h−1); biomass enriched by 15N and no fertilizer, and 15N enriched biomass and fertilizer (170 N kg h−1). Spring wheat and soil were sampled every two weeks for dry matter (DM), total N and 15N content measurements during the experiment (13 weeks). The results showed that improved crop nitrogen utilization from Artemisia dubia residues were achieved when additional crop fertilizers was not used. It implies that adding additional nitrogen might increase the degradation of plant biomass, but at the same time cause environmental pollution by leaching as plants use it slightly for their growth.

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农业中使用合成氮肥的植物吸收矿化氮的情况
从非粮食作物残留物向经济作物的地下氮转移是确保作物产量和平衡农业生态系统氮利用的重要工具。为了确定春小麦在不同生长阶段的氮迁移情况,我们利用标记氮进行了实验室实验。在实验的第一阶段,在气候箱(Climacell CLC-707-TV)中种植青蒿,气温循环周期为 15 °C 下 8 小时和 20 °C 下 16 小时,并使用 15N 同位素富集硝酸铵施肥。在实验的第二阶段,春小麦被播种在两种不同酸度的土壤(pH 3.93 ± 0.04 和 pH 7.07 ± 0.08)中并生长至完全成熟,并与第一阶段实验中获得的切碎的蒿草地上生物量(平均长度为 3-5 厘米)混合。每种土壤有四种实验处理:非富集生物质;非富集生物质和肥料(170 N kg h-1);富含 15N 的生物质和无肥料;富含 15N 的生物质和肥料(170 N kg h-1)。在试验期间(13 周),每两周对春小麦和土壤取样一次,测量干物质(DM)、全氮和 15N 含量。结果表明,在不使用额外作物肥料的情况下,作物对残留蒿草中氮的利用率有所提高。这意味着,添加额外的氮可能会增加植物生物量的降解,但同时由于植物在生长过程中会少量利用氮,因此会造成环境污染。
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来源期刊
Environmental and Sustainability Indicators
Environmental and Sustainability Indicators Environmental Science-Environmental Science (miscellaneous)
CiteScore
7.80
自引率
2.30%
发文量
49
审稿时长
57 days
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