Determining nitrogen status using a universal critical nitrogen dilution curve for predicting flue-cured tobacco yield and quality

IF 4.8 Q1 AGRICULTURE, MULTIDISCIPLINARY Journal of Agriculture and Food Research Pub Date : 2024-07-14 DOI:10.1016/j.jafr.2024.101296
Bo Yao , Wei Jiang , Dingchun Yan , Liuchen Zhang , Erdeng Ma , Xiaopeng Deng , Zhaoli Xu , Weichao Sun , Junying Li , Liang Tang
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Abstract

The critical nitrogen (Nc) dilution curve is considered an effective method for crop nitrogen (N) diagnosis, fertilization decision-making, and crop modeling. The Nc dilution curve is typically described using a power function curve (Nc = A1W−A2). This study established a universal Nc dilution curve and evaluated its potential application in flue-cured tobacco (Nicotiana tabacum L.) N diagnosis, yield, and quality regulation. Field experiments were conducted involving three tobacco varieties (Honghuadajinyuan, Yunyan87, and K326) and four N application rates (0 to > 90 kg N ha−1). The study was conducted in Southwest China from 2021 to 2022. The universal Nc curve obtained across all experimental data was 3.45 W−0.39. The parameter A2 was more susceptible to genotype and environment interactions than parameter A1. The uncertainty first rapidly decreased and then remained at a lower value as biomass increased. The relationship between leaf biomass and days after transplantation and accumulated growth degree was robust. The N nutrition index (NNI) and accumulated N deficiency effectively determined leaf N status and N demand, respectively. There was an inverse correlation between the NNI, leaf yield, and between the superior and medium leaf ratios. The quantitative relationship can be used to adjust the synergistic production of tobacco yield and leaf quality.

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利用通用临界氮稀释曲线确定氮状况,以预测烟叶产量和质量
临界氮(Nc)稀释曲线被认为是作物氮(N)诊断、施肥决策和作物建模的有效方法。Nc 稀释曲线通常用幂函数曲线(Nc = A1W-A2)来描述。本研究建立了一条通用的氮素稀释曲线,并评估了其在烟草(Nicotiana tabacum L.)氮素诊断、产量和质量调节中的潜在应用。田间试验涉及三个烟草品种(红花大金元、云烟 87 和 K326)和四种氮施用量(0 至 90 kg N ha-1)。研究于 2021 年至 2022 年在中国西南地区进行。所有试验数据的通用 Nc 曲线为 3.45 W-0.39。与参数 A1 相比,参数 A2 更容易受到基因型和环境相互作用的影响。随着生物量的增加,不确定性先是迅速下降,然后保持在较低值。叶片生物量与移栽后天数和累积生长度之间的关系是稳健的。氮营养指数(NNI)和累积缺氮量分别有效地确定了叶片的氮状况和氮需求量。氮营养指数、叶片产量以及上等叶片和中等叶片比率之间呈反相关。该定量关系可用于调整烟叶产量和叶片质量的协同生产。
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来源期刊
CiteScore
5.40
自引率
2.60%
发文量
193
审稿时长
69 days
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