Optimizing beet seed germination via dielectric barrier discharge plasma parameters.

IF 3.4 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Heliyon Pub Date : 2024-10-31 eCollection Date: 2024-11-15 DOI:10.1016/j.heliyon.2024.e40020
Mohammad Hossein Mohajer, Ahmad Khademi, Maede Rahmani, Motahare Monfaredi, Aidin Hamidi, Mohammad Hossein Mirjalili, Hamid Ghomi
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Abstract

This study explores the synergistic effects of gas composition and electric field modulation on beetroot seed germination using dielectric barrier discharge (DBD) plasma. The investigation initially focuses on the impact of air plasma exposure on germination parameters, varying both voltage and treatment duration. Subsequently, the study examines how different gas compositions (argon, nitrogen, oxygen, and carbon dioxide) affect germination outcomes under optimal air plasma conditions. Results indicate that plasma treatment significantly enhances germination rates and seedling growth relative to untreated controls. Notably, plasma exposure alters seed surface morphology and chemistry, increasing roughness, porosity, and hydrophilicity due to the formation of new polar functional groups. The highest germination rate (a 54.84 % increase) and germination index (a 40.11 % increase) were observed at the lowest voltage and shortest duration, whereas higher voltages and prolonged exposure reduced germination, likely due to oxidative stress. Among the tested gas environments, air plasma was most effective in enhancing water uptake and electrical conductivity, while oxygen plasma resulted in the highest germination index and marked improvements in root and shoot length. Conversely, carbon dioxide plasma treatment exhibited inhibitory effects on both germination and subsequent growth metrics. The results highlight the potential of DBD plasma technology to enhance agricultural productivity by optimizing seed germination and early growth. The study emphasizes the importance of precise parameter tuning, particularly gas composition and plasma exposure conditions, to maximize benefits while minimizing adverse effects, offering a refined approach to seed priming in agricultural practices.

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通过介质阻挡放电等离子体参数优化甜菜种子萌发。
本研究利用介质阻挡放电(DBD)等离子体探索气体成分和电场调制对甜菜根种子萌发的协同效应。研究首先关注空气等离子体暴露对萌芽参数的影响,同时改变电压和处理持续时间。随后,研究考察了在最佳空气等离子条件下,不同气体成分(氩气、氮气、氧气和二氧化碳)对发芽结果的影响。结果表明,与未经处理的对照组相比,等离子处理能显著提高发芽率和幼苗生长。值得注意的是,由于形成了新的极性官能团,等离子体暴露改变了种子表面形态和化学性质,增加了粗糙度、孔隙率和亲水性。在电压最低、持续时间最短的情况下,种子萌发率最高(提高了 54.84%),萌发指数最高(提高了 40.11%),而电压越高、暴露时间越长,种子萌发率越低,这可能是由于氧化应激造成的。在测试的气体环境中,空气等离子体在提高吸水率和导电率方面最为有效,而氧气等离子体的发芽指数最高,根和芽的长度也有明显改善。相反,二氧化碳等离子体处理对发芽和后续生长指标都有抑制作用。研究结果凸显了 DBD 等离子体技术通过优化种子萌发和早期生长提高农业生产力的潜力。该研究强调了精确调整参数的重要性,特别是气体成分和等离子体暴露条件,以便在最大限度地提高效益的同时减少不利影响,为农业实践中的种子处理提供了一种精细的方法。
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来源期刊
Heliyon
Heliyon MULTIDISCIPLINARY SCIENCES-
CiteScore
4.50
自引率
2.50%
发文量
2793
期刊介绍: Heliyon is an all-science, open access journal that is part of the Cell Press family. Any paper reporting scientifically accurate and valuable research, which adheres to accepted ethical and scientific publishing standards, will be considered for publication. Our growing team of dedicated section editors, along with our in-house team, handle your paper and manage the publication process end-to-end, giving your research the editorial support it deserves.
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