Evaluation of the effect of magnetic field on rapeseed growth and the causal agent of blackleg disease, Phoma lingam.

Biotechnologia Pub Date : 2024-06-25 eCollection Date: 2024-01-01 DOI:10.5114/bta.2024.139754
Samira Peighami Ashnaei, Reyhane Sadeghi, Laleh Hosseinian, Ahmad Shafaeizadeh, Mehran Zeinalipour, Hamid Keshvari, Mehrdad Imanzadeh, Mostafa Bahmanabadi
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Abstract

In recent years, with the increased production of oilseed rape, there has been a simultaneous enhancement in reports on pathogens causing diseases. Magnetic technology has been recognized as a new agricultural method aimed at improving health and crop production. In this work, the effect of magnetic fields was studied on the mycelial growth and conidia formation of Leptosphaeria maculans Gol125 and Leptosphaeria biglobosa KH36, the causal agents of Phoma stem cancer (blackleg) disease in rapeseed. In addition, seeds exposed to eight direct frequencies of magnetic fields were impregnated with pathogen suspension and grown under greenhouse conditions. The growth speed of both pathogen isolates decreased by 1-28% in GOL125 and 6-46% in KH36 over time in cultures exposed to magnetic fields. However, the number of conidia increased significantly under magnetic field exposure, reaching 5.4 × 107 and 7.7 × 107 SFU/ml in KH36 and GOL125 isolates, respectively. Furthermore, in greenhouse conditions, an increase in photosynthetic pigment levels was observed in almost all of the magnetic field-treated plants. In addition, disease incidence decreased by around 6% in the magnetic field-treated plants. This study represents the first evaluation of magnetic technology in controlling plant diseases. The use of magnetic fields may present a viable strategy for a sustainable production system; however, it requires further advanced studies to improve plant health and productivity.

评估磁场对油菜生长和黑胫病病原 Phoma lingam 的影响。
近年来,随着油菜产量的增加,有关病原体致病的报道也在同步增加。磁技术已被认为是一种旨在改善健康和提高作物产量的新型农业方法。在这项工作中,研究了磁场对油菜茎癌(黑腿)病原菌 Leptosphaeria maculans Gol125 和 Leptosphaeria biglobosa KH36 的菌丝生长和分生孢子形成的影响。此外,暴露于八种直接频率磁场的种子浸渍了病原体悬浮液,并在温室条件下生长。在暴露于磁场的培养物中,随着时间的推移,两种病原体分离物的生长速度分别降低了 1-28%(GOL125)和 6-46%(KH36)。然而,在磁场暴露下,分生孢子数显著增加,KH36 和 GOL125 分离物的分生孢子数分别达到 5.4 × 107 和 7.7 × 107 SFU/ml。此外,在温室条件下,几乎所有经磁场处理的植物的光合色素水平都有所提高。此外,磁场处理过的植物的病害发生率降低了约 6%。这项研究是对磁场技术控制植物病害的首次评估。磁场的使用可能为可持续生产系统提供了一种可行的策略;然而,它需要进一步的高级研究来改善植物健康和提高生产率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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