Management of Chocolate Spot Disease in Faba Bean Plants by using Biological Control Means

Journal of plant science and phytopathology Pub Date : 2023-12-04 DOI:10.29328/journal.jpsp.1001120

M. Ahmed, EA Salem, MA Mahmoud, S. Shaheen

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Abstract

gypt and many other countries of the world because the seeds offer a low-cost source of protein, lysine, carbohydrates, minerals, and vitamins. Chocolate spot disease is a stress-related fungal disease produced by Botrytis fabae that causes plant damage, limits photosynthetic activity, and reduces yield. Results: Trichoderma atroviride greatly reduced mycelial growth by 90.00% in vitro, followed by T. harzianum (86.67%) and T. album (83.89%) on average. In vivo, all studied antagonists dramatically reduced Botrytis fabae disease incidence and severity in both seasons 2021/22 and 2022/23. T. atroviride showed the highest efficacy bioagent (73.55 and 85.15%), followed by T. harzianum (72.55 and 81.22%), in controlling B. fabae of faba bean plants in both seasons. In addition, the results also showed that all tested biological treatments had an impact on yield components and increased levels of chlorophyll, protein%, phenols, flavonoids, Peroxidase (PO), polyphenol Oxidase (PPO), chitinase, and -1, 3-glucanase activities compared to control treatment in both seasons. In this regard, spraying T. atroviride showed the highest efficacy as a bioagent, followed by T. harzianum. Contrary, T. hamatum showed the lowest efficacy compared to other treatments in both seasons. Conclusion: This investigation was carried out to determine the effectiveness of several different antagonists, i.e., T. album, T. atrovirde, T. hamatum, and T. harzianum (30 x 106 spore/ml), Blight Stop, and Bio Zeid, for controlling Botrytis fabae on bean plants and evaluating their effect on yield parameters, components, and quality.

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利用生物控制手段管理法巴豆巧克力斑病

因为巧克力种子是蛋白质、赖氨酸、碳水化合物、矿物质和维生素的低成本来源。巧克力斑病是一种与压力有关的真菌病害，由 Botrytis fabae 产生，会对植物造成损害、限制光合作用并降低产量。研究结果在体外，Trichoderma atroviride 能大大减少菌丝生长，平均减少 90.00%，其次是 T. harzianum（86.67%）和 T. album（83.89%）。在体内，所有研究的拮抗剂都能在 2021/22 和 2022/23 两个季节显著降低蚕豆灰霉病的发病率和严重程度。在这两个季节中，T. atroviride 生物制剂对控制蚕豆植株上的蚕豆病菌的效力最高（分别为 73.55% 和 85.15%），其次是 T. harzianum 生物制剂（分别为 72.55% 和 81.22%）。此外，研究结果还表明，与对照处理相比，所有测试的生物处理方法都对产量成分产生了影响，并提高了叶绿素、蛋白质%、酚类、类黄酮、过氧化物酶（PO）、多酚氧化酶（PPO）、几丁质酶和-1，3-葡聚糖酶的活性水平。在这方面，喷洒 T. atroviride 的生物制剂功效最高，其次是 T. harzianum。相反，在这两个季节中，与其他处理相比，T. hamatum 的功效最低。结论这项研究旨在确定几种不同的拮抗剂（即 T. album、T. atrovirde、T. hamatum 和 T. harzianum（30 x 106 孢子/毫升））、Blight Stop 和 Bio Zeid 对控制豆科植物上的 Botrytis fabae 的有效性，并评估它们对产量参数、成分和质量的影响。

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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Journal of plant science and phytopathology

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