Inactivation efficacy of low-pressure plasma treatment against seed-borne tomato pathogen Clavibacter michiganensis and effect of seed setting position and mesh sheet usage.

Journal of microorganism control Pub Date : 2023-01-01 DOI:10.4265/jmc.28.3_123

Terumi Nishioka, Yuichiro Takai, Tomoko Mishima, Hideo Tanimoto, Kiyotsugu Okada, Tatsuya Misawa, Shinichi Kusakari

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Abstract

Clavibacter michiganensis, a gram-positive actinomycete, is a major seed-borne tomato pathogen. We investigated the inactivation efficacy of low-pressure plasma treatment against C. michiganensis inoculated on tomato seeds by placing them on a mesh sheet above the bottom dielectric glass plate. The 2- and 5-minute plasma treatment reduced C. michiganensis populations on the tomato seeds by 0.8 and 1.8 log cfu/seed, respectively. The reduction rates were similar to those of C. michiganensis on shirona (cruciferous) seeds, which have different shapes and surface structures. In contrast, the inactivation of C. michiganensis cells using plasma was more difficult than that of X. campestris cells. Additionally, it was found that placing seeds on a mesh sheet laid on the dielectric glass plate was remarkably effective in inactivating the pathogens on tomato seeds. Since the tomato seeds were susceptible to damage from plasma treatment, methods to reduce its damage need to be investigated.

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低压等离子体处理对种子传播的番茄病原体密歇根Clavibacter Miciganensis的灭活效果以及结实位置和网片使用的影响。

密歇根Clavibacter michiganensis是一种革兰氏阳性放线菌，是番茄种子传播的主要病原体。我们通过将番茄种子放在底部介电玻璃板上方的网片上，研究了低压等离子体处理对接种在番茄种子上的密歇根梭菌的灭活效果。2分钟和5分钟的血浆处理分别使番茄种子上的密歇根梭菌种群减少了0.8和1.8 log cfu/种子。对十字花科（shirona）种子的还原率与稻瘟病菌相似，但具有不同的形状和表面结构。相比之下，使用血浆灭活密歇根C.ichiganensis细胞比灭活X.campestris细胞更困难。此外，还发现将种子放在电介质玻璃板上的网片上对灭活番茄种子上的病原体非常有效。由于番茄种子容易受到等离子体处理的损伤，因此需要研究减少其损伤的方法。

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 microorganism control

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