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冷等离子体影响荞麦种子的萌发和真菌群落结构。

Cold Plasma Affects Germination and Fungal Community Structure of Buckwheat Seeds.

作者信息

Mravlje Jure, Regvar Marjana, Starič Pia, Mozetič Miran, Vogel-Mikuš Katarina

机构信息

Biotechnical Faculty, University of Ljubljana, Jamnikarjeva 101, 1000 Ljubljana, Slovenia.

Jozef Stefan Institute, Jamova 39, 1000 Ljubljana, Slovenia.

出版信息

Plants (Basel). 2021 Apr 23;10(5):851. doi: 10.3390/plants10050851.

Abstract

Crop seeds are frequently colonised by fungi from the field or storage places. Some fungi can cause plant diseases or produce mycotoxins, compromising the use of seeds as seeding material, food or feed. We have investigated the effects of cold plasma (CP) on seed germination and diversity of seed-borne fungi in common and Tartary buckwheat. The seeds were treated with CP for 15, 30, 45, 60, 90, and 120 s in a low-pressure radiofrequency system using oxygen as the feed gas. The fungi from the seed surface and fungal endophytes were isolated using potato dextrose agar plates. After identification by molecular methods, the frequency and diversity of fungal strains were compared between CP treated and chemically surface-sterilised (30% of HO) seeds. CP treatments above 60 s negatively affected the germination of both buckwheat species. A significant reduction in fungal frequency and diversity was observed after 90 s and 120 s in common and Tartary buckwheat, respectively. The filamentous fungi of genera and proved to be the most resistant to CP. The results of our study indicate that CP treatment used in our study may be applicable in postharvest and food production, but not for further seed sowing.

摘要

作物种子经常受到来自田间或储存场所的真菌的侵染。一些真菌会导致植物病害或产生霉菌毒素,从而影响种子作为播种材料、食物或饲料的用途。我们研究了冷等离子体(CP)对普通荞麦和苦荞麦种子萌发以及种子携带真菌多样性的影响。在一个以氧气作为进料气体的低压射频系统中,将种子用CP处理15、30、45、60、90和120秒。使用马铃薯葡萄糖琼脂平板分离种子表面的真菌和真菌内生菌。通过分子方法鉴定后,比较了CP处理种子和化学表面灭菌(30%过氧化氢)种子之间真菌菌株的频率和多样性。60秒以上的CP处理对两种荞麦的种子萌发均产生负面影响。在普通荞麦和苦荞麦中,分别在90秒和120秒后观察到真菌频率和多样性显著降低。曲霉属和青霉属的丝状真菌被证明对CP最具抗性。我们的研究结果表明,我们研究中使用的CP处理可能适用于收获后和食品生产,但不适用于进一步播种。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b23/8145130/3cf59c667498/plants-10-00851-g001.jpg

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