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Nanomaterized zinc sulfide-meerschaum biomatrix efficiently suppressed Fusarium verticilloides with augmented rice seed quality benefits during storage
Pest Management Science ( IF 3.8 ) Pub Date : 2022-09-21 , DOI: 10.1002/ps.7194 Varinder Khepar 1 , Anjali Sidhu 2 , Anju Bala Sharma 3
Pest Management Science ( IF 3.8 ) Pub Date : 2022-09-21 , DOI: 10.1002/ps.7194 Varinder Khepar 1 , Anjali Sidhu 2 , Anju Bala Sharma 3
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The seed-borne mycopathogen Fusarium verticilliodes is a serious and deleterious pathogen causing substantial losses of rice seeds and grains. Rice seeds are prone to infestation at all points of the production chain and the fungal pathogen continues dormant devastation even during storage, adversely affecting the seed parameters. Its control is compromised due to the nonavailability of recommended fungicides during storage. Nanotechnological interventions can provide effective and ecofriendly alternative against mycopathogens during resting periods. Herein, the zinc sulfide-meerschaum nano bio-matrix (nZnS-MR) is presented to show this strategy, which worked well against F. verticilliodes when applied on freshly harvested rice seeds during 6 months of storage.
中文翻译:
纳米化硫化锌-海泡石生物基质可有效抑制轮枝状镰刀菌,提高水稻种子在贮藏期间的品质优势
种子传播的真菌病原体轮枝镰刀菌是一种严重且有害的病原体,会导致水稻种子和谷物大量损失。水稻种子在生产链的各个环节都容易受到感染,即使在储存期间,真菌病原体也会继续潜伏破坏,对种子参数产生不利影响。由于在储存期间无法使用推荐的杀真菌剂,其控制受到损害。纳米技术干预可以在休息期间提供有效且生态友好的替代方法来对抗真菌病原体。在此,提出了硫化锌-海泡石纳米生物基质 (nZnS-MR) 以展示该策略,当在 6 个月的储存期间将其应用于新鲜收获的水稻种子时,它对F. verticilliodes效果很好。
更新日期:2022-09-21
中文翻译:
纳米化硫化锌-海泡石生物基质可有效抑制轮枝状镰刀菌,提高水稻种子在贮藏期间的品质优势
种子传播的真菌病原体轮枝镰刀菌是一种严重且有害的病原体,会导致水稻种子和谷物大量损失。水稻种子在生产链的各个环节都容易受到感染,即使在储存期间,真菌病原体也会继续潜伏破坏,对种子参数产生不利影响。由于在储存期间无法使用推荐的杀真菌剂,其控制受到损害。纳米技术干预可以在休息期间提供有效且生态友好的替代方法来对抗真菌病原体。在此,提出了硫化锌-海泡石纳米生物基质 (nZnS-MR) 以展示该策略,当在 6 个月的储存期间将其应用于新鲜收获的水稻种子时,它对F. verticilliodes效果很好。
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