Promising antifungal behavior of biosynthesized bimetallic silver-copper oxide nanoparticles and Bacillus safensis against some strawberry rots

IF 2.8 3区 农林科学 Q2 PLANT SCIENCES Physiological and Molecular Plant Pathology Pub Date : 2024-07-20 DOI:10.1016/j.pmpp.2024.102366
Ahmed I. El-Batal , Nerhan A. Eid , Roqayah Saleh Al-Habeeb , Widad M. Al-Bishri , Gharieb S. El-Sayyad , Ayman E. Badran
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Abstract

Promising nanomaterials combined with beneficial microbes contributed to bio-modulations that might increase yields. In order to combat several fungal infections that invade strawberries (Fragaria ananassa), this study assessed the interactions between the synthesized CuO NPs, bimetallic Ag–CuO NPs, and Bacillus safensis (BS-22) under various treatment circumstances. The effectiveness of BS-22, CuO NPs, and bimetallic Ag–CuO NPs against four different pathogens that cause gray mold disease and root rot on strawberry plants was determined. It was possible to successfully extract twenty-four endophytic bacterial isolates from hygienic strawberry plants that were indigenous. BS-22 isolate, which produced the most hydrogen cyanide (HCN), siderophores, gibberellic acid (GA3), and indole-3-acetic acid (IAA), was identified molecularly as Bacillus safensis. The most extensively studied treatments (foliar CuO NPs at 200 ppm + foliar Ag–CuO NPs at 200 ppm + BS-22) decreased the frequency and severity of black root rot disease in strawberry plants. Foliar CuO NPs (50 ppm) + foliar Ag–CuO NPs (50 ppm) showed significant increase of the total suspended solids (TSSs), total antioxidant capacity (TAC) content, and the total polyphenols content compared to the control and other treatments. The same treatment recorded the highest value in all characters of cell wall components except lignin character where BS-22 treatment had the best effect. All tested treatments significantly decreased disease incidence and severity when strawberry fruit stored at 22 °C ± 2 for 25 days on average. According to this study, foliar CuO NPs (200 ppm) + foliar Ag–CuO NPs (200 ppm) + BS-22 (as a soil drench) might be used as a substitute for gray mold and root rot diseases in strawberry development and biocontrol.

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生物合成的双金属片状氧化铜纳米粒子和枯草芽孢杆菌对一些草莓腐烂病具有良好的抗真菌作用
前景看好的纳米材料与有益微生物的结合有助于生物调节,从而提高产量。为了防治侵入草莓(Fragaria ananassa)的几种真菌感染,本研究评估了合成的 CuO NPs、双金属 Ag-CuO NPs 和枯草芽孢杆菌(BS-22)在不同处理条件下的相互作用。测定了 BS-22、CuO NPs 和双金属 Ag-CuO NPs 对草莓植株上引起灰霉病和根腐病的四种不同病原体的效果。研究人员成功地从卫生的草莓植株中提取了 24 个内生细菌分离物。BS-22 分离物产生的氰化氢(HCN)、苷元、赤霉素(GA3)和吲哚-3-乙酸(IAA)最多,经分子鉴定为 safensis 杆菌。最广泛研究的处理方法(叶面 CuO NPs(200 ppm)+叶面 Ag-CuO NPs(200 ppm)+BS-22)降低了草莓植株黑根腐病的发生频率和严重程度。叶面 CuO NPs(50 ppm)+叶面 Ag-CuO NPs(50 ppm)与对照和其他处理相比,总悬浮固体(TSS)、总抗氧化能力(TAC)含量和总多酚含量均有显著增加。在细胞壁成分的所有特征中,除了木质素特征,BS-22 处理的效果最好,其他特征值均为最高。当草莓果实在 22 °C ± 2 条件下平均存放 25 天时,所有测试处理都能明显降低病害的发生率和严重程度。根据这项研究,叶面 CuO NPs(200 ppm)+叶面 Ag-CuO NPs(200 ppm)+BS-22(作为土壤淋洗剂)可作为草莓灰霉病和根腐病的替代品进行生物防治。
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来源期刊
CiteScore
4.30
自引率
7.40%
发文量
130
审稿时长
38 days
期刊介绍: Physiological and Molecular Plant Pathology provides an International forum for original research papers, reviews, and commentaries on all aspects of the molecular biology, biochemistry, physiology, histology and cytology, genetics and evolution of plant-microbe interactions. Papers on all kinds of infective pathogen, including viruses, prokaryotes, fungi, and nematodes, as well as mutualistic organisms such as Rhizobium and mycorrhyzal fungi, are acceptable as long as they have a bearing on the interaction between pathogen and plant.
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