Prothioconazole Stress Reduces Bacterial Richness and Alters Enzyme Activity in Soybean Rhizosphere.

IF 3.9 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Toxics Pub Date : 2024-09-25 DOI:10.3390/toxics12100692

Ronggang Zhai, Mengchen Shi, Panpan Chen, Yi Wang

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Abstract

Prothioconazole (PTC) is currently a popular triazole fungicide. In recent years, as the use of PTC has increased, there has been growing concern about its environmental and toxicological effects. Here, we studied the effect of PTC on the growth of soybean plants and further analyzed the enzyme activity and microbial community of rhizosphere soil after PTC treatment through 16S rRNA gene high-throughput sequencing and fungal ITS. Changes in structural diversity and species richness were measured using Simpson's diversity index, Shannon's diversity index and the Chao1 and ACE algorithms. The statistical t-test was applied to test whether the index values were significantly different between the two groups. The results showed that the contents of malondialdehyde (MDA) and H₂O₂ increased after the recommended dose of PTC, indicating that PTC has a strong toxic effect on plant growth, thus affecting the healthy growth of plants. In the presence of PTC, the species richness of fungi and bacteria decreased in all three soil types (black soil, yellow earth and red earth), and the community structure also changed significantly (the p-values were all less than 0.05). Proteobacteria, Actinomycetota, Bacteroidota and Acidobacteriota were the main bacteria, and the abundance of Acidobacteriota and Chloroflexi increased. The dominant fungal communities were Ascomycota and Mortierellomycota. The increased abundance of potentially beneficial microorganisms, such as Sphingomonadaceae, suggested that plants may be resistant to PTC stress by recruiting beneficial microorganisms. PICRUSt analysis showed that the metabolism-related functions and membrane transport pathway of rhizosphere bacterial community were inhibited after PTC stress. Spearman correlation analysis revealed a weak correlation between key fungal taxa and rhizosphere variables in the presence of PTC. Therefore, compared with those in the fungal community, the bacterial community was more likely to help plants resist PTC stress, indicating that these key fungal groups may indirectly help soybean growth under PTC stress by affecting the bacterial community.

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丙硫菌唑胁迫降低大豆根瘤菌的细菌丰富度并改变酶活性

丙硫菌唑（PTC）是目前流行的一种三唑类杀菌剂。近年来，随着 PTC 使用量的增加，人们越来越关注其对环境和毒理学的影响。在此，我们研究了 PTC 对大豆植株生长的影响，并通过 16S rRNA 基因高通量测序和真菌 ITS 进一步分析了 PTC 处理后根瘤土壤的酶活性和微生物群落。采用辛普森多样性指数、香农多样性指数以及 Chao1 和 ACE 算法测量了结构多样性和物种丰富度的变化。采用 t 检验来检验两组之间的指数值是否存在显著差异。结果表明，在使用推荐剂量的 PTC 后，丙二醛（MDA）和 H2O2 的含量增加，表明 PTC 对植物生长有较强的毒性作用，从而影响植物的健康生长。在 PTC 的作用下，三种土壤类型（黑土、黄土和红土）中真菌和细菌的物种丰富度均有所下降，群落结构也发生了显著变化（P 值均小于 0.05）。蛋白质细菌、放线菌群、类杆菌群和酸性杆菌群是主要的细菌群落，酸性杆菌群和绿僵菌的数量有所增加。主要的真菌群落是子囊菌群（Ascomycota）和毛霉菌群（Mortierellomycota）。鞘氨单胞菌科（Sphingomonadaceae）等潜在有益微生物数量的增加表明，植物可能通过招募有益微生物来抵抗 PTC 胁迫。PICRUSt 分析表明，PTC 胁迫后根瘤菌群落的代谢相关功能和膜运输途径受到抑制。斯皮尔曼相关分析表明，在 PTC 胁迫下，主要真菌类群与根圈变量之间的相关性较弱。因此，与真菌群落相比，细菌群落更有可能帮助植物抵抗 PTC 胁迫，这表明这些关键真菌类群可能通过影响细菌群落间接帮助大豆在 PTC 胁迫下生长。

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来源期刊

Toxics Chemical Engineering-Chemical Health and Safety

CiteScore

4.50

自引率

10.90%

发文量

681

审稿时长

6 weeks

期刊介绍： The Journal accepts papers describing work that furthers our understanding of the exposure, effects, and risks of chemicals and materials in humans and the natural environment as well as approaches to assess and/or manage the toxicological and ecotoxicological risks of chemicals and materials. The journal covers a wide range of toxic substances, including metals, pesticides, pharmaceuticals, biocides, nanomaterials, and polymers such as micro- and mesoplastics. Toxics accepts papers covering: The occurrence, transport, and fate of chemicals and materials in different systems (e.g., food, air, water, soil); Exposure of humans and the environment to toxic chemicals and materials as well as modelling and experimental approaches for characterizing the exposure in, e.g., water, air, soil, food, and consumer products; Uptake, metabolism, and effects of chemicals and materials in a wide range of systems including in-vitro toxicological assays, aquatic and terrestrial organisms and ecosystems, model mammalian systems, and humans; Approaches to assess the risks of chemicals and materials to humans and the environment; Methodologies to eliminate or reduce the exposure of humans and the environment to toxic chemicals and materials.