杀菌剂种子处理对大豆保护和共生特性的实现

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY Agricultural Science and Practice Pub Date : 2021-10-10 DOI:10.15407/agrisp8.02.024
T. Mamenko, S. Kots, V. Patyka
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Therefore, the aim of our study was to determine the impact of pre-sowing seed treatment with fungi-\ncides, which differ in the action spectrum of active substances – Standak Top (fipronil, 250 g/l, thiophanate-methyl, 225 g/l,\npyraclostrobin, 25 g/l) and Maxim XL (fludioxonyl, 25 g/l, metalaxyl, 10 g/l), on the intensity of the development of lipid\nperoxidation processes, the activity of antioxidant enzyme ascorbate peroxidase and nitrogen fixation activity in soybeans on\nthe early stages of forming legume-rhizobial symbiosis. Methods. Microbiological (cultivation of a bacterial culture, seed\ninoculation), physiological (vegetative experiment), biochemical (spectrophotometric determination of the content of lipid\nperoxidation products and the activity of ascorbate peroxidase; measuring the nitrogen-fixation activity using a gas chro-\nmatography). Results. It was found that pre-sowing fungicide treatment of soybean seeds and subsequent inoculation with\nactive rhizobia of strain 634b did not result in the change in the content of TBA-active products in roots and root nodules (the\nvalues of indices were within the experiment deviation). At the same time, after seed inoculation using rhizobia and treat-\nment with Maxim XL, there was an increase in the activity of ascorbate peroxidase in the roots from 20.3 to 30.8 %, and with\nStandak Top – from 20.0 to 29.8 % during the early stages of ontogenesis till the formation of the third ternate leaf. Here,\nthe activity of the enzyme in root nodules increased by 24.7–40.3 % at the fungicidal effect. Our data demonstrate that the\ncombination of fungicide seed treatment and inoculation with active rhizobia does not induce lipid peroxidation processes,\nbut promotes the initiation of protective antioxidant properties in soybeans. It is accompanied with efficient functioning of\nthe symbiotic apparatus, which is manifested in the increase in nitrogen-fixing activity of nodule bacteria, formed by active\nrhizobia of strain 634b after the seed treatment with Standak Top – by 98.3 and 78.1 % and after Maxim XL – by 78.6 and\n196.2 % respectively, during the stages of the second and third ternate leaves. Conclusions. The pre-sowing soybean seed\ntreatment with fungicides Standak Top and Maxim XL and the subsequent inoculation with active rhizobia of strain 634b\ndoes not induce the development of lipid peroxidation processes, but increases the activity of the antioxidant enzyme, ascor-\nbate peroxidase, in the roots and root nodules, which is accompanied with the efficient work of the symbiotic apparatus on\nthe early stages of determining legume-rhizobial symbiosis. 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引用次数: 1

摘要

的目标。在杀菌剂种子处理的基础上,建立高效的豆科植物与根瘤菌共生系统,为植物提供生态友好的氮源,提高植物对外界因素的耐受性,从而保护和恢复环境质量提供了新的途径。因此,我们研究的目的是确定种前杀菌剂处理对脂质过氧化过程发展强度的影响,这两种杀菌剂的活性物质- Standak Top(氟虫腈,250 g/l,硫代盐-甲基,225 g/l,吡唑菌酯,25 g/l)和Maxim XL(氟二氧胂基,25 g/l,甲氨胂基,10 g/l)的作用谱不同。大豆抗氧化酶抗坏血酸过氧化物酶活性和固氮活性对豆科植物与根瘤菌共生形成早期的影响。方法。微生物学(培养细菌,接种种子),生理学(营养实验),生化(分光光度法测定脂质过氧化产物的含量和抗坏血酸过氧化物酶的活性;用气相色谱法测定固氮活性)。结果。结果表明,播前对大豆种子进行杀菌剂处理和接种634b活性根瘤菌后,根系和根瘤中tba活性产物含量均未发生变化(各项指标均在试验偏差范围内)。同时,在根瘤菌接种种子和Maxim XL处理后,根抗坏血酸过氧化物酶活性在个体发生早期至第三次三叶形成期间从20.3%提高到30.8%,在standak Top -处理下从20.0%提高到29.8%。在根瘤中,该酶的活性提高了24.7% ~ 40.3%。我们的数据表明,杀菌剂种子处理和接种活性根瘤菌的组合不会诱导脂质过氧化过程,但会促进大豆保护性抗氧化特性的启动。与此同时,共生装置也发挥了有效的作用,表现在结核菌的固氮活性提高,菌株634b在第二和第三三叶阶段,经Standak Top处理后,固氮活性分别提高了98.3%和78.1%,Maxim XL处理后,固氮活性分别提高了78.6%和1962%。结论。大豆种子播前用杀菌剂Standak Top和Maxim XL处理,随后接种活性根瘤菌634b,不诱导脂质过氧化过程的发生,但增加了根和根瘤中抗氧化酶(抗坏血酸过氧化物酶)的活性,这伴随着共生装置在确定豆科与根瘤菌共生的早期阶段的有效工作。这种种子处理方法可以作为一种新的措施,应用于大豆栽培技术中,增强共生潜能的实现,满足植物对生态友好型氮素的需求,促进其对相应栽培条件的耐受性的形成。
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Realization of protective and symbiotic properties of soybeans using fungicide seed treatment
Aim. The elaboration of efficient legume-rhizobial symbiosis systems, involving active strains of nodule bacteria, in the combination with fungicide seed treatment may be an alternative method of providing ecologically friendly nitrogen sources to plants and promoting their tolerance to the external factors, which is relevant for preservation and restoration of envi- ronmental quality. Therefore, the aim of our study was to determine the impact of pre-sowing seed treatment with fungi- cides, which differ in the action spectrum of active substances – Standak Top (fipronil, 250 g/l, thiophanate-methyl, 225 g/l, pyraclostrobin, 25 g/l) and Maxim XL (fludioxonyl, 25 g/l, metalaxyl, 10 g/l), on the intensity of the development of lipid peroxidation processes, the activity of antioxidant enzyme ascorbate peroxidase and nitrogen fixation activity in soybeans on the early stages of forming legume-rhizobial symbiosis. Methods. Microbiological (cultivation of a bacterial culture, seed inoculation), physiological (vegetative experiment), biochemical (spectrophotometric determination of the content of lipid peroxidation products and the activity of ascorbate peroxidase; measuring the nitrogen-fixation activity using a gas chro- matography). Results. It was found that pre-sowing fungicide treatment of soybean seeds and subsequent inoculation with active rhizobia of strain 634b did not result in the change in the content of TBA-active products in roots and root nodules (the values of indices were within the experiment deviation). At the same time, after seed inoculation using rhizobia and treat- ment with Maxim XL, there was an increase in the activity of ascorbate peroxidase in the roots from 20.3 to 30.8 %, and with Standak Top – from 20.0 to 29.8 % during the early stages of ontogenesis till the formation of the third ternate leaf. Here, the activity of the enzyme in root nodules increased by 24.7–40.3 % at the fungicidal effect. Our data demonstrate that the combination of fungicide seed treatment and inoculation with active rhizobia does not induce lipid peroxidation processes, but promotes the initiation of protective antioxidant properties in soybeans. It is accompanied with efficient functioning of the symbiotic apparatus, which is manifested in the increase in nitrogen-fixing activity of nodule bacteria, formed by active rhizobia of strain 634b after the seed treatment with Standak Top – by 98.3 and 78.1 % and after Maxim XL – by 78.6 and 196.2 % respectively, during the stages of the second and third ternate leaves. Conclusions. The pre-sowing soybean seed treatment with fungicides Standak Top and Maxim XL and the subsequent inoculation with active rhizobia of strain 634b does not induce the development of lipid peroxidation processes, but increases the activity of the antioxidant enzyme, ascor- bate peroxidase, in the roots and root nodules, which is accompanied with the efficient work of the symbiotic apparatus on the early stages of determining legume-rhizobial symbiosis. This method of seed treatment may be a novel measure, to use in the technologies of cultivating soybeans to enhance the realization of the symbiotic potential and meet the needs of plants in ecologically friendly nitrogen, and to promote the formation of their tolerance to the corresponding cultivation conditions.
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Agricultural Science and Practice
Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-
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25.00%
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6
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