Determination of toxicity of various preparative forms of pesticidal fungicides for nodule bacteria inoculants

Laktionov, Yu.V.; Kosulnikov, Yu V; Yachno, V V; Kozhemyakov, A. P.

doi:10.1051/e3sconf/202022404032

Cited by 4 publications

(3 citation statements)

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“…The plants of the family Fabaceae in the symbiosis with nodule bacteria (Rhizobiaceae) form an active symbiotic apparatus, and a combination of all the measures, aimed at the optimization of this process, promotes the realization of their nitrogen-fi xation potential (Joshi et al, 2014). At present, there are active studies on the possibility of using seed inoculation with nodule bacteria prior the planting to regulate the metabolism of legumes and enhance their tolerance to biotic effects (Dicheng et al, 2018;Standish et al, 2018;Alonso-Monge et al, 2020;Laktionov et al, 2020;Rathjen et al, 2020;Getachew et al, 2021;Martinez et al, 2021;Santos et el, 2021).…”

Section: Introductionmentioning

confidence: 99%

Realization of protective and symbiotic properties of soybeans using fungicide seed treatment

2021

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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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Section: Introductionmentioning

confidence: 99%

Realization of protective and symbiotic properties of soybeans using fungicide seed treatment

2021

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“…Лактіонов та співавт. [60] дослідили вплив фунгіцидів бенорад, беноміл, фундазол, максим, протект і протект форте на життєздатність бульбочкових бактерій сої (Bradyrhizobium japonicum 634б), люпину (Bradyrhizobium lupini 367a), гороху (Rhizobium leguminosarum 261б) та сочевиці (Rhizobium leguminosarum 712). Так, змочувані порошки на основі беномілу (бенорад, фундазол, беноміл) визначені як несумісні із залученими у роботу штамами ризобій.…”

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“…Є дані про те, що на сумісність інокулянтів і пестицидів на основі однієї й тієї ж діючої речовини істотно впливає метод виробництва хімічного препарату, тобто якісний та кількісний склад додаткових компонентів, що, з погляду виробника, збільшують його технологічність -так звана «рецептура» пестициду (полімер, що утворює плівку, ад'юванти, поверхнево-активні речовини тощо) [60]. Досліджували також низку водорозчинних полімерів (альгінат натрію, поліетиленгліколь, карбомер, полівініловий спирт, полівінілпіролідон та ін.)…”

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The effect of pesticides on nodule bacteria in pure culture and on realization of their symbiotic potential

Kots¹,

St.²,

Kukol³

2021

Fiziol.rast. genet.

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Challenges in the Compatibility of Microbial Inoculants with Agrochemicals

Vyas,

Bansal

2023

Metabolomics, Proteomes and Gene Editing Approaches in Biofertilizer Industry

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Determination of toxicity of various preparative forms of pesticidal fungicides for nodule bacteria inoculants

Cited by 4 publications

References 24 publications

Realization of protective and symbiotic properties of soybeans using fungicide seed treatment

Realization of protective and symbiotic properties of soybeans using fungicide seed treatment

The effect of pesticides on nodule bacteria in pure culture and on realization of their symbiotic potential

Challenges in the Compatibility of Microbial Inoculants with Agrochemicals

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Determination of toxicity of various preparative forms of pesticidal fungicides for nodule bacteria inoculants

Cited by 4 publications

References 24 publications

Realization of protective and symbiotic properties of soybeans using fungicide seed treatment

Realization of protective and symbiotic properties of soybeans using fungicide seed treatment

The effect of pesticides on nodule bacteria in pure culture and on rea­lization of their symbiotic potential

Challenges in the Compatibility of Microbial Inoculants with Agrochemicals

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The effect of pesticides on nodule bacteria in pure culture and on realization of their symbiotic potential