Rhizobium Inoculant and Seed-Applied Fungicide Effects Improve the Drought Tolerance of Soybean Plants as an Effective Agroecological Solution under Climate Change Conditions

T. Nyzhnyk, S. Kots, P. Pukhtaievych
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Abstract

Background : Rhizobial inoculation in combination with fungicidal seed treatment is an effective solution for improving soybean resistance to modern climate changes due to the maximum implementation of the plant’s stress-protective antioxidant properties and their nitrogen-fixing potential, which will contribute to the preservation of the environment. Methods : Model ecosystems at different stages of legume–rhizobial symbiosis formation, created by treatment before sowing soybean seeds with a fungicide (fludioxonil, 25 g/L) and inoculation with an active strain of Bradyrhizobium japonicum (titer 10 9 cells per mL), were subjected to microbiological, biochemical, and physiological testing methods in controlled and field conditions. Results : Seed treatment with fungicide and rhizobia showed different patterns in the dynamics of key antioxidant enzymes in soybean nodules under drought conditions. Superoxide dismutase activity increased by 32.7% under moderate stress, while catalase increased by 90.6% under long-term stress. An increase in the antioxidant enzyme activity induced the regulation of lipoperoxidation processes during drought and after the restoration of irrigation. Regeneration after stress was evident in soybean plants with a combination of fungicide seed treatment and rhizobial inoculant, where enzyme levels and lipoperoxidation processes returned to control plant levels. Applying seed treatment with fungicide and Rhizobium led to the preservation of the symbiotic apparatus functioning in drought conditions. As proof of this, molecular nitrogen fixation by nodules has a higher efficiency of 25.6% compared to soybeans without fungicide treatment. In the field, fungicidal treatment of seeds in a complex with rhizobia inoculant induced prolongation of the symbiotic apparatus functioning in the reproductive period of soybean ontogenesis. This positively affected the nitrogen-fixing activity of soybeans during the pod formation stage by more than 71.7%, as well as increasing soybean yield by 12.7% in the field. Conclusions : The application of Rhizobium inoculant and fungicide to seeds contributed to the development of antioxidant protection of soybean plants during droughts due to the activation of key enzymatic complexes and regulation of lipoperoxidation processes, which have a positive effect on nitrogen fixation and productivity of soybeans. This is a necessary element in soybean agrotechnologies to improve plant adaptation and resilience in the context of modern climate change.
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根瘤菌接种剂和种子施用杀菌剂可提高大豆植株的抗旱性,是气候变化条件下的一种有效农业生态解决方案
背景:根瘤菌接种与杀菌剂种子处理相结合是提高大豆抵抗现代气候变化能力的有效解决方案,因为它能最大限度地发挥植物的抗逆保护抗氧化特性及其固氮潜力,这将有助于保护环境。方法:在大豆种子播种前用杀真菌剂(氟虫腈,25 克/升)处理并接种日本农杆菌活性菌株(滴度为每毫升 10 9 个细胞),在豆科植物-根瘤菌共生关系形成的不同阶段建立模型生态系统,并在受控和田间条件下采用微生物、生化和生理测试方法进行检测。结果:在干旱条件下,用杀真菌剂和根瘤菌进行种子处理后,大豆结瘤中关键抗氧化酶的动态变化呈现出不同的模式。在中度胁迫下,超氧化物歧化酶活性增加了 32.7%,而在长期胁迫下,过氧化氢酶增加了 90.6%。在干旱期间和恢复灌溉后,抗氧化酶活性的增加诱导了脂肪过氧化过程的调节。结合使用杀真菌剂种子处理和根瘤菌接种剂的大豆植株在胁迫后再生明显,酶水平和脂过氧化过程恢复到对照植株的水平。使用杀真菌剂和根瘤菌对种子进行处理后,共生装置在干旱条件下的功能得以保持。与未使用杀真菌剂处理的大豆相比,结核的分子固氮效率高达 25.6%,这就是证明。在田间,将种子与根瘤菌接种剂混合进行杀菌处理,可延长大豆生殖期共生装置的功能。这对大豆在结荚期的固氮活性产生了超过 71.7% 的积极影响,并使大豆的田间产量提高了 12.7%。结论 :在种子上施用根瘤菌接种剂和杀真菌剂有助于大豆植株在干旱期间形成抗氧化保护,这是由于激活了关键酶复合物并调节了脂过氧化过程,从而对大豆的固氮作用和产量产生了积极影响。在现代气候变化的背景下,这是大豆农业技术中提高植物适应性和抗逆性的必要因素。
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