INFLUENCE OF BACILLUS SUBTILIS ON THE CONDITION AND ACTIVITY OF PHOTOSYNTHETIC SYSTEM OF WINTER WHEAT (TRITICUM AESTIVUM L.) PLANTS

Agriciltural microbiology Pub Date : 2022-12-22 DOI:10.35868/1997-3004.36.28-35

А. М. Honchar, М. Patyka

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Abstract

Objective. To assess the performance of individual strains of Bacillus subtilis and the efficiency of their action on the condition and activity of the photosynthetic system of juvenile winter wheat plants (Triticum aestivum L.). Methods. Microbiological, instrumental (microscopic), biophysical (determination of photochemical activity of winter wheat sprouts in model conditions of the induction of chlorophyll fluorescence). Results. The technological stability of B. subtilis H38, H40 and H45 strains was shown both during fermentation (formation of viable spore titre in the range of 1.9‒2.4 billion/mL) and during storage of bacterial suspensions (BS) for 60 days (1.8‒2.3 billion spores/mL). Analysis of the influence of B. subtilis H38, H40, H45 on the activity of the photosynthetic system of winter wheat (Triticum aestivum L.) plants revealed a high informative value of induced changes in chlorophyll fluorescence (ICF), which was recorded in the structural organization of chloroplasts of wheat sprouts at the initial, maximum, and stationary levels of fluorescence and viability index (Rfd after 1:50 dilution of BS of B. subtilis strains is 1.56–1.69; Rfd after 1:100 dilution corresponds to the normal quantum efficiency of photosynthesis in the range of 1.20‒1.40). Conclusion. The studied strains of B. subtilis are characterized by high performance (a significant number of spores are formed during the cultivation of bacteria; their number remains relatively stable during a 60-day research period), which implies the possibility of their successful use in production and the possibility of long-term storage of preparations based on them. The prospective use of the evaluated strains for the intensification of the photochemical activity of winter wheat (Triticum aestivum L.) plants in the process of ontogenesis has been proven. This means scientific and practical importance for ecological monitoring, assessment of plant resistance, and the introduction of biological agents in the technology of growing agricultural crops.

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枯草芽孢杆菌对冬小麦光合系统状态及活性的影响植物

目标。探讨枯草芽孢杆菌各菌株对冬小麦幼体光合系统的影响。方法。微生物、仪器(显微镜)、生物物理(在诱导叶绿素荧光的模型条件下测定冬小麦芽的光化学活性)。结果。枯草芽孢杆菌H38、H40和H45菌株在发酵过程中(形成活孢子滴度在19 ~ 24亿个/mL之间)和细菌悬浮液(BS)保存60天(18 ~ 23亿个孢子/mL)均表现出技术稳定性。分析枯草芽孢杆菌H38、H40、H45对冬小麦(Triticum aestivum L.)植株光合系统活性的影响，发现其诱导的叶绿素荧光(ICF)变化具有较高的信息价值，在初始、最大值和稳态水平下，小麦芽叶绿体的荧光和活力指数(1:50稀释枯草芽孢杆菌菌株BS后的Rfd为1.56-1.69;1:100稀释后的Rfd对应于光合作用的正常量子效率在1.20-1.40之间。结论。所研究的枯草芽孢杆菌菌株的特点是性能高(在细菌培养过程中形成大量孢子;它们的数量在60天的研究期间保持相对稳定)，这意味着它们在生产中成功使用的可能性以及基于它们的制剂长期储存的可能性。评价菌株在冬小麦(Triticum aestivum L.)植物个体发生过程中增强光化学活性的前景已得到证实。这对生态监测、植物抗性评估以及作物种植技术中生物制剂的引入具有科学和实际意义。

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Agriciltural microbiology

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