Properties of Potential Plant-Growth-Promoting Bacteria and Their Effect on Wheat Growth Promotion (Triticum aestivum) and Soil Characteristics

Plant-growth-promoting bacteria are an important economic and environmental resource as biofertilizers that can stimulate plant growth and improve agricultural yields. In this study, potential plant growth-promoting bacteria were isolated from soil samples collected in Russia. Strains that manifeste...

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Published in:Microbiology research 2023-12, Vol.15 (1), p.20-32
Main Authors: Voronina, Elena, Sokolova, Ekaterina, Tromenschleger, Irina, Mishukova, Olga, Hlistun, Inna, Miroshnik, Matvei, Savenkov, Oleg, Buyanova, Maria, Ivanov, Ilya, Galyamova, Maria, Smirnova, Natalya
Format: Article
Language:English
Subjects:
Acetic acid
Ammonia
Ammonium
Antifungal activity
Antimicrobial activity
Bacteria
Biofertilizers
Chemical composition
Environmental conditions
Fertilizers
Fungicides
Gene amplification
Gene sequencing
IAA (indole-3-acetic acid)
Indoleacetic acid
Nitrogen
nitrogen fixation
phosphate solubilization
Phosphates
Plant growth
Plant nutrition
plant-growth-promoting bacteria
Potassium
Principal components analysis
Reagents
Regression analysis
rRNA 16S
Seeds
Sequence analysis
siderophore production
Siderophores
Soil bacteria
Soil characteristics
Soil microorganisms
Strains (organisms)
Triticum aestivum
Wheat
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Summary:Plant-growth-promoting bacteria are an important economic and environmental resource as biofertilizers that can stimulate plant growth and improve agricultural yields. In this study, potential plant growth-promoting bacteria were isolated from soil samples collected in Russia. Strains that manifested active growth on a nitrogen-free medium, the Pikovskaya medium (with insoluble phosphates) and CAS (Chrome Azurol S) agar, were selected for the study. All bacterial isolates were identified by 16S rRNA gene sequencing analysis. Seventeen bacterial isolates of different species were purified and quantified for their ability to grow on nitrogen-free media; dissolve phosphate; and produce ammonium, indole-3-acetic acid, siderophores, and antifungal activity. Principal component analysis identified three groups of strains: one with the maximum signs of providing “plant nutrition”; one with signs of “antimicrobial activity”; and a group “without outstanding signs”. All 17 strains were involved in experiments involving growing inoculated wheat seeds (Triticum aestivum) in pots under natural environmental conditions, and were assessed by their effect on the wheat growth and yield as well as on the chemical composition of the soil. For the “plant nutrition” group, regression analysis revealed a connection between indicators of plant growth, ear length, and ammonium accumulation in the soil. However, in other groups, there were also strains showing a positive effect on plant growth, which suggests the necessity of involving additional factors to predict the ability of strains to affect plants when screened in the laboratory.
ISSN:2036-7481
2036-7481
DOI:10.3390/microbiolres15010002