Influence of VAM fungi on medicinal plants of Gymnema sylvestre and Andrographis paniculata.
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Gymnema sylvestre
Andrographis Paniculata
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The aim of this study was to examine the effects of management practices and biofertilization on microbialactivity in rhizosphere and yield of medicinal and aromatic plants. Field experiment was performed usingfour plant species: peppermint (Mentha × piperita L.), pot marigold (Calendula officinalis L.), sweet basil(Ocimum basilicum L.), and dill (Anethum graveolens L.). Treatments were arranged in a split-plot layout infour replicates using basic plots under conventional and organic management, and subplots with and withoutbiofertilizer (Azotobacter chroococcum). Organic management positively affected the microbial number andactivity. Biofertilization increased the total microbial number (13–21%), number of ammonifiers (13–60%),nitrogen-fixing bacteria (7–36%), actinomycetes (36–50%), fungi (60–100%), cellulolytic microorganisms(57–217%), dehydrogenase (28–52%) and ß-glucosidase activity (15–39%). The effects of managementpractices and biofertilization were highly significant for the yield of examined plants. The yields were higheron inoculated treatments both in conventional (5–26%) and organic (7–15%) growing system.
Azotobacter chroococcum
Azotobacter
Biofertilizer
Mentha arvensis
Anethum graveolens
Pogostemon
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Isolation
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Crotalaria juncea
Mycorrhizal Fungi
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Phytochemical
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Medicinal plants are the source of biologically active compounds that are in constant demand for the pharmacological industry. Active production of plant secondary metabolites is possible only under optimal conditions of plant growth and development. The state of medicinal plants is controlled not only by genotype and environmental conditions but by the qualitative and quantitative composition of their microbiota as well. The study of the structure and function of the rhizospheric communities of medicinal plants is important for obtaining of high quality medicinal raw materials. Microorganisms are the constant companions of higher plants, which can be used as a medicinal raw material. The rhizosphere microbiota is highly specific, even between different varieties of the same plant species. Each plant species has a specific microbiome of the rhizosphere, depending on the existing soil community. The rhizosphere of medicinal plants is marked by a special highly specific microbiome due to the specificity of root exudates. Active cell secretion of the roots provides nutrient substrates with microorganisms that form strong associations both inside the root tissues and on the root surface as well as in the soil around the roots. The purpose of the research was to study the effect of medicinal plants of different systematic groups on the composition of the microbial communities of the rhizosphere. The experiments were conducted in 2018–2019 at the nursery medicinal plant plot of the Department of ecology and botany of Sumy National Agrarian University.
Ecological-trophic groups of microorganisms associated with the roots of medicinal plants in the experiment were represented by ammonifying bacteria, nitrogen-fixing bacteria and bacterias that destroyed of plant residues (cellulose-destroying bacteria). In the analysis of the total number of microorganisms of the rhizosphere revealed differences in the quantitative and qualitative composition of microbiota, due to the specific features of a medicinal plant. Positive influence on the development of microflora in the area of the roots and individual ecological-trophic groups had Mentha longifolia (L)., and a negative effect was observed in plants of Bergenia crassifolia L. It has been established that the number of microorganisms and the diversity of ecological-trophic groups is due to the belonging of a medicinal plant to a particular taxon. The number of microorganisms and their diversity decreased in the direction of: Mentha longifolia – Lysimachia vulgaris – Aristolochia clematitis – Achillea submillefolium – Bergenia crassifolia.
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Phosphate solubilizing bacteria
Biofertilizer
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