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Academic literature on the topic 'Rhizosphere micro flora'
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Journal articles on the topic "Rhizosphere micro flora"
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Hegde, Dileep, Sunith Mahantheshappa, Jayarama Reddy, and Praveen Kumar Nagadesi. "Soil Microflora in Rhizosphere of Barringtonia racemosa (L.) Spreng and Rauwolfia serpentina (L.) Benth. ex Kurz from Western Ghats region of Uttara Kannada. Karnataka, India." Saudi Journal of Pathology and Microbiology 7, no. 7 (July 5, 2022): 254. http://dx.doi.org/10.36348/sjpm.2022.v07i07.001.
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A study was conducted for the isolation and identification of soil micro-flora in rhizosphere of B. racemosa (L.) Spreng and R. serpentine (L.) Benth. ex Kurz, trees from Western Ghats region of Uttar Kannada, Karnataka, India. Soil samples were collected from rhizosphere of B. racemosa and R. serpentine plants, during the months of February 2022. Soil microbes were isolated by using soil dilution technique. The total number of bacteria isolated from B. racemose and R. serpentinais rhizosphere is 2,666,600 and 4,461,160 per gram of soil respectively. The rhizospheric fungal isolates present in B. racemosa and R. serpentina plants is 3,281,200 and 1,946,200 per gram of soil respectively. In B. racemosa rhizosphere, the percentage contribution is Penicillium sp with 13.679%, In R. serpentine rhizosphere, the highest percentage contribution is Cladosporium sp., Trichoderma sp.with17.663% and 17.391% respectively. In rhizosphere of B. racemose, 19 different species belonging to 15 genera were isolated; among which Penicillium species is dominating over other fungal species isolated. In rhizosphere of R. serpentina, 18 different species belonging to 11 genera were observed; among which Trichoderma sp.is dominating over other fugal species isolates. The most frequently isolated fungi from the rhizosperes of B. racemosa and R. serpentine plants are Penicillium sp and Trichoderma sp.For the first time the rhizospheric micro-flora i.e., bacteria and fungi was reported from B. racemose soil sample collected from Western Ghats region of Uttara Kannada. For the first time the rhizospheric myco-flora was reported from R. serpentine soil samples collected from Western Ghats region of Uttara Kannada. All the bacteria and fungi isolated was new report to Wester Ghats region of Uttar Kannada, Karnataka, India.
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Aware, RG, AL Uparkar, PD Bhandekar, CN Tekade, and Dr ED Bagde. "Population dynamics of root inhibiting and invading micro-flora in citrus rhizosphere." International Journal of Chemical Studies 9, no. 1 (January 1, 2021): 170–75. http://dx.doi.org/10.22271/chemi.2021.v9.i1c.11227.
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Yang, Yihu, Jun Xu, Yan Li, Yuchen He, Yuqing Yang, Dalin Liu, and Caixia Wu. "Effects of Coumarin on Rhizosphere Microbiome and Metabolome of Lolium multiflorum." Plants 12, no. 5 (March 1, 2023): 1096. http://dx.doi.org/10.3390/plants12051096.
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Rhizosphere microorganisms can help plants absorb nutrients, coordinate their growth, and improve their environmental adaptability. Coumarin can act as a signaling molecule that regulates the interaction between commensals, pathogens, and plants. In this study, we elucidate the effect of coumarin on plant root microorganisms. To provide a theoretical basis for the development of coumarin-derived compounds as biological pesticides, we determined the effect of coumarin on the root secondary metabolism and rhizosphere microbial community of annual ryegrass (Lolium multiflorum Lam.). We observed that a 200 mg/kg coumarin treatment had a negligible effect on the rhizosphere soil bacterial species of the annual ryegrass rhizosphere, though it exhibited a significant effect on the abundance of bacteria in the rhizospheric microbial community. Under coumarin-induced allelopathic stress, annual ryegrass can stimulate the colonization of beneficial flora in the root rhizosphere; however, certain pathogenic bacteria, such as Aquicella species, also multiply in large numbers in such conditions, which may be one of the main reasons for a sharp decline in the annual ryegrass biomass production. Further, metabolomics analysis revealed that the 200 mg/kg coumarin treatment triggered the accumulation of a total of 351 metabolites, of which 284 were found to be significantly upregulated, while 67 metabolites were significantly downregulated in the T200 group (treated with 200 mg/kg coumarin) compared to the CK group (control group) (p < 0.05). Further, the differentially expressed metabolites were primarily associated with 20 metabolic pathways, including phenylpropanoid biosynthesis, flavonoid biosynthesis, glutathione metabolism, etc. We found significant alterations in the phenylpropanoid biosynthesis and purine metabolism pathways (p < 0.05). In addition, there were significant differences between the rhizosphere soil bacterial community and root metabolites. Furthermore, changes in the bacterial abundance disrupted the balance of the rhizosphere micro-ecosystem and indirectly regulated the level of root metabolites. The current study paves the way towards comprehensively understanding the specific relationship between the root metabolite levels and the abundance of the rhizosphere microbial community.
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Kumar Maurya, Manoj, Ramji Singh, and Ajay Tomer. "IN VITRO EVALUATION OF ANTAGONISTIC ACTIVITY OF PSEUDOMONAS FLUORESCENSAGAINST FUNGAL PATHOGEN." Journal of Biopesticides 07, no. 01 (June 1, 2014): 43–46. http://dx.doi.org/10.57182/jbiopestic.7.1.43-46.
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ABSTRACT The present investigation was undertaken to isolate different strains of Pseudomonas fluorescens from various agroecological zones or crop’s rhizosphere like moong, brinjal, rice, chilli, mustard, chirchida and tomato. Totally eight micro flora resembling Pseudomonas fluorescens were isolatedand three isolates were confirmed as P. fluorescens (strain P.f.01, strain P.f.05 and strain P.f.07). Pseudomonas fluorescens strains P.f 07 were found most effective with the highest antagonisticactivity against three fungal pathogen and show maximum inhibition of mycelial growth of Fusariummoniliforme (65.45%), Rhizoctonia solani (68.23%), and Alternaria alternat(48.13%).
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BOROZAN, Aurica Breica, Sorina POPESCU, and Oana Maria BOLDURA. "Plants Root Interference Area, A Benefit To The Microbial Community." Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca. Horticulture 74, no. 1 (May 19, 2017): 1. http://dx.doi.org/10.15835/buasvmcn-hort:12302.
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Part of byproducts synthesized by plants through photosynthesis reach the ground, where create selective microenvironments for micro-flora and associations of plant - micro-organisms, which are a benefit for plant growth Setting the interference effect of the root interference area of vines and herbaceous plants and of radicular exudates from vine rhizosphere on microbial community and estimating microbial population present on the vine leaves. The biological material was represented by leaves (Fa, Fb), and soil rhizosphere (Ra, Rb) of two varieties of vines (Tamaioasa Romanian white and black / TA, TN), and from the vine roots interference area with other herbaceous plants (Ma, Mb). The soil has never been chemically treated. The microbiological study of biological samples was performed by classical and molecular methods. Overall, bacteria had a significant presence in soil samples taken from the root interference zone (Ma, Mb). Actinomycetes quantitatively dominated the root interference area of herbaceous plant with variety TA. The range of actinomycetes species and leaves microflora was reduced. In this study we have shown that significant growth of microorganisms occurs in the interference area of vine with other herbal plants as a result of the cumulative effect of radicular exudates.
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Parshad, Jagdish, Dharam Bir Yadav, Satbir Singh Punia, Kuldeep Singh, and Baljeet Singh. "Assessment of soil micro flora in rice-wheat cropping system through continuous and rotational herbicide applications." INTERNATIONAL JOURNAL OF AGRICULTURAL SCIENCES 17, no. 2 (June 15, 2021): 455–61. http://dx.doi.org/10.15740/has/ijas/17.2/455-461.
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A long term experiment was conducted at CCS Haryana Agricultural University, Regional Research Station, Uchani (Karnal), India. Assessment of fix and rotational herbicides with and without green manure on the microbial population were studied in wheat crop during 2017-18. The treatments included fix/continuous herbicide (Clodinafop) and rotational herbicide (Sulfosulfuron) to control weeds along with weed free and weedy checks. Rhizosphere samples of wheat were collected from different plots of fixed and rotational herbicides treated soil to assess the total bacterial count, phosphate solubilizing microorganisms, actinobacteria, fungi and free-living diazotrophs. Weed free and weedy check served as check (control) for total microbial populations in the soil. Initially, herbicidal application showed negative effect on the soil microbes but retain the number later on as compared to weedy check under both conditions. But the effects of the herbicides on the micro flora in soil could be nullified through green manure.
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Bulanov, Alexander G., Anton A. Shagaev, Alexey A. Belov, and Nikolay S. Markvichev. "Physiological properties of resistance strain Fusarium oxysporum." Butlerov Communications 57, no. 2 (February 28, 2019): 144–50. http://dx.doi.org/10.37952/roi-jbc-01/19-57-2-144.
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Soil microorganisms have a significant effect on microbiological cenosis. Such communities are called the root micro-flora of the plant. All organisms in the microflora are divided into two groups: rhizoplane, living directly on the root system of the plant, and rhizosphere, developing in the root area of the plant. The intensive population of the root and root zones of a plant is primarily associated with the release (exosmosome) of organic substances or exudates formed during the life of the plant. The plant microflora includes not only symbiotic and commensalithic types of interaction, but also parasitic forms. Parasitic pathogens are divided into two groups: pathogenic and conditionally pathogenic. Conditionally pathogenic microorganisms are in a latent state and have an effect only when certain conditions arise for their activation and development. Such conditions may include changes in temperature, humidity, disturbance of plant homeostasis, or damage to the integument. Pathogenic microorganisms, by contrast, are always active and infect the host organism upon contact. The pathogenicity of a microorganism is a complex of traits that adversely affect the health of the plant, cause various pathologies, leading to growth inhibition and partial inhibition of the development or complete destruction of the culture. The pathogenic properties of the Fusarium oxysporum culture F201 were investigated against the cucumber culture by Atlet F1. It was shown the phytopathogenic microorganisms Fusarium oxysporum has acquired signs of resistance without lost her aggressiveness properties against a plant. Fusarium oxysporum quite comparable with the common strain.
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Tziourrou, Pavlos, and Evangelia E. Golia. "Plastics in Agricultural and Urban Soils: Interactions with Plants, Micro-Organisms, Inorganic and Organic Pollutants: An Overview of Polyethylene (PE) Litter." Soil Systems 8, no. 1 (February 16, 2024): 23. http://dx.doi.org/10.3390/soilsystems8010023.
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Over the last few decades, different types of plastics have been found in different soil types with documented or potential negative effects on the environment, the flora and fauna inhabiting the soils, and subsequently human health. This article is a global review of the consequences of the interactions of plastics with soil, plants, soil microbes, and organic or inorganic pollutants depending on land use. It focuses on the various types of polyethylene, a widely used material with a strong presence in both agricultural and urban soils. Although the chemical formula (C2H4)n remains the same in its various classifications, the chemical behavior of polyethylene in soil varies and directly depends on its density, branching, crystallinity, and relative molecular mass, resulting in many and various differences in the properties but also in the behavior of the two main forms of polyethylene, low and high density. However, beyond the chemical composition of plastics, the climatic conditions that apply in both urban and rural areas determine the degree of corrosion as well as their shape and size, also affecting the chemical reactions that directly or indirectly affect them. In agricultural soils, plants and the microbiome present mainly in the rhizosphere seem to dramatically influence the behavior of plastics, where the interaction of all these parameters leads to changes in the availability of nutrients (phosphorus and potassium), the percentage of organic matter and the nitrogen cycle. In urban soils, the increase in temperature and decrease in humidity are the main parameters that determine the adsorption of heavy metals and organic pollutants on the surface of plastics. Although the presence of plastics is considered inevitable, perhaps a more thorough study of them will lead to a reduction in the risks of pollution in urban and rural environments. This research provides a promising perspective on the potential contribution of MP PEs to the sustainable management of soil systems.
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Kumar Gupta, Sandeep. "Role of Growth-Promoting Bacteria as Biocontrol Agent Against Root Knot Nematode of Tomato." Bioscience Biotechnology Research Communications 14, no. 4 (December 25, 2021): 1557–63. http://dx.doi.org/10.21786/bbrc/14.4.29.
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There are significant losses which have occurred in crops due to the infestation of plant parasitic nematode which are known as hidden enemy due to their presence in rhizosphere and their infection site on the roots. Synthetic nematicidal control is an effective strategy to combat this biotic stress but an inappropriate and deficient application of chemical pesticides have an adverse effect on soil micro-flora and fauna. Due to the environmental and regulatory pressure, use of potential biocontrol agents is the new approach for nematode management by the farming community. For this study, four potential rhizobacteria from different habitats BHU1, BHU2, BHU3 and BHU4 were assessed for their antagonistic activities against Meloidogyne incognita infecting tomato plant. These were characterized on the basis of their morphological and biochemical activities. In vitro screening of bacterial isolates was conducted in a 25-microwell plate by addition of second stage juvenile (J2) of M. incognita with nematode application. Among four bacteria,, three potential antagonistic bacteria were able to kill nematode within 24 hours. Mortality percentage of J2 M. incognita observed in sterile distilled water selected bacterial isolates ranged from 23.33 to 100% in 3h to 24h periods. Moreover, all bacterial isolates except BHU2 isolate were found positive for production of extracellular enzymes like catalase, oxidase, chitinase, amylase and gelatinase which favour effective biopesticide activity of bacteria. Further selected isolates of bacteria associated with tomato have shown a great potential as biocontrol agents against root-knot nematode in tomato during pot experiment. Based on the fact stated above, the current research focused on plant growth promoting rhizobacteria based nematodes biocontrol strategies with direct and indirect mechanism of PGPR for nematode management.
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Akash, A. U., V. Ramya, G. Uma Devi, S. N. C. V. L. Pushpavalli, and S. Triveni. "Antagonist activities of native rhizosphere micro-flora against groundnut stem rot pathogen, Sclerotium rolfsii Sacc." Egyptian Journal of Biological Pest Control 32, no. 1 (November 28, 2022). http://dx.doi.org/10.1186/s41938-022-00631-6.
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Abstract Background Stem rot caused by Sclerotium rolfsii Sacc. is a major nuisance in groundnut production, causing substantial yield losses in almost all groundnut-growing areas around the world. Biological control is regarded as a sustainable choice over the currently popular management strategy i.e., chemical control, as later has a negative influence on the environment. The present study evaluated the antagonistic effect of native rhizosphere micro-flora against groundnut stem rot pathogen S. rolfsii. Results A total of 111 bacterial isolates and 9 Trichoderma isolates isolated from groundnut rhizosphere soil were evaluated for their antagonist activity against S. rolfsii in vitro. Eight isolates (seven bacterial and one Trichoderma) were chosen as prospective biocontrol candidates based on the findings of the dual culture assay. Molecular characterization of these isolates by 16S rDNA and ITS rDNA sequencing confirmed the identity of bacterial isolates as Bacillus spp. (six B. subtilis and one B. amyloliquefaciens) and fungal isolate as Trichoderma asperellum. Also, the selected seven bacterial isolates recorded favourable results for antagonism-promoting biochemical traits. Conclusion The results of the current study suggested that the native groundnut rhizosphere micro-flora can be exploited for biological control of groundnut stem rot pathogen S. rolfsii. Further research may enable the use of the isolated rhizosphere biocontrol agents as single organisms or in a consortium for sustainable management of the groundnut stem rot pathogen.
Dissertations / Theses on the topic "Rhizosphere micro flora"
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Rai, Kuldeep. "Studies on Rhizosphere micro flora of mandarin plants and their assessment as potential biocontrol agents against root diseases." Thesis, University of North Bengal, 2011. http://hdl.handle.net/123456789/1430.
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