3 resultados para plant growth promoting bacteria

em Repositório Alice (Acesso Livre à Informação Científica da Embrapa / Repository Open Access to Scientific Information from Embrapa)


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Twenty endophytic bacteria were isolated from the meristematic tissues of three varieties of strawberry cultivated in vitro, and further identified, by FAME profile, into the genera Bacillus and Sphingopyxis. The strains were also characterized according to indole acetic acid production, phosphate solubilization and potential for plant growth promotion. Results showed that 15 strains produced high levels of IAA and all 20 showed potential for solubilizing inorganic phosphate. Plant growth promotion evaluated under greenhouse conditions revealed the ability of the strains to enhance the root number, length and dry weight and also the leaf number, petiole length and dry weight of the aerial portion. Seven Bacillus spp. strains promoted root development and one strain of Sphingopyxis sp. promoted the development of plant shoots. The plant growth promotion showed to be correlated to IAA production and phosphate solubilization. The data also suggested that bacterial effects could potentially be harnessed to promote plant growth during seedling acclimatization in strawberry

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A versatilidade da mandioca (Manihot esculenta Crantz) em adaptar-se a solos de baixa fertilidade, apesar de possuir alto requerimento de nutrientes, tem sido relacionada à ocorrência de associações com os fungos micorrízico-arbusculares (FMA) e a bactérias diazotróficas. Visando avaliar o efeito da inoculação dos FMA e das bactérias diazotróficas, foi conduzido um experimento com plântulas micropropagadas em vasos de 3,5 litros de volume, com solo arenoso desinfestado como substrato. A inoculação das bactérias diazotróficas não apresentou efeito estimulatório, ao passo que inoculações dos FMA isoladamente e em conjunto com bactéria incrementaram todos os parâmetros de crescimento e nutricionais. A inoculação dos FMA, com a Bactéria E, aumentou a parte aérea e as raízes em até 50% e 105%, respectivamente, em relação à inoculação exclusiva com FMA. Efeitos sinergísticos também foram observados no acúmulo de N da parte aérea e das raízes com aumento de até 88% e 173% e no de fósforo em até 83% e 158%, respectivamente. A co-inoculação da Bactéria E com Glomus clarum também aumentou a colonização micorrízica em 40% e a esporulação em 168%, comparada à inoculação do fungo isolado. Estes efeitos benéficos podem ocorrer tanto pela maior absorção de nutrientes pela planta, como pelo estímulo na colonização dos fungos MA.

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Arbuscular mycorrhizal fungi (AMF), which is intrinsically present or may be introduced in soils by inoculation, is an example of natural and renewable resource to increase plant nutrient uptake. This kind of fungi produces structures (hyphae, arbuscles and sometimes vesicles) inside the plant root cortex. This mutualistic relationship promotes plant gains in terms of water and nutrient absorption (mainly phosphorus). Biochar can benefit plant interaction with AMF, however, it can contain potentially toxic compounds such as heavy metals and organic compounds (e.g. dioxins, furans and polycyclic aromatic hydrocarbons), depending on the feedstock and pyrolysis conditions, which may damage organisms. For these reasons, the present work will approach the impacts of biochar application on soil attributes, AMF-plant symbiosis and its responses in plant growth and phosphorus uptake. Eucalyptus biochar produced at high temperatures increases sorghum growth; symbiosis with AMF; and enhances spore germination. Enhanced plant growth in the presence of high temperature biochar and AMF is a response of root branching stimulated by an additive effect between biochar characteristics and root colonization. Biochar obtained at low temperature reduces AMF spore germination; however it does not affect plant growth and symbiosis in soil.