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dc.creatorMartins, Samuel Julio-
dc.creatorMedeiros, Flavio Henrique Vasconcelos de-
dc.creatorSouza, Ricardo Magela de-
dc.creatorFaria, Amanda Flausino de-
dc.creatorCancellier, Eduardo Lopes-
dc.creatorSilveira, Helbert Rezende de Oliveira-
dc.creatorRezende, Mário Lúcio Vilela de-
dc.creatorGuilherme, Luiz Roberto Guimarães-
dc.date.accessioned2020-07-15T17:57:07Z-
dc.date.available2020-07-15T17:57:07Z-
dc.date.issued2015-03-
dc.identifier.citationMARTINS, S. J. et al. Common bean growth and health promoted by rhizobacteria and the contribution of magnesium to the observed responses. Applied Soil Ecology, Amsterdam, v. 87, p. 49-55, Mar. 2015.pt_BR
dc.identifier.urihttps://www.sciencedirect.com/science/article/abs/pii/S0929139314003072#!pt_BR
dc.identifier.urihttp://repositorio.ufla.br/jspui/handle/1/41987-
dc.description.abstractAbiotic effects, such as nutrient abundance in soil, may interfere with the performance of plant-associated rhizobacteria in terms of plant physiology as well as disease control. We aimed to evaluate the effectiveness of rhizobacteria in the promotion of bean growth and nutrient uptake and the contribution of magnesium (Mg) supplementation to photosynthetic rates, CO2 assimilation, chlorophyll content, and bacterial wilt severity (Curtobacterium flaccumfaciens pv. flaccumfaciens). Bean plants from seeds treated with rhizobacteria were assessed for growth promotion-related variables, photosynthetic-related variables, as well as disease severity when plants were grown in soil with different magnesium contents (0–50 mg kg−1). There was a 33–45% increase in root dry weight (Bacillus subtilis UFLA168* and B. amyloliquefaciens ALB629) and a 24–35% increase in relative growth index (B. subtilis UFLA285, UFLA168*, copper oxychloride, Paenibacillus lentimorbus MEN2). At 25 mg kg−1 Mg, although the plant continued to take up Mg from the soil, increased accumulation of CO2 was found in the leaf mesophyll of both the ALB629 and control treatments, indicating low CO2 fixation and low Rubisco activity. Higher doses of Mg caused an increase in chlorophyll content as well as in photosynthetic rates in rhizobacterium-treated plants. Additionally, at 25 mg kg−1 Mg, there was an increase in chlorophyll content in ALB629 (30%) and a reduction in bacterial wilt severity (51%). Moreover, photosynthesis was negatively correlated with disease severity (r = −0.53, P < 0.01). Therefore, ALB629 is a promising bacterial strain to improve bean plant growth and nutrient uptake and reduce plant disease even under abiotic stress.pt_BR
dc.languageen_USpt_BR
dc.publisherElsevierpt_BR
dc.rightsrestrictAccesspt_BR
dc.sourceApplied Soil Ecologypt_BR
dc.subjectCommon bean - Growthpt_BR
dc.subjectSeed treatmentpt_BR
dc.subjectPhotosynthesispt_BR
dc.subjectChlorophyllpt_BR
dc.subjectRhizobacteriapt_BR
dc.subjectFeijão - Crescimentopt_BR
dc.subjectFotossíntesept_BR
dc.subjectClorofilapt_BR
dc.titleCommon bean growth and health promoted by rhizobacteria and the contribution of magnesium to the observed responsespt_BR
dc.typeArtigopt_BR
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