The potential of Pseudomonas fluorescens strains in biological control of Rhizoctonia solani and colonization of common bean rhizosphere
Subject Areas : Plant ProtectionNasim Jelodarnezhadian 1 , Hadis SHAHBAZI 2
1 - Department of Plant Protection, Private University of Mehregan, Mahllat, Iran
2 - Department of Plant Protection, Private University of Mehregan, Mahllat, Iran
Keywords:
Abstract :
Damping off caused by Rhizoctonia solani: is one of the most important diseases of beans. Some control methods have been applied to overcome it but none seemed to be satisfactory. Biological control has been explored as an additional or alternative means of managing R. solani damping off. In this study, biocontrol ability of 8 isolates of Pseudomonas fluorescens were evaluated against R. solani and potential of rhizosphere colonization of the selected isolate was investigated. In this study, pathogenic fungi were isolated from infected plants of common bean crop fields in Khomein. Fungal isolate with the most pathogenicity was selected. Growth inhibition of R. solani selected isolate was evaluated by dual culture test, the antifungal activity of bacterial volatile and nonvolatile metabolites and P13 strain which was capable to produce maximum inhibitory zone was selected for studying its ability to biocontrol of pathogen and colonization of the ectorhizosphere and endorhizosphere of bean in 15, 30 and 45 days after planting under greenhouse conditions. Although the initial population of bacteria decreased in rhizosphere in 15th day, the population of bacteria in days 30th and 45th days increased in ectorhizosphere and decreased in endorhizosphere. Population of P13 was in the endorhizosphere and ectorhizosphere, in the healthy soil pollution 3/2 × 105 and 1/1 × 107 Cfu/g (fresh weight of root) and in infected soil 2/8 × 105 and 1/06 × 106 Cfu/g (fresh weight of root), respectively. Results showed that the severity of R. solani was significantly decreased and plant growth parameters were increased by biocontrol bacterial density on rhizosphere. P13 with great population on ecto and endorhizosphere showed strong positive effect on plant growth and inhibition of R. solani in 45th days
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