Evaluation of fluorescent pseudomonads for plant growth promotion, antifungal activity against Rhizoctonia solani on common bean, and biocontrol potential

Fluorescent pseudomonads are ubiquitous bacteria that are common inhabitants of the rhizosphere and are the most studied group within the genus Pseudomonas. Bacterial isolates (n = 103) from the rhizosphere of wheat and common bean were assessed as potential biocontrol agents in this study. Fungal inhibition tests were performed by a plate assay in which each isolate was tested directly for the production of hydrogen cyanide, protease, siderophore and cellulase. Production of DAPG was verified by using an analytical high performance liquid chromatography assay (HPLC). Plant growth promotion was assessed in phytochamber trials and biocontrol activity was evaluated in greenhouse trials. In all, 52 bacterial isolates with antifungal activity against Rhizoctonia solani were found. Of the 52 isolates, 41 were selected according to their high efficiency in in vitro antagonism, which was shown as inhibition zones in the dual-culture assay. Six of the 41 rhizobacteria, including isolates UTPF7, UTPF13, UTPF18, UTPF22, UTPF27 and strain CHAO produced HCN. Production of protease enzyme was detected for all isolates excluding UTPF30 isolate. Although some stains appeared not to produce any compound with affinity for ferric iron, other isolates produced prolific amounts, creating a large zone of orange (up to 160 mm(2), i.e., UTPF16). Seventeen of 41 isolates of fluorescent pseudomonads including strain CHAO produced different amounts of DAPG ranging from 0.6 to 11.4 ng/10(8) cfu. A total of 39 isolates induced statistically significant effects on plant growth compared with the non-treated control for at least one parameter. The predominant influence observed was increased root length. No bacteria could completely protect the plant against P, solani, although all isolates significantly increased fresh weight as compared to the infested control in greenhouse trials. Pseudomonas fluorescens isolates UTPF16 and UTPF26 significantly (P < 0.05) decreased the number of seedlings with damping-off symptoms in the means of the experiments. (C) 2008 Elsevier Inc. All rights reserved.