Bacteriophages (phages) have been proposed as promising alternative pesticides against various bacterial diseases of crops. However, the efficacy of phages in managing plant bacterial diseases is variable and poorly understood in natural settings. In this study, two lytic phages, RpT1 and RpY2, were investigated for their biocontrol potential against bacterial wilt by Ralstonia pseudosolanacearum invasion in tomato plants. The two phages possess similar morphology and genome organization to those of the Autographiviridae family with a broad host range. Treatment with the two phages (alone or in combination) resulted in a significant reduction in bacterial wilt incidence. Three days post-treatment with phages, which was performed after R. pseudosolanacearum inoculation with a specified density of 108 PFU (plaque forming units)/g of soil, led to the most effective biocontrol activity compared to other treatments and a lower density of phage. A phage cocktail containing both RpT1 and RpY2 suppressed disease symptoms in agricultural soils, mimicking their ability to control diseases in natural settings. Furthermore, supplementation with specific adjuvants enhanced the biocontrol potential of both phages. The persistence of the two phages under various environmental conditions indicates their stable activity in soils. Consequently, the consistent biocontrol activity of these phages provides insights into the proper application, timing, and density of phages for effective phage therapy in bacterial wilt control in tomato. KEY POINTS: • Biocontrol potential of phages in natural settings individually and as a cocktail. • Apparent long-term persistence of phages in natural soils, various temperatures, and pH. • An effective approach for developing phages for biocontrol.
Keywords: Bacteriophages; Biocontrol; Ralstonia pseudosolanacearum; Tomato bacterial wilt.
© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.