ALEXANDER R. MENDOZA LUNA, RICHARD A. SIKORA, SEBASTIAN KIEWNICK
University of Bonn, Institute of Crop Science and Resource Conservation-Plant Pathology, Germany
Paecilomyces lilacinus strain 251 (PL251) and the non-pathogenic Fusarium oxysporum strain 162 (Fo162) are well known as biocontrol agents of a range of plant parasitic nematodes. Paecilomyces lilacinus is mainly an egg pathogen of sedentary stages of nematodes and the non-pathogenic fungal endophyte Fo162 induces systemic resistance in different host plants. Therefore, the two biocontrol agents with different modes of action were tested for additive or synergistic effects in their potential to control R. similis when co"=applied to protect young banana plants. The fungal biocontrol agent Fo162 was applied to b anana plantlets (cv.`Grand naine`) in a germination tray one and three weeks before transplanting. PL251 was incorporated to a sterilized field soil:sand (1:1) mixture, 6 days before transplanting. The final concentrations of the antagonists were 1 x 108 and 6 x 106 cfu g-1 soil of Fo162 and PL251, respectively. Both treatments were inoculated with 1000 R. similis per plant. Banana plants were harvested 14 days after nematode inoculation. None of the treatments affected root and shoot weight of the banana plants. When applied alone, both biocontrol agents significantly reduced the number R. similis per root. The combination of Fo162 and PL251 resulted in a penetration rate that was significantly lower compared to the inoculated control and Fo162 alone, respectively, but not different from PL251 alone. To investigate the interactions between these two biocontrol agents, dual culture in"=vitro assays were conducted. In none of the assays negative interactions were found. These preliminary data indicate a potential to combine these biocontrol agents for increased control of R. similis on banana.
Keywords: Antagonistic fungi, biological control, endoparasitic nematode, Fo162, PL251