brunneum + spinosad. That being said, the yield levels of these combination treatments was significantly higher than for treatments
with a single chemical application (Yigo, F5,12 = 66.56, P = 0.001; Inarajan, F5,12 = 289.00, P = 0.001). Environmentally friendly microbial pesticides can play a significant role in sustainable crop production by providing successful pest management. The current study indicated that the combination of the pathogenic fungi B. bassiana + M. anisopliae significantly reduced the damage levels and increased the sweet potato yields in comparison to individual applications of single pathogenic fungal species, low-risk insecticides, or the control treatments. We have demonstrated the additive effect of these two pathogenic fungi on control of C. formicarius. Ruxolitinib The reason for using the combination of the two entomopathogenic fungi at 50% reduced AG-14699 application rates compared to the full rate of individual compounds is that these pathogenic fungi have different optimum temperatures ranges, which could affect conidial germination. Tests with B. bassiana and M. anisopliae have given promising results for the control of C. formicarius in India ( Tarafdar and Sarkar, 2006), Kenya ( Ondiaka et al., 2008), Taiwan ( Su et al., 1988), and the Philippines ( Burdeos and Villacarlos, 1989).
While adult weevils are the only noticeable stage, infected adults can transmit infections to other individuals in the field. This study clearly found that the number of cadavers of adults in the field increased after the application of entomopathogenic fungi. The field efficacy of entomopathogenic fungi toward various pests depends on many factors, some of which are related to the behavior of the insect host in its natural habitat (Gindin et al., 2006). As soil is the natural habitat of these fungi, and since larvae and pupae dwell in the soil, it can be inferred from this study that the applied fungal formulations caused the observed infection. Although the adults feed on plant foliage, they can be seen crawling on the soil where
it is possible that they become contaminated by the fungal spores. Conidial survival is known to be affected by agrochemicals, environmental factors (Benz, 1987) or by bio-pesticides or other chemical products used to protect plants (Anderson and Roberts, 1983). Both B. bassiana and M. anisopliae applied in combination with azadirachtin or spinosad were less effective learn more than the combination of the two entomopathogens, possibly due to fungicidal effects of the azadirachtin or spinosad. There have been some reports on neem-based products possessing fungicidal properties applied at certain doses, such as a significant inhibitory effect on vegetative growth and conidiogenesis of B. bassiana spores caused by the commercial formulation of neem leaves in concentrations of 5% a.i. or greater ( Castiglioni et al., 2003). A 1% aqueous neem extract caused significant inhibition of mycelial growth of B. bassiana ( Castiglioni et al.