Combined use of the entomopathogenic nematodes (EPNs), Heterorhabditis bacteriophora Poinar (Heterorhabditidae), Steinernema feltiae Bovien, and Steinernema kraussei Steiner (Steinernematidae) and the insect‐pathogenic fungus, Metarhizium anisopliae (Metsch.) Sorokin (Clavicipitaceae) was evaluated for control of third‐instar black vine weevil, Otiorhynchus sulcatus Fabricius (Coleoptera: Curculionidae). Black vine weevil larvae were exposed to various concentrations of M. anisopliae and EPNs and mortality was assessed weekly or at 3‐day intervals under laboratory and greenhouse conditions. The EPNs were added simultaneously, or 1 or 2 weeks after application of M. anisopliae. Throughout the experiments, the combined application of EPNs with M. anisopliae resulted in increased efficacy against black vine weevil. When the EPNs were applied 1 or 2 weeks after application of the fungus, 100% larval mortality was obtained, even when the biocontrol agents were used at reduced rates. The interactions observed suggest that EPN and M. anisopliae work together synergistically in potted Euonymus fortunei Blondy (Celastraceae) under greenhouse conditions and may provide a powerful and economically feasible approach for black vine weevil larval control.
The potential of several entomopathogenic fungi to control soil‐dwelling stages of western flower thrips, Frankliniella occidentalis Pergande (Thysanoptera: Thripidae), was evaluated in various growing media. Two Metarhizium anisopliae (Metsch) Sorokin strains, V275 and ERL700, were the most effective, causing 85–96% mortality of thrips larvae and pupae (as measured by relative adult emergence rates), 11 days after inoculation. Mortality in other M. anisopliae‐treated media ranged from 51–84%; Beauveria bassiana (Balsamo) Vuillemin strains caused 54–84% mortality, and Paecilomyces fumosoroseus (Wize) 63–75% mortality. In contrast, mortality from the insecticide treatment (fipronil 1 g l−1 medium) was only 15–54%. Metarhizium anisopliae V275 was selected for more in‐depth evaluation under greenhouse conditions. There was no significant difference in M. anisopliae efficacy in growing media whether it was applied as drench (84–93%) or premixed into the medium as dry conidia (85–92%). The use of M. anisopliae with reduced rates of either fipronil or imidacloprid did not significantly improve control. Overall, our study shows that M. anisopliae V275 is robust and offers much promise for the control of soil‐dwelling stages of thrips as part of an integrated pest‐management programme.
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