Preselection of predatory mites to improve year‐round biological control of western flower thrips in greenhouse crops

Abstract

AbstractIn spring and summer, two groups of natural enemies are successfully used for biological control of western flower thrips, Frankliniella occidentalis (Pergande) in greenhouses: phytoseiid mites (Amblyseius cucumeris (Oudemans) and, to a lesser extent, A. barkeri (Hughes)) and anthocorid bugs (Orius spp.). During winter, however, these predators often fail to control the pest. One likely cause for failure is the predators' tendency to enter diapause under short day conditions. In addition, eggs of predatory mites are generally susceptible to low humidity conditions, which often arise in greenhouses when outside temperatures drop below zero, or at bright, hot days in summer. In search for a thrips predator that is not hampered by these conditions, five subtropical phytoseiid species were selected which were known to feed on thrips: A. hibisci (Chant), A. degenerans Berlese, A. limonicus s.s. Garman and McGregor, A. scutalis (Athias‐Henriot) and A. tularensis (Congdon). These species were compared to A. cucumeris and A. barkeri, with respect to the following features: (1) predation and oviposition rate with young F. occidentalis larvae as prey, (2) oviposition rate on a diet of sweet pepper pollen, (3) drought tolerance spectrum of eggs, and (4) incidence of reproductive diapause under short day conditions. The results showed that A. limonicus exhibited the highest predation and oviposition rates on a diet of thrips larvae. Moreover, A. limonicus females showed total absence of diapause under the conditions tested. A major disadvantage of this species was, however, that its eggs were most sensitive to low air humidity conditions. Least sensitive to low air humidity were eggs of A. degenerans and A. hibisci. Females of A. degenerans and A. hibisci also showed total absence of diapause, and intermediate rates of predation and oviposition, on both thrips larvae and pollen. In conclusion, we argue that A. degenerans and A. hibisci are the most promising candidates for biological control of F. occidentalis under conditions of low humidity and short day length. The success of these candidates remains to be shown in greenhouse experiments.