4 research outputs found

    Protein feeding of Queensland fruit fly Bactrocera tryoni and cucumber fly Zeugodacus cucumis (Diptera: Tephritidae) on non-host vegetation: effect of plant species and bait height

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    Perimeter-baiting of non-crop vegetation using toxic protein baits was developed overseas as a technique for control of melon fly, Zeugodacus (Zeugodacus) cucurbitae (Coquillett) (formerly Bactrocera (Zeugodacus) cucurbitae), and evidence suggests that this technique may also be effective in Australia for control of local fruit fly species in vegetable crops. Using field cage trials and laboratory reared flies, primary data were generated to support this approach by testing fruit flies' feeding response to protein when applied to eight plant species (forage sorghum, grain sorghum, sweet corn, sugarcane, eggplant, cassava, lilly pilly and orange jessamine) and applied at three heights (1, 1.5 and 2 m). When compared across the plants, Queensland fruit fly, Bactrocera tryoni (Froggatt), most commonly fed on protein bait applied to sugarcane and cassava, whereas more cucumber fly, Zeugodacus (Austrodacus) cucumis (French) (formerly Bactrocera (Austrodacus) cucumis), fed on bait applied to sweet corn and forage sorghum. When protein bait was applied at different heights, B. tryoni responded most to bait placed in the upper part of the plants (2 m), whereas Z. cucumis preferred bait placed lower on the plants (1 and 1.5 m). These results have implications for optimal placement of protein bait for best practice control of fruit flies in vegetable crops and suggest that the two species exhibit different foraging behaviours

    Sexual transmitted death of female Queensland fruit flies from horizontal transfer of Amulet Cue-lure Male Annihilation Technique devices.

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    Queensland fruit fly, Bactrocera tryoni, is one of Australia’s most damaging fruit fly pests. Male Annihilation Technique (MAT) is a method used to manage fruit fly populations by luring and killing male flies, which limits population growth by preventing female flies from mating. MAT devices consist of an attractant and a toxicant, such as maldison or fipronil. Fipronil has a slow knockdown effect, which has been exploited to induce indirect toxicity of a number of insect pests, including cockroaches and termites. This indirect effect, called horizontal transfer, is facilitated through the sharing of food or contact with exposed individuals. Horizontal transfer has been reported in Queensland fruit fly, where exposed males have transferred lethal doses of fipronil to virgin females during courtship and mating. In the present study, we explored three possible modes of horizontal transfer of fipronil against Queensland fruit fly under laboratory conditions. These included: (1) direct contact of females with exposed males (2) contact of males to the regurgitant of exposed males and (3) contact of males with dead exposed males. Our results demonstrated that lethal doses of fipronil were not transferred from males to females during courtship and mating. Male flies that were exposed to fipronil one and six hours prior to dusk were all knocked down, moribund or dead at dusk and therefore did not participate in courtship displays or mating. However, we found that horizontal transfer and subsequent death occurred in males that fed on the regurgitant of exposed males, and in males that were in contact with dead exposed males. Therefore, MAT devices that contain fipronil should not be used as a standalone treatment but rather be used in combination with other control methods, such as protein bait sprays to ensure the control of female flies

    Evaluation of a systems approach to control Queensland fruit fly (Bactrocera tryoni)in stonefruit as an alternative to fenthion

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    Queensland fruit fly (Bactrocera tryoni) is a significant quarantine pest of stonefruit. To access domestic markets within Australia stonefruit require treatment to ensure they are free of fruit flies. Due to the recent restriction of the organophosphate pesticides, fenthion and dimethoate, the stonefruit industry now faces a significant challenge to control fruit flies. In this field trial we quantified the level of control achieved by a 'best case' systems approach that relied on currently available and registered control measures. This system included protein bait sprays, Male Annihilation Technique, insecticide cover sprays of trichlorfon, maldison and spinetoram and inspection and culling of damaged fruit. We found that in two out of the three trial orchards, packed fruit samples from Gatton (QLD) and Bangalow (NSW) had low levels of fruit fly infestation; 1.47 and 2.97% respectively. However, at the third property located at Alstonville (NSW) a high level of infestation (51.63%) was found in packed nectarines, which was likely attributed to the late implementation of the systems approach. This trial has demonstrated the potential for fruit fly control without relying on fenthion, however further modification of the system is needed to refine and increase efficacy

    An evaluation of the components of a proposed perimeter baiting system for cucumber fly, Bactrocera cucumis

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    Management of cucumber fly (Bactrocera cucumis) has relied heavily on cover sprays of broad spectrum insecticides such as dimethoate and fenthion. Long term access to these insecticides is uncertain, and their use can disrupt integrated pest management programs for other pests such as whitefly, aphids and mites. Application of a protein bait spray for fruit fly control is common practice in tree crops. However, vegetable crops present different challenges as fruit flies are thought to enter these crops only to oviposit, spending the majority of their time in roosting sites outside of the cropping area. Perimeter baiting of non-crop vegetation was developed overseas as a technique for control of melon fly (B. cucurbitae) in cucurbits in Hawaii. More recent work has refined the technique further, with certain types of perimeter vegetation proving more attractive to melon fly than the sorghum or corn crops which are commonly utilised. Trials were performed to investigate the potential of developing a similar system for cucumber fly. Commercially available fruit fly baits were compared for attractiveness to cucumber fly. Eight plant species were evaluated for their relative attractiveness to cucumber flies as roosting sites. Differences were observed in the number of flies feeding at protein bait applied to each of the plants. Results are discussed in the context of the development of a perimeter baiting system for cucumber fly in cucurbit crops
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