Abstract
Simple SummaryYellow starthistle (Centaurea solstitialis) is an invasive annual plant that has infested multi-million ha in the western United States, causing multi-billion dollars of losses and management costs. The rosette weevil (Ceratapion basicorne) has recently been approved for biological control of this weed. However, this weevil reproduces only once a year, which hinders mass-rearing for release. Here, we tested whether insect hormones can break the reproductive diapause of female weevils. We found that applying two insect hormones, 20E and methoprene, can consistently terminate diapause of female weevils to enable them to lay eggs. Thus, topically applying insect hormones could be used to induce females to lay eggs at any time of year, which would permit rearing more than one generation per year. This could greatly increase the number of weevils produced per year in a mass-rearing program to accelerate the release of rosette weevils to help suppress yellow starthistle in the United States. These insects would revert to having one generation per year after release in synchrony with their host plant.Classical biological control is an important method for controlling invasive alien weeds. Univoltine insects can be highly effective biological control agents of annual weeds because they are well synchronized with their host plant. However, having only one generation per year makes it difficult and slow to multiply them in the laboratory for initial field releases. If it were possible to terminate reproductive diapause early, then we could rear multiple generations per year, which would greatly increase annual production. We used a recently approved biocontrol agent, Ceratapion basicorne (a univoltine weevil), for yellow starthistle (Centaurea solstitialis) as a model system to study the use of two insect hormones, 20-hydroxyecdysone (20E) and methoprene, to terminate reproductive diapause. Methoprene (1 μg applied topically) terminated reproductive diapause of female weevils, whereas doses of 0.0, 0.01 and 0.1 μg did not. The combination of methoprene and 20E had a stronger effect and induced an increase in eggs (1.51 ± 0.16 eggs/day, mean ± SE) compared with a methoprene only group (1.00 ± 0.13 eggs/day), and a control group (0.21 ± 0.04 eggs/day). Thus, topical application of these hormones should enable us to rear the weevil out of its normal season and produce more than one generation per year, which will increase productivity of mass-rearing it for field release. Once released in the field, the insect would continue as a univoltine agent that is well-synchronized with its host plant.
Highlights
Classical biological control, the use of host-specific natural enemies, is an important strategy for controlling invasive alien plants [1]
Once new classical biocontrol agents are approved for field release, they must be multiplied and released so that they can become widely established in order to successfully control the target weed
Our results demonstrated that doses of 0.01, 0.1 and 1.0 μg of methoprene progressively increased feeding by adult females
Summary
The use of host-specific natural enemies, is an important strategy for controlling invasive alien plants [1]. Multivoltine insects are relatively easy to multiply, but many biological control agents, of annual target weeds, are univoltine. Such univoltine species typically have obligatory diapause, which enables them to be synchronized with their host plant. This makes it more difficult to multiply them because normally only one generation can be produced in a year. A variety of environmental conditions that are associated with seasonal changes are known to terminate reproductive diapause of adult insects, and the specific requirements have been studied in a number of species, especially agronomic pests [7]
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