Abstract
Mortality of agricultural pests caused by arthropod predators is a valuable ecosystem service for crop production. The earwig, Euborellia annulipes (Lucas), attacks different pest species in various crop ecosystems, including larvae and pupae of the boll weevil, Anthonomus grandis grandis (Boh.). In this study, multiple factors were assessed to measure the selectivity of insecticides used against sap-sucking and chewing cotton pests for two E. annulipes populations. Nymphs and adults of E. annulipes were exposed to the insecticides in two ways: ingestion of contaminated prey, and contact with dried residues on either inert surfaces or treated plants bearing prey. Pymetrozine, chlorantraniliprole, and spinetoram had little effect on the predator regardless the tested earwig population, life stage with developmental time and survival, or the route of exposure (ingestion and residual). Cyantraniliprole dried-residue impeded nymph to complete development and only 27% of adults survived until 20 days after exposure. Pyriproxyfen was harmless through acute toxicity to nymphs and adult earwigs (70-100% survival 72 h after exposure), but prevented normal development of nymphs to adults causing chronic toxicity. Chlorfenapyr, indoxacarb, lambda-cyhalothrin, chlorpyrifos, dimethoate, and malathion were harmful to the predator regardless life stage or method of exposure. The negative impact of thiamethoxam, lambda-cyhalothrin and indoxacarb was diminished when exposure occurred on plants with predator allowed to shelter in the soil. The results indicate that insecticide selectivity outcome varies by the insecticide, predator life stage and the predator's behavior. Therefore, testing different predator life stages via several routes of exposure, without denying the insect the opportunity to engage in its normal behavior can provide better estimates of insecticide selectivity.
Highlights
Natural enemies provide valuable ecosystem services by killing arthropod pests in crop ecosystems
Knowledge of the relative susceptibility of particular natural enemies to specific insecticides, across classes with different modes of action, is useful in guiding growers to use more environmentally safe materials. This information allows extension personnel to recommend products with selectivity that will protect natural enemies and allows growers to pick materials that will aid in avoiding development of insecticide-resistant by the pest species
Our results showed that the susceptibility of the ring-legged earwig, E. annulipes, differs among insecticides that are recommended against various sap-sucking and chewing cotton pest species
Summary
Natural enemies provide valuable ecosystem services by killing arthropod pests in crop ecosystems. Cotton fields in Brazil cover around 1.4 million hectares each year, with boll weevils causing significant losses and being responsible for most of the pest control expenditures in the crop Both larvae and adult boll weevils damage the cotton’s reproductive structures, i.e., flower buds and bolls (Neves et al 2013; Showler and Cantu 2005). When infestations reach the action threshold of 3-5% of the flower buds attacked, insecticide application begins and applications are repeated at 5-day intervals for the following 20-25 days to ensure control of the emerging adults (Bélot et al 2016; Miranda and Rodrigues 2015) Following this schedule of applications for boll weevil control is estimated to cost US $360 per hectare (Bélot et al 2016), which when added to the yield losses caused by the pest is a serious loss of profits for growers
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