Abstract
Blue orchard bees, [Osmia lignaria (Say) (Hymenoptera: Megachilidae)], have been developed as an important pollinator for orchard crops in North America over the last 40 years. The toxicity of several pesticides to O. lignaria and other Osmia species has been previously reported. However, the field-realistic toxicity of formulated premix insecticides comprised of multiple active ingredients (each with a different mode of action) to O. lignaria has not been assessed. Here, we use a customized spray tower in a laboratory setting to assess adult male and female whole-body direct contact exposure to four formulated pesticide mixtures: thiamethoxam + lambda-cyhalothrin (TLC), imidacloprid + beta-cyfluthrin (IBC), chlorantraniliprole + lambda-cyhalothrin (CLC) and methoxyfenozide + spinetoram (MS) by directly spraying anesthetized bees in Petri dishes. Separately, adult male and female whole-body direct contact exposure to formulated imidacloprid (I), beta-cyfluthrin (BC) and their 1:1 binary combination (IBC) was assessed using the same experimental method. Resulting mortality in each study was screened up to 96 h post-treatment to determine acute whole-body contact toxicity. In the first study, TLC and IBC resulted in statistically higher mortality at 24 and 48 h than the two other insecticide combinations tested. The CLC and MS combinations were slower acting and the highest mortality for O. lignaria exposed to these mixtures was recorded at 96 h. We did observe significant differences in toxicity between CLC and MS. In the second study, exposure to the 1:1 binary combination of IBC caused overall significantly higher mortality than exposure to I or BC alone. Both active ingredients alone, however, demonstrated equivalent levels of mortality to the 1:1 binary combination treatment at the 96 h observation reading, indicating increased speed of kill, but not necessarily increased toxicity. Significant differences in the onset of mortality following acute contact whole-body exposure to the formulated insecticide mixtures and individual active ingredients tested were consistently observed across all experiments in both studies.
Highlights
Blue orchard bees, [Osmia lignaria (Say) (Hymenoptera: Megachilidae)] are solitary nesting bees native to North America that are increasingly being utilized for their pollination services in commercial crop production [1,2,3,4]
Male O. lignaria whole-body contact exposure to all four premix insecticide sprays (Tables 1 and 2) resulted in mortality that was statistically significant between treatments at 24 h (F = 18.059, p < 0.05, df = 3), 48 h (F = 48.053, p < 0.05, df = 3), 72 h (F = 35.37, p < 0.05, df = 3) and 96 h (F = 12.824, p < 0.05, df = 3)
The results of this study demonstrate the differences in toxicity of formulated premix insecticides and their individual active ingredients to O. lignaria, which are increasingly being used for pollination
Summary
Blue orchard bees, [Osmia lignaria (Say) (Hymenoptera: Megachilidae)] are solitary nesting bees native to North America that are increasingly being utilized for their pollination services in commercial crop production [1,2,3,4]. O. lignaria are exposed to multiple environmental stressors impacting their reproductive success, overall population decline and the ability to provide effective pollination services [5]. One potential environmental stressor of interest is assessing the effects of pollinator exposure to pesticides commonly used in orchards before and after bloom. Ample research has been done on honey bees, [Apis mellifera (Linnaeus) (Hymenoptera: Apidae)] and more recently, on alternative pollinators such as O. lignaria and other related Osmia species. Pesticide applications in orchards are restricted during bloom, pollinators can still be exposed to systemic insecticide residues present in flowers from pre-bloom sprays [6]. Insecticide applications made before the bloom is complete (as a result of various percentages of petal fall) can result in pollinator exposure.
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