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Pesticide Residues in Honey Bee (Apis mellifera) Pollen collected in Two Ornamental Plant Nurseries in Connecticut: Implications for Bee Health and Risk Assessment
Citation:
Hester, K., K. Stoner, B. Eitzer, R. Koethe, AND D. Lehmann. Pesticide Residues in Honey Bee (Apis mellifera) Pollen collected in Two Ornamental Plant Nurseries in Connecticut: Implications for Bee Health and Risk Assessment. ENVIRONMENTAL POLLUTION. Elsevier Science Ltd, New York, NY, 333:122037, (2023). https://doi.org/10.1016/j.envpol.2023.122037
Impact/Purpose:
While potential effects of agricultural pesticides on honey bee health have been investigated in some settings, risks to honey bees associated with exposures occurring in the plant nursery setting have received little attention. In this study, we demonstrate that the honey bee colonies located on the grounds of two ornamental plant nurseries did not exclusively forage on pollen at their respective nursery. In addition, aggregate risk quotients for pesticides in pollen collected by the colones exceeded the threshold of concern for larvae, but not adult bees. Overall, these data highlight the importance of considering all life stages when estimating potential risk to honey bee colonies from pesticide exposure.
Description:
Honey bees (Apis mellifera L.) are one of the most important managed pollinators of agricultural crops. While potential effects of agricultural pesticides on honey bee health have been investigated in some settings, risks to honey bees associated with exposures occurring in the plant nursery setting have received little attention. We sought to identify and quantify pesticide levels present in honey bee-collected pollen harvested in two ornamental plant nurseries (i.e., Nursery A and Nursery B) in Connecticut. From June to September 2018, pollen was collected weekly from 8 colonies using bottom-mounted pollen traps. Fifty-five unique pesticides (including related metabolites) were detected: 24 insecticides, 20 fungicides, and 11 herbicides. Some of the pesticide contaminants detected in the pollen had not been applied by the nurseries, indicating that the honey bee colonies did not exclusively forage on pollen at their respective nursery. The average number of pesticides per sample was similar at both nurseries (i.e., 12.9 at Nursery A and 14.2 at Nursery B). To estimate the potential risk posed to honey bees from these samples, we utilized the EPA’s BeeREX tool to calculate risk quotients (RQs) for each pesticide within each sample. The median aggregate RQ for nurse bees, was 0.003 at both nurseries, well below the acute risk level of concern (LOC) of ≥ 0.4. We also calculated RQs for larvae due to their increased sensitivity to certain pesticides. In total, 6 samples had larval RQs above the LOC (0.45 – 2.51), resulting from the organophosphate insecticide diazinon. Since 2015, the frequency and amount of diazinon detected in pollen increased at one of our study locations, potentially due to pressure to reduce the use of neonicotinoid insecticides. Overall, these data highlight the importance of considering all life stages when estimating potential risk to honey bee colonies from pesticide exposure.
URLs/Downloads:
DOI: Pesticide Residues in Honey Bee (Apis mellifera) Pollen collected in Two Ornamental Plant Nurseries in Connecticut: Implications for Bee Health and Risk Assessment