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Bioinsecticide spinosad poses multiple harmful effects on foragers of Apis mellifera.

Renan Dos Santos AraújoMarcos Pereira LopesThaís Andrade VianaDaniel Silva Sena BastosMariana Machado-NevesLorena Lisbetd BotinaGustavo Ferreira Martins
Published in: Environmental science and pollution research international (2023)
There are multifactorial causes for the recent decline in bee populations, which has resulted in compromised pollination and reduced biodiversity. Bees are considered one of the most important non-target insects affected by insecticides used in crop production. In the present study, we investigated the effects of acute oral exposure to spinosad on the survival, food consumption, flight behavior, respiration rate, activity of detoxification enzymes, total antioxidant capacity (TAC), brain morphology, and hemocyte count of Apis mellifera foragers. We tested six different concentrations of spinosad for the first two analyses, followed by LC 50 (7.7 mg L -1 ) for other assays. Spinosad ingestion decreased survival and food consumption. Exposure to spinosad LC 50 reduced flight capacity, respiration rate, and superoxide dismutase activity. Furthermore, this concentration increased glutathione S-transferase activity and the TAC of the brain. Notably, exposure to LC 50 damaged mushroom bodies, reduced the total hemocyte count and granulocyte number, and increased the number of prohemocytes. These findings imply that the neurotoxin spinosad affects various crucial functions and tissues important for bee performance and that the toxic effects are complex and detrimental to individual homeostasis.
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