The impacts of chlorothalonil and diflubenzuron on Apis mellifera L. larvae reared in vitro

Chlorothalonil is a broad-spectrum fungicide and diflubenzuron is an insect growth regulator used to control many insect larvae feeding on agricultural, forest and ornamental plants. Honey bee larvae may be exposed to both via contaminated pollen, in the form of beebread, added to their diet by thei...

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Bibliographic Details
Published in:Ecotoxicology and environmental safety 2018-11, Vol.164, p.283-288
Main Authors: Dai, Pingli, Jack, Cameron J., Mortensen, Ashley N., Bloomquist, Jeffrey R., Ellis, James D.
Format: Article
Language:English
Subjects:
Apis mellifera
Chlorothalonil
Diflubenzuron
Larvae
Toxicity
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Summary:Chlorothalonil is a broad-spectrum fungicide and diflubenzuron is an insect growth regulator used to control many insect larvae feeding on agricultural, forest and ornamental plants. Honey bee larvae may be exposed to both via contaminated pollen, in the form of beebread, added to their diet by their adult nurse sisters. In this study, we determined how single (acute: 72 h mortality) and repeated (chronic: mortality until emergence as adults) exposure to chlorothalonil and diflubenzuron in their diet affected honey bee larvae reared in vitro. The tested doses of chlorothalonil (20, 100, or 200 mg/L) did not impact 72 h larval mortality acutely relative to that of the solvent control. The 72 h mortality of larvae exposed to 1.6 mg/L and higher doses of diflubenzuron acutely in their diet (47.2–63.9% mortality) was significantly higher than that of larvae fed the solvent control, with no predictable dose dependent pattern observed. In the chronic toxicity tests, consuming an artificial diet with 30 or 100 mg/L chlorothalonil and 0.8, 1.3 or 2 mg/L diflubenzuron significantly lowered the survival of honey bee larvae over that of larvae feeding on the solvent control diet. We calculated risk quotients (RQs) for both compounds using the data we generated in our experiments. Collectively, the RQs suggest that neither compound is likely to affect larval mortality directly at field relevant doses given that pollen composes only a fraction of the total larval diet. Nevertheless, our data do not preclude any sublethal effects that chronic exposure to either compound may cause. •Single acute doses of chlorothalonil did not impact immature bee survival up to 72 h.•Chronic chlorothalonil at 30 and 100 mg/L negatively impacted immature bee survival.•Acute exposure to diflubenzuron negatively impacted immature bee survival.•Chronic diflubenzuron at 0.8, 1.3 or 2 mg/L negatively impacted immature bee survival.•Risk quotient calculations suggest neither compound is a significant risk to immature honey bees.
ISSN:0147-6513
1090-2414
DOI:10.1016/j.ecoenv.2018.08.039