2019
DOI: 10.1016/j.scitotenv.2019.05.493
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Belgian case study on flumethrin residues in beeswax: Possible impact on honeybee and prediction of the maximum daily intake for consumers

Abstract: To assess the health risk posed by flumethrin residues in beeswax to honeybees and honey consumers, 124 wax samples randomly distributed in Belgium were analysed for flumethrin residues using liquid chromatography/tandem mass spectrometry. The risk posed by flumethrin residues in beeswax to honeybee health was assessed through the calculation of a non-pondered and a pondered Hazard Quotient by the prevalence rate of flumethrin considering an oral or topical exposure. No statistical difference was found when co… Show more

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Cited by 18 publications
(11 citation statements)
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“…links to adverse effects at individual bee‐level or at the colony‐level. The use of the HQ threshold in assessing the risk posed by residues in wax 7,11,13,14,19,20 (or for solitary bees in soil 37 ), where contact transfer factors for compounds are required, 38,39 and in dead bees, 11,14,18,21 without relating to residues following exposure at the LD 50 are not defined, 40 are even more obscure. To compound matters, in assessing the significance of residues in pollen and nectar, the contact LD 50 has also been used, 2,9,13,17 or even an ‘average’ of acute toxicity values, 11,12,18 even though the acute oral LD 50 is clearly more relevant for this exposure route.…”
Section: Erroneous Conclusion Resulting From the Use Of The Hazard Quotient To Evaluate Residue Data From Pollen And Nectarmentioning
confidence: 99%
“…links to adverse effects at individual bee‐level or at the colony‐level. The use of the HQ threshold in assessing the risk posed by residues in wax 7,11,13,14,19,20 (or for solitary bees in soil 37 ), where contact transfer factors for compounds are required, 38,39 and in dead bees, 11,14,18,21 without relating to residues following exposure at the LD 50 are not defined, 40 are even more obscure. To compound matters, in assessing the significance of residues in pollen and nectar, the contact LD 50 has also been used, 2,9,13,17 or even an ‘average’ of acute toxicity values, 11,12,18 even though the acute oral LD 50 is clearly more relevant for this exposure route.…”
Section: Erroneous Conclusion Resulting From the Use Of The Hazard Quotient To Evaluate Residue Data From Pollen And Nectarmentioning
confidence: 99%
“…Regarding scenario 3 (adult worker honey bees: wax chewing), we have considered that an adult worker honey bee chews 38.3 mg wax per day (El Agrebi et al, 2019) and we have assumed, as a worst case scenario, that wax chewing leads to the intake of the total amount of contaminants contained in the contaminated beeswax. Indeed, worker honey bees use their mandibles to manipulate the wax in order to shape the hexagonal cells during the comb-building sequence (Bauer and Bienefeld, 2013;Snodgrass, 1910).…”
Section: Calculationmentioning
confidence: 99%
“…Wilmart et al (2016) listed pesticides and veterinary drugs of which residues were detected in beeswax in Europe. This list was then completed with results of more recent studies (Herrera López et al, 2016;Calatayud-Vernich et al, 2017;Daniele et al, 2018;Perugini et al, 2018;Lozano et al, 2019;Shimshoni et al, 2019;El Agrebi et al, 2019, 2020a, 2020b. Table 1 summarizes, for each of these chemical substances, (contact/oral) acute median lethal doses (LD 50 ) to honey bees (adults and/or larvae) and octanol/water partition coefficients at pH 7 and 20°C (=Log K ow (with 'ow' meaning 'octanol/water') = Log P).…”
Section: Introductionmentioning
confidence: 99%
“…Several good beekeeping management practice guidelines were proposed (e.g. Bee Research Institute, 2009; KonVIB/FAB BBF, 2009;ITSAP, 2018;FAO, 2019;El Agrebi et al, 2019, 2020 with the following recommendations:…”
Section: Beeswax In Apiculture: Recycling Adulteration and Contaminamentioning
confidence: 99%