Pesticide Residues Detected in Pollen Trapped from Honey Bees in Connecticut

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  1. Americasbeekeeper

    Americasbeekeeper New Member

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    Using a Hazard Quotient to Evaluate Pesticide Residues Detected in Pollen Trapped from Honey Bees (Apis mellifera) in Connecticut
    Analysis of pollen trapped from honey bees as they return to their hives provides a method of monitoring fluctuations in one route of pesticide exposure over location and time. We collected pollen from apiaries in five locations in Connecticut, including urban, rural, and mixed agricultural sites, for periods from two to five years. Pollen was analyzed for pesticide residues using a standard extraction method widely used for pesticides (QuEChERS) and liquid chromatography/mass spectrometric analysis. Sixty pesticides or metabolites were detected. Because the dose lethal to 50% of adult worker honey bees (LD[SUB]50[/SUB]) is the only toxicity parameter available for a wide range of pesticides, and among our pesticides there were contact LD[SUB]50[/SUB] values ranging from 0.006 to >1000 μg per bee (range 166,000X), and even among insecticides LD[SUB]50[/SUB] values ranged from 0.006 to 59.8 μg/bee (10,000X); therefore we propose that in studies of honey bee exposure to pesticides that concentrations be reported as Hazard Quotients as well as in standard concentrations such as parts per billion. We used both contact and oral LD[SUB]50[/SUB] values to calculate Pollen Hazard Quotients (PHQ = concentration in ppb ÷ LD[SUB]50[/SUB] as μg/bee) when both were available. In this study, pesticide Pollen Hazard Quotients ranged from over 75,000 to 0.01. The pesticides with the greatest Pollen Hazard Quotients at the maximum concentrations found in our study were (in descending order): phosmet, Imidacloprid, indoxacarb, chlorpyrifos, fipronil, thiamethoxam, azinphos-methyl, and fenthion, all with at least one Pollen Hazard Quotient (using contact or oral LD[SUB]50[/SUB]) over 500. At the maximum rate of pollen consumption by nurse bees, a Pollen Hazard Quotient of 500 would be approximately equivalent to consuming 0.5% of the LD[SUB]50[/SUB] per day. We also present an example of a Nectar Hazard Quotient and the percentage of LD[SUB]50[/SUB] per day at the maximum nectar consumption rate.
    http://www.plosone.org/article/info:doi/10.1371/journal.pone.0077550