Neonicotinoid Residues in Wildflowers, a Potential Route of Chronic Exposure for Bees

In recent years, an intense debate about the environmental risks posed by neonicotinoids, a group of widely used, neurotoxic insecticides, has been joined. When these systemic compounds are applied to seeds, low concentrations are subsequently found in the nectar and pollen of the crop, which are th...

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Published in:Environmental science & technology 2015-11, Vol.49 (21), p.12731-12740
Main Authors: Botías, Cristina, David, Arthur, Horwood, Julia, Abdul-Sada, Alaa, Nicholls, Elizabeth, Hill, Elizabeth, Goulson, Dave
Format: Article
Language:English
Subjects:
Anabasine - toxicity
Animals
Apis mellifera
Bees
Bees - metabolism
Brassica rapa - chemistry
Contamination
Crops
Crops, Agricultural - chemistry
Environmental Exposure - analysis
Flowers - chemistry
Foraging behavior
Honey
Hordeum - chemistry
Insecticides
Insecticides - analysis
Neurotoxicity
Pesticides
Plant Nectar - chemistry
Pollen
Pollen - chemistry
Seeds - chemistry
Soil - chemistry
Triticum - chemistry
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cited_by cdi_FETCH-LOGICAL-a460t-ed4b0a1329abf1c9021694aec0c03b88eaf738eacfa5a4e066cc149edb08aff53
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container_issue 21
container_start_page 12731
container_title Environmental science & technology
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creator Botías, Cristina
David, Arthur
Horwood, Julia
Abdul-Sada, Alaa
Nicholls, Elizabeth
Hill, Elizabeth
Goulson, Dave
description In recent years, an intense debate about the environmental risks posed by neonicotinoids, a group of widely used, neurotoxic insecticides, has been joined. When these systemic compounds are applied to seeds, low concentrations are subsequently found in the nectar and pollen of the crop, which are then collected and consumed by bees. Here we demonstrate that the current focus on exposure to pesticides via the crop overlooks an important factor: throughout spring and summer, mixtures of neonicotinoids are also found in the pollen and nectar of wildflowers growing in arable field margins, at concentrations that are sometimes even higher than those found in the crop. Indeed, the large majority (97%) of neonicotinoids brought back in pollen to honey bee hives in arable landscapes was from wildflowers, not crops. Both previous and ongoing field studies have been based on the premise that exposure to neonicotinoids would occur only during the blooming period of flowering crops and that it may be diluted by bees also foraging on untreated wildflowers. Here, we show that exposure is likely to be higher and more prolonged than currently recognized because of widespread contamination of wild plants growing near treated crops.
doi_str_mv 10.1021/acs.est.5b03459
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subjects Anabasine - toxicity
Animals
Apis mellifera
Bees
Bees - metabolism
Brassica rapa - chemistry
Contamination
Crops
Crops, Agricultural - chemistry
Environmental Exposure - analysis
Flowers - chemistry
Foraging behavior
Honey
Hordeum - chemistry
Insecticides
Insecticides - analysis
Neurotoxicity
Pesticides
Plant Nectar - chemistry
Pollen
Pollen - chemistry
Seeds - chemistry
Soil - chemistry
Triticum - chemistry
title Neonicotinoid Residues in Wildflowers, a Potential Route of Chronic Exposure for Bees
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