Abstract
We determine the exposure of wild birds to pesticides via consumption of fludioxonil-treated winter wheat seeds following autumn drilling. We recorded the density of seeds left on the soil surface, bird density, and consumption of pesticide-treated seed by birds using camera traps. We calculated the dose ingested by each bird species in a single feeding bout and if they ate treated seeds exclusively for 1 day. We extrapolated this for an additional 19 pesticides commonly used as seed treatments, assuming equal consumption rates. All three fields contained grains on the soil surface (mean 7.14 seeds/m2 on sowing day). In total, 1,374 granivorous birds spanning 18 different species were observed in the fields, with 11 species filmed eating the seeds. Fludioxonil appears to pose a low risk to birds, with <1.14% of the LD50 potentially ingested by a bird for a daily maximum amount of seeds. Analysis of the further 19 pesticides commonly used as seed dressings suggests that the neonicotinoid insecticides imidacloprid, clothianidin, and thiamethoxam represent the highest risk for granivorous birds. For example, chaffinch (Fringilla coelebs) could consume 63% of LD50 of imidacloprid in a single feeding bout, and 370% in a day. Further investigation is clearly required to determine whether seeds treated with these other pesticides are consumed as readily as those treated with fludioxonil, as if so this is likely to cause significant harm.
Highlights
The application of pesticides on crops has been perceived as one of the drivers of the decline of farmland bird populations (Chamberlain 2002; Hallmann et al 2014)
This study aims to investigate which bird species feeds on pesticide-coated wheat seeds during winter cereal sowing season in the UK, and to quantify the exposure of different wild bird species to seeds coated with the fungicide fludioxonil
A total of 60 clusters of over 10 seeds and 14 clusters of over 100 seeds were counted along the field boundaries of Barnham farm, 69 clusters of seeds and clusters of over 100 seeds were counted along the field boundaries of Hartfield field 1, and 30 clusters over 10 seeds and 5 clusters over 100 seeds were counted along the field boundaries of Hartfield field 2
Summary
The application of pesticides on crops has been perceived as one of the drivers of the decline of farmland bird populations (Chamberlain 2002; Hallmann et al 2014). De Snoo and Luttik (2004) found that the type of crop, soil condition, sowing technique, location on the field, and season all influence greatly the percentage of seeds that remain available on the soil surface, which is typically between 0.5 and 9.2%. They found an important difference between the autumn and spring, with the abundance of seeds on the surface in autumn higher by a factor of 13 (probably due to harder soil conditions), and 3.5 times higher on the headlands than in the centre of fields
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