Sydney B Wizenberg, Sarah K French, Laura R Newburn, Mateus Pepinelli, Ida M Conflitti, Mashaba Moubony, Caroline Ritchie, Aidan Jamieson, Rodney T Richardson, Anthea Travas, Mohammed Arshad Imrit, Matthew Chihata, Heather Higo, Julia Common, Elizabeth M Walsh, Miriam Bixby, M Marta Guarna, Stephen F Pernal, Shelley E Hoover, Robert W Currie, Pierre Giovenazzo, Ernesto Guzman-Novoa, Daniel Borges, Leonard J Foster, Amro Zayed
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Abstract
Recent declines in the health of honey bee colonies used for crop pollination pose a considerable threat to global food security. Foraging by honey bee workers represents the primary route of exposure to a plethora of toxins and pathogens known to affect bee health, but it remains unclear how foraging preferences impact colony-level patterns of stressor exposure. Resolving this knowledge gap is crucial for enhancing the health of honey bees and the agricultural systems that rely on them for pollination. To address this, we carried out a national-scale experiment encompassing 456 Canadian honey bee colonies to first characterize pollen foraging preferences in relation to major crops and then explore how foraging behavior influences patterns of stressor exposure. We used a metagenetic approach to quantify honey bee dietary breadth and found that bees display distinct foraging preferences that vary substantially relative to crop type and proximity, and the breadth of foraging interactions can be used to predict the abundance and diversity of stressors a colony is exposed to. Foraging on diverse plant communities was associated with increased exposure to pathogens, while the opposite was associated with increased exposure to xenobiotics. Our work provides the first large-scale empirical evidence that pollen foraging behavior plays an influential role in determining exposure to dichotomous stressor syndromes in honey bees.
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