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One in every three bites of food on the North American table exists only because a bee moved pollen from one flower to another. These `pollination services'' are largely provided by domestic honeybees, but wild bees have an important role. Our focus here is on the pollination services provided to the extensive and economically important cultivated blueberry crops grown in Canada, particularly in the Fraser Valley (BC). Many blueberry varietals are adapted tobuzz pollination,'' a service provided only by wild bees. Wild bee populations, however, are in dramatic decline across the globe, with subsequent reductions in crop productivity.x000D
Research suggests that habitat enhancements in the form of wildflower patches could attract and support wild bee populations. Currently, however, the available research can only be used to make very general recommendations, and it is unclear exactly what modifications would most benefit an individual farm. Consequently it is difficult for Fraser Valley blueberry growers to justify investing in expensive and/or time-consuming landscape manipulations. There is thus a need for modelling work, informed by parallel field work, to provide a quantitative means of comparing different wildflower planting arrangements in different agricultural landscapes. Our goal is to use field work and mathematical tools to develop a biologically-informed model that can be used to determine what arrangements of wildflower patches will yield the greatest crop yield in a given agricultural landscape for a given grower. Since recent research has shown that the mechanisms behind pollen deficits vary from one region to another, it is important that we select a particular region for our modelling study. We focus on the Fraser Valley, as this is the largest blueberry growing region in Canada, and pollination deficits in this region are significant (as high as 30%). Our modelling approach and tools, however, will establish a template that can be used to address the same research questions in other blueberry growing regions (e.g. Nova Scotia, Ontario) and in other wild bee-pollinated crops.