Mentor: Ashley Love, Ph.D.

Many bird populations are in decline, and one contributing factor is climate change. Shifts in climate can affect the timing of bird migration and breeding, as well as the nest temperatures experienced by eggs. Bird eggs, similar to reptilian eggs, are heavily affected by temperature; because of this, mothers regulate the temperature of the eggs by incubating them. The mothers are so careful in their incubation that species of birds tend to have an average temperature that their eggs are ideally incubated at, down to a tenth of a degree. This is important because even a deviation of 1℃ can affect the weight, probability of hatching, and survival rate of the offspring (Wada et al. 2015).Few studies have looked at how incubation temperature affects the immune systems of the offspring. To address this knowledge gap we experimentally manipulated incubation temperatures in Eastern Bluebirds and then assessed how temperature affected the proportion of white blood cell types present in 13-day old offspring. We also investigated whether the presence of mites in the nest influenced white blood cell counts in offspring. Our preliminary results suggest that the proportion of heterophils was higher in individuals incubated at colder temperatures than in individuals incubated at higher temperatures. We also found that both embryonic temperatures and parasitism can influence immune cells in nestling bluebirds. Future work should explore if there is a causal relationship between the two, or if another factor is causing both results.

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