About This Project

Birds that feed on aerial flying insects show some of the steepest population declines compared to other species in North America. Because these birds have such specialized diets, one hypothesis to explain their decline is a reduction in food availability due to pesticide use. Unfortunately, we have no long-term data on diet. We propose to use museum specimens and feather chemistry to assess changes in diets over the past 120 years in order to inform conservation efforts.

Ask the Scientists

What is the context of this research?

Populations of aerial insectivores are declining across North America, but the reasons for this remain elusive. One hypothesis proposes that lower insect abundances have forced these birds to feed lower on the food chain, reducing adult survival, reproductive success, or both. But how can we assess what birds ate over 120 years ago? One way to test the change in diet hypothesis is by comparing nitrogen isotopes in feathers of historic and modern museum specimens, because the amount of the heavy nitrogen isotope (15N) increases with level in the food chain relative to atmospheric levels. By applying stable isotope technologies to historic specimens we can gain new insights on the past to better understand if diets of birds have changed over time.

What is the significance of this project?

To make effective conservation decisions we must be able to identify causes of population declines. The change in diet hypothesis predicts that δ15N will decrease through time. However, this pattern is also consistent with the development and use of nitrogen based fertilizers synthesized from atmospheric nitrogen. How can we be sure that patterns in isotope profiles of birds are caused by changes in diet and not the application of nitrogen-based fertilizers? In this case, experiments are impossible so we must take a comparative approach. By comparing δ15N profiles from a diversity of species with different diets and population trajectories, we can distinguish between these hypotheses and better understand how changes in diet may be associated with population declines in birds.

What are the goals of the project?

We will examine nitrogen isotopes across 18 species of birds, which have different diets and population trajectories, to assess if population declines in aerial insectivores are associated with changes in diet over the past 120 years. If changes in diet are associated with population declines in aerial insectivores, then decreases in δ15N should be steepest in species that feed on flying insects, and weak or non-existent in species that do not feed on flying insects. By contrast, if fertilizer use is driving patterns of isotopes, then δ15N profiles should be similar across all species regardless of diet. To our knowledge, this will be the first study to make these comparisons and test among these alternative hypotheses.