Recent research has detected declines in populations of pollinator species, sparking alarm from scientists and policymakers concerned about negative impacts on ecosystems and agriculture. These declines have been linked to various factors including climate change, habitat loss, and invasive species, but reports are often limited to well-studied species in easily accessible regions. In this study, Souther and colleagues used data compiled on four major families of bees and butterflies to construct species distribution models, enabling them to assess changes over time and space across North America.

The highest species richness was found along North America's West Coast, especially California and the Rocky Mountains. However, the models revealed declining species richness in all four families over the past century in western North America. Comparisons with climate data indicate that these population changes are at least partly related to the impacts of recent climate change -- such as prolonged drought and habitat degradation -- and regions experiencing apparent population declines have also been heavily impacted by anthropogenic land use. The authors note too that the apparent increases in the eastern U.S. may partly reflect increased detections in these populous areas, given an increase in citizen science and similar data collection efforts.

Overall, this study detects broad trends of population changes in bees and butterflies, as well as other potential pollinators. These results help to identify regions of declining populations where researchers and policymakers can prioritize conservation efforts. This study also identifies gaps in existing knowledge of pollinators, including regions that are more poorly sampled and species that are less well studied, limitations that might be overcome by improved monitoring methods and enhanced citizen science efforts.