Drought reduces solitary bee reproduction and skews sex ratios

The Intermountain West of the United States has experienced years of extreme drought and increased temperatures. Increasing temperature and droughts can negatively impact native species that are locally adapted to environmental conditions that have persisted prior to the Anthropocene. Bees, especially solitary bees, provide critical ecosystem services because they pollinate ~90% of all flowering plants. Here we asked how drought impacted the reproduction of Osmia bruneri, a solitary mason bee. We released 20 females in nesting blocks at 21 field sites across four years (2020 - 2023) in the Bear River Mountains of northern Utah. O. bruneri reproduction was positively correlated with winter precipitation, and sex ratio was skewed in years that had a yearlong drought from the expected female to male ratio of 1.3:1 to 0.33:1. These results suggest that O. bruneri is susceptible to winter precipitation droughts. Not only was there a decrease in the total number of cells provisioned but the overall number of females produced decreased significantly during season long drought conditions. Continuous droughts can lead to a local level population decline and could contribute to overall species declines. Identifying the effects of extreme drought on solitary bee fecundity is critical for supporting effective management practices and conservation prioritization. Additionally, the results suggest that preceding winter precipitation can act as an indicator for predicting nesting success in wild solitary bees and may be an overall indicator of habitat quality.