Climate variability disrupts mutualism-driven increases in population persistence

Understanding how species interactions impact population dynamics and long-term persistence over broad temporal and spatial scales is crucial for predicting species distributions and responses to global change. Here, we integrate range-wide field surveys of ~90 grass host populations spanning 13 years with demographic modeling based on six-year common garden experiments conducted across the host range to demonstrate that mutualistic fungal endophytes promote population-level persistence and growth of their native host grass across its distribution, with non-mutualistic populations four times more likely to go locally extinct. Despite providing population-level benefits, endophyte prevalence declined eight-fold more in historically mutualistic populations that experienced high climate variability. Thus, mutualisms can underpin population persistence and buffer hosts against environmental stress, but may themselves be vulnerable to global change, with concerning implications for long-term population viability and, ultimately, species distributions under an increasingly uncertain climate.