RT Journal Article SR Electronic T1 Bumblebee occupancy responds to complex interactions between local and landscape land use, climatic niche properties and climate change JF bioRxiv FD Cold Spring Harbor Laboratory SP 2023.09.12.557199 DO 10.1101/2023.09.12.557199 A1 Newbold, Tim A1 Kerr, Jeremy A1 Soroye, Peter A1 Williams, Jessica J. YR 2023 UL http://biorxiv.org/content/early/2023/09/15/2023.09.12.557199.abstract AB Insect biodiversity is changing rapidly, driven by a complex suite of pressures, foremost among which are human land use, land-use intensification, and increasingly climate change. Bumblebees deliver important pollination services to wild plants and human crops, but we lack large-scale empirical evidence on how land use and climate change interact to drive bumblebee biodiversity changes. We assess bumblebee occupancy responses to interactive effects of land use and climate pressures across North America and Western Europe. Occupancy increases with landscape natural habitat and decreases with the duration of human use of landscapes. Responses to historical climate warming are negative in natural habitats but positive in human land uses, while human land use reduces occupancy most in the centre of species’ temperature niches. We estimate that the combined pressures have reduced bumblebee occupancy by 61% across sampled natural habitats, and 65% across human land uses, suggesting that treating present-day natural habitats as an undisturbed reference is misleading. Our results can inform efforts to conserve bumblebee biodiversity in the face of ongoing land-use changes and accelerating climatic changes.One-sentence summary Land use and climate change interact to drive large declines in bumblebee occupancy in both natural and human-modified habitatsCompeting Interest StatementThe authors have declared no competing interest.