Temperature and livestock grazing trigger transcriptome responses in bumblebees along an elevational gradient

Climate and land-use changes cause increasing stress to pollinators but the molecular pathways underlying stress responses are poorly understood. Here, we analyzed the transcriptomic response of Bombus lucorum workers to temperature and livestock grazing. Bumblebees sampled along an elevational gradient, and from differently managed grassland sites (livestock grazing vs unmanaged) in the German Alps did not differ in the expression of genes known for thermal stress responses. Instead, metabolic energy production pathways were upregulated in bumblebees sampled in mid- or high elevations or during cool temperatures. Extensive grazing pressure led to an upregulation of genetic pathways involved in immunoregulation and DNA-repair. We conclude that widespread bumblebees are tolerant toward temperature fluctuations in temperate mountain environments. Moderate temperature increases may even release bumblebees from metabolic stress. However, transcriptome responses to even moderate management regimes highlight the completely underestimated complexity of human influence on natural pollinators. [Display omitted] •Upregulation of energy metabolism pathways in Bombus lucorum with increasing elevation•Genes known for thermal stress responses did not change with increased elevation•Bombus lucorum are tolerant toward relatively broad temperature fluctuations•Grazing lead to an upregulation in genetic information processes in B. lucorum Biological sciences; Evolutionary biology; Evolutionary ecology; Omics