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Bees travelling south: Climate-induced range shifts and suitable habitat losses in south-eastern neotropics

Published Article

Latin America

Publication date: August 14, 2024

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SES bees are projected to lose species in northern areas and gain them farther south, with many shifting ranges southward. Stable zones in southern Brazil highlight key conservation needs, especially in threatened grasslands. Eusocial groups may be more vulnerable, though multiple ecological factors shape species’ climate sensitivity.

Subject Tags

  • Climate impacts
  • Biodiversity

Abstract

Aim: To provide an assessment of climate change impacts on a set of wild pollinators restricted to one of the regions with the greatest diversity of bees in the world. Also, we aimed to test whether functional groups responded differently to climate projections.

Location: South-eastern South America (SES).

Taxon: Bees (Hymenoptera: Apidae sensu lato).

Methods: We selected 18 species of bees mostly restricted to the SES region, modelled their distributions and assessed the possible impacts of near future (2050) climate change in species richness and shifts in range centroids. Potential impacts related to different functional groups were evaluated through t-tests.

Results: SES species richness was projected to decrease in the northernmost regions and increase southward. Most bee species were predicted to shift their range centroids towards the south-west and south, while suitable stable areas were found in southern Brazil. We also found higher proportional losses in suitable areas for eusocial species compared to solitary ones, while generalists showed slightly lower gains than specialists.

Main Conclusion: SES bees are likely to undergo changes in the near future, with projected losses of species at northern portions and southward increases. The identified stable areas in southern Brazil underscore the importance of conservation efforts in the region, particularly in natural grasslands – an endangered habitat with high bee diversity. Although our results suggest higher vulnerability for functional groups traditionally considered more resilient, it is essential to acknowledge that other factors, including habitat and mutualists availability, behavioural particularities, phenology and range size, must be determinants for the vulnerability of species to ongoing climate change.

Citation

Pereira, F.W., Araujo, M.L., Brum, F.T., Melo, G.A., Moura, M.O. and Gonçalves, R.B., 2024. Bees travelling south: climate‐induced range shifts and suitable habitat losses in south‐eastern neotropics. Journal of Biogeography51(11), pp.2259-2273. https://doi.org/10.1111/jbi.14989

TNC Authors

  • Fernanda Thiesen Brum
    Spatial Prioritization Specialist
    The Nature Conservancy
    Email: fernanda.brum@tnc.org