Spatiotemporal patterns of forest pollinator diversity across the southeastern United States

  1. Michael Ulyshen
  2. Cory Adams
  3. Jacqui Adams
  4. Susan B. Adams
  5. Mickey Bland
  6. Don C. Bragg
  7. Chuck Burdine
  8. Mac A. Callaham
  9. Richard Chaney
  10. Gregg Chapman
  11. Patsy Clinton
  12. Cinnamon Dixon
  13. Jacob Floyd
  14. Phillip Jordan
  15. Tara Keyser
  16. Stephanie Laseter
  17. Rachel Mallinger
  18. Virginia McDaniel
  19. Bryan Mudder
  20. C. Dana Nelson
  21. Katherine Odanaka
  22. A. Christopher Oishi
  23. Shawna Reid
  24. Samm Reynolds
  25. Kevin Robertson
  26. Daniel Saenz
  27. Mary Anne Sayer
  28. Nathan Schiff
  29. Brian Scholtens
  30. Joel Scott
  31. Martin Spetich
  32. Melanie K. Taylor
  33. John L. Willis
  34. Andrew D. Young
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Abstract

Aim

Efforts to understand how pollinating insect diversity is distributed across large geographic areas are rare despite the importance of such work for conserving regional diversity. We sought to relate the diversity of bees (Hymenoptera: Apoidea), hover flies (Diptera: Syrphidae), and butterflies (Lepidoptera) to ecoregion, landscape context, canopy openness, and forest composition across southeastern U.S. forests.

Location

Nineteen experimental forests across nine states in the southeastern U.S.

Methods

We established 5–7 plots on each experimental forest. In each, we sampled pollinators monthly (March–September) using coloured pan traps, and collected data on local forest characteristics. We used the National Land Cover Database (NLCD) to quantify surrounding landcover at different spatial scales.

Results

Bee richness was negatively correlated with both the amount of conifer (pine) forest and the extent of wetlands in the surrounding landscape but was positively correlated with canopy openness. Hover flies and butterflies were less sensitive to landscape context and stand conditions. Pollinator communities differed considerably among ecoregions, with those of the Central Appalachian and Coastal Plain ecoregions being particularly distinct. Bee richness and abundance peaked 2 months earlier in Central Appalachia than in the Coastal Plain and Southeastern Mixed Forest ecoregions.

Main Conclusions

Our findings reveal ecoregional differences in pollinator communities across the southeastern U.S. and highlight the importance of landscape context and local forest conditions to this diverse fauna. The closed broadleaf forests of Appalachia and the open conifer‐dominated forests of the Coastal Plain support particularly distinct pollinator communities with contrasting seasonality. Our results suggest pine forests may reduce pollinator diversity in regions historically dominated by broadleaf forests. However, efforts to create more open canopies can help improve conditions for pollinators in planted pine forests. Research exploring associations between forest pollinators and different broadleaf tree taxa is needed to better anticipate the impacts of various management activities.

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  1. Version published to 10.1111/ddi.13869
  2. Version published to 10.21203/rs.3.rs-4248368/v1 on Research Square