Bee species richness through time in an urbanizing landscape of the southeastern United States

Compared to non‐urban environments, cities host ecological communities with altered taxonomic diversity and functional trait composition. However, we know little about how these urban changes take shape over time. Using historical bee (Apoidea: Anthophila) museum specimens supplemented with online r...

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Bibliographic Details
Published in:Global change biology 2024-01, Vol.30 (1), p.e17060-n/a
Main Authors: Ruzi, Selina A., Youngsteadt, Elsa, Cherveny, April Hamblin, Kettenbach, Jessica, Levenson, Hannah K., Carley, Danesha Seth, Collazo, Jaime A., Irwin, Rebecca E.
Format: Article
Language:English
Subjects:
Bees
Cities
Collections
Collectors
Composition
extrapolation
Human populations
Multidimensional scaling
museum collections
Museums
Nesting
occupancy models
pollinators
Population growth
Population number
Rarefaction
Scaling
Species richness
Taxonomy
Urban areas
Urban environments
urbanization
Wake County, North Carolina
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Summary:Compared to non‐urban environments, cities host ecological communities with altered taxonomic diversity and functional trait composition. However, we know little about how these urban changes take shape over time. Using historical bee (Apoidea: Anthophila) museum specimens supplemented with online repositories and researcher collections, we investigated whether bee species richness tracked urban and human population growth over the past 118 years. We also determined which species were no longer collected, whether those species shared certain traits, and if collector behavior changed over time. We focused on Wake County, North Carolina, United States where human population size has increased over 16 times over the last century along with the urban area within its largest city, Raleigh, which has increased over four times. We estimated bee species richness with occupancy models, and rarefaction and extrapolation curves to account for imperfect detection and sample coverage. To determine if bee traits correlated with when species were collected, we compiled information on native status, nesting habits, diet breadth, and sociality. We used non‐metric multidimensional scaling to determine if individual collectors contributed different bee assemblages over time. In total, there were 328 species collected in Wake County. We found that although bee species richness varied, there was no clear trend in bee species richness over time. However, recent collections (since 2003) were missing 195 species, and there was a shift in trait composition, particularly lost species were below‐ground nesters. The top collectors in the dataset differed in how often they collected bee species, but this was not consistent between historic and contemporary time periods; some contemporary collectors grouped closer together than others, potentially due to focusing on urban habitats. Use of historical collections and complimentary analyses can fill knowledge gaps to help understand temporal patterns of species richness in taxonomic groups that may not have planned long‐term data. Using museum specimens, online repositories, and researcher collections, we found that although bee species richness varied among years, there was no significant directional trend in bee species richness from 1900 to 2018. However, recent bee specimen collections were missing 195 species with a shift in trait composition, particularly lost species were below‐ground nesters. Overall, our results demonstrate that
ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.17060