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Urbanization effects are trait-specific and city-dependent across a widespread spider's global range

Vanthournout, B.; Dahirel, M.; Chuang, A.; De Wolf, K.; D'haenekint, N.; Abihssira-Garcia, I. S.; Alicea-Serrano, A. M.; Andersen, M.; Anderson, H.; Aviles, L.; Barnett, J. B.; Ba?ar?r, E.; Beatman, T. R.; Bechsgaard, J.; Bilde, T.; Biundo, C. E.; Boles, J. C.; Brandt, E. E.; Chakraborty, S.; Coonfield, A.; Croci, S.; Cuff, J. P.; Driesen, M.; Echeverri, S.; Engeseth, K. R.; Escalante, I.; Esposito, L. A.; Fischer, A.; Foley, S.; Frutiger, M. J.; Gartly, R.; Garzoli, L.; Gorneau, J.; Grieves, L.; Guevara, J.; Haberkern, A.; Haddad, C.; Hanslin, F.; Hesselberg, T.; Hirschkorn, C.; Hung, E.; Isa

2026-06-22 ecology
10.64898/2026.06.19.733406 bioRxiv
Show abstract

Urban environments impose strong selective pressures through biotic and abiotic factors, driving changes in behavior, physiology, and morphology. Yet, responses vary across taxa and cities, and it remains unclear which traits respond consistently and what factors moderate this variation. We addressed these questions using the widespread European garden spider (Araneus diadematus) as a model, measuring size, color, and web-building traits along urban-rural transects in 22 cities across its distribution range. Using a meta-analytic framework, we assessed how city-specific characteristics influenced trait variation. Urbanization consistently reduced relative abdomen surface area, a proxy for body condition. Exploratory meta-regressions suggest that web-building response was predicted by temperature: compared to their non-urban surroundings, urban webs are larger in colder regions and smaller in warmer regions. In contrast, body size and abdomen brightness varied among cities without clear environmental predictors. These findings show that urbanization effects are trait- and context-dependent, likely influenced by local factors such as heat island intensity, microclimate, or prey availability. Linking within- and between-city variation will improve understanding of species phenotypic responses to urban environments.

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