Ecology and Evolution (Dec 2020)

Direct and plant‐mediated effects of climate on bird diversity in tropical mountains

  • Maximilian G. R. Vollstädt,
  • Jörg Albrecht,
  • Katrin Böhning‐Gaese,
  • Andreas Hemp,
  • Kim M. Howell,
  • Laura Kettering,
  • Alexander Neu,
  • Eike Lena Neuschulz,
  • Marta Quitián,
  • Vinicio E. Santillán,
  • Till Töpfer,
  • Matthias Schleuning,
  • Susanne A. Fritz

DOI
https://doi.org/10.1002/ece3.7014
Journal volume & issue
Vol. 10, no. 24
pp. 14196 – 14208

Abstract

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Abstract Aim Although patterns of biodiversity across the globe are well studied, there is still a controversial debate about the underlying mechanisms and their generality across biogeographic scales. In particular, it is unclear to what extent diversity patterns along environmental gradients are directly driven by abiotic factors, such as climate, or indirectly mediated through biotic factors, such as resource effects on consumers. Location Andes, Southern Ecuador; Mt. Kilimanjaro, Tanzania. Methods We studied the diversity of fleshy‐fruited plants and avian frugivores at the taxonomic level, that is, species richness and abundance, as well as at the level of functional traits, that is, functional richness and functional dispersion. We compared two important biodiversity hotspots in mountain systems of the Neotropics and Afrotropics. We used field data of plant and bird communities, including trait measurements of 367 plant and bird species. Using structural equation modeling, we disentangled direct and indirect effects of climate and the diversity of plant communities on the diversity of bird communities. Results We found significant bottom‐up effects of fruit diversity on frugivore diversity at the taxonomic level. In contrast, climate was more important for patterns of functional diversity, with plant communities being mostly related to precipitation, and bird communities being most strongly related to temperature. Main conclusions Our results illustrate the general importance of bottom‐up mechanisms for the taxonomic diversity of consumers, suggesting the importance of active resource tracking. Our results also suggest that it might be difficult to identify signals of ecological fitting between functional plant and animal traits across biogeographic regions, since different species groups may respond to different climatic drivers. This decoupling between resource and consumer communities could increase under future climate change if plant and animal communities are consistently related to distinct climatic drivers.

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