4.8 Article

Agriculture erases climate-driven beta-diversity in Neotropical bird communities

期刊

GLOBAL CHANGE BIOLOGY
卷 24, 期 1, 页码 338-349

出版社

WILEY
DOI: 10.1111/gcb.13821

关键词

agro-ecology; bird; climate change; environmental gradient; homogenization; multiple stressors; tropical; turnover

资金

  1. UBC [Doctoral Graduate Leadership Fellowship]
  2. University of Toronto [EEB post-doctoral fellowship]
  3. Belmont Forum [G8PJ-437336-2012]
  4. NSERC [06-5566]

向作者/读者索取更多资源

Earth is experiencing multiple global changes that will, together, determine the fate of many species. Yet, how biological communities respond to concurrent stressors at local-to-regional scales remains largely unknown. In particular, understanding how local habitat conversion interacts with regional climate change to shape patterns in beta-diversity-differences among sites in their species compositions-is critical to forecast communities in the Anthropocene. Here, we study patterns in bird beta-diversity across land-use and precipitation gradients in Costa Rica. We mapped forest cover, modeled regional precipitation, and collected data on bird community composition, vegetation structure, and tree diversity across 120 sites on 20 farms to answer three questions. First, do bird communities respond more strongly to changes in land use or climate in northwest Costa Rica? Second, does habitat conversion eliminate beta-diversity across climate gradients? Third, does regional climate control how communities respond to habitat conversion and, if so, how? After correcting for imperfect detection, we found that local land-use determined community shifts along the climate gradient. In forests, bird communities were distinct between sites that differed in vegetation structure or precipitation. In agriculture, however, vegetation structure was more uniform, contributing to 7%-11% less bird turnover than in forests. In addition, bird responses to agriculture and climate were linked: agricultural communities across the precipitation gradient shared more species with dry than wet forest communities. These findings suggest that habitat conversion and anticipated climate drying will act together to exacerbate biotic homogenization.

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