4.7 Article

Climate variability has idiosyncratic impacts on North American aerial insectivorous bird population trajectories

期刊

BIOLOGICAL CONSERVATION
卷 263, 期 -, 页码 -

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.biocon.2021.109329

关键词

Aerial insectivorous birds; Atlantic Multidecadal Oscillation; Climate change; Migratory birds; North American Breeding Bird Survey; North Atlantic Oscillation; Population trajectories; El Nino Southern Oscillation

资金

  1. Environment and Climate Change Canada grants
  2. University of Saskatchewan

向作者/读者索取更多资源

This study evaluated the population trajectories of 37 species of aerial insectivorous birds under different climate conditions, and found that climate indices have a significant impact on the fit of population models, surpassing the effects of migratory winds and storms.
Delineating effects of climate change on biological communities is an urgent conservation challenge, as climate models predict increases in frequency and magnitude of climatic variability. Climate affects migratory animals at different times and locations throughout their annual cycles. Using long-term (50-year) population trajectories from the North American Breeding Bird Survey, we evaluated climate effects throughout the annual cycle for 37 species of aerial insectivorous birds, a group experiencing widespread population declines and exhibiting extensive within-species spatial synchrony but limited among-species concordance in population trajectories. We assessed the effects of five large-scale climatic indices at two temporal scales (current year and one-year lagged), two measures of seasonal winds, and four measures of seasonal storms (hereafter winds and storms) to test hypotheses about the magnitude of climatic effects that may explain trend variation in population trajectories. Climate covariates - notably the Atlantic Multidecadal Oscillation - improved the fit of 77% of regional population models relative to temporal variation alone. Climate indices, particularly when lagged, had stronger effects than migratory winds and storms on population trajectories. Climate effects were strongest on swallows, diurnal migrants, northerly-wintering species, and western breeding populations, and weakest on nightjars. Such strong yet idiosyncratic climate responses reveal the full annual cycle sensitivity of migratory aerial insectivores to climate change while reinforcing recent findings that the causes of aerial insectivorous bird population declines are complex and species-specific.

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