RRC ID 78386
Author Shirey V, Neupane N, Guralnick R, Ries L.
Title Rising minimum temperatures contribute to 50 years of occupancy decline among cold-adapted Arctic and boreal butterflies in North America.
Journal Glob Chang Biol
Abstract Global climate change has been identified as a potential driver of observed insect declines, yet in many regions, there are critical data gaps that make it difficult to assess how communities are responding to climate change. Poleward regions are of particular interest because warming is most rapid while biodiversity data are most sparse. Building on recent advances in occupancy modeling of presence-only data, we reconstructed 50 years (1970-2019) of butterfly occupancy trends in response to rising minimum temperatures in one of the most under-sampled regions of North America. Among 90 modeled species, we found that cold-adapted species are far more often in decline compared with their warm-adapted, more southernly distributed counterparts. Furthermore, in a post hoc analysis using species' traits, we find that species' range-wide average annual temperature is the only consistent predictor of occupancy changes. Species with warmer ranges were most likely to be increasing in occupancy. This trend results in the majority of butterflies increasing in occupancy probability over the last 50 years. Our results provide the first look at macroscale butterfly biodiversity shifts in high-latitude North America. These results highlight the potential of leveraging the wealth of presence-only data, the most abundant source of biodiversity data, for inferring changes in species distributions.
Volume 30(2)
Pages e17205
Published 2024-2-25
DOI 10.1111/gcb.17205
PMID 38403895
MeSH Animals Arctic Regions Biodiversity Butterflies* / physiology Climate Change Ecosystem Temperature
IF 8.555
GBIF Entomological Specimens of Museum of Nature and Human Activities, Hyogo Pref., Japan