Litcius/Paper detail

Expert‐based range maps cannot be replicated using data‐driven methods but macroecological conclusions arising from them can

Heléne Aronsson, Alexander Zizka, Alexandre Antonelli, Søren Faurby

2024Journal of Biogeography12 citationsDOIOpen Access PDF

Abstract

Abstract Aim Answering many fundamental and applied scientific questions relies on accurate geographic range maps for species, such as those compiled by experts working with the International Union for Conservation of Nature (IUCN). However, these maps are resource demanding to produce and only available for a limited number of organisms. Here, we test to what extent standardized, data‐driven methods based on publicly available occurrences can reproduce expert‐based IUCN range maps and the macroecological conclusions drawn from them. Location Global. Time Period Present. Taxa Birds. Materials and Methods We estimated the geographic ranges for 7385 non‐marine bird species which either were non‐migratory or had spatially connected breeding and wintering ranges from publicly available, georeferenced point occurrences. We then quantified the spatial overlap between these range estimates and the IUCN expert‐derived range estimates. Finally, we compared global species richness patterns and the environmental correlates that emerge from both approaches. Results We find that range estimates based on point occurrence records overlap on average 52% with expert range estimates for the same species. The global species richness patterns estimated under both approaches are overall similar but show local and regional differences, for example, in the tropical Andes of northern South America and the Central Arc region of Africa. The estimated global drivers of richness are similar. Main Conclusions Expert‐derived estimates of species distributions are not reproducible by data‐driven approaches relying on currently available public records, even for well‐documented taxa such as birds. However, these discrepancies do not substantially change our macroecological understanding of global drivers of bird diversity.

Topics & Concepts

IUCN Red ListSpecies richnessRange (aeronautics)MacroecologyGeographyEcologyTaxonGeolocationDistance decayBiogeographyEnvironmental niche modellingBiodiversityCitizen sciencePhysical geographyBiologyHabitatEcological nicheComputer scienceWorld Wide WebComposite materialMaterials scienceBotanySpecies Distribution and Climate ChangeWildlife Ecology and ConservationEcology and Vegetation Dynamics Studies