Range-wide phylogeography, population genomics, and demography of three widespread Ara macaws (Psittacidae)

Macaws of the genus Ara comprise eight extant species distributed throughout the Neotropics. Among them, four have broad geographic ranges, yet little is known about the evolutionary history and demographic processes that shaped their genomic variation and present-day distributions. This is particularly relevant because, although these wide-ranging macaws are classified as Least Concern by the IUCN, many of their populations are declining due to habitat fragmentation, illegal trade, and climate change. Here, we used nuclear and mitochondrial genomic data to characterize the evolutionary relationships, population structure, genetic diversity, and demographic histories of three widely distributed species ( A. ararauna , A. chloropterus , and A. severus ) across their geographic distributions. We identified two main populations within Ara severus , and this species showed the highest heterozygosity levels among the three species. In A. ararauna and A. chloropterus , we observed four main genetic clusters corresponding to two populations in the Amazon rainforest biome and and two populations in the Cerrado savanna biome. Cerrado populations in both species exhibited markedly reduced heterozygosity and elevated inbreeding relative to Amazonian populations, consistent with smaller effective population sizes and increased isolation. Genome-wide scans suggested that genetic drift and divergent demographic histories played a predominant role in driving the strong differentiation between Amazon and Cerrado in these two species. Nevertheless, we detected two candidate genes, NALCN and RBBP6 , with convergent selection signals across A. ararauna and A. chloropterus , suggesting possible local adaptation to the Cerrado biome.