Abstract
When a species colonizes an urban habitat, differences in the environment can create novel selection pressures. Successful colonization will further lead to demographic perturbations and genetic drift, which can interfere with selection. Here, we test for consistent urban selection signals in multiple populations of the burrowing owl (Athene cunicularia), a species that colonized South American cities just a few decades ago. We sequenced 213 owls from three urban-rural population pairs and performed a genome-wide comparison of urban against rural birds. We further studied genome-wide associations with flight initiation distance, a measure of harm avoidance in which urban and rural birds are known to differ. Based on four samples taken over nine years from one of the urban populations, we investigated temporal allele frequency changes. The genomic data were also used to identify urban-specific signatures of selective sweeps. Single genomic sites did not reach genome-wide significance for any association. However, a gene-set analysis on the strongest signals from these four selection scans suggests a significant enrichment of genes with known functions related to synapses and neuron projections. We identified 98 genes predominantly expressed in the brain, of which many may play a role in the modulation of brain connectivity and consequently in cognitive function and motivational behaviour during urbanization. Furthermore, polymorphisms in the promoter region of the synaptic SERT gene - one of the two candidates known to correlate with urban colonization in birds - associated with the habitat in which individuals lived (urban vs. rural).
Highlights
The extent of urban habitats is increasing worldwide, and most humans live in cities (United Nations, 2018)
We found a significant enrichment for many genes associated with the term “Synapse” for the urban-rural habitat association analysis (FWER for the top 1,000 windows: 0.001; Table S3)
Repeated establishment of populations in urban areas allows the investigation of general urban adaptation, and presents a challenge because of the demographic perturbations during colonisations
Summary
The extent of urban habitats is increasing worldwide, and most humans live in cities (United Nations, 2018). FID – a measure of risk perception – is an individually-consistent and heritable trait (Carrete et al, 2016; Carrete & Tella, 2017) This makes the burrowing owl a suitable system to study rapid adaptation to an urban environment. We applied four independent tests for selection: (a) consistent allele frequency shifts between urban-rural population pairs; (b) allele frequency changes over time in one urban population; (c) genomic selection signals (“selective sweeps”) in the urban populations; and (d) genome-wide associations with FID. We used these tests to address the following specific questions. | 3 sites of genome-wide significant selection? Given the high number of tested single nucleotide polymorphisms (SNPs), only sites under strong selection can be detected; (b) are there functionally-related gene groups in the top genomic regions of strongest selection signals? This reveals weak selection in functionally-related genes and is considered a powerful complementary genome-wide approach in addition to the search for genome-wide significant single site signals (Fridley & Biernacka, 2011; Mooney, Nigg, McWeeney, & Wilmost, 2014; Wang, Jia, Wolfinger, Chen, & Zhao, 2011); (c) are there consistent selection signals in the urban population (Bahia Blanca) where all four tests were performed? and (d) do the candidate genes SERT and DRD4 show signatures of selection?
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