Abstract

The objectives of this study were to describe and evaluate potential drivers of genetic structure in Canadian breeding populations of the Ovenbird, Seiurus aurocapilla. We performed genetic analyses on feather samples of individuals from six study sites using nuclear microsatellites. We also assessed species identity and population genetic structure of quill mites (Acariformes, Syringophilidae). For male Ovenbirds breeding in three study sites, we collected light‐level geolocator data to document migratory paths and identify the wintering grounds. We also generated paleohindcast projections from bioclimatic models of Ovenbird distribution to identify potential refugia during the last glacial maximum (LGM, 21,000 years before present) as a factor explaining population genetic structure. Birds breeding in the Cypress Hills (Alberta/Saskatchewan) may be considered a distinct genetic unit, but there was no evidence for genetic differentiation among any other populations. We found relatively strong migratory connectivity in both western and eastern populations, but some evidence of mixing among populations on the wintering grounds. There was also little genetic variation among syringophilid mites from the different Ovenbird populations. These results are consistent with paleohindcast distribution predictions derived from two different global climate models indicating a continuous single LGM refugium, with the possibility of two refugia. Our results suggest that Ovenbird populations breeding in boreal and hemiboreal regions are panmictic, whereas the population breeding in Cypress Hills should be considered a distinct management unit.

Highlights

  • Over the past several decades, many species of songbirds breeding in North America have undergone substantial population declines (NABCI, 2016)

  • When Cypress Hills was removed from the STRUCTURE analysis, we found no evidence for further substructure despite retaining sampling location as a prior

  • Our results provide little evidence for genetic differentiation among Ovenbird populations in Canada, with the exception of the southwestern Cypress Hills population (S. a. cinereus)

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Summary

| INTRODUCTION

Over the past several decades, many species of songbirds breeding in North America have undergone substantial population declines (NABCI, 2016). Molecular evidence from a few wide-­ranging migratory species like Swainson’s Thrush (Catharus ustulatus), Wilson’s Warbler (Cardellina pusilla), and Yellow Warbler (Setophaga petechia) supports the existence of multiple isolated glacial refugia ~20,000 years ago (Clegg, Kelly, Kimura, & Smith, 2003; Milot, Gibbs, & Hobson, 2000; Ruegg, Hijmans, & Moritz, 2006). Such historical isolation may explain current differences in migratory paths and wintering areas. Using these multiple lines of inquiry, we aimed to evaluate evidence for Ovenbird population structure that could in turn provide guidance for efficient population management and conservation

| MATERIALS AND METHODS
Findings
| DISCUSSION

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