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No population genetic structure in Eurasian lynx during the recolonization of southern Sweden
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  • Heather Hemmingmoore,
  • Göran Spong,
  • Malin Aronsson,
  • Jens Persson,
  • Henrik Andrén,
  • Mikael Åkesson
Heather Hemmingmoore
Swedish University of Agricultural Sciences

Corresponding Author:[email protected]

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Göran Spong
Swedish University of Agricultural Sciences
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Malin Aronsson
Swedish University of Agricultural Sciences
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Jens Persson
Swedish University of Agricultural Sciences
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Henrik Andrén
Swedish University of Agricultural Sciences
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Mikael Åkesson
Swedish University of Agricultural Sciences
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Abstract

not-yet-known not-yet-known not-yet-known unknown In the face of ongoing habitat loss and fragmentation, examining the genetic dynamics of range ex-pansion provides important insights into the resilience and adaptability of large carnivore populations returning to parts of its former range. This study investigates the genetic structure of the Eurasian lynx (Lynx lynx) population during its natural range expansion into southern Sweden, an area from which it had been extirpated for over a century. We utilized genomic data from 600 individual lynx collected throughout the recolonization period to assess heterozygosity, inbreeding, and genetic dif-ferentiation. Our results indicate no significant genetic structure or barriers to gene flow during this recolonization event, despite potential physical barriers such as lakes, farmland, and human infra-structure. Observed and expected heterozygosity, as well as the inbreeding coefficient did not show significant variation over time or across latitude, suggesting that connectivity with the source popula-tion was maintained. Spatial principal component analysis, cluster analysis, and discriminant analysis of principal components further supported these findings, showing little spatial or temporal structure. This lack of genetic structure contrasts with the experience of smaller and more isolated lynx popula-tions, which have become inbred. Our study, thus, provides valuable insights into the natural range expansion of a large carnivore in human-dominated landscapes and underscores the importance of ensuring genetic connectivity for successful recolonization and conservation efforts.