<p>Domesticated organisms have been pivotal in food-production and human evolution. Yet, interbreeding between domesticated and wild conspecifics may have significant negative impacts on native populations. Atlantic salmon, subjected to more than 50 years of domestication and extensive escapes from aquaculture, represents a flagship example of this type of interaction. However, currently no data documents the influence of introgression on survival of a naturally-recruiting wild population during the marine phase of the life-cycle. Following analysis of 885 out-migrating smolts and 7275 adults returning to a Norwegian river in the period 2016–2023, we detect no effect of domestication-admixture on marine survival. As this wild population is highly admixed (25–30%) following extensive intrusion of escapees during 1989–2012, we conclude that the consequences of introgression have not resulted in a long-term reduction of marine survival. This population displays one of the highest admixture-rates documented, therefore suggesting that most other domestication-admixed salmon populations, displaying lower introgression levels, are unlikely to display long-term fitness losses for the marine phase of the life-cycle. This is likely to be driven by natural selection purging mal-adapted individuals during the freshwater stage where fitness differences are well-documented, and potentially, also in the marine stage during the initial generation(s) following introgression.</p>

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No selection against domestication-admixture during the marine phase of an Atlantic salmon population

  • Marine S. O. Brieuc,
  • Francois Besnier,
  • Alison C. Harvey,
  • Per Tommy Fjeldheim,
  • Kaja C. Andersen,
  • Vidar Wennevik,
  • Kjell R. Utne,
  • Monica F. Solberg,
  • Fernando Ayllon,
  • Sofie Knutar,
  • Anne Grete Sørvik,
  • Laila Unneland,
  • Øystein Skaala,
  • Kevin A. Glover

摘要

Domesticated organisms have been pivotal in food-production and human evolution. Yet, interbreeding between domesticated and wild conspecifics may have significant negative impacts on native populations. Atlantic salmon, subjected to more than 50 years of domestication and extensive escapes from aquaculture, represents a flagship example of this type of interaction. However, currently no data documents the influence of introgression on survival of a naturally-recruiting wild population during the marine phase of the life-cycle. Following analysis of 885 out-migrating smolts and 7275 adults returning to a Norwegian river in the period 2016–2023, we detect no effect of domestication-admixture on marine survival. As this wild population is highly admixed (25–30%) following extensive intrusion of escapees during 1989–2012, we conclude that the consequences of introgression have not resulted in a long-term reduction of marine survival. This population displays one of the highest admixture-rates documented, therefore suggesting that most other domestication-admixed salmon populations, displaying lower introgression levels, are unlikely to display long-term fitness losses for the marine phase of the life-cycle. This is likely to be driven by natural selection purging mal-adapted individuals during the freshwater stage where fitness differences are well-documented, and potentially, also in the marine stage during the initial generation(s) following introgression.