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Fine-scale environmentally associated spatial structure of lumpfish ( Cyclopterus lumpus ) across the Northwest Atlantic.

Barbara L LangilleTony KessMatthew BrachmannCameron M NugentAmber MessmerSteven J DuffyMelissa K HolbornMallory Van WyngaardenTim Martin KnutsenMatthew KentDanny BoyceRobert S GregoryJohanne GauthierElizabeth A FairchildMichael R PietrakStephen EddyCarlos Garcia de LeanizSofia ConsuegraBen WhittakerPaul BentzenIan R Bradbury
Published in: Evolutionary applications (2023)
Lumpfish, Cyclopterus lumpus , have historically been harvested throughout Atlantic Canada and are increasingly in demand as a solution to controlling sea lice in Atlantic salmon farms-a process which involves both the domestication and the transfer of lumpfish between geographic regions. At present, little is known regarding population structure and diversity of wild lumpfish in Atlantic Canada, limiting attempts to assess the potential impacts of escaped lumpfish individuals from salmon pens on currently at-risk wild populations. Here, we characterize the spatial population structure and genomic-environmental associations of wild populations of lumpfish throughout the Northwest Atlantic using both 70K SNP array data and whole-genome re-sequencing data (WGS). At broad spatial scales, our results reveal a large environmentally associated genetic break between the southern populations (Gulf of Maine and Bay of Fundy) and northern populations (Newfoundland and the Gulf of St. Lawrence), linked to variation in ocean temperature and ice cover. At finer spatial scales, evidence of population structure was also evident in a distinct coastal group in Newfoundland and significant isolation by distance across the northern region. Both evidence of consistent environmental associations and elevated genome-wide variation in F ST values among these three regional groups supports their biological relevance. This study represents the first extensive description of population structure of lumpfish in Atlantic Canada, revealing evidence of broad and fine geographic scale environmentally associated genomic diversity. Our results will facilitate the commercial use of lumpfish as a cleaner fish in Atlantic salmon aquaculture, the identification of lumpfish escapees, and the delineation of conservation units of this at-risk species throughout Atlantic Canada.
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