Historical gene flow constraints in a northeastern Atlantic fish: phylogeography of the ballan wrasse<i>Labrus bergylta</i>across its distribution range

Almada, Vítor Carvalho; Francisco, Sara Martins; Lima, Cristina S.; Fitzgerald, Ross; Mirimin, Luca; Villegas‐Ríos, David; Saborido-Rey, Fran; Afonso, Pedro; Morato, Telmo; Bexiga, Sérgio; Robalo, Joana Isabel

doi:10.1098/rsos.160773

Cited by 28 publications

(31 citation statements)

References 78 publications

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“…This pattern of pre-LGM expansion has also been reported in a number of previous studies for a variety of marine taxa (e.g. Hoarau et al, 2007;Marko et al, 2010;Ni et al, 2014;Almada et al, 2017).…”

Section: Demographic Historysupporting

confidence: 85%

Peer Review #1 of "Meta-analysis of northeast Atlantic marine taxa shows contrasting phylogeographic patterns following post-LGM expansions (v0.1)"

2018

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Section: Demographic Historysupporting

confidence: 85%

Peer Review #1 of "Meta-analysis of northeast Atlantic marine taxa shows contrasting phylogeographic patterns following post-LGM expansions (v0.1)"

2018

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“…These two morphotypes differs in life history traits such as growth, maturation and mortality rates [53,54] and a taxonomic reevaluation of the species has been proposed [55]. To date, knowledge of genetic population structure of ballan wrasse in Norway is limited to a couple of studies analysing mitochondrial DNA polymorphism on a few individuals from the southern coast [56,57], which makes it difficult to draw conclusions about the impact of the fishery and fish translocations on the genetic diversity.…”

Section: Ballan Wrasse Labrus Bergyltamentioning

confidence: 99%

The development of the Norwegian wrasse fishery and the use of wrasses as cleaner fish in the salmon aquaculture industry

González

Boer

2017

Fish Sci

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Norway leads the world aquaculture production of Atlantic salmon Salmo salar and farmed Norwegian Atlantic salmon is currently consumed around the globe. However, sea lice infestation is a major problem faced by the salmon aquaculture industry in Norway and elsewhere. The use of wild-caught cleaner fish, mainly wrasses, has been recommended over the other available methods as the most economical and environmentally friendly option to control sea lice infestation in salmon farming. Here, we review the development of the Norwegian wrasse fishery and the use of wrasses as cleaner fish. In this document, we address the sea lice problem and introduce the main wrasse species employed as cleaner fish, document the cleaning behaviour of wrasses, present the development of a new wrasse fishery associated with the salmon aquaculture industry, and finally, we identify the main challenges associated with the intensive use of wild-caught cleaner wrasses and provide some insight for future directions of the wrasse fishery and further development of aquaculture techniques to supply salmon facilities with domesticated cleaner fish.

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“…Such population history of step-wise colonization would explain the observed phylogeny for goldsinny wrasse (see also e.g. Gysels et al 2015;Almada et al 2017). In a recent study, Mattingsdal and colleagues (2019) showed that the current-day population structure of corkwing wrasse in Scandinavia characterized by a substantial division between western and southern Scandinavia can mainly be explained with past demographic events followed by reproductive isolation and genetic drift.…”

Section: Discussionmentioning

confidence: 95%

“…Thus far, the best-studied of these species is the corkwing wrasse which displays clear population subdivisions on different geographic scales (Robalo et al 2012;Knutsen et al 2013;Blanco Gonzalez et al 2016;Mattingsdal et al 2019). Genetic studies of ballan wrasse have so far concentrated on investigation of population structure on larger geographic scales (D'Arcy et al 2013;Almada et al 2017), and on genetic divergence of different morphotypes (Quintela et al2016;Almada et al 2016). An early genetic study of goldsinny wrasse with allozyme markers showed significant differences between the southern and mid-Norway (Sundt & Jørstad 1998).…”

Section: Introductionmentioning

confidence: 99%

Genome wide analysis reveals genetic divergence between Goldsinny wrasse populations

Jansson¹,

Besnier²,

Malde³

et al. 2020

Preprint

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Background Marine fish populations are often characterized by high levels of gene flow and correspondingly low genetic divergence. This presents a challenge to define management units.Goldsinny wrasse ( Ctenolabrus rupestris ) is a heavily exploited species due to its importance as a cleaner-fish in commercial salmonid aquaculture. However, at the present, the population genetic structure of this species is still largely unresolved. Here, full-genome sequencing was used to produce the first genomic reference for this species, to study population-genomic divergence among four geographically distinct populations, and, to identify informative SNP markers for future studies.Results After construction of a de novo assembly, the genome was estimated to be highly polymorphic and of ~600Mbp in size. 33 235 genome wide SNPs were thereafter selected to assess genomic diversity and differentiation among four populations collected from Scandinavia, Scotland, and Spain. Global F ST among these populations was 0.015-0.092. Approximately 4% of the investigated loci were identified as putative global outliers, and ~1% within Scandinavia. SNPs showing large divergence ( F ST >0.15) were picked as candidate diagnostic markers for population assignment. 173 of the most diagnostic SNPs between the two Scandinavian populations were validated by genotyping 47 individuals from each end of the species' Scandinavian distribution range. 69 of these SNPs were significantly ( p <0.05) differentiated (mean F ST_173_loci = 0.065, F ST_69_loci = 0.140). Using these validated SNPs, individuals were assigned with high probability (≥ 94%) to their populations of origin.Conclusions Goldsinny wrasse displays a highly polymorphic genome, and substantial population genomic structure. Diversifying selection likely affects population structuring globally and within Scandinavia. The diagnostic loci identified now provide a promising and cost-efficient tool to investigate goldsinny wrasse populations further.

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Historical gene flow constraints in a northeastern Atlantic fish: phylogeography of the ballan wrasseLabrus bergyltaacross its distribution range

Cited by 28 publications

References 78 publications

Peer Review #1 of "Meta-analysis of northeast Atlantic marine taxa shows contrasting phylogeographic patterns following post-LGM expansions (v0.1)"

Peer Review #1 of "Meta-analysis of northeast Atlantic marine taxa shows contrasting phylogeographic patterns following post-LGM expansions (v0.1)"

The development of the Norwegian wrasse fishery and the use of wrasses as cleaner fish in the salmon aquaculture industry

Genome wide analysis reveals genetic divergence between Goldsinny wrasse populations

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Historical gene flow constraints in a northeastern Atlantic fish: phylogeography of the ballan wrasseLabrus bergyltaacross its distribution range

Cited by 28 publications

References 78 publications

Peer Review #1 of "Meta-analysis of northeast Atlantic marine taxa shows contrasting phylogeographic patterns following post-LGM expansions (v0.1)"

Peer Review #1 of "Meta-analysis of northeast Atlantic marine taxa shows contrasting phylogeographic patterns following post-LGM expansions (v0.1)"

The development of the Norwegian wrasse fishery and the use of wrasses as cleaner fish in the salmon aquaculture industry

Genome wide analysis reveals genetic divergence between Goldsinny wrasse populations ﻿

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Genome wide analysis reveals genetic divergence between Goldsinny wrasse populations