Maintaining a wild phenotype in a conservation hatchery program for Chinook salmon: The effect of managed breeding on early male maturation

Larsen, Donald A.; Harstad, Deborah L.; Fuhrman, Abby E.; Knudsen, Curtis M.; Schroder, Steven L.; Bosch, William J.; Galbreath, Peter F.; Fast, David E.; Beckman, Brian R.

doi:10.1371/journal.pone.0216168

Cited by 24 publications

(36 citation statements)

References 64 publications

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“…Our study also included both hatchery and wild fish. Hatcheries have been known to truncate age at maturity (Larsen et al, 2019), and different selection regimes and environments of hatcheries might influence the genetic architecture underlying the phenotype (McKinney et al, 2020). We addressed the former by standardizing age at maturity between populations, but acknowledge that the latter may have played a role in our study.…”

Section: Discussionmentioning

confidence: 99%

“…Second, such life-history variation reduces inter-annual variability in adult returns and the frequency of fishery closures, which benefits commercial, recreational, and subsistence fisheries and associated communities (Brown & Godduhn, 2015; Copeland, Ackerman, Wright, & Byrne, 2017; Greene et al, 2010; Schindler et al, 2010). Third, knowledge of age structure is important for modeling the effects of fisheries harvest and developing appropriate restoration strategies aimed at maintaining population diversity in fitness traits (Bowersox, Corsi, McCormick, Copeland, & Campbell, 2019; Hankin & Healey, 1986; Larsen et al, 2019; Ricker, 1980).…”

Section: Introductionmentioning

confidence: 99%

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Heterogeneous genetic basis of age at maturity in salmonid fishes

Waters

Clemento

Aykanat

et al. 2020

Preprint

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Understanding the genetic basis of repeated evolution of the same phenotype across taxa is a fundamental aim in evolutionary biology and has applications to conservation and management. However, the extent to which interspecific life-history trait polymorphisms share evolutionary pathways remains under-explored. We address this gap by studying the genetic basis of a key life-history trait, age at maturity, in four species of Pacific salmon (genus Oncorhynchus) that exhibit intra- and interspecific variation in this trait – Chinook Salmon, Coho Salmon, Sockeye Salmon, and Steelhead Trout. We tested for associations in all four species between age at maturity and two genome regions, six6 and vgll3, that are strongly associated with the same trait in Atlantic Salmon (Salmo salar). We also conducted a genome-wide association analysis in Steelhead to assess whether additional regions were associated with this trait. We found the genetic basis of age at maturity to be heterogeneous across salmonid species. Significant associations between six6 and age at maturity were observed in two of the four species, Sockeye and Steelhead, with the association in Steelhead being particularly strong in both sexes (p = 4.46×10−9 after adjusting for genomic inflation). However, no significant associations were detected between age at maturity and the vgll3 genome region in any of the species, despite its strong association with the same trait in Atlantic Salmon. We discuss possible explanations for the heterogeneous nature of the genetic architecture of this key life-history trait, as well as the implications of our findings for conservation and management.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Heterogeneous genetic basis of age at maturity in salmonid fishes

Waters

Clemento

Aykanat

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

“…This has been observed in both Pacific and Atlantic salmon (Larsen et al 2004, Good and Davidson 2016). Water temperature and feed rations at hatcheries are often optimized for high growth, which in turn promotes early maturation (Larsen et al 2019); however, hatchery stocks vary in the proportion of males with premature maturation even when raised under identical conditions suggesting genetic differences in susceptibility to early maturation (Spangenberg et al 2015). Hatchery mating practices, which are often random with respect to size and age, mightalso have inadvertently selected for younger fish (Hankin et al 2009).…”

Section: Introductionmentioning

confidence: 99%

A mobile sex-determining region, male-specific haplotypes, and rearing environment influence age at maturity in Chinook salmon

McKinney

Nichols

Ford

2020

Preprint

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“…This has been observed in both Pacific and Atlantic salmon (Good & Davidson, 2016; Larsen et al., 2004). Water temperature and feed rations at hatcheries are often optimized for high growth, which in turn promotes early maturation (Larsen et al., 2019). Hatchery stocks vary in the proportion of males with early maturation, even when raised under identical conditions, suggesting genetic differences in susceptibility to early maturation (Spangenberg et al., 2015).…”

Section: Introductionmentioning

confidence: 99%

A mobile sex‐determining region, male‐specific haplotypes and rearing environment influence age at maturity in Chinook salmon

2020

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Variation in age at maturity is an important contributor to life history and demographic variation within and among species. The optimal age at maturity can vary by sex, and the ability of each sex to evolve towards its fitness optimum depends on the genetic architecture of maturation. Using GWAS of RAD sequencing data, we show that age at maturity in Chinook salmon exhibits sex-specific genetic architecture, with age at maturity in males influenced by large (up to 20 Mb) male-specific haplotypes. These regions showed no such effect in females. We also provide evidence for translocation of the sex-determining gene between two different chromosomes. This has important implications for sexually antagonistic selection, particularly that sex linkage of adaptive genes may differ within and among populations based on chromosomal location of the sex-determining gene. Our findings will facilitate research into the genetic causes of shifting demography in Chinook salmon as well as a better understanding of sex determination in this species and Pacific salmon in general.

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Maintaining a wild phenotype in a conservation hatchery program for Chinook salmon: The effect of managed breeding on early male maturation

Cited by 24 publications

References 64 publications

Heterogeneous genetic basis of age at maturity in salmonid fishes

Heterogeneous genetic basis of age at maturity in salmonid fishes

A mobile sex-determining region, male-specific haplotypes, and rearing environment influence age at maturity in Chinook salmon

A mobile sex‐determining region, male‐specific haplotypes and rearing environment influence age at maturity in Chinook salmon

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