Molecular pedigree reconstruction and estimation of evolutionary parameters in a wild Atlantic salmon river system with incomplete sampling: a power analysis

Tutku Aykanat*, Susan E. Johnston, Deirdre Cotter, Thomas F. Cross, Russell Poole, Paulo A. Prodöhl, Thomas Reed, Ger Rogan, Philip McGinnity, Craig R. Primmer

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

19 Citations (Scopus)
280 Downloads (Pure)

Abstract

Background: Pedigree reconstruction using genetic analysis provides a useful means to estimate fundamental population biology parameters relating to population demography, trait heritability and individual fitness when combined with other sources of data. However, there remain limitations to pedigree reconstruction in wild populations, particularly in systems where parent-offspring relationships cannot be directly observed, there is incomplete sampling of individuals, or molecular parentage inference relies on low quality DNA from archived material. While much can still be inferred from incomplete or sparse pedigrees, it is crucial to evaluate the quality and power of available genetic information a priori to testing specific biological hypotheses. Here, we used microsatellite markers to reconstruct a multi-generation pedigree of wild Atlantic salmon (Salmo salar L.) using archived scale samples collected with a total trapping system within a river over a 10 year period. Using a simulation-based approach, we determined the optimal microsatellite marker number for accurate parentage assignment, and evaluated the power of the resulting partial pedigree to investigate important evolutionary and quantitative genetic characteristics of salmon in the system.

Results: We show that at least 20 microsatellites (ave. 12 alleles/locus) are required to maximise parentage assignment and to improve the power to estimate reproductive success and heritability in this study system. We also show that 1.5 fold differences can be detected between groups simulated to have differing reproductive success, and that it is possible to detect moderate heritability values for continuous traits (h(2) similar to 0.40) with more than 80% power when using 28 moderately to highly polymorphic markers.

Conclusion: The methodologies and work flow described provide a robust approach for evaluating archived samples for pedigree-based research, even where only a proportion of the total population is sampled. The results demonstrate the feasibility of pedigree-based studies to address challenging ecological and evolutionary questions in free-living populations, where genealogies can be traced only using molecular tools, and that significant increases in pedigree assignment power can be achieved by using higher numbers of markers.

Original languageEnglish
Article number68
Number of pages17
JournalBMC Evolutionary Biology
Volume14
DOIs
Publication statusPublished - 31 Mar 2014

Keywords

  • Atlantic salmon
  • Heritability
  • Incomplete sampling
  • MasterBayes
  • Parentage assignment
  • Power analysis
  • Reproductive success
  • QUANTITATIVE GENETIC-PARAMETERS
  • LINEAR MIXED MODELS
  • DEER CERVUS-ELAPHUS
  • NATURAL-POPULATIONS
  • PARENTAGE ASSIGNMENT
  • CHINOOK SALMON
  • LIFE-HISTORY
  • R-PACKAGE
  • REPRODUCTIVE SUCCESS
  • WESTERN IRELAND

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