Data from: Genotyping-by-sequencing of genome-wide microsatellite loci reveals fine-scale harvest composition in a coastal Atlantic salmon fishery

Individual assignment and genetic mixture analysis are commonly utilized in contemporary wildlife and fisheries management. Although microsatellite loci provide unparalleled numbers of alleles per locus, their use in assignment applications is increasingly limited. However, next-generation sequencin...

Full description

Bibliographic Details
Main Authors: Bradbury, Ian R., Wringe, Brendan F., Watson, Beth, Paterson, Ian, Horne, John, Beiko, Robert, Lehnert, Sarah J., Clément, Marie, Anderson, Eric C., Jeffery, Nicholas W., Duffy, Steven, Sylvester, Emma, Robertson, Martha, Bentzen, Paul
Format: Article in Journal/Newspaper
Language:unknown
Published: 2018
Subjects:
Conservation Genetics
Next-generation Sequencing
Microsatellite
Mixed-stock analysis
Fisheries Management
Genetic assignment
Canada
Atlantic salmon
Online Access:http://hdl.handle.net/10255/dryad.170105
https://doi.org/10.5061/dryad.864rv
Description
Summary:Individual assignment and genetic mixture analysis are commonly utilized in contemporary wildlife and fisheries management. Although microsatellite loci provide unparalleled numbers of alleles per locus, their use in assignment applications is increasingly limited. However, next-generation sequencing, in conjunction with novel bioinformatic tools allows large numbers of microsatellite loci to be simultaneously genotyped, presenting new opportunities for individual assignment and genetic mixture analysis. Here we scanned the published Atlantic salmon genome to identify 706 microsatellite loci, from which we developed a final panel of 101 microsatellites distributed across the genome (average 3.4 loci per chromosome). Using samples from 35 Atlantic salmon populations (n=1485 individuals) from coastal Labrador, Canada, a region characterized by low levels of differentiation in this species, this panel identified 844 alleles (average of 8.4 alleles per locus). Simulation-based evaluations of assignment and mixture identification accuracy revealed unprecedented resolution, clearly identifying 26 rivers or groups of rivers spanning 500 km of coastline. This baseline was used to examine the stock composition of 696 individuals harvested in the Labrador Atlantic salmon fishery and revealed that coastal fisheries largely targeted regional groups (<300km). This work suggests that the development and application of large sequenced microsatellite panels presents great potential for stock resolution in Atlantic salmon and more broadly in other exploited anadromous and marine species.

Similar Items