| Summary: | Molecular markers can be used to scrutinize both pedigree and population genetic structure, providing important insights into phenotypic evolution and determination in natural populations. Here, microsatellite markers were used to investigate the determination of size, growth, and maturation traits in salmonid fishes. Two marker-assisted methodologies for estimating quantitative genetic parameters were compared in an aquaculture population of rainbow trout ('Oncorhynchus mykiss'). A regression-based model employing estimates of pairwise relatedness effectively detected significant components of genetic variance and covariance for size and spawning time traits. However, numerical estimates of parameters were unreliable. A Markov Chain Monte Carlo (MCMC) procedure to reconstruct families resulted in estimates that did not differ significantly from those obtained with known pedigree, and was therefore deemed the superior method. This method was then used to investigate constraints on the evolution of larger body size in two stunted populations (designated Lower and Upper) of brook charr ('Salvelinus fontinalis') from Freshwater River, Cape Race, Newfoundland, Canada. Population structure of the system was investigated using ecological and genetic methods. Over a 5-year period, mark-recapture data revealed limited movement, with the proportion of recaptured fish migrating from one population area to another being low (0-3.8%). Despite this, microsatellite analysis based on sixteen polymorphic loci provided no evidence of genetic differentiation. These results indicate that while gene flow occurs between the populations, they are relatively isolated on an ecological time frame. Selective and genetic constraints on the evolution of larger body size were investigated by measuring viability selection acting on length-at-age traits, and by estimating quantitative genetic parameters 'in situ' (following reconstruction of sibships using the MCMC procedure). In the Lower population, significant heritabilities were found for ...
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