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Danzmann Danzmann, Ferguson Ferguson, Allendorf Allendorf (1989)
Genetic variability and components of fitness in hatchery strains of rainbow troutJournal of Fish Biology, 35A
R. Danzmann, P. Ihssen, P. Hebert (1991)
Genetic discrimination of wild and hatchery populations of brook charr, Salvelinus fontinalis (Mitchill), in Ontario using mitochondrial DNA analysisJournal of Fish Biology, 39
K. Lee, R. Raynard, A. Ellis (1989)
The phospholipid composition of Atlantic salmon, Salmo solar L., erythrocyte membranesJournal of Fish Biology, 35
Wen-Hsiung Li, D. Graur (1990)
Fundamentals of molecular evolution
N. Ryman, F. Utter (1987)
Population Genetics and Fishery Management
Larry Mueller, B. Charlesworth (1984)
Evolution in Age-Structured PopulationsBioScience
M. Nei (1978)
Estimation of average heterozygosity and genetic distance from a small number of individuals.Genetics, 89 3
Dr. Ohno (1970)
Evolution by Gene Duplication
J. Hutchings (1990)
The evolutionary significance of life history divergence among brook trout, Salvelinus fontinalis, populations
C. Moritz, T. Dowling, W. Brown (1987)
EVOLUTION OF ANIMAL MITOCHONDRIAL DNA: RELEVANCE FOR POPULATION BIOLOGY AND SYSTEMATICSAnnual Review of Ecology, Evolution, and Systematics, 18
A. Jamieson, N. Ryman, F. Utter (1989)
Population Genetics and Fishery Management.Biometrics, 45
We determined the amount and temporal stability of genetic differentiation among brook cham sampled from five rivers on Cape Race, Newfoundland, with an electrophoretic analysis of 42 protein coding loci. Fish from four of these rivers were analysed for restriction fragment length polymorphisms in mitochondrial DNA (mtDNA). A single mtDNA clone was observed in all rivers sampled, except one, where 47% offish were from a different and relatively divergent clone (0.31 % sequence divergence). In contrast, Cape Race brook charr show large amounts of genetic differentiation at six enzyme coding loci; Nei's genetic distance ranged between 0,020 and 0.048. This differentiation is relatively stable as no significant differences in allele frequencies were detected between fish sampled from two rivers over two consecutive years. The most divergent population based on protein polymorphism is not that with two mtDNA clonal lineages. In contrast to the commonly held view, mtDNA analyses do not necessarily provide greater resolution of population structure than allozyme analyses.
Journal of Fish Biology – Wiley
Published: Dec 1, 1991
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