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George Bailey, Allan Wilson, J. Halver, Clarence Johnson (1970)
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Allozyme evidence for reproductively isolated sympatric populations of brown trout Salmo trutta L. in Lough Melvin, IrelandJournal of Fish Biology, 18
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Ståhl Ståhl (1981)
Genetic differentiation among natural populations of Atlantic salmon (Salmo salar) in northern Sweden. In Fish Gene Pools. Preservation of Genetic Resources in Relation to Wild Fish StocksEcol. Bull. (Stockholm, 34
Stoneking Stoneking, May May, Wright Wright (1979)
Genetic variation, inheritance, and quaternary structure of malic enzyme in brook trout (Salvelinus fontinalisBiochem. Genet, 17
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Salmonids in the Lake Vänern area. In Fish Gene Pools. Preservation of Genetic Resources in Relation to Wild Fish StocksEcol. Bull. (Stockholm, 34
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Joint Segregation of Biochemical Loci in Salmonidae: Results from Experiments with Salvelinus and Review of the Literature on Other SpeciesWsq: Women's Studies Quarterly, 36
N. Ryman, G. Ståhl (1981)
Genetic Perspectives of the Identification and Conservation of Scandinavian Stocks of FishCanadian Journal of Fisheries and Aquatic Sciences, 38
A. Ferguson (1981)
Systematics of Irish charr as indicated by electrophoretic analysis of tissue proteinsBiochemical Systematics and Ecology, 9
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Utter Utter, Allendorf Allendorf, May May (1979)
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In the search for electrophoretically detectable protein loci in the Arctic charr, Salvelinus alpinus L., tissue samples of eye, liver, and muscle from a total of 934 specimens collected at 10 Swedish localities were analysed. General protein staining and specific staining for 33 enzymes revealed 52 detectable loci; 37 of which were considered usable in population surveys. Variability was observed at four loci coding for esterase (est‐2), the liver‐specific form of lactate dehydrogenase (ldh‐3), and the skeletal muscle form of malate dehydrogenase (mdh‐4, 5); genetic variation at loci coding for ldh‐3 and mdh‐4, 5 has not previously been described in the Arctic charr. Relating our results to the multiple locus studies presented in the literature including Arctic charr from Ireland and North America reveals polymorphism at approximately one‐third of the loci studied in the Arctic charr, and the fraction of variable loci does not appear lower in this species than in other salmonids. There were highly significant allele frequency differences between samples. Nevertheless, there was a high degree of genetic similarity among all the populations sampled indicating that they were derived from a relatively recent common ancestor. The results are discussed in relation to the current controversy concerning the number of major evolutionary lines in Scandinavian Arctic charr.
Journal of Fish Biology – Wiley
Published: Jul 1, 1983
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