1984
DOI: 10.1139/x84-115
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Genetic structure and mating system of white spruce (Piceaglauca) in a seed production area

Abstract: Embryos and megagametophytes of open-pollinated seed of 37 white spruce (Piceaglauca (Moench) Voss) trees from a seed production area were analyzed by starch gel electrophoresis to determine the genetic structure and mating system over 2 seed crop years. Analysis of four polymorphic enzyme loci (Gdh, Idh, Pgm, and Pgi-2) for spatial and temporal genetic structure and mating system indicated substantial deviations from the random mating model that is assumed when open-pollinated families are designated as half-… Show more

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Cited by 39 publications
(20 citation statements)
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“…A heterozygote surplus both in embryos (F = -0.066) and maternal plants (F = -0.074) was reported for Picea glauca (Moench) Voss in Ontario, Canada (Cheliak et al 1985). In a population of this species in Alberta, Canada, heterozygote deficiency was observed in adults (F = 0.039) and in embryos from two different seed crop years (F = 0.029-0.031) (King et al 1984). Krzakowa and Korczyk (1995) studied a population of Norway spruce with individuals aged from 35 to 240 years old in the Białowie_ za Primeval Forest, and reported a slight excess of homozygotes (mean of 11 allozyme loci F = 0.062) and a higher mean observed heterozygosity value (H o = 0.237) than those determined in the present study (H o = 0.081-0.120).…”
Section: Discussionmentioning
confidence: 89%
“…A heterozygote surplus both in embryos (F = -0.066) and maternal plants (F = -0.074) was reported for Picea glauca (Moench) Voss in Ontario, Canada (Cheliak et al 1985). In a population of this species in Alberta, Canada, heterozygote deficiency was observed in adults (F = 0.039) and in embryos from two different seed crop years (F = 0.029-0.031) (King et al 1984). Krzakowa and Korczyk (1995) studied a population of Norway spruce with individuals aged from 35 to 240 years old in the Białowie_ za Primeval Forest, and reported a slight excess of homozygotes (mean of 11 allozyme loci F = 0.062) and a higher mean observed heterozygosity value (H o = 0.237) than those determined in the present study (H o = 0.081-0.120).…”
Section: Discussionmentioning
confidence: 89%
“…Single- Table 5 Single-locus (1) and multilocus (t,,,) estimates with locus estimates showed significant departure from complete outcrossing (t = 1.0) only at the Pgm-1 locus. Differences among single-locus outcrossing estimates have been reported for several coniferous species (Moran etaL, 1980;El-Kassaby etaL, 1981; Mitton et a!., 1981; Shaw and Allard 1982a; Epperson and Allard 1984;King et a!., 1984;Ritland and El-Kassaby, 1985). This observed variation is an inherent problem of all single-locus estimates due to their sensitivity to any violation of the assumptions of the mixed-mating model (Fyfe and Bailey, 1951;Brown and Allard, 1970;Ennos and Clegg, 1982;Brown et a!., 1984).…”
Section: Enzyme Description and Inheritancementioning
confidence: 94%
“…To obtain reliable values of genetic parameters from such trials, the parents should be unrelated, should be good outcrossers and should have produced progeny equally derived from many pollen parents (Namkoong, 1966). However, relatedness and natural inbreeding have been reported for several conifers (El-Kassaby eta!., 1981; Park and Fowler, 1982;Shaw and Allard, 1982a;Roberds and Conkle, 1984), including temporal variation in the same stand (King et al, 1984;Cheliak et al, 1985). Hence, quantitative assessment of the outcrossing rates should be an integral part of any study of selection in plant populations (Ennos, 1981).…”
Section: Introductionmentioning
confidence: 99%
“…It is difficult to draw an informed decision on white spruce since we tested only one seed lot. The genetic variability of these species, suggests that emphasis be placed on intra-population sampling for both white spruce (King et al, 1984;Cheliak et al, 1985;Innes and Ringius, 1990) and aspen (Cheliak and Dancik, 1982;Hyun et al, 1987). Thus, it is worth testing more seed lots and families within-seed lots of these species to find the best suitable ones for CT revegetation.…”
Section: Dry Matter Production and Survivalmentioning
confidence: 99%