Allozyme variation in relation to ecotypic differentiation and population size in marginal populations of Silene nutans

Rossum, Fabienne Van; Vekemans, Xavier; Meerts, Pierre Jacques; Gratia, Emmanuelle; Lefèbvre, Claude

doi:10.1038/sj.hdy.6881360

Cited by 36 publications

(41 citation statements)

References 37 publications

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“…High F IS values may result from selfing, inbreeding, restricted pollen and/or seed dispersal, clonality and/or the spatial effects of selection in different habitats (Linhart & Premoli, 1994;Berg & Hamrick, 1997;Tyler et al, 2002;Van Rossum et al, 2002). In contrast to the high values of F IS in Nordic S. nutans, mean (over populations) F IS values that are near to Hardy-Weinberg equilibrium have been reported for the silicicolous and calcicolous ecotypes (-0.009 and 0.023, respectively) of S. nutans in Belgium (Van Rossum et al, 1997). Whereas the Belgian populations show high outcrossing rates (E. Gratia, unpubl.…”

Section: Discussionmentioning

confidence: 99%

“…Silene nutans has a markedly disjunct distribution in northern Sweden and Finland, where it reaches the north-ern limit of its European range, whereas it is more continuously distributed in southern Sweden (Hultén, 1971). Earlier studies of S. nutans in Belgium, on the western margin of its distributional range, showed that the Belgian populations maintain high levels of genetic diversity and are differentiated into two parapatric ecotypes that are associated with calcareous or siliceous substrates (Van Rossum et al, 1997, 1999, but which have also had different histories (Van Rossum et al, 2003). Edaphic adaptation (De Bilde, 1977, 1978, in combination with the partial isolation of the two ecotypes by pre-and postzygotic reproductive barriers (Van Rossum, De Bilde & Lefèbvre et al, 1996), suggests a process of incipient parapatric speciation (Van Rossum et al, 1997).…”

Section: Introductionmentioning

confidence: 99%

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Structure of allozyme variation in Nordic Silene nutans (Caryophyllaceae): population size, geographical position and immigration history

Rossum

Prentice

2004

Biological Journal of the Linnean Society

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We investigated allozyme variation in 34 populations of the perennial herb Silene nutans from Sweden and northern Finland, areas that were ice-covered during the last (Weichselian) glaciation. The present geographical structure of genetic variation in S. nutans in Sweden and northern Finland appears to have been mainly shaped by ancient historical processes. Patterns of variation in allele frequencies suggest two major postglacial immigration routes into Sweden, with populations entering the area from both the south and the east and forming a contact zone with admixed populations in central Sweden. While estimates of within-population genetic diversity and allelic richness are significantly correlated with present population size and geographical position (latitude), population size is not correlated with latitude. Low genetic diversity in the northern populations is more likely to have resulted from ancient stochastic events during the process of immigration than from recent population fragmentation. F IS values are high and increase with latitude. Evidence of recent bottlenecks was detected in several southern Swedish populations: these can be interpreted in terms of population fragmentation as a result of anthropogenic disturbance. Soil pH is uncorrelated with population size and position.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Structure of allozyme variation in Nordic Silene nutans (Caryophyllaceae): population size, geographical position and immigration history

Rossum

Prentice

2004

Biological Journal of the Linnean Society

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“…Van Rossum et al (1997) suggested that high levels of gene flow are responsible for maintaining high levels of variation in all populations of Silene nutans . Populations of an outcrossing species with little interpopulation isolation may tend to have greater genetic diversity even in a small population, due to the immigration of varieties of genes by pollen from other large populations.…”

Section: Population Size and Genetic Diversitymentioning

confidence: 99%

Population genetics of threatened wild plants in Japan

Maki

2003

J Plant Res

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Approximately one-fourth of Japan's native plant species are threatened with extinction. To conserve these species, it is critical to evaluate genetic diversity at specieslevel and population-level. Some factors, including population size and geographic distribution, are known to influence the population genetic diversity of wild plant species. This article briefly reviews the population genetic studies that have been conducted on wild threatened plants in Japan. A large population size or wide geographic distribution does not always lead to large genetic diversity, suggesting that historical factors such as speciation processes and population expansion often play more important roles in determining genetic diversity than the number of remnant individuals. The mating system of a species also affects genetic diversity; predominantly selfing species tend to have smaller genetic diversity than outcrossing congeners. Another issue of concern in the conservation genetics of wild plants in Japan is the genetic diversity of insular endemics, because Japan consists of many islands, and the insular flora contains many endemic and threatened species. Previous studies on endemic plants on the Bonin and the Ryukyu Islands are reviewed. Compared to the cases of the Bonin Islands or other oceanic islands, there is much larger genetic diversity in plants endemic to the Ryukyu Islands. This difference is probably the result of the differences in the geological history of these islands.

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“…Where ecotypes have been initially identified based on morphological and/or habitat differences, subsequent molecular marker surveys typically reveal significant allele frequency differences. For example, in the silicicolous‐calcicolous ecotypes of Silene nutans identified by De Bilde & Lefèbvre (1990) subsequent allozyme investigations accurately distinguished the ecotypes (Van Rossum et al . 1997).…”

Section: Introductionmentioning

confidence: 97%

Divergence and variation of quantitative traits between allozyme genotypes ofAvena barbatafrom contrasting habitats

et al. 2004

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Summary1 Avena barbata occurs as two multilocus allozyme genotypes associated with moist (mesic) and dry (xeric) habitats in California. We examined the divergence of quantitative traits between these genotypes, and heritable trait variation in the progeny of a cross. 2 A replacement series showed that the mesic genotype was competitively superior to the xeric. Early germination could alter this competitive outcome, but there was very little difference between the genotypes in germination time. 3 The mesic genotype exhibited larger seeds, and seedlings, as well as greater fecundity. However, there was no difference in relative growth rate between the genotypes. Thus the early size advantage of the mesic genotype seems to be due primarily to larger seed size. 4 Seedlings of the xeric genotype expressed a greater root mass ratio (RMR), and allocated a higher fraction of their root mass deeper in the soil when grown in artificial soil columns than did the mesic genotype. 5 We crossed the two genotypes and allowed the F1 to propagate by self-fertilization to yield F3 families. There was significant among-family (i.e. genetic) variation in RMR, root mass allocation by depth, and seed size. F3 families did not vary significantly in rooting depth per unit shoot mass. 6 In a competition experiment similar to that above, there was significant variation among F3 families in fecundity, but not dry mass, and family by competitor interactions were not significant. 7 There was little correlation among traits across F3 family means, indicating no common genetic basis to the traits. This suggests that novel combinations of characters can be created through crossing between genetically diverged populations. In addition, there was a significant family by block (environment) interaction for RMR, indicating that the degree of plasticity in this character has heritable variation that can respond to natural selection.

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Allozyme variation in relation to ecotypic differentiation and population size in marginal populations of Silene nutans

Cited by 36 publications

References 37 publications

Structure of allozyme variation in Nordic Silene nutans (Caryophyllaceae): population size, geographical position and immigration history

Structure of allozyme variation in Nordic Silene nutans (Caryophyllaceae): population size, geographical position and immigration history

Population genetics of threatened wild plants in Japan

Divergence and variation of quantitative traits between allozyme genotypes ofAvena barbatafrom contrasting habitats

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