The spatial distribution of chloroplast DNA and allozyme polymorphisms within A population of Silene alba (Caryophyllaceae)

Genetic structure within a population of Silene alba was studied using a chloroplast DNA (cpDNA) and six allozyme polymorphisms. A 20 × 65 m area was sampled by constructing a 5 × 5 m grid and determining the genotype of the plant nearest to each grid node. Analysis of the spatial distribution of genotypes by Moran's I and join-counts showed a significant degree of association of like cpDNA haplotypes (I = 0.52, S.N.D. = 2.55) but a random or slightly repulsed distribution of allozyme genotypes. A second sample was taken by collecting all individuals from within a 1-m wide transect established along the perimeter of the grid. Genotype and allele frequencies were calculated by grouping individuals from arbitrary 3-m intervals along the transect, and analyzed by Wright's F statistics. The F_st value calculated for cpDNA (0.875) differed markedly from that based on all allozymes (0.027). Taken together, the results suggest that in this population gene flow in the maternally inherited cpDNA is limited by restricted seed dispersal, whereas gene flow in the nuclear DNA based allozymes is more pervasive owing to the added effects of pollen dispersal. The utility of cpDNA polymorphism for the study of fine-scale gene flow is discussed.