Intra‐ and interpopulation genetic differentiation and gene flow in a group of isolated populations of Bradybaena fruticum (O. F. Müller, 1774) in South Poland

Intra‐ and interpopulation variation was studied, by means of cellulose acetate allozyme electrophoresis, on 16 populations of helicoid snail Bradybaena fruticum (O. F. Müller, 1774) in South Poland. Four enzyme systems, coded by seven loci, were analysed. Calculated with Fisher's technique and Ohta's D‐statistics, four cases of linkage disequilibrium were detected, reflecting population subdivision. The mean number of alleles per locus equalled 2.16 and the mean expected heterozygosity was 0.287. Exact multipopulation and multilocus tests for Hardy–Weinberg equilibrium indicated a statistically significant homozygote excess in all the loci and all populations but three. Each population, however, was at Hardy–Weinberg equilibrium for most loci, though the values of f (F_IS) were usually high. Homozygote excess was ascribed partly to inbreeding and partly to Wahlund's effect (spatial subdivision of population; at least two cohorts of adult, reproducing snails), disrupting selection in this polymorphic species not excluded. F‐statistics showed relatively low values of θ (F_ST ; mean for all loci = 0.224) and those of Nm usually below 1 (mean 0.866). Pairwise values of either θ or Cavalli‐Sforza and Edwards arc distance were statistically significantly associated with geographic distances. Contrary to this, no geographic pattern of interpopulation differences was detected by correspondence analysis on allele frequencies, non‐linear multidimensional scaling, UPGMA clustering or neighbour‐joining trees constructed on θ and Cavalli‐Sforza and Edwards arc distance. Accordingly, some most distant populations were more similar to one another than the close ones.