Rhizoma Corydalis is an important Chinese medicinal herb. In this paper, we employed ISSR data to explore the genetic variation in domesticated populations and wild populations of the species. The average of within-population ISSR diversity in cultivated populations (PPF=25.32%, Hpop=0.094) was lower than that in wild populations (PPF=47.70%, Hpop=0.144). Cultivated populations (PhiST=0.515, GST=0.429) have a greater proportion of their genetic variability distributed among populations than wild populations (PhiST=0.277, GST=0.226). Based on hierarchical estimates of variance components, significant statistical differences (57.77%, P<0.001) were found between the wild and cultivated groups. The low levels of genetic diversity within cultivated populations and high levels of genetic differentiation among populations/groups may result from artificial selection, the mode of clonal propagation, and only limited exchange of material among localities. Finally, some suggestions for conservation and efficient management of the genetic resources of this important medicinal herb are proposed.
Dysosma pleiantha, an important threatened medicinal plant species, is restricted in distribution to southeastern China. The species is capable of reproducing both sexually and asexually. In this study, inter-simple sequence repeat marker data were obtained and analyzed with respect to genetic variation and genetic structure. The extent of clonality, together with the clonal and sexual reproductive strategies, varied among sites, and the populations under harsh ecological conditions tended to have large clones with relatively low clonal diversity caused by vegetative reproduction. The ramets sharing the same genotype show a clumped distribution. Across all populations surveyed, average within-population diversity was remarkably low (e.g., 0.111 for Nei's gene diversity), with populations from the nature reserves maintaining relatively high amounts of genetic diversity. Among all populations, high genetic differentiation (AMOVA: Phi(ST) = 0.500; Nei's genetic diversity: G (ST) = 0.465, Bayesian analysis: Phi(B) = 0.436) was detected, together with an isolation-by-distance pattern. Low seedling recruitment due to inbreeding, restricted gene flow, and genetic drift are proposed as determinant factors responsible for the low genetic diversity and high genetic differentiation observed.
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