Population genetics of geographically restricted and widespread species of Myrica (Myricaceae).

Abstract

Allozyme variation of 11 putative loci in five populations of the rare Myrica adenophora Hance, and four populations of its widespread congeneric species, M. rubra (Lour.) Sieb. & Zucc. was studied. Among the 21 alleles studied, no unique allele was detected for M. adenophora, whereas M. rubra had 3 alleles not found in the former species. In terms of genetic diversity, populations of the rare species contained fewer alleles per locus (1.5 versus 1.7), fewer effective number of alleles per locus (1.12 versus 1.20), fewer number of alleles per polymorphic locus (2.14 versus 2.46), lower percentage of polymorphic loci (30.9 versus 40.9), and lower expected heterozygosity (0.106 versus 0.163) than populations of the widespread species. Genetic distances within species average 0.043 for M. adenophora and 0.045 for M. rubra, and between species ranged from 0.052 to 0.177, with a mean of 0.103, which agrees with the very similar gross morphologies of these two species. Intrapopulation differentiation was similar in both species: G(ST) = 0.152 for M. adenophora, and 0.146 for M. rubra, whereas estimated gene flow based on G(ST) values were moderate in these two species (Nm = 1.39 versus 1.46). We inferred that M. rubra and M. adenophora are a progenitor-derivative species pair that emerged before migrating into Taiwan during the last glacial period. We consider the Hengchun population (Chiupeng, Hsuhai, and Chufengpi) and Taitung population (Tienkuan and Lanshan) of M. adenophora which probably arose from two subsets of the genome of M. rubra. Genetic drift was inferred to be one of the forces shaping the observed genetic structure in M. adenophora and M. rubra.