| Abstract: | Abstract This paper investigates the esterase variation and genetic structure in three geographic populations of Sitodiplosis mosellana (Géhin) in western China by PAGE. The localities surveyed are Gaolan (36.3°N, 103.9°E) and Wuwei (37.9°N, 102.6°E) in spring wheat region and Chang'an (34. 1°N, 108.9° E) in winter wheat region. The results suggest that the esterase is coded by two loci: Est‐1 and Est‐2. Est‐1 is coded by a plastogene producing only one band that is the fastest on the gel among all bands. The Est‐2 is duplicated loci with 8 alleles, namely, a, b, c, d, e, f, g, h, which produce altogether 8 bands in all the populations and 1–4 bands in individual samples. There are 19 zymogram types observed in the three geographic populations. Seventeen zymogram types emerge in Chang'an population, but 5 and 4 zymogram types are found respectively in Gaolan and Wuwei populations. II2 zymogram type is the commonest in all the populations. The alleles that had the highest frequencies in all the populations are d, e, g. All 8 alleles at the Est2 were observed in Chang'an population, but only total 3 alleles‐d, e, g at the Est‐2 appeared in Gaolan and Wuwei populations. The analysis of genetic identity and cluster (UPGMA) on the alloenzyme indicates that the relationship between the two populations of spring wheat region seems to be closer, as compared with the relationship between spring wheat population and winter wheat population. It is evident that there exists some infraspecific variation caused mainly by genetic drift in S. mosellana and the gene flow among the populations possibly took place to some extent. |
