Molecular thresholds of ITS2 and their implications for molecular evolution and species identification in seed plants.

Although molecular data have revealed huge amounts of plant diversity, interpreting genetic diversity into entities corresponding to species is still challenging. Taxonomic ranking based on genetic distance has been used extensively, but the results have been open to dispute, while the application of the strategy to plants has been restricted to a small number of cases. Here, levels of internal transcribed spacer 2 (ITS2) sequence variation were examined from 17,203 sequences, representing 5,439 species in 113 genera of seed plants, to ascertain the association between species status and their molecular divergence. Our results showed that, although the average genetic distances of sister species (AGDS) varied among angiosperms, the mean value was 3.98% and seemed not to be influenced by higher-level hierarchical classification or life history. AGDS was also stable within the major lineages of the gymnosperms but at approximately half the value of angiosperms, except for the Gnetidae, where the AGDS almost equaled that of angiosperms. We found that these AGDS discrepancies, associated with the rates of molecular evolution, cannot simply be attributed to generation-time differences, and highlight the complex life histories of plants. Our results provide general ITS2 thresholds in seed plants, and suggest their use in species identification.