Phylogenetic relationships and natural hybridization in Triadica inferred from nuclear and chloroplast DNA analyses

Abstract

Triadica (Euphorbiaceae) is a small genus endemic to East Asia and Southeast Asia, consisting of three species differentially adapted to heterogeneous habitats. To date, the phylogenetic relationships of this genus have not been resolved, and there has been no evidence for interspecific hybridization in Triadica. In this study, we sequenced the nrITS regions, two nuclear genes and a chloroplast gene to reconstruct the molecular phylogeny of Triadica and to test the hypothesis of natural hybridization between Triadica sebifera and Triadica cochinchinensis, and between T. sebifera and Tridica rotundifolia. Phylogenetic analysis showed that T. sebifera diverged first within this genus, and T. cochinchinensis and T. rotundifolia were sister species. Both of the two putative hybrids show chromatogram additivity at each of the two nuclear genes, providing convincing evidence for natural hybridization between T. sebifera and T. cochinchinensis, and between T. sebifera and T. rotundifolia. The chloroplast gene sequences of both hybrids were identical with that of T. sebifera, suggesting that T. sebifera was the maternal parent of the two hybrids. This is the first report of natural hybridization in Triadica, and the hybrids identified in this study should be a good starting point for further hybridization-based breeding in T. sebifera.