Phylogenetic relationships of the 'higher' hamamelids were estimated based on nucleotide sequences of the non-coding region of chloroplast trnL-F. Twenty-five species were sampled, representing 24 genera of al...Phylogenetic relationships of the 'higher' hamamelids were estimated based on nucleotide sequences of the non-coding region of chloroplast trnL-F. Twenty-five species were sampled, representing 24 genera of all eight families of the 'higher' hamamelids. A parsimony analysis of data set indicated that the 'higher' hamamelids formed a strongly supported clade with 100% bootstrap value in the strict consensus tree. Nothofagus was the basal lineage and the Fagaceae was sister to a well-supported core 'higher' hamamelids clade containing Myricaceae, Rhoipteleaceae, Juglandaceae, Casuarinaceae, Ticodendraceae and Betulaceae. Three clades were recognized in the core ' higher' hamamelids: (1) Casuatina ( Ticodendron, ( Betu-laceae)), (2) Juglandaceae-Rhoipteleaceae, and (3) Myricaceae. Compared with the previous studies, familial relationships of the 'higher' hamamelids were better resolved.展开更多
文摘Phylogenetic relationships of the 'higher' hamamelids were estimated based on nucleotide sequences of the non-coding region of chloroplast trnL-F. Twenty-five species were sampled, representing 24 genera of all eight families of the 'higher' hamamelids. A parsimony analysis of data set indicated that the 'higher' hamamelids formed a strongly supported clade with 100% bootstrap value in the strict consensus tree. Nothofagus was the basal lineage and the Fagaceae was sister to a well-supported core 'higher' hamamelids clade containing Myricaceae, Rhoipteleaceae, Juglandaceae, Casuarinaceae, Ticodendraceae and Betulaceae. Three clades were recognized in the core ' higher' hamamelids: (1) Casuatina ( Ticodendron, ( Betu-laceae)), (2) Juglandaceae-Rhoipteleaceae, and (3) Myricaceae. Compared with the previous studies, familial relationships of the 'higher' hamamelids were better resolved.
