TY - JOUR
T1 - The application of high-throughput sequencing for taxonomy: the case of Plantago subg. Plantago (Plantaginaceae)
AU - Hassemer, Gustavo
AU - Bruun-Lund, Sam
AU - Shipunov, Alexey
AU - Briggs, Barbara
AU - Meudt, Heidi
AU - Rønsted, Nina
PY - 2019/9
Y1 - 2019/9
N2 - Plantago is a cosmopolitan genus including over 250 species, concentrated in temperate and high-elevation tropical regions. The taxonomy of Plantago is very difficult, mainly because of its reduced morphology, which features relatively few characters for species classification. Consequently, the infrageneric classification of the genus remains controversial and inadequate. In this study we applied high-throughput plastid genome skimming to provide powerful phylogenetic resolution to clarify the relationships within subg. Plantago, which is the largest, most broadly distributed and poorest understood subgenus of Plantago. Ninety-four samples covering ~56% of all species and representing all sections of subg. Plantago as well as an outgroup were successfully sequenced. The resulting phylogenetic topology was used, complemented by field and herbarium studies, to revise the sectional classification of subg. Plantago and present a complete listing of the accepted species in the subgenus. Our phylogenetic results were also tested for their usefulness in clarifying the taxonomic placement of some taxonomically complicated species in the subgenus. We conclude that a combination of morphological studies and state-of-the art high-throughput DNA data provide a useful toolbox for resolving outstanding taxonomic puzzles exemplified by the genus Plantago.
AB - Plantago is a cosmopolitan genus including over 250 species, concentrated in temperate and high-elevation tropical regions. The taxonomy of Plantago is very difficult, mainly because of its reduced morphology, which features relatively few characters for species classification. Consequently, the infrageneric classification of the genus remains controversial and inadequate. In this study we applied high-throughput plastid genome skimming to provide powerful phylogenetic resolution to clarify the relationships within subg. Plantago, which is the largest, most broadly distributed and poorest understood subgenus of Plantago. Ninety-four samples covering ~56% of all species and representing all sections of subg. Plantago as well as an outgroup were successfully sequenced. The resulting phylogenetic topology was used, complemented by field and herbarium studies, to revise the sectional classification of subg. Plantago and present a complete listing of the accepted species in the subgenus. Our phylogenetic results were also tested for their usefulness in clarifying the taxonomic placement of some taxonomically complicated species in the subgenus. We conclude that a combination of morphological studies and state-of-the art high-throughput DNA data provide a useful toolbox for resolving outstanding taxonomic puzzles exemplified by the genus Plantago.
U2 - 10.1016/j.ympev.2019.05.013
DO - 10.1016/j.ympev.2019.05.013
M3 - Journal article
C2 - 31112781
SN - 1055-7903
VL - 138
SP - 156
EP - 173
JO - Molecular Phylogenetics and Evolution
JF - Molecular Phylogenetics and Evolution
ER -