Phylogeny, adaptive evolution, and taxonomy of (Apiaceae): evidence from plastid phylogenomics and morphological data.

INTRODUCTION

The genus , belonging to Apiaceae, includes approximately 25 species distributed in the high-altitude Sino-Himalayan region from E Nepal to SW China. This genus is a taxonomically complex genus with often indistinct species boundaries and problematic generic delimitation with and other close genera, largely due to the varied morphological characteristics.

METHODS

To explore the phylogenetic relationships and clarify the limits of the genus and its related genera, we reconstructed a reliable phylogenetic framework with high support and resolution based on two molecular datasets (plastome data and ITS sequences) and performed morphological analyses.

RESULTS

Both phylogenetic analyses robustly supported that was a non-monophyletic group that fell into two clades: Clade and East-Asia Clade. We also newly sequenced and assembled sixteen Acronema complete plastomes and performed comprehensively comparative analyses for this genus. The comparative results showed that the plastome structure, gene number, GC content, codon bias patterns were high similarity, but varied in borders of SC/IR and we identified six different types of SC/IR border. The SC/IR boundaries of were significantly different from the other members which was consistent with the type VI pattern in the genus . We also identified twelve potential DNA barcode regions (, , , , , , , , , , and ) for species identification in Acronema. The molecular evolution of Acronema was relatively conservative that only one gene () was found to be under positive selection ( = 1.02489).

DISCUSSION

The gene petG is one of the genes involved in the transmission of photosynthetic electron chains during photosynthesis, which plays a crucial role in the process of photosynthesis in plants. This is also a manifestation of the adaptive evolution of plants in high-altitude areas to the environment. In conclusion, our study provides novel insights into the plastome adaptive evolution, phylogeny, and taxonomy of genus .