Evolutionary history of Orinus thoroldii (Poaceae), endemic to the western Qinghai-Tibetan Plateau in China

To explore the responses of arid-tolerant alpine plants to Pleistocene climatic oscillations, we examined the evolutionary history of Orinus thoroldii, a grass species endemic to the western Qinghai-Tibetan Plateau (QTP) in China. Three maternally inherited chloroplast DNA (cpDNA) markers (matK, rbcL, and trnH-psbA) and the bi-parentally inherited nuclear ribosomal internal transcribed spacer (nrITS) were sequenced for 243 individuals from 28 populations. In all, seven chloroplast haplotypes (H1-H7) and seven nrITS types (S1-S7) were detected. Whereas two haplotypes were widespread, each of the remaining five was restricted to single populations or shared with only its adjacent population. Phylogenetic analyses of the cpDNA haplotypes revealed two distinct lineages distributed in the eastern and western regions of the western QTP. Our analysis of molecular variance (AMOVA) demonstrated the major partitioning (66.56%) of cpDNA variation between the western and eastern groups. A significant phylogeographical structure was detected (N-ST = 0.81, G(ST) = 0.72; P < 0.05) based on the cpDNA dataset The distribution of nrITS types also showed a certain geographical pattern. Whereas types S1 and S5 were widely distributed across the region, the others were exclusively restricted to specific populations. However, the two lineages discerned by the cpDNA sequence variations were not supported by phylogenetic and AMOVA analyses of nrITS variation. Based on documented mutation rates for grasses, we estimated that the two cpDNA lineages of this species diverged at 0.64 Ma during the Pleistocene. This divergence was very consistent with the largest glaciation recorded in the QTP. Long-distance pollen migrations probably blurred the divergence boundary at the nrITS sequence variations. These findings imply that O. thoroldii probably experienced a long-term allopatric divergence plus more recent regional expansions that corresponded to Pleistocene climate changes. Our data also suggest that this grass species survived throughout the Pleistocene glacial stage within the extremely adverse habitats of the QTP. (C) 2015 Elsevier Ltd. All rights reserved.