Strong population structure of Schizopygopsis chengi and the origin of S. chengi baoxingensis revealed by mtDNA and microsatellite markers

Abstract

The Tibetan Plateau underwent dramatic geological and climatic changes, which had important implications for genetic divergence and population dynamics of freshwater fish populations. Fluctuations of the ecogeographical environment and major hydrographic formations might have promoted the formation of new subspecies or species. In order to understand the impact of plateau uplift on freshwater fish evolutionary history, we estimated the genetic diversity and population structure in two subspecies of Schizopygopsis chengi (S. c. chengi and S. c. baoxingensis) in upper Yangtze River in Tibetan Plateau area using mitochondrial DNA control region and eight microsatellite markers, which suggested that there was a close genetic relationship. S. chengi showed some significant genetic structure that did not correlate with geographic distance. Bayesian assignment tests indicated that S. chengi samples in the study could be divided into four populations: upstream population, midstream population, tributary population and S. c. baoxingensis population. S. c. chengi and S. c. baoxingensis showed significant genetic divergence. However, phylogenetic analysis, population structure analysis and historical gene flow estimation suggested that there was close genetic relationship between S. c. baoxingensis and the Dawei population which belongs to populations of S. c. chengi. The time that Dawei population suffered from a bottleneck and S. c. baoxingensis underwent population expansion was congruent with the last glacial period on the Tibetan Plateau. The results confirmed the hypothesis that the Dawei River and Baoxing River were once connected, and the Dawei and Baoxing populations originated from a single population, but were isolated into separate populations because of crustal movements and the Baoxing population evolved as S. c. baoxingensis.