Abstract
BackgroundSouth China encompasses complex and diverse landforms, giving rise to high biological diversity and endemism from the Hengduan Mountains to Taiwan Island. Many species are widely distributed across South China with similar disjunct distribution patterns. To explore the causes of these disjunct distribution patterns and their genetic consequences, we investigated the endemic species Père David’s Chinese Vole (Eothenomys melanogaster) by integrating geological and ecological factors. We analysed the genetic structure and divergence time of E. melanogaster based on fast-evolving mitochondrial and nuclear markers using Bayesian trees and coalescent species tree approaches. Historical scenarios of distribution range and demography were reconstructed based on spatial interpolations of genetic diversity and distance, extended Bayesian skyline plots, phylogeographic diffusion analysis, and ecological niche modelling (ENM) during different periods. We also assessed the relationships between geographical distance/ecological vicariance and genetic distance (isolation by distance, IBD; isolation by environment, IBE).ResultsThe genetic analysis revealed three deeply divergent clades—Southeast, Southwest and Central clades, centred on the Wuyi Mountains, the Yunnan-Guizhou Plateau (YGP) and the mountains around the Sichuan Basin, respectively—that have mostly developed since the Pleistocene. IBD played an important role in early divergence, and geological events (sedimentation of plains and linking of palaeo-rivers) and IBE further reinforced genetic differentiation. ENM shows the importance of suitable habitats and elevations.ConclusionsOur results suggest that the primary cause of the disjunct distribution in E. melanogaster is the high dependence on middle-high-altitude habitat in the current period. Mountains in the occurence range have served as “sky islands” for E. melanogaster and hindered gene flow. Pleistocene climatic cycles facilitated genetic admixture in cold periods and genetic diversification in warm periods for inland clades. During cold periods, these cycles led to multiple colonization events between the mainland and Taiwan and erased genetic differentiation.
Highlights
South China encompasses complex and diverse landforms, giving rise to high biological diversity and endemism from the Hengduan Mountains to Taiwan Island
Disjunct distributions are very common in this area [9, 16]; in contrast to the extensively studied Southwest China, few studies have focused on the entirety of South China, regarding the geographical and ecological vicariance of species within their geographical ranges and their geographical patterns of genetic diversity
We investigated the population genetic structure of E. melanogaster, historical divergence scenarios and the effects of isolation by distance (IBD) and isolation by environment (IBE) by assessing the relationships between geographical distance/ecological vicariance and genetic distance in E. melanogaster
Summary
South China encompasses complex and diverse landforms, giving rise to high biological diversity and endemism from the Hengduan Mountains to Taiwan Island. Wuyi Mountains and Taiwan Island, are described as hotspots for speciation and have high degrees of endemism [8, 9] These regions have been influenced by tremendous climatic changes, with long-term cooler and drier tendencies during the Late Cenozoic [10, 11], and the uplift of the Qinghai-Tibetan Plateau (QTP). Disjunct distributions are very common in this area [9, 16]; in contrast to the extensively studied Southwest China, few studies have focused on the entirety of South China, regarding the geographical and ecological vicariance of species within their geographical ranges and their geographical patterns of genetic diversity
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