Abstract
Limestone karsts in southern China are characterized by high edaphic and topographic heterogeneity and host high levels of species richness and endemism. However, the evolutionary mechanisms for generating such biodiversity remain poorly understood. Here, we performed species delimitation, population genetic analyses, simulations of gene flow and analyses of floral morphological traits to infer the geographic history of speciation in a species complex of Primulina eburnea from limestone karsts of southern China. Using Bayesian species delimitation, we determined that there are seven distinct species that correspond well to the putative morphological species. Species tree reconstruction, Structure and Neighbor‐Net analyses all recovered four lineages in agreement with currently species geographic boundaries. High levels of genetic differentiation were observed both within and among species. Isolation–migration coalescent analysis provides evidence for significant but low gene flow among species. Approximate Bayesian computation (ABC) analysis supports a scenario of historical gene flow rather than recent contemporary gene flow for most species divergences. Finally, we found no evidence of divergent selection contributing to population differentiation of a suite of flower traits. These results support the prevalence of allopatric speciation and highlight the role of geographic isolation in the diversification process. At small geographic scales, limited hybridization occurred in the past between proximate populations but did not eliminate species boundaries. We conclude that limited gene flow might have been the predominant evolutionary force in promoting population differentiation and speciation.
Highlights
Understanding speciation is of great importance for both evolutionary and conservation biology
We focus on six species that have been shown by recent phylogenetic analysis to form a monophyletic group (Kang et al, 2014), which comprises: P. eburnea (Hance) Mich
We conducted a detailed assessment of speciation history of the P. eburnea complex from a global biodiversity hot spot through the coupling of multilocus data, phylogenetic reconstruction, coalescent methods and model testing
Summary
Understanding speciation is of great importance for both evolutionary and conservation biology. Karst areas in southern China are characterized by a high edaphic heterogeneity, with contrasting local-scale mosaics of soil types derived from bedrock of differing lithology (e.g., granite) (Hao, Kuang, & Kang, 2015) This edaphic complexity may be a strong driver of diversification and speciation via local adaptation to specific edaphic microhabitats (i.e., specialization), as widely reported in plants (Anacker & Strauss, 2014; Anacker, Whittall, Goldberb, & Harrison, 2011; Schnitzler et al, 2011). Primulina xiziae is the easternmost species of the genus and is found on shaded rocks in limestone hills at 70–110 m in Zhejiang province, China This species complex shows clear geographic division and presents variation in floral and habitat specialization, making it an ideal system to study speciation of the karst flora. Our main objectives are to investigate processes of speciation in the P. eburnea complex and evaluate the role of genetic drift, gene flow and natural selection on population divergence and speciation
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