Geological Events Play a Larger Role Than Pleistocene Climatic Fluctuations in Driving the Genetic Structure of Quasipaa Boulengeri (Anura: Dicroglossidae)

Overview

Journal Mol Ecol

Specialties Environmental Health
Molecular Biology

Date 2012 Dec 11

PMID 23216961

Citations 50

Authors

Fang Yan

Weiwei Zhou

Haitao Zhao

Zhiyong Yuan

Yunyu Wang

Ke Jiang

Jieqiong Jin

Robert W Murphy

Jing Che

Yaping Zhang

Affiliations

Soon will be listed here.

Abstract

Paleoclimatic and paleogeological events have been identified as being the two main drivers of genetic structuring in extant organisms. We used a montane stream-dwelling frog, Quasipaa boulengeri, to explore the relative roles played by these drivers on species in southern China, a region needing thorough studies. We detected four major matrilines, and no broadly distributed haplotypes occurred. The complex orogenesis of south-western China drove matrilineal divergence in Q. boulengeri into highly structured geographical units. These matrilines subsequently persisted in situ with stable populations rather than undergoing expansions during glacial cycling. The unification of the upper and middle Yangtze River in the Three Gorges mountain region mediated downstream colonization of this frog. Analyses identified geological events as playing a larger role than climatic fluctuations in driving the population history of Q. boulengeri. Nuclear allele analyses indicated gene flow; this maintained genetic cohesion of the species. South-eastern Sichuan Basin was identified as the area of secondary contact for several matrilines, and this area deserves further study and special protection.

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