Abstract

The increased availability of genome sequences has provided remarkable advances in our understanding of the evolutionary history of non-model species. One important consideration in evolutionary studies is the role of demographic history in shaping contemporary levels and distribution of genetic variation. In green sea turtles (Chelonia mydas), a draft genome sequence has recently been made available, yet little is known regarding how past demographic events have shaped genomic variation in populations of this species. In this study, single nucleotide polymorphisms were identified in the green sea turtle’s genome and used to reconstruct past demographic events. It was found that this green sea turtle population, from the South China Sea, experienced a marked expansion ca. 0.8 million years ago near the mid-Pleistocene transition (MPT). Simulations revealed that the past demographic history can at least partially be explained by changes in population structure and gene flow; possibly associated with the climatic and geomagnetic events occurring since the MPT. The results demonstrate the importance in considering the effects of gene flow when reconstructing historical changes in population size and provide an extensive set of genomic resources for future evolutionary studies of green sea turtles.

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