Abstract
The cytoplasmic genome of one species may be replaced by that of another species without leaving any trace of past hybridization in its nuclear genome, which can thus confuse the inference of genealogical relationship and evolutionary history of many congeneric species. In this study, we used sequence variations of chloroplast DNA and restriction site-associated DNA to investigate gene exchange between Castanopsis fabri and Castanopsis lamontii, and to infer the divergence history of the two species by comparing different divergence models based on the joint allele frequency spectrum. We evaluated climatic niche similarity of the two species using climatic variables across their entire distribution range in subtropical China. Clear genetic differentiation was revealed between C. fabri and C. lamontii, and gene exchange between the two species was discovered as a consequence of secondary contact. The gene exchange rates were variable across the genome. Gene exchange could allow C. fabri to widen its habitat through pollen swamping and broaden its climatic niche, and the chloroplast genome of C. lamontii is captured by C. fabri during this process. These results further our understanding of the timing and contribution of gene exchange to species divergence in forests.
Highlights
Species that are not completely reproductively isolated can hybridize and form hybrid swarms, with the majority of individuals exhibiting intermediate morphologies and/or mixed genetic characteristics (Milne and Abbott, 2008)
We investigate whether gene exchange occurred between these two co-occurring tree species, and infer demographic history of divergence and gene exchange between the two species based on sequence variations of chloroplast DNA and restriction site-associated DNA
Another clade consisted of the remaining 32 individuals of C. fabri from JL-LF and all 32 individuals of C. lamontii from GT-LJ, CB-LJ, and JL-LJ. This suggests that the 32 individuals of C. fabri from JL-LF have highly similar chloroplast genome with C. lamontii
Summary
Species that are not completely reproductively isolated can hybridize and form hybrid swarms, with the majority of individuals exhibiting intermediate morphologies and/or mixed genetic characteristics (Milne and Abbott, 2008). Individuals intermediate in appearance are generally scarce in mixed populations of hybridizing tree species (Whittemore and Schaal, 1991), and introgression is difficult to detect based on morphological characters since backcross hybrids often closely resemble the parental species (Martinsen et al, 2001; Curtu et al, 2007). Gene flow can occur across species boundaries if hybrids backcross to the parental species; as a result, interspecific gene flow is commonly reported among dominant tree species, such as poplars, oaks, and eucalypts (Martinsen et al, 2001; Petit et al, 2003; Mckinnon et al, 2010; Ortego et al, 2018). Historical introgression may result in the cytoplasmic genome of one species being replaced by that of another species without leaving any trace of hybridization in its nuclear genome; introgression may only be detectable using cytoplasmic marker in these cases (Liu et al, 2010)
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