Abstract
Different mechanisms such as selection or genetic drift permitted e.g. by geographical isolation can lead to differentiation of populations and could cause subsequent speciation. The two subspecies of Poecilimon veluchianus, a bushcricket endemic to central Greece, show a parapatric distribution and are partially reproductively isolated. Therefore, P. veluchianus is suitable to investigate an ongoing speciation process. We based our analysis on sequences of the internal transcribed spacer (ITS) and the mitochondrial control region (CR). The population genetic analysis based on the nuclear marker ITS revealed a barrier to gene flow within the range of Poecilimon veluchianus, which corresponds well to the described subspecies. In contrast to the results based on the nuclear ITS marker, the mitochondrial CR marker does not clearly support the separation into two subspecies with restricted gene flow and a clear contact zone. Furthermore, we could identify isolation by distance (IBD) as one important mechanism responsible for the observed genetic structure (based on the ITS marker). The population genetic analysis based on the nuclear marker ITS also suggests the existence of hybrids in the wild. Furthermore, the simultaneous lack of strong prezygotic barriers and the presence of postzygotic mating barriers, observed in previous laboratory experiments, suggest that a secondary contact after an allopatric phase is more likely than parapatric speciation.
Highlights
Speciation is still a hot topic in evolutionary biology, and different mechanisms and geographic modes of speciation have been proposed to cause this event [1,2,3,4]
The population genetic analysis based on the nuclear marker internal transcribed spacer (ITS) revealed a barrier to gene flow within the range of Poecilimon veluchianus, which corresponds well to the described subspecies
For the control region (CR) dataset the model test resulted in GTR+G+I (G = 0.43, I = 0.54, R = 2.80) with the lowest Akaike information criterion (AIC) value
Summary
Speciation is still a hot topic in evolutionary biology, and different mechanisms and geographic modes of speciation have been proposed to cause this event [1,2,3,4]. Selection and genetic drift, permitted by e.g. geographical isolation may lead to differentiation of populations and could cause subsequent speciation [5]. The observed genetic variation is often used to reconstruct current or past patterns of gene flow in a species [6]. Historical geographic processes such as population division, range expansion and long distance colonization and the relationships between them, are expected to produce distinct pattern in allele distributions [7]. It is reasonable to infer those processes from pattern of genetic variation [8].
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