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A tree of tree frogs around the Black Sea
Author(s) -
Irwin Darren E.
Publication year - 2016
Publication title -
molecular ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.619
H-Index - 225
eISSN - 1365-294X
pISSN - 0962-1083
DOI - 10.1111/mec.13760
Subject(s) - parapatric speciation , biology , allopatric speciation , sympatric speciation , reproductive isolation , biological dispersal , incipient speciation , ecology , coalescent theory , gene flow , evolutionary biology , ecological speciation , population , context (archaeology) , species complex , genetic algorithm , isolation by distance , genetic variation , paleontology , phylogenetics , phylogenetic tree , demography , biochemistry , sociology , gene
Speciation, the process by which one species evolves into two or more, is a major focus of ongoing debate, particularly regarding the geographic context in which it occurs. Geographic models of speciation tend to fall into discrete categories, typically referred to as allopatric, parapatric and sympatric speciation, according to whether two groups evolve reproductive isolation while geographically isolated, differentiated but connected by gene flow, or completely co‐occurring. Yet molecular studies indicate that full development of reproductive isolation can take very long compared with the timescale at which climatic oscillations occur, such that the geographic context of differentiating forms might change often during the long process to full species. Studies of genetic relationships across the ranges of organisms with low‐dispersal distances have the potential to reveal these complex histories. In a particularly elegant example in this issue, Dufresnes et al . ([Dufresnes C, 2016]) use genetic variation and ecological niche modelling to show that a ring of populations of the eastern tree frog ( Hyla orientalis ) surrounding the Black Sea had a complex history of geographic differentiation. Alternating phases of geographic fragmentation and phases of gene flow between neighbouring populations have produced a pattern of gradual genetic change connecting the western, southern and eastern sides of the ring, with the northwestern and northeastern forms being most differentiated. In the north, a population in Crimea appears to have been produced through mixture of the two extreme forms. The overall genetic relationships are reminiscent of those found in ring species, which have been used as prime demonstrations of the process of speciation. The difference, however, is that the terminal forms appear to have mixed rather than be reproductively isolated, although more research is needed to infer whether there might be some reproductive isolation on the northern side of the ring.