Abstract
The maintenance of genetic diversity is a central goal of conservation. It is the raw material for evolutionary change and if lost, can accelerate extinction of species. According to theory, total genetic diversity should be less in species with restricted ranges and in populations on the margins of distributional ranges, making such species or populations more vulnerable to environmental perturbations. Using mtDNA and nuclear Inter Simple Sequence Repeat (ISSR) data we investigated how the genetic diversity and structure of three con-generic species pairs of coral reef fishes (Pomacentridae) was related to species’ range size and position of populations within these ranges. Estimates of genetic structure did not differ significantly among species, but mtDNA and nucDNA genetic diversities were up to 10 times greater in spatially restricted species compared to their widespread congeners. In two of the three species pairs, the distribution of genetic variation indicated secondary contact among differentiated lineages in the spatially restricted species. In contrast, the widespread species displayed a typical signature of population expansion suggesting recent genetic bottlenecks, possibly associated with the (re) colonization of the Great Barrier Reef. These results indicate that historical processes, involving hybridization and founder effects, possibly associated with Pleistocene sea level fluctuations, have differentially influenced the widespread and spatially restricted coral reef damselfish species studied here.
Highlights
The maintenance of genetic diversity has long been recognized as a central goal of conservation biology [1]
Patterns of Genetic Structure among Spatially Restricted and Widespread Species: Estimates of genetic differentiation based on mtDNA were generally low (ΦST: −0.005–0.01) and statistically insignificant in all species following FDR correction when based on transitions and transversions, or on transversions alone (Table 2; p = 0.04–0.93)
Genetic diversities were consistently greater in the spatially restricted species compared to widespread species despite very similar levels of genetic structure in all species
Summary
The maintenance of genetic diversity has long been recognized as a central goal of conservation biology [1]. If restricted range species and marginal populations behave according to macro-ecological theory and they are at migration—drift equilibrium, they should display lower genetic diversities compared to more geographically widespread and centrally located populations [21]. This prediction is supported in plants [22]. We test predictions from range-abundance theory that species with restricted ranges will display lower genetic diversity and greater genetic structure compared to widespread species.
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