Abstract
Exogenous selection via interactions between organisms and environments may influence the dynamics of hybrid zones between species in multiple ways. Two major models of a hybrid zone allowed us to hypothesize that environmental conditions influence hybrid zone dynamics in two ways. In the first model, an environmental gradient determines the mosaic distribution at the boundary between ecologically differentiated species (mosaic hybrid zone model). In the second model, a patch of unsuitable habitat traps a hybrid zone between species whose hybrids are unfit (tension zone model). To test these, we examined the environmental factors influencing the spatial structure of a hybrid zone between the ground beetles Carabus maiyasanus and C. iwawakianus using GIS-based quantification of environmental factors and a statistical comparison of species distribution models (SDMs). We determined that both of the hypothetical processes can be important in the hybrid zone. We detected interspecific differences in the environmental factors in presence localities and their relative contribution in SDMs. SDMs were not identical between species even within contact areas, but tended to be similar within the range of each species. These results suggest an association between environments and species, and provide evidence that ecological differentiation between species plays a role in the maintenance of the hybrid zone. Contact areas were characterized by a relatively high temperature, low precipitation, and high topological wetness. Thus, the contact areas were regarded as being located in an unsuitable habitat with a drier climate, where those populations are likely to occur in patches with limited precipitation concentrated. A comparison of spatial scales suggests that exogenous selection via environmental factors may be weaker than endogenous selection via genitalic incompatibility.
Highlights
Geographic variation in environmental conditions can influence the fitness of organisms inhabiting those regions, and adaptation to a specific environmental condition can determine the distributional range of a species as well as the hybrid zone between species
We determined that defining a contact area as a 10-km buffer was suitable for the present data (Fig. 2), and used it in the following analyses
10-km grid failed to classify several C. maiyasanus localities isolated within the C. iwawakianus range as contact groups
Summary
Geographic variation in environmental conditions can influence the fitness of organisms inhabiting those regions, and adaptation to a specific environmental condition can determine the distributional range of a species as well as the hybrid zone between species. When hybrids are endogenously unfit, selection decreases hybrid populations, but dispersal from parental populations offsets this effect Such source-sink dynamics are formulated in the tension zone model (Barton and Hewitt 1985). This process results in the movement of the tension zone, which is trapped by the patch of unsuitable habitat (Fig. 1B; Barton and Hewitt 1985) These two types of exogenous selection are not mutually exclusive and are expected to cooperate in the wild (Fig. 1C), but only a few studies have detected both types in a single hybrid zone system (Tarroso et al.2014). We characterized the environmental factors in the hybrid zone between the two ground beetle species using GISbased environmental quantification and species distribution modeling to test the above hypotheses of the effects of exogenous selection on hybrid zone dynamics
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