Abstract
Successful establishment and range expansion of non-native species often require rapid accommodation of novel environments. Here, we use common-garden experiments to demonstrate parallel adaptive evolutionary response to a cool climate in populations of wall lizards (Podarcis muralis) introduced from southern Europe into England. Low soil temperatures in the introduced range delay hatching, which generates directional selection for a shorter incubation period. Non-native lizards from two separate lineages have responded to this selection by retaining their embryos for longer before oviposition--hence reducing the time needed to complete embryogenesis in the nest--and by an increased developmental rate at low temperatures. This divergence mirrors local adaptation across latitudes and altitudes within widely distributed species and suggests that evolutionary responses to climate can be very rapid. When extrapolated to soil temperatures encountered in nests within the introduced range, embryo retention and faster developmental rate result in one to several weeks earlier emergence compared with the ancestral state. We show that this difference translates into substantial survival benefits for offspring. This should promote short- and long-term persistence of non-native populations, and ultimately enable expansion into areas that would be unattainable with incubation duration representative of the native range.
Highlights
Non-native populations often encounter novel environments that impose strong directional selection
Even under benign incubation temperatures that result in hatching in mid- to late summer, a two- to three-week difference in hatching translated into substantially reduced recruitment into the breeding population. These results suggest strong selection for earlier hatching in non-native wall lizard populations
Our common-garden experiments demonstrate parallel reduction in incubation duration of embryos in wall lizard populations following independent introduction to cooler climate. This is consistent with adaptive evolutionary responses to the relatively cool nest temperatures in the introduced range, which necessitates sustained development at temperatures well below 248C to complete embryogenesis
Summary
Non-native populations often encounter novel environments that impose strong directional selection. They provide useful systems to study the process of adaptation [1,2,3,4,5,6]. As climatic similarity is often the best predictor of establishment success for non-native species [11,12,13], climate is likely to exercise strong selection on many non-native populations. Such populations may remain small and geographically isolated until they evolve tolerance to the new climatic regime, following which rapid
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