Local adaptation in climate tolerance at a small geographic scale contrasts with broad latitudinal patterns
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If environmental heterogeneity at small geographic scales has a similar capacity to generate adaptive genetic variation to that found across broad latitudinal gradients, then we currently underestimate adaptive capacity to rapid global change. To contrast adaptive genetic variation across geography, we quantified population variation in tolerance traits and their thermal plasticity for five populations of Drosophila melanogaster from a 3000-km latitudinal gradient across east coast Australia, with eight populations from an environmentally heterogeneous 600×300km area within Victoria. Surprisingly, population variation in stress tolerance within Victoria was comparable to that across latitude. Consistent with local adaptation, heat and desiccation tolerance were greater for populations from warmer and drier environments, and populations from more predictable environments showed greater thermal plasticity. Adaptation to environmental heterogeneity at smaller geographic scales can therefore contribute more to adaptive capacity than originally thought. However, patterns of adaptation often changed across geography and treatments, which makes predicting responses to global change challenging.
