The genetic constraints of a beetle’s southern march
A study of the beetle Diorhabda carinulata reveals the complex dynamics of local adaptation during a contemporary range expansion across an environmental gradient. Researchers found that core populations, adapted to northern climates with cold winters, were maladapted to southern conditions. However, populations at the expanding edge showed varied phenotypes, suggesting rapid evolution in response to milder, shorter winters. A critical finding was that while heritability—the raw material for natural selection—was high in the core population’s local environment, it became undetectable when that same population was placed in the novel southern environment, indicating a potential constraint on adaptive potential.
Why it might matter to you: This research provides a concrete, real-world example of how adaptive evolution can be rapid at a range edge yet simultaneously limited by the reduced expression of genetic variation in novel environments. For professionals focused on evolutionary biology, it underscores that predictions about species’ responses to climate change or habitat shifts must account for this potential decoupling between genetic variation and its functional expression. The findings directly inform models of speciation, population genetics, and adaptive radiation by highlighting a mechanistic bottleneck that could influence the success or failure of an expanding population.
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