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Neural divergence and hybrid disruption between ecologically isolated <i>Heliconius</i> butterflies

Stephen H. Montgomery, Matteo Rossi, W. Owen McMillan, Richard M. Merrill

2021Proceedings of the National Academy of Sciences54 citationsDOIOpen Access PDF

Abstract

clades have substantial shifts in brain morphology across their geographic range, with divergent structures clustered in the visual system. These neuroanatomical differences are mirrored by extensive divergence in neural gene expression. Differences in both neural morphology and gene expression are heritable, exceed expected rates of neutral divergence, and result in intermediate traits in first-generation hybrid offspring. Strong evidence of divergent selection implies local adaptation to distinct selective optima in each parental microhabitat, suggesting the intermediate traits of hybrids are poorly matched to either condition. Neural traits may therefore contribute to coincident barriers to gene flow, thereby helping to facilitate speciation.

Topics & Concepts

HeliconiusBiologyEvolutionary biologyGene flowDivergence (linguistics)GeneEcological nicheAdaptation (eye)MimicryEcologyGenetic variationGeneticsNeuroscienceHabitatLinguisticsPhilosophyNeurobiology and Insect Physiology ResearchLepidoptera: Biology and TaxonomyAnimal Behavior and Reproduction
Neural divergence and hybrid disruption between ecologically isolated <i>Heliconius</i> butterflies | Litcius