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Disruptive selection and the evolution of discrete color morphs in <i>Timema</i> stick insects

Romain Villoutreix, Clarissa F. de Carvalho, Jeffrey L. Feder, Zachariah Gompert, Patrik Nosil

2023Science Advances13 citationsDOIOpen Access PDF

Abstract

A major unresolved issue in biology is why phenotypic and genetic variation is sometimes continuous, yet other times packaged into discrete units of diversity, such as morphs, ecotypes, and species. In theory, ecological discontinuities can impose strong disruptive selection that promotes the evolution of discrete forms, but direct tests of this hypothesis are lacking. Here, we show that Timema stick insects exhibit genetically determined color morphs that range from weakly to strongly discontinuous. Color data from nature and a manipulative field experiment demonstrate that greater morph differentiation is associated with shifts from host plants exhibiting more continuous color variation to those exhibiting greater coloration distance between green leaves and brown stems, the latter of which generates strong disruptive selection. Our results show how ecological factors can promote discrete variation, and we further present results on how this can have variable effects on the genetic differentiation that promotes speciation.

Topics & Concepts

EcotypeBiologySelection (genetic algorithm)Evolutionary biologyDisruptive selectionGenetic algorithmClassification of discontinuitiesVariation (astronomy)Ecological geneticsEcologyGenetic variationRange (aeronautics)Phenotypic plasticityNatural selectionGeneticsPopulationGeneComputer sciencePhysicsComposite materialMaterials scienceArtificial intelligenceMathematicsAstrophysicsSociologyDemographyMathematical analysisPlant and animal studiesAnimal Behavior and ReproductionInsect and Arachnid Ecology and Behavior