Litcius/Paper detail

Highly Replicated Evolution of Parapatric Ecotypes

Maddie E. James, Henry Arenas‐Castro, Jeffrey S. Groh, Scott L. Allen, Jan Engelstädter, Daniel Ortíz-Barrientos

2021Molecular Biology and Evolution33 citationsDOIOpen Access PDF

Abstract

Parallel evolution of ecotypes occurs when selection independently drives the evolution of similar traits across similar environments. The multiple origins of ecotypes are often inferred based on a phylogeny that clusters populations according to geographic location and not by the environment they occupy. However, the use of phylogenies to infer parallel evolution in closely related populations is problematic because gene flow and incomplete lineage sorting can uncouple the genetic structure at neutral markers from the colonization history of populations. Here, we demonstrate multiple origins within ecotypes of an Australian wildflower, Senecio lautus. We observed strong genetic structure as well as phylogenetic clustering by geography and show that this is unlikely due to gene flow between parapatric ecotypes, which was surprisingly low. We further confirm this analytically by demonstrating that phylogenetic distortion due to gene flow often requires higher levels of migration than those observed in S. lautus. Our results imply that selection can repeatedly create similar phenotypes despite the perceived homogenizing effects of gene flow.

Topics & Concepts

BiologyParapatric speciationEcotypeEvolutionary biologyGeneticsGeneGenetic variationGene flowGenetic diversity and population structureEvolution and Genetic DynamicsPlant and animal studies