Litcius/Paper detail

Parthenogenesis without costs in a grasshopper with hybrid origins

Michael Kearney, Moshe Jasper, Vanessa L. White, Ian J. Aitkenhead, Mark J. Blacket, Jacinta D. Kong, Steven L. Chown, Ary A. Hoffmann

2022Science27 citationsDOI

Abstract

The rarity of parthenogenetic species is typically attributed to the reduced genetic variability that accompanies the absence of sex, yet natural parthenogens can be surprisingly successful. Ecological success is often proposed to derive from hybridization through enhanced genetic diversity from repetitive origins or enhanced phenotypic breadth from heterosis. Here, we tested and rejected both hypotheses in a classic parthenogen, the diploid grasshopper Warramaba virgo . Genetic data revealed a single hybrid mating origin at least 0.25 million years ago, and comparative analyses of 14 physiological and life history traits showed no evidence for altered fitness relative to its sexual progenitors. Our findings imply that the rarity of parthenogenesis is due to constraints on origin rather than to rapid extinction.

Topics & Concepts

ParthenogenesisBiologyGrasshopperWolbachiaEvolutionary biologyMatingNatural selectionPloidyGenetic diversityAdaptation (eye)ZoologyEcologyGeneticsSelection (genetic algorithm)GeneEmbryoDemographyPopulationSociologyComputer scienceNeuroscienceArtificial intelligenceEvolution and Genetic DynamicsPlant and animal studiesEcology and Vegetation Dynamics Studies