PhD

Parthenogenesis without costs in a grasshopper with hybrid origins

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.

Society for Experimental Biology Annual Meeting

Thermal adaptation and plasticity of egg development generates latitudinal patterns in insect life cycles under seasonal climates

Jacinta @ Humans of BioSciences

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