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W3044539110 startingPage "8976" @default.
W3044539110 abstract "Abstract Phenotypic plasticity allows organisms to alter their phenotype in direct response to changes in the environment. Despite growing recognition of plasticity's role in ecology and evolution, few studies have probed plasticity's molecular bases—especially using natural populations. We investigated the genetic basis of phenotypic plasticity in natural populations of spadefoot toads ( Spea multiplicata ). Spea tadpoles normally develop into an “omnivore” morph that is favored in long‐lasting, low‐density ponds. However, if tadpoles consume freshwater shrimp or other tadpoles, they can alternatively develop (via plasticity) into a “carnivore” morph that is favored in ephemeral, high‐density ponds. By combining natural variation in pond ecology and morph production with population genetic approaches, we identified candidate loci associated with each morph (carnivores vs. omnivores) and loci associated with adaptive phenotypic plasticity (adaptive vs. maladaptive morph choice). Our candidate morph loci mapped to two genes, whereas our candidate plasticity loci mapped to 14 genes. In both cases, the identified genes tended to have functions related to their putative role in spadefoot tadpole biology. Our results thereby form the basis for future studies into the molecular mechanisms that mediate plasticity in spadefoots. More generally, these results illustrate how diverse loci might mediate adaptive plasticity." @default.
W3044539110 created "2020-07-29" @default.
W3044539110 creator A5000601193 @default.
W3044539110 creator A5015988640 @default.
W3044539110 creator A5071404204 @default.
W3044539110 creator A5090703985 @default.
W3044539110 date "2020-07-24" @default.
W3044539110 modified "2023-10-08" @default.
W3044539110 title "Identification of candidate loci for adaptive phenotypic plasticity in natural populations of spadefoot toads" @default.
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W3044539110 doi "https://doi.org/10.1002/ece3.6602" @default.