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W4380785810 abstract "Species may respond to variation in environmental conditions by modifying their phenotype to match local levels of resource availability. This phenotypic response can be driven by plastic physiological change, or by adaptive genetic change. Here we use Lemna minor (lesser duckweed), a small aquatic macrophyte that is increasingly used as a model in ecology and evolution, to investigate the source and maintenance of phenotypic variation in natural environments. We found substantial phenotypic variation in L. minor in the field, with its frond area and root length changing predictably over natural environmental gradients of resource availability. Separating environmental and genetic variation in these traits in a common garden, we attribute the majority of phenotypic variation we observed in the field to phenotypic plasticity. Despite this, there was substantial within-site genetic variation. We found evidence of strong purifying selection in the field, that is necessarily balanced by mutation and migration. Using measures of environmental and genetic variation in phenotype and fitness, we estimate the rates of dispersal and evolution of fitness necessary to sustain the observed levels of genetic variation." @default.
W4380785810 created "2023-06-16" @default.
W4380785810 creator A5049052549 @default.
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W4380785810 date "2023-09-01" @default.
W4380785810 modified "2023-09-25" @default.
W4380785810 title "Environmental and genetic variation in an asexual plant" @default.
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W4380785810 doi "https://doi.org/10.1016/j.aquabot.2023.103675" @default.
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