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Data from: Herbivore release drives parallel patterns of evolutionary divergence in invasive plant phenotypes

Citation

Uesugi, Akane; Kessler, André (2017), Data from: Herbivore release drives parallel patterns of evolutionary divergence in invasive plant phenotypes, Dryad, Dataset, https://doi.org/10.5061/dryad.s492m

Abstract

1. Herbivory can drive rapid evolution of plant chemical traits mediating defensive and competitive ability. At a geographic scale, plant populations that escape selection from their ancestral herbivores may evolve decreased defense and increased competitiveness. While contrasts between native and invasive populations of plants lend support to this hypothesis, such experiments cannot establish causal links between herbivory and evolved invasive phenotypes. 2. Here, we conducted geographic contrasts, and coupled these with long-term selection experiments that directly test for evolutionary responses to herbivore-exclusion. In common gardens, we contrasted Solidago altissima genotypes that were historically exposed or protected from herbivory across two experimental timescales: 1) a natural experiment where plant populations evolved either with native herbivory (in Minnesota and New York), or evolved relatively free from herbivory for ~100 years in Japan, and 2) a 12-year manipulative experiment where plants were either exposed to ambient herbivory, or treated with insecticide. 3. In both experiments, plant populations responded to herbivore-release by evolving increased production of root allelochemicals and inter-specific competitive ability against Poa pratensis. While plant resistance to a beetle herbivore did not diverge between plant origins, we still observed parallel evolutionary shifts in leaf secondary metabolite and protease inhibitor production, which may confer resistance to diverse herbivore species. 4. Synthesis. Observed evolutionary convergence for multiple plant traits, between the natural and manipulative experiments, emphasises the role of insect herbivores as key drivers of plant adaptation and geographic differentiation.

Usage Notes

Location

New York
Japan
North America