A test for pre-adapted phenotypic plasticity in the invasive tree Acer negundo L

Phenotypic plasticity is a key mechanism associated with the spread of exotic plants and previous studies have found that invasive species are generally more plastic than co-occurring species. Comparatively, the evolution of phenotypic plasticity in plant invasion has received less attention, and in...

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Bibliographic Details
Published in:PloS one 2013-09, Vol.8 (9), p.e74239-e74239
Main Authors: Lamarque, Laurent J, Porté, Annabel J, Eymeric, Camille, Lasnier, Jean-Baptiste, Lortie, Christopher J, Delzon, Sylvain
Format: Article
Language:English
Subjects:
Acer - anatomy & histology
Acer - genetics
Acer - growth & development
Acer negundo
Adaptation
Adaptation, Physiological
Biological Evolution
Biomass
Conspecifics
Ecosystem
Europe, Eastern
Evolution
Evolution & development
Evolutionary biology
Genotype
Genotypes
Introduced Species
Invasive plants
Invasive species
Invasiveness
Life Sciences
Microstegium vimineum
Morphology
Native species
Nonnative species
North America
Nutrient availability
Nutrients
Phenology
Phenotype
Phenotypic plasticity
Physiology
Plant Dispersal
Plants (botany)
Plastic properties
Plasticity
Populations
Riparian environments
Riparian forests
Seedlings
Seedlings - anatomy & histology
Seedlings - genetics
Seedlings - growth & development
Species Specificity
Success
Trees
Trees - anatomy & histology
Trees - genetics
Trees - growth & development
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Summary:Phenotypic plasticity is a key mechanism associated with the spread of exotic plants and previous studies have found that invasive species are generally more plastic than co-occurring species. Comparatively, the evolution of phenotypic plasticity in plant invasion has received less attention, and in particular, the genetic basis of plasticity is largely unexamined. Native from North America, Acer negundo L. is aggressively impacting the riparian forests of southern and eastern Europe thanks to higher plasticity relative to co-occurring native species. We therefore tested here whether invasive populations have evolved increased plasticity since introduction. The performance of 1152 seedlings from 8 native and 8 invasive populations was compared in response to nutrient availability. Irrespective of nutrients, invasive populations had higher growth and greater allocation to above-ground biomass relative to their native conspecifics. More importantly, invasive genotypes did not show increased plasticity in any of the 20 traits examined. This result suggests that the high magnitude of plasticity to nutrient variation of invasive seedlings might be pre-adapted in the native range. Invasiveness of A. negundo could be explained by higher mean values of traits due to genetic differentiation rather than by evolution of increased plasticity.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0074239