Demographic History, Population Structure, and Local Adaptation in Alpine Populations of Cardamine impatiens and Cardamine resedifolia

Species evolution depends on numerous and distinct forces, including demography and natural selection. For example, local adaptation and population structure affect the evolutionary history of species living along environmental clines. This is particularly relevant in plants, which are often charact...

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Bibliographic Details
Published in:PloS one 2015-05, Vol.10 (5), p.e0125199-e0125199
Main Authors: Ometto, Lino, Li, Mingai, Bresadola, Luisa, Barbaro, Enrico, Neteler, Markus, Varotto, Claudio
Format: Article
Language:English
Subjects:
Adaptation
Adaptation, Physiological
Alpine ecosystems
Alpine environments
Analysis
Bayes Theorem
Biodiversity
Biological evolution
Brassicaceae
Cardamine
Cardamine - genetics
Cardamine - physiology
Cardamine impatiens
Climate
Clines
Cold
Cold pressing
Demographics
Demography
Dispersal
Ecology
Ecosystem
Evolution
Evolution & development
Evolutionary genetics
Gene Amplification
Gene flow
Genes
Genes, Plant
Genetic variability
Genetics
Genetics, Population
Genomes
Genomics
High altitude
High-altitude environments
Insects
Italy
Low altitude
Models, Biological
Molecular evolution
Molecular Sequence Data
Natural selection
Nucleotides - genetics
Plants (botany)
Polymorphism, Genetic
Population differentiation
Population Dynamics
Population structure
Populations
Positive selection
Sea level
Signatures
Species
Statistical analysis
Studies
Temperature
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Summary:Species evolution depends on numerous and distinct forces, including demography and natural selection. For example, local adaptation and population structure affect the evolutionary history of species living along environmental clines. This is particularly relevant in plants, which are often characterized by limited dispersal ability and the need to respond to abiotic and biotic stress factors specific to the local environment. Here we study the demographic history and the possible existence of local adaptation in two related species of Brassicaceae, Cardamine impatiens and Cardamine resedifolia, which occupy separate habitats along the elevation gradient. Previous genome-wide analyses revealed the occurrence of distinct selective pressures in the two species, with genes involved in cold response evolving particularly fast in C. resedifolia. In this study we surveyed patterns of molecular evolution and genetic variability in a set of 19 genes, including neutral and candidate genes involved in cold response, across 10 populations each of C. resedifolia and C. impatiens from the Italian Alps (Trentino). We inferred the population structure and demographic history of the two species, and tested the occurrence of signatures of local adaptation in these genes. The results indicate that, despite a slightly higher population differentiation in C. resedifolia than in C. impatiens, both species are only weakly structured and that populations sampled at high altitude experience less gene flow than low-altitude ones. None of the genes showed signatures of positive selection, suggesting that they do not seem to play relevant roles in the current evolutionary processes of adaptation to alpine environments of these species.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0125199