Selection in a fluctuating environment leads to decreased genetic variation and facilitates the evolution of phenotypic plasticity.
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Chemical variation in a dominant tree species: population divergence, selection and genetic stability across environmentsA Drosophila laboratory evolution experiment points to low evolutionary potential under increased temperatures likely to be experienced in the future.Bayesian inference of selection in a heterogeneous environment from genetic time-series data.Genome-wide patterns of genetic variation within and among alternative selective regimes.Embryonic developmental temperatures modulate thermal acclimation of performance curves in tadpoles of the frog Limnodynastes peroniiLocalized versus generalist phenotypes in a broadly distributed tropical mammal: how is intraspecific variation distributed across disparate environments?Escherichia coli populations in unpredictably fluctuating environments evolve to face novel stresses through enhanced efflux activity.Populations adapt to fluctuating selection using derived and ancestral allelic diversity.Local adaptation and evolutionary potential along a temperature gradient in the fungal pathogen Rhynchosporium commune.Quantitative genetic analysis of responses to larval food limitation in a polyphenic butterfly indicates environment- and trait-specific effects.Trade-offs and evolution of thermal adaptation in the Irish potato famine pathogen Phytophthora infestans.Few genetic and environmental correlations between life history and stress resistance traits affect adaptation to fluctuating thermal regimes.Mutator genomes decay, despite sustained fitness gains, in a long-term experiment with bacteria.Environmental variability and the evolution of the glucocorticoid receptor (Nr3c1) in African starlings.Spatially heterogeneous selection in nature favors phenotypic plasticity in anuran larvae.Phenotypic plasticity is not affected by experimental evolution in constant, predictable or unpredictable fluctuating thermal environments.Tackling extremes: challenges for ecological and evolutionary research on extreme climatic events.Selection in a fluctuating environment and the evolution of sexual dimorphism in the seed beetle Callosobruchus maculatus.Temperature effects on life-history trade-offs, germline maintenance and mutation rate under simulated climate warming.Predictability rather than amplitude of temperature fluctuations determines stress resistance in a natural population of Drosophila simulans.Escherichia coli populations adapt to complex, unpredictable fluctuations by minimizing trade-offs across environments.
P2860
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P2860
Selection in a fluctuating environment leads to decreased genetic variation and facilitates the evolution of phenotypic plasticity.
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2012 nî lūn-bûn
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2012年の論文
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2012年学术文章
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Selection in a fluctuating env ...... tion of phenotypic plasticity.
@en
Selection in a fluctuating env ...... tion of phenotypic plasticity.
@nl
type
label
Selection in a fluctuating env ...... tion of phenotypic plasticity.
@en
Selection in a fluctuating env ...... tion of phenotypic plasticity.
@nl
prefLabel
Selection in a fluctuating env ...... tion of phenotypic plasticity.
@en
Selection in a fluctuating env ...... tion of phenotypic plasticity.
@nl
P2860
P1476
Selection in a fluctuating env ...... tion of phenotypic plasticity.
@en
P2093
L R Hallsson
M Björklund
P2860
P304
P356
10.1111/J.1420-9101.2012.02512.X
P577
2012-04-23T00:00:00Z