Yan B. Linhart scite author profile

▪ Abstract The study of natural plant populations has provided some of the strongest and most convincing cases of the operation of natural selection currently known, partly because of amenability to reciprocal transplant experiments, common garden work, and long-term in situ manipulation. Genetic differentiation among plant populations over small scales (a few cm to a few hundred cm) has been documented and is reviewed here, in herbaceous annuals and perennials, woody perennials, aquatics, terrestrials, narrow endemics, and widely distributed species. Character differentiation has been documented for most important features of plant structure and function. Examples are known for seed characters, leaf traits, phenology, physiological and biochemical activities, heavy metal tolerance, herbicide resistance, parasite resistance, competitive ability, organellar characters, breeding systems, and life history. Among the forces that have shaped these patterns of differentiation are toxic soils, fertilizers, mowing and grazing, soil moisture, temperature, light intensity, pollinating vectors, parasitism, gene flow, and natural dynamics. The breadth and depth of the evidence reviewed here strongly support the idea that natural selection is the principal force shaping genetic architecture in natural plant populations; that view needs to be more widely appreciated than it is at present.

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Relationships Between Life History Characteristics and Electrophoretically Detectable Genetic Variation in Plants

Hamrick¹,

Linhart²,

Mitton³

1979

Annu. Rev. Ecol. Syst.

826

483

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The ecology of the phyllosphere: geographic and phylogenetic variability in the distribution of bacteria on tree leaves

Redford

Bowers²,

Knight

et al. 2010

Environmental Microbiology

599

490

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Summary Large populations of bacteria live on leaf surfaces and these phyllosphere bacteria can have important effects on plant health. However, we currently have a limited understanding of bacterial diversity on tree leaves and the inter- and intra-specific variability in phyllosphere community structure. We used a bar-coded pyrosequencing technique to characterize the bacterial communities from leaves of 56 tree species in Boulder, Colorado, USA, quantifying the intra- and inter-individual variability in the bacterial communities from 10 of these species. We also examined the geographic variability in phyllosphere communities on Pinus ponderosa from several locations across the globe. Individual tree species harboured high levels of bacterial diversity and there was considerable variability in community composition between trees. The bacterial communities were organized in patterns predictable from the relatedness of the trees as there was significant correspondence between tree phylogeny and bacterial community phylogeny. Inter-specific variability in bacterial community composition exceeded intra-specific variability, a pattern that held even across continents where we observed minimal geographic differentiation in the bacterial communities on P. ponderosa needles.

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The evolution of bird-dispersed pines

1990

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Allozyme polymorphisms detected in mature needle tissue of ponderosa pine

et al. 1979

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Yan B. Linhart

Evolutionary Significance of Local Genetic Differentiation in Plants

Relationships Between Life History Characteristics and Electrophoretically Detectable Genetic Variation in Plants

The ecology of the phyllosphere: geographic and phylogenetic variability in the distribution of bacteria on tree leaves

The evolution of bird-dispersed pines

Allozyme polymorphisms detected in mature needle tissue of ponderosa pine

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