The schematic shows the four main steps in the model, labelled 1–4. Note that λ is adjusted to reflect variable phylogenetic signal in the simulated traits, which assumes a Brownian motion model of evolution.</p
Abstract.—Biologists often compare average phenotypes of groups of species defined cladis-tically or...
How to use a model organism to study phenotypic integration and constraints on evolution
The shaded areas represent the distribution of values generated after 100 random iterations. The gra...
This same Brownian motion phenotypic vector is transformed by applying to it a trend for increasing ...
<p>Schematic depiction of the evolutionary model flow including <i>adaptation</i>, <i>selection</i>,...
<p>Lambda varies from 0 to 1, with higher values indicating stronger phylogenetic signal.</p
<p>(<b>A</b>) Simulation was initiated by randomly choosing population members each consisting of 2...
<p><b>(A)</b> Illustration of the models of character evolution on a phylogeny (top panel), showing ...
<p>Each panel reports results of the inference of evolutionary history from expression of the genes ...
<p>The phenotypes that are associated with the three most-abundant genotypes that were present at th...
<p>The dynamic state variables (population densities) are shown in black type. The processes midge m...
The development of life on Earth is governed by the processes of evolution and natural selection. Fo...
Gaussian processes, a class of stochastic processes including Brownian motion and the Ornstein–Uhlen...
International audienceContext: Architectural studies highlight recurrent morphogenetical gradients t...
Our understanding of phenotypic evolution over macroevolutionary timescales largely relies on the us...
Abstract.—Biologists often compare average phenotypes of groups of species defined cladis-tically or...
How to use a model organism to study phenotypic integration and constraints on evolution
The shaded areas represent the distribution of values generated after 100 random iterations. The gra...
This same Brownian motion phenotypic vector is transformed by applying to it a trend for increasing ...
<p>Schematic depiction of the evolutionary model flow including <i>adaptation</i>, <i>selection</i>,...
<p>Lambda varies from 0 to 1, with higher values indicating stronger phylogenetic signal.</p
<p>(<b>A</b>) Simulation was initiated by randomly choosing population members each consisting of 2...
<p><b>(A)</b> Illustration of the models of character evolution on a phylogeny (top panel), showing ...
<p>Each panel reports results of the inference of evolutionary history from expression of the genes ...
<p>The phenotypes that are associated with the three most-abundant genotypes that were present at th...
<p>The dynamic state variables (population densities) are shown in black type. The processes midge m...
The development of life on Earth is governed by the processes of evolution and natural selection. Fo...
Gaussian processes, a class of stochastic processes including Brownian motion and the Ornstein–Uhlen...
International audienceContext: Architectural studies highlight recurrent morphogenetical gradients t...
Our understanding of phenotypic evolution over macroevolutionary timescales largely relies on the us...
Abstract.—Biologists often compare average phenotypes of groups of species defined cladis-tically or...
How to use a model organism to study phenotypic integration and constraints on evolution
The shaded areas represent the distribution of values generated after 100 random iterations. The gra...
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