Recognizing evolutionary trends in phenotypic means and rates requires the application of phylogenetic comparative methods (PCMs). Most PCMs are unsuited to make full use of fossil information, which is a drawback, given the inclusion of such data improves, and in some cases even corrects, the proper understanding of trait evolution. Here we present a new computer application, written in R, that allows the simultaneous computation of temporal trends in phenotypic mean and evolutionary rate along a phylogeny, and to contrast such patterns among different clades within the tree. By using simulation experiments, we show the new implementation, names search.trend is as powerful as existing PCM tools in discerning macroevolutionary patterns in p...
The comparison of mathematical models that represent alternative hypotheses about the tempo and mode...
Phylogenetic comparative methods seek to untangle the complex web of selective pressures driving bio...
International audienceA number of approaches for studying macroevolution using phylogenetic trees ha...
Recognizing evolutionary trends in phenotypic means and rates requires the application of phylogenet...
Recognizing evolutionary trends in phenotypic means and rates requires the application of phylogenet...
* Quantifying phenotypic evolutionary rates and their variation across phylogenetic trees is a major...
Trend (left) and drift (right) regressions. The green and blue dots represent the actual distributio...
1. The tempo of evolutionary change through time is among the most heavily studied dimensions of mac...
The tempo of evolutionary change through time is among the most heavily studied dimensions of macroe...
1.Quantifying phenotypic evolutionary rates and their variation across phylogenetic trees is a major...
The primary rationale for the use of phylogenetically based statistical methods is that phylogenetic...
Morphological convergence is an intensely studied macroevolutionary phenomenon. It refers to the mor...
Upper row, the relationship between the intensity of the simulated phenotypic pattern (obtained appl...
The application of phenotypic drift (left) and trend in rate variation (right) develped by the RRphy...
The comparison of mathematical models that represent alternative hypotheses about the tempo and mode...
Phylogenetic comparative methods seek to untangle the complex web of selective pressures driving bio...
International audienceA number of approaches for studying macroevolution using phylogenetic trees ha...
Recognizing evolutionary trends in phenotypic means and rates requires the application of phylogenet...
Recognizing evolutionary trends in phenotypic means and rates requires the application of phylogenet...
* Quantifying phenotypic evolutionary rates and their variation across phylogenetic trees is a major...
Trend (left) and drift (right) regressions. The green and blue dots represent the actual distributio...
1. The tempo of evolutionary change through time is among the most heavily studied dimensions of mac...
The tempo of evolutionary change through time is among the most heavily studied dimensions of macroe...
1.Quantifying phenotypic evolutionary rates and their variation across phylogenetic trees is a major...
The primary rationale for the use of phylogenetically based statistical methods is that phylogenetic...
Morphological convergence is an intensely studied macroevolutionary phenomenon. It refers to the mor...
Upper row, the relationship between the intensity of the simulated phenotypic pattern (obtained appl...
The application of phenotypic drift (left) and trend in rate variation (right) develped by the RRphy...
The comparison of mathematical models that represent alternative hypotheses about the tempo and mode...
Phylogenetic comparative methods seek to untangle the complex web of selective pressures driving bio...
International audienceA number of approaches for studying macroevolution using phylogenetic trees ha...