In fkeck/phylosignal: Exploring the Phylogenetic Signal in Continuous Traits
Data
First, we load the package phylosignal and the dataset carnivora from adephylo.
library(phylosignal)
library(adephylo)
library(ape)
library(phylobase)
data(carni19)
Here is a phylogenetic tree of 19 carnivora species.
tre <- read.tree(text=carni19$tre)
And we create a dataframe of 3 traits for the 19 carnivora species.
- Body mass
- Random values
- Simulated values under a Brownian Motion model along the tree
dat <- list()
dat$mass <- carni19$bm
dat$random <- rnorm(19, sd = 10)
dat$bm <- rTraitCont(tre)
dat <- as.data.frame(dat)
We can combine phylogeny and traits into a phylo4d object.
p4d <- phylo4d(tre, dat)
Visualizing the data
barplot.phylo4d(p4d, tree.type = "phylo", tree.ladderize = TRUE)
Measuring and testing the signal for each trait and different methods
phyloSignal(p4d = p4d, method = "all")
Assessing the behavior of these methods with this phylogeny along a Brownian-Motion influence gradient
phylosim <- phyloSim(tree = tre, method = "all", nsim = 100, reps = 99)
plot(phylosim, stacked.methods = FALSE, quantiles = c(0.05, 0.95))
plot.phylosim(phylosim, what = "pval", stacked.methods = TRUE)
Assessing the signal depth with correlograms
mass.crlg <- phyloCorrelogram(p4d, trait = "mass")
random.crlg <- phyloCorrelogram(p4d, trait = "random")
bm.crlg <- phyloCorrelogram(p4d, trait = "bm")
plot(mass.crlg)
plot(random.crlg)
plot(bm.crlg)
Locating the signal with LIPA
carni.lipa <- lipaMoran(p4d)
carni.lipa.p4d <- lipaMoran(p4d, as.p4d = TRUE)
barplot.phylo4d(p4d, bar.col=(carni.lipa$p.value < 0.05) + 1, center = FALSE , scale = FALSE)
barplot.phylo4d(carni.lipa.p4d, bar.col = (carni.lipa$p.value < 0.05) + 1, center = FALSE, scale = FALSE)
fkeck/phylosignal documentation built on Oct. 15, 2023, 2:57 a.m.
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Data
First, we load the package phylosignal and the dataset carnivora from adephylo.
library(phylosignal) library(adephylo) library(ape) library(phylobase) data(carni19)
Here is a phylogenetic tree of 19 carnivora species.
tre <- read.tree(text=carni19$tre)
And we create a dataframe of 3 traits for the 19 carnivora species.
- Body mass
- Random values
- Simulated values under a Brownian Motion model along the tree
dat <- list() dat$mass <- carni19$bm dat$random <- rnorm(19, sd = 10) dat$bm <- rTraitCont(tre) dat <- as.data.frame(dat)
We can combine phylogeny and traits into a phylo4d object.
p4d <- phylo4d(tre, dat)
Visualizing the data
barplot.phylo4d(p4d, tree.type = "phylo", tree.ladderize = TRUE)
Measuring and testing the signal for each trait and different methods
phyloSignal(p4d = p4d, method = "all")
Assessing the behavior of these methods with this phylogeny along a Brownian-Motion influence gradient
phylosim <- phyloSim(tree = tre, method = "all", nsim = 100, reps = 99)
plot(phylosim, stacked.methods = FALSE, quantiles = c(0.05, 0.95))
plot.phylosim(phylosim, what = "pval", stacked.methods = TRUE)
Assessing the signal depth with correlograms
mass.crlg <- phyloCorrelogram(p4d, trait = "mass") random.crlg <- phyloCorrelogram(p4d, trait = "random") bm.crlg <- phyloCorrelogram(p4d, trait = "bm") plot(mass.crlg) plot(random.crlg) plot(bm.crlg)
Locating the signal with LIPA
carni.lipa <- lipaMoran(p4d) carni.lipa.p4d <- lipaMoran(p4d, as.p4d = TRUE) barplot.phylo4d(p4d, bar.col=(carni.lipa$p.value < 0.05) + 1, center = FALSE , scale = FALSE) barplot.phylo4d(carni.lipa.p4d, bar.col = (carni.lipa$p.value < 0.05) + 1, center = FALSE, scale = FALSE)
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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