M_rand_perm: Calculate M statistics after random permutations
In phylosignalDB: Explore Phylogenetic Signals Using Distance-Based Methods

View source: R/M_statistic.R

M_rand_perm

R Documentation

Calculate M statistics after random permutations

Description

M_rand_perm calculates M statistic for trait(s) after randomly permuting the species names or tip labels in phylogeny. The M statistic is a unified method for detecting phylogenetic signals in continuous traits, discrete traits, and multi-trait combinations. Blomberg and Garland (2002) provided a widely accepted statistical definition of the phylogenetic signal, which is the "tendency for related species to resemble each other more than they resemble species drawn at random from the tree". The M statistic strictly adheres to the definition of phylogenetic signal, formulating an index and developing a method of testing in strict accordance with the definition, instead of relying on correlation analysis or evolutionary models. The novel method equivalently expressed the textual definition of the phylogenetic signal as an inequality equation of the phylogenetic and trait distances and constructed the M statistic.

Usage

M_rand_perm(
  trait_dist = NULL,
  phy = NULL,
  reps = 999,
  auto_multi2di = TRUE,
  cores = 1
)

Arguments

`trait_dist`	A distance object of class `matrix` or `dist`. Its row and column names should match the tip labels of the phylogenetic tree (`phy`). The functions `gower_dist()` and `cluster::daisy()` can be used to calculate distances using trait data.
`phy`	A phylogenetic tree of class `phylo`.
`reps`	An integer. The number of random permutations.
`auto_multi2di`	A logical switch, `TRUE` or `FALSE`. Default is `TRUE`, then function `ape::multi2di()` in `ape` package will be called to make the phylogeney (tree) be dichotomous if the tree (`phy`) contains some polytomies.
`cores`	Number of cores to be used in parallel processing. Default is 1, indicating no parallel computation is performed. If set to 0, parallel computation is executed using `parallel::detectCores() - 1` number of cores.

Value

A list object containing two components. Component ⁠$permuted⁠ is the vector of M values obtained after random permutation for reps times; component ⁠$observed⁠ is the value of M statistic obtained from the original input data.

References

Blomberg, S.P. & Garland, T., Jr (2002) Tempo and mode in evolution: phylogenetic inertia, adaptation and comparative methods. Journal of Evolutionary Biology, 15(6): 899-910.

Examples

data("turtles")
# Continuous trait
trait_df <- data.frame(M1 = turtles$traits$M1, row.names = turtles$traits$specie)
trait_dist <- gower_dist(x = trait_df)
M_rand_perm(trait_dist, turtles$phylo, reps = 99) # reps=999 better

# Nominal discrete trait
trait_df <- data.frame(B1 = turtles$traits$B1, row.names = turtles$traits$specie)
trait_dist <- gower_dist(x = trait_df, type = list(factor = 1))
M_rand_perm(trait_dist, turtles$phylo, reps = 99) # reps=999 better

# Ordinal discrete trait
trait_df <- data.frame(CS1 = turtles$traits$CS1, row.names = turtles$traits$specie)
trait_dist <- gower_dist(x = trait_df, type = list(ordered = 1))
M_rand_perm(trait_dist, turtles$phylo, reps = 99) # reps=999 better

# Multi-trait Combinations
trait_df <- data.frame(turtles$traits[, c("M1", "M2", "M3", "M4", "M5")],
                       row.names = turtles$traits$specie)
trait_dist <- gower_dist(x = trait_df, type = list(factor = c("M4", "M5")))
M_rand_perm(trait_dist, turtles$phylo, reps = 99) # reps=999 better

phylosignalDB documentation built on April 4, 2025, 6:04 a.m.