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ape (version 5.1)

mcconwaysims.test: McConway-Sims Test of Homogeneous Diversification

Description

This function performs the McConway--Sims test that a trait or variable does not affect diversification rate.

Usage

mcconwaysims.test(x)

Arguments

x

a matrix or a data frame with at least two columns: the first one gives the number of species in clades with a trait supposed to increase or decrease diversification rate, and the second one the number of species in the sister-clades without the trait. Each row represents a pair of sister-clades.

Value

a data frame with the \(\chi^2\), the number of degrees of freedom, and the P-value.

Details

The McConway--Sims test compares a series of sister-clades where one of the two is characterized by a trait supposed to affect diversification rate. The null hypothesis is that the trait does not affect diversification. The alternative hypothesis is that diversification rate is increased or decreased by the trait (by contrast to the Slowinski--Guyer test). The test is a likelihood-ratio of a null Yule model and an alternative model with two parameters.

References

McConway, K. J. and Sims, H. J. (2004) A likelihood-based method for testing for nonstochastic variation of diversification rates in phylogenies. Evolution, 58, 12--23.

Paradis, E. (2012) Shift in diversification in sister-clade comparisons: a more powerful test. Evolution, 66, 288--295.

See Also

balance, slowinskiguyer.test, rc in geiger, shift.test in apTreeshape

Examples

Run this code
# NOT RUN {
### simulate 10 clades with lambda = 0.1 and mu = 0.09:
n0 <- replicate(10, balance(rbdtree(.1, .09, Tmax = 35))[1])
### simulate 10 clades with lambda = 0.15 and mu = 0.1:
n1 <- replicate(10, balance(rbdtree(.15, .1, Tmax = 35))[1])
x <- cbind(n1, n0)
mcconwaysims.test(x)
slowinskiguyer.test(x)
richness.yule.test(x, 35)
# }

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