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DPCoA

Calculate Double Principle Coordinate Analysis (DPCoA) using phylogenetic distance


Description

Function uses abundance (otu_table-class) and phylogenetic (phylo) components of a phyloseq-class experiment-level object to perform a Double Principle Coordinate Analysis (DPCoA), relying heavily on the underlying (and more general) function, dpcoa. The distance object ultimately provided is the square root of the cophenetic/patristic (cophenetic.phylo) distance between the species, which is always Euclidean.

Although this distance is Euclidean, for numerical reasons it will sometimes look non-Euclidean, and a correction will be performed. See correction argument.

Usage

DPCoA(physeq, correction = cailliez, scannf = FALSE, ...)

Arguments

physeq

(Required). A phyloseq-class object containing, at a minimum, abundance (otu_table-class) and phylogenetic (phylo) components. As a test, the accessors otu_table and phy_tree should return an object without error.

correction

(Optional). A function. The function must be able to take a non-Euclidean distance object, and return a new distance object that is Euclidean. If testing a distance object, try is.euclid.

Although the distance matrix should always be Euclidean, for numerical reasons it will sometimes appear non-Euclidean and a correction method must be applied. Two recommended correction methods are cailliez and lingoes. The default is cailliez, but not for any particularly special reason. If the distance matrix is Euclidian, no correction will be performed, regardless of the value of the correction argument.

scannf

(Optional). Logical. Default is FALSE. This is passed directly to dpcoa, and causes a barplot of eigenvalues to be created if TRUE. This is not included in ... because the default for dpcoa is TRUE, although in many expected situations we would want to suppress creating the barplot.

...

Additional arguments passed to dpcoa.

Value

A dpcoa-class object (see dpcoa).

Author(s)

Julia Fukuyama julia.fukuyama@gmail.com. Adapted for phyloseq by Paul J. McMurdie.

References

Pavoine, S., Dufour, A.B. and Chessel, D. (2004) From dissimilarities among species to dissimilarities among communities: a double principal coordinate analysis. Journal of Theoretical Biology, 228, 523-537.

See Also

Examples

# # # # # # Esophagus
data(esophagus)
eso.dpcoa <- DPCoA(esophagus)
eso.dpcoa
plot_ordination(esophagus, eso.dpcoa, "samples")
plot_ordination(esophagus, eso.dpcoa, "species")
plot_ordination(esophagus, eso.dpcoa, "biplot")
#
#
# # # # # # GlobalPatterns
data(GlobalPatterns)
# subset GP to top-150 taxa (to save computation time in example)
keepTaxa <- names(sort(taxa_sums(GlobalPatterns), TRUE)[1:150])
GP       <- prune_taxa(keepTaxa, GlobalPatterns)
# Perform DPCoA
GP.dpcoa <- DPCoA(GP)
plot_ordination(GP, GP.dpcoa, color="SampleType")

phyloseq

Handling and analysis of high-throughput microbiome census data

v1.34.0
AGPL-3
Authors
Paul J. McMurdie <joey711@gmail.com>, Susan Holmes <susan@stat.stanford.edu>, with contributions from Gregory Jordan and Scott Chamberlain
Initial release
2019-04-23

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