mrpp: Multi Response Permutation Procedure and Mean Dissimilarity Matrix

The function returns a list of class mrpp with following items:

call

Function call.

delta

The overall weighted mean of group mean distances.

E.delta

expected delta, under the null hypothesis of no group structure. This is the mean of original dissimilarities.

CS

Classification strength (Van Sickle and Hughes, 2000). Currently not implemented and always NA.

n

Number of observations in each class.

classdelta

Mean dissimilarities within classes. The overall \(\delta\) is the weighted average of these values with given weight.type

.

Pvalue

Significance of the test.

A

A chance-corrected estimate of the proportion of the distances explained by group identity; a value analogous to a coefficient of determination in a linear model.

distance

Choice of distance metric used; the "method" entry of the dist object.

weight.type

The choice of group weights used.

boot.deltas

The vector of "permuted deltas," the deltas calculated from each of the permuted datasets. The distribution of this item can be inspected with permustats function.

permutations

The number of permutations used.

control

A list of control values for the permutations as returned by the function how.

Multiple Response Permutation Procedure (MRPP) provides a test of whether there is a significant difference between two or more groups of sampling units. This difference may be one of location (differences in mean) or one of spread (differences in within-group distance; cf. Warton et al. 2012). Function mrpp operates on a data.frame matrix where rows are observations and responses data matrix. The response(s) may be uni- or multivariate. The method is philosophically and mathematically allied with analysis of variance, in that it compares dissimilarities within and among groups. If two groups of sampling units are really different (e.g. in their species composition), then average of the within-group compositional dissimilarities ought to be less than the average of the dissimilarities between two random collection of sampling units drawn from the entire population.

The mrpp statistic \(\delta\) is the overall weighted mean of within-group means of the pairwise dissimilarities among sampling units. The choice of group weights is currently not clear. The mrpp function offers three choices: (1) group size (\(n\)), (2) a degrees-of-freedom analogue (\(n-1\)), and (3) a weight that is the number of unique distances calculated among \(n\) sampling units (\(n(n-1)/2\)).

The mrpp algorithm first calculates all pairwise distances in the entire dataset, then calculates \(\delta\). It then permutes the sampling units and their associated pairwise distances, and recalculates \(\delta\) based on the permuted data. It repeats the permutation step permutations times. The significance test is the fraction of permuted deltas that are less than the observed delta, with a small sample correction. The function also calculates the change-corrected within-group agreement \(A = 1 -\delta/E(\delta)\), where \(E(\delta)\) is the expected \(\delta\) assessed as the average of dissimilarities.

If the first argument dat can be interpreted as dissimilarities, they will be used directly. In other cases the function treats dat as observations, and uses vegdist to find the dissimilarities. The default distance is Euclidean as in the traditional use of the method, but other dissimilarities in vegdist also are available.

Function meandist calculates a matrix of mean within-cluster dissimilarities (diagonal) and between-cluster dissimilarities (off-diagonal elements), and an attribute n of grouping counts. Function summary finds the within-class, between-class and overall means of these dissimilarities, and the MRPP statistics with all weight.type options and the Classification Strength, CS (Van Sickle and Hughes, 2000). CS is defined for dissimilarities as \(\bar{B} - \bar{W}\), where \(\bar{B}\) is the mean between cluster dissimilarity and \(\bar{W}\) is the mean within cluster dissimilarity with weight.type = 1. The function does not perform significance tests for these statistics, but you must use mrpp with appropriate weight.type. There is currently no significance test for CS, but mrpp with weight.type = 1 gives the correct test for \(\bar{W}\) and a good approximation for CS. Function plot draws a dendrogram or a histogram of the result matrix based on the within-group and between group dissimilarities. The dendrogram is found with the method given in the cluster argument using function hclust. The terminal segments hang to within-cluster dissimilarity. If some of the clusters are more heterogeneous than the combined class, the leaf segment are reversed. The histograms are based on dissimilarities, but ore otherwise similar to those of Van Sickle and Hughes (2000): horizontal line is drawn at the level of mean between-cluster dissimilarity and vertical lines connect within-cluster dissimilarities to this line.