Biplots for Multifactorial Analysis of Distance

Many data sets in practice fit a multivariate analysis of variance (MANOVA) structure, but do not accord with MANOVA assumptions for their analysis. One way forward is to calculate the matrix of dissimilarities or distances between every pair of individuals, and then to conduct an analysis of distan...

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Bibliographic Details
Published in:Biometrics 2004-06, Vol.60 (2), p.517-524
Main Author: Krzanowski, W. J.
Format: Article
Language:English
Subjects:
Analysis of variance
Biometrics
Biometry
Coordinate systems
data collection
Data Interpretation, Statistical
Ecology
Ecology - statistics & numerical data
Eigenvalues
factor analysis
Factorial experiments
Factorials
Linear Models
MANOVA
Marine Biology - statistics & numerical data
Marine ecology
Mathematical vectors
Matrices
Models, Statistical
Multivariate Analysis
Ordination
Principal components analysis
Principal coordinate analysis
Sums of squares
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Summary:Many data sets in practice fit a multivariate analysis of variance (MANOVA) structure, but do not accord with MANOVA assumptions for their analysis. One way forward is to calculate the matrix of dissimilarities or distances between every pair of individuals, and then to conduct an analysis of distance on the resulting data. Various metric scaling plots can be used to interpret the results of the analysis. However, developments to date of this approach have focused mainly on the individuals in the sample, and little attention has been paid to the assessment of influence of the original variables on the results. The present article attempts to rectify this omission. We discuss the inclusion of biplots on all forms of metric scaling representations in the analysis of distance. Exact biplots will often be nonlinear so we propose a simple linear approximation, and contrast it with other simple linear possibilities. An example from ecology illustrates the methodology.
ISSN:0006-341X
1541-0420
DOI:10.1111/j.0006-341X.2004.00198.x