Distance‐based multivariate analyses confound location and dispersion effects
Summary 1. A critical property of count data is its mean–variance relationship, yet this is rarely considered in multivariate analysis in ecology. 2. This study considers what is being implicitly assumed about the mean–variance relationship in distance‐based analyses – multivariate analyses based on...
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| Published in | Methods in ecology and evolution Vol. 3; no. 1; pp. 89 - 101 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Oxford, UK
Blackwell Publishing Ltd
01.02.2012
John Wiley & Sons, Inc |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Summary
1. A critical property of count data is its mean–variance relationship, yet this is rarely considered in multivariate analysis in ecology.
2. This study considers what is being implicitly assumed about the mean–variance relationship in distance‐based analyses – multivariate analyses based on a matrix of pairwise distances – and what the effect is of any misspecification of the mean–variance relationship.
3. It is shown that distance‐based analyses make implicit assumptions that are typically out‐of‐step with what is observed in real data, which has major consequences.
4. Potential consequences of this mean–variance misspecification are: confounding location and dispersion effects in ordinations; misleading results when trying to identify taxa in which an effect is expressed; failure to detect a multivariate effect unless it is expressed in high‐variance taxa.
5. Data transformation does not solve the problem.
6. A solution is to use generalised linear models and their recent multivariate generalisations, which is shown here to have desirable properties. |
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| AbstractList | 1.
A critical property of count data is its mean–variance relationship, yet this is rarely considered in multivariate analysis in ecology.
2.
This study considers what is being implicitly assumed about the mean–variance relationship in distance‐based analyses – multivariate analyses based on a matrix of pairwise distances – and what the effect is of any misspecification of the mean–variance relationship.
3.
It is shown that distance‐based analyses make implicit assumptions that are typically out‐of‐step with what is observed in real data, which has major consequences.
4.
Potential consequences of this mean–variance misspecification are: confounding location and dispersion effects in ordinations; misleading results when trying to identify taxa in which an effect is expressed; failure to detect a multivariate effect unless it is expressed in high‐variance taxa.
5.
Data transformation does not solve the problem.
6.
A solution is to use generalised linear models and their recent multivariate generalisations, which is shown here to have desirable properties. Summary 1.A critical property of count data is its mean-variance relationship, yet this is rarely considered in multivariate analysis in ecology. 2.This study considers what is being implicitly assumed about the mean-variance relationship in distance-based analyses - multivariate analyses based on a matrix of pairwise distances - and what the effect is of any misspecification of the mean-variance relationship. 3.It is shown that distance-based analyses make implicit assumptions that are typically out-of-step with what is observed in real data, which has major consequences. 4.Potential consequences of this mean-variance misspecification are: confounding location and dispersion effects in ordinations; misleading results when trying to identify taxa in which an effect is expressed; failure to detect a multivariate effect unless it is expressed in high-variance taxa. 5.Data transformation does not solve the problem. 6.A solution is to use generalised linear models and their recent multivariate generalisations, which is shown here to have desirable properties. [PUBLICATION ABSTRACT] 1.A critical property of count data is its mean-variance relationship, yet this is rarely considered in multivariate analysis in ecology. 2.This study considers what is being implicitly assumed about the mean-variance relationship in distance-based analyses - multivariate analyses based on a matrix of pairwise distances - and what the effect is of any misspecification of the mean-variance relationship. 3.It is shown that distance-based analyses make implicit assumptions that are typically out-of-step with what is observed in real data, which has major consequences. 4.Potential consequences of this mean-variance misspecification are: confounding location and dispersion effects in ordinations; misleading results when trying to identify taxa in which an effect is expressed; failure to detect a multivariate effect unless it is expressed in high-variance taxa. 5.Data transformation does not solve the problem. 6.A solution is to use generalised linear models and their recent multivariate generalisations, which is shown here to have desirable properties. Summary 1. A critical property of count data is its mean–variance relationship, yet this is rarely considered in multivariate analysis in ecology. 2. This study considers what is being implicitly assumed about the mean–variance relationship in distance‐based analyses – multivariate analyses based on a matrix of pairwise distances – and what the effect is of any misspecification of the mean–variance relationship. 3. It is shown that distance‐based analyses make implicit assumptions that are typically out‐of‐step with what is observed in real data, which has major consequences. 4. Potential consequences of this mean–variance misspecification are: confounding location and dispersion effects in ordinations; misleading results when trying to identify taxa in which an effect is expressed; failure to detect a multivariate effect unless it is expressed in high‐variance taxa. 5. Data transformation does not solve the problem. 6. A solution is to use generalised linear models and their recent multivariate generalisations, which is shown here to have desirable properties. |
| Author | Wang, Yi Wright, Stephen T. Warton, David I. |
| Author_xml | – sequence: 1 givenname: David I. surname: Warton fullname: Warton, David I. – sequence: 2 givenname: Stephen T. surname: Wright fullname: Wright, Stephen T. – sequence: 3 givenname: Yi surname: Wang fullname: Wang, Yi |
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1. A critical property of count data is its mean–variance relationship, yet this is rarely considered in multivariate analysis in ecology.
2. This... 1. A critical property of count data is its mean–variance relationship, yet this is rarely considered in multivariate analysis in ecology. 2. This study... Summary 1.A critical property of count data is its mean-variance relationship, yet this is rarely considered in multivariate analysis in ecology. 2.This study... 1.A critical property of count data is its mean-variance relationship, yet this is rarely considered in multivariate analysis in ecology. 2.This study... |
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| SubjectTerms | Bray–Curtis distance community composition generalised linear models mean–variance relationship Multivariate analysis multi‐dimensional scaling PERMANOVA Regression analysis SIMPER species‐by‐site data |
| Title | Distance‐based multivariate analyses confound location and dispersion effects |
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