One-Way MANOVA in Excel - Anleitung
This tutorial shows how to set up and interpret a Multivariate Analysis of Variance (MANOVA) in Excel using the XLSTAT software.
A MANOVA is a method to determine the significant effects of qualitative variables considered in interaction or not on a set of dependent quantitative variables.
Dataset for running a one-way MANOVA in XLSTAT
The data are from [Fisher M. (1936). The Use of Multiple Measurements in Taxonomic Problems. Annals of Eugenics, 7, 179 -188] and correspond to 150 Iris flowers, described by four variables (sepal length, sepal width, petal length, petal width) and their species. Three different species have been included in this study: setosa, versicolor and virginica.
The goal of this MANOVA is to see if three iris species differ with respect to their flower morphology represented by a combination of 4 dependent variables (sepal length, sepal width, petal length, petal width).
Setting up a one-way MANOVA in XLSTAT
After opening XLSTAT, select the XLSTAT / Modeling data / MANOVA function. Once you have clicked on the button, the MANOVA dialog box appears. Select the data on the Excel sheet in the General tab. The Y / dependant variables table field should contain the Dependent variables (or variables to model), which are the four morphological variables in our situation.
The X / Explanatory variables field should contain the explanatory variables – the Species column in our case. As we selected the column title for the variables, we left the option Variables labels activated.
On the Options tab, disable the Interactions option, since the issue involves only one explanatory variable. The default significance level is 5%. In the Outputs tab, check the options as proposed in the picture below. In the Charts tab, select the means chart.
Once you have clicked on the OK button, the computations begin and then the results are displayed.
Interpreting the results of a one-way MANOVA in XLSTAT
Summary statistics on the variables are first displayed followed by the table grouping the means by factor level (explanatory variable) and the associated histogram. Multivariate test results are then displayed. All of those tests are built around the same null hypothesis, which excludes any effect of the explanatory variable on the combination of dependent variables. We will focus on the interpretation of the Wilks Lambda test. In Wilks Lambda test, the lower the Lambda associated to an explanatory variable, the more important the effect of this variable is on the dependent variables combination. Here we see that Lambda (0.023) is associated to a p-value that is much lower than the significance level alpha (0.05). We can thus reject the null hypothesis that there is no effect of species on flower morphology with a very small risk of being wrong.
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