Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am doing an anova for a variable divided into 9 categories.

av <- aov(Z~Climes) 

where Z is a vector containing values and Climes contains 9 categories by which anova is to be performed, bear in mind that the number of samples in each category is slightly different.

Now i want a detailed output (e.g. JMP provides me a 9*9 matrix that gives paired comparisons for every category pair i.e. t-test results).

Does the output object of class aov hold this information? If it does i cannot see it in documentation , if no is there another function to perform detailed ANOVA in R?

share|improve this question
If anyone can just alternative multiple comparison procedures in r that is helpful too –  user2760 Feb 24 '12 at 5:00
The method you request is methodologically unsound. –  BondedDust Feb 24 '12 at 5:06
As in am i missing something ? –  user2760 Feb 24 '12 at 5:08
See multcomp and multcompView packages. –  MYaseen208 Feb 24 '12 at 5:11
@DWin: not necessarily. For example, Tukey's range test provides a statistically accepted way to do multiple pairwise t-test comparisons and determine which means are significantly greater than others. –  David Robinson Feb 24 '12 at 5:45

1 Answer 1

up vote 3 down vote accepted

To answer your first question, no: Your aov object contains information on model fit, as requested, not post-hoc comparisons. It won't even assess distributional assumptions (of the residuals), test of homoskedasticity and the like, and this is not what we expect to see in an ANOVA table anyway. However, you are free (and it is highly recommend, of course) to complement your analysis by assessing model fit, checking assumptions, etc.

About your second question. Multiple comparisons are handled separately, using e.g. pairwise.t.test() (with or without correction for multiple tests), TukeyHSD() (usually works best with well-balanced data), the multcomp (see glht()), as pointed out by @MYaseen208, or multtest package. Some of those tests will assume that the ANOVA F-test was significant, other procedures are more flexible, but it all depends on what you want to do and if it sounds like a reasonable approach to the problem at hand (cf. @DWin's comment). So why R would provide them automatically?

As an illustration, consider the following simulated dataset (a balanced one-way ANOVA):

dfrm <- data.frame(x=rnorm(100, mean=10, sd=2), 
                   grp=gl(5, 20, labels=letters[1:5]))

where group means and SDs are as follows:

|       | | N | Mean    | SD     |
|grp    |a| 20|10.172613|2.138497|
|       |b| 20|10.860964|1.783375|
|       |c| 20| 9.910586|2.019536|
|       |d| 20| 9.458459|2.228867|
|       |e| 20| 9.804294|1.547052|
|Overall| |100|10.041383|1.976413|

With JMP, we have a non-significant F(4,95)=1.43 and the following results (I asked for pairwise t-tests):

enter image description here
(P-values are shown in the last column.)

Note that those t-tests are not protected against Type I error inflation.

With R, we would do:

aov.res <- aov(x ~ grp, data=dfrm)
with(dfrm, pairwise.t.test(x, grp, p.adjust.method="none")) 

You can check what is stored in aov.res by issuing str(aov.res) at the R prompt. Tukey HSD tests can be carried out using either

TukeyHSD(aov.res)  # there's a plot method as well


glht(aov.res, linfct=mcp(grp="Tukey"))  # also with a plot method
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.