Introduction and Current Work Done

[Note: For those interested, I have provided code at the end for reproducing my example.]

I have some data and I have conducted an ANOVA analysis and obtained Tukey's pairwise comparisons:

model1 = aov(trt ~ grp, data = df)

> TukeyHSD(model1)
          diff         lwr       upr     p adj
B-A 0.03481504 -0.40533118 0.4749613 0.9968007
C-A 0.36140489 -0.07874134 0.8015511 0.1448379
D-A 1.53825179  1.09810556 1.9783980 0.0000000
C-B 0.32658985 -0.11355638 0.7667361 0.2166301
D-B 1.50343674  1.06329052 1.9435830 0.0000000
D-C 1.17684690  0.73670067 1.6169931 0.0000000

I can also plot Tukey's pairwise comparisons

> plot(TukeyHSD(model1))

Tukey's pairwise comparisons for simulated data

We can see from Tukey's confidence intervals and the plot that A-B, B-C and A-C are not significantly different.


I have been asked to create something called an "underscore plot" which is described as follows:

We plot the group means on the real line and we draw a line segment between group means to indicate that there is no significant difference between those two particular groups.

Obtaining the means is not difficult:

> aggregate(df$trt ~ df$grp, FUN = mean)
  df$grp   df$trt
1      A 2.032086
2      B 2.066901
3      C 2.393491
4      D 3.570338

Desired Output

Using the data in this example, the desired plot should appear like the one below:

Example underscore plot

There is a line segment between the groups that are not significantly different (i.e. a line segment between A-B, B-C and A-C as indicated by Tukey's).

Note: Please note that the plot above is not to scale and it was created in keynote for illustrative purposes only.

Is there a way to get the "underscore plot" described above using R (using either base R or a library such as ggplot2)?


Here is the code that I used to create the example above:


A = runif(20, 1,3)
A = data.frame(A, rep("A", length(A)))
B = runif(20, 1.25,3.25)
B = data.frame(B, rep("B", length(B)))
C = runif(20, 1.5,3.5)
C = data.frame(C, rep("C", length(C)))
D = runif(20, 2.75,4.25)
D = data.frame(D, rep("D", length(D)))

df = list(A, B, C, D)
df = rbindlist(df)

colnames(df) = c("trt", "grp")
  • 2
    @d.b I have edited the question and provided the code I used to create the values in the question. The code can be found at the end of the question. I used set.seed so this example data should be reproducible.
    – NM_
    Apr 1, 2019 at 15:58
  • @Matt : Thank you for the suggestion. The mmcplot creates a 2D lattice and an "underscore plot" is 1D.
    – NM_
    Apr 1, 2019 at 16:32

2 Answers 2


Here's a ggplot version of the underscore plot. We'll load the tidyverse package, which loads ggplot2, dplyr and a few other packages from the tidyverse. We create a data frame of coefficients to plot the group names, coefficient values, and vertical segments and a data frame of non-significant pairs for generating the horizontal underscores.


model1 = aov(trt ~ grp, data=df)

# Get coefficients and label coefficients with names of levels
coefs = coef(model1)
coefs[2:4] = coefs[2:4] + coefs[1]
names(coefs) = levels(model1$model$grp)

# Get non-significant pairs
pairs = TukeyHSD(model1)$grp %>% 
  as.data.frame() %>% 
  rownames_to_column(var="pair") %>% 
  # Keep only non-significant pairs
  filter(`p adj` > 0.05) %>% 
  # Add coefficients to TukeyHSD results
  separate(pair, c("pair1","pair2"), sep="-", remove=FALSE) %>% 
  mutate(start = coefs[match(pair1, names(coefs))],
         end = coefs[match(pair2, names(coefs))]) %>% 
  # Stagger vertical positions of segments
  mutate(ypos = seq(-0.03, -0.04, length=3))

# Turn coefs into a data frame
coefs = enframe(coefs, name="grp", value="coef")

ggplot(coefs, aes(x=coef)) +
  geom_hline(yintercept=0) +
  geom_segment(aes(x=coef, xend=coef), y=0.008, yend=-0.008, colour="blue") +
  geom_text(aes(label=grp, y=0.011), size=4, vjust=0) +
  geom_text(aes(label=sprintf("%1.2f", coef)), y=-0.01, size=3, angle=-90, hjust=0) +
  geom_segment(data=pairs, aes(group=pair, x=start, xend=end, y=ypos, yend=ypos),
               colour="red", size=1) +
  scale_y_continuous(limits=c(-0.05,0.04)) +

enter image description here

  • Thank you! This worked however I had to make a minor change. I had to change pairs = TukeyHSD(model1)$grp to pairs = TukeyHSD(model1)$'df$grp' and it worked!
    – NM_
    Apr 1, 2019 at 17:18
  • That's because your model formula includes the data frame name. It's better to pass the data frame into the function using the data argument and use bare column names in the formula. I forgot to add that to my answer, which I've now updated.
    – eipi10
    Apr 1, 2019 at 17:21
  • Great, Thank you for the clarification!
    – NM_
    Apr 1, 2019 at 17:23
  • 1
    This SO question shows what can go wrong when you use the data frame name in the model formula, rather than passing it into the modeling function using the data argument.
    – eipi10
    Apr 1, 2019 at 17:30

Base R

d1 = data.frame(TukeyHSD(model1)[[1]])
inds = which(sign(d1$lwr) * (d1$upr) <= 0)
non_sig = lapply(strsplit(row.names(d1)[inds], "-"), sort)

d2 = aggregate(df$trt ~ df$grp, FUN=mean)

windows(width = 400, height = 200)
par("mai" = c(0.2, 0.2, 0.2, 0.2))
plot(d2$`df$trt`, rep(1, NROW(d2)),
     xlim = c(min(d2$`df$trt`) - 0.1, max(d2$`df$trt`) + 0.1), lwd = 2,
     type = "l",
     ann = FALSE, axes = FALSE)
segments(x0 = d2$`df$trt`,
         y0 = rep(0.9, NROW(d2)),
         x1 = d2$`df$trt`,
         y1 = rep(1.1, NROW(d2)),
         lwd = 2)
text(x = d2$`df$trt`, y = rep(0.8, NROW(d2)), labels = round(d2$`df$trt`, 2), srt = 90)
text(x = d2$`df$trt`, y = rep(0.75, NROW(d2)), labels = d2$`df$grp`)
lapply(seq_along(non_sig), function(i){
    lines(cbind(d2$`df$trt`[match(non_sig[[i]], d2$`df$grp`)], rep(0.9 - 0.01 * i, 2)))

enter image description here

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