36

It's common to put stars on barplots or boxplots to show the level of significance (p-value) of one or between two groups, below are several examples:

enter image description hereenter image description hereenter image description here

The number of stars are defined by p-value, for example one can put 3 stars for p-value < 0.001, two stars for p-value < 0.01, and so on (although this changes from one article to the other).

And my questions: How to generate similar charts? The methods that automatically put stars based on significance level are more than welcome.

  • This is a pretty broad question. Can you narrow it down? And perhaps show what you've tried so far? – Roman Luštrik Jun 13 '13 at 10:23
  • 3
    Most journals nowadays dislike the star notation, even if some table in R still print these. Check with you journal first. – Dieter Menne Jun 13 '13 at 10:25
  • 2
    the bottom-left one is easy: you set up a data.frame with the positions of those stars and add a geom_text layer with labels "***". – baptiste Jun 13 '13 at 11:04
35

Please find my attempt below.

Example plot

First, I created some dummy data and a barplot which can be modified as we wish.

windows(4,4)

dat <- data.frame(Group = c("S1", "S1", "S2", "S2"),
                  Sub   = c("A", "B", "A", "B"),
                  Value = c(3,5,7,8))  

## Define base plot
p <-
ggplot(dat, aes(Group, Value)) +
    theme_bw() + theme(panel.grid = element_blank()) +
    coord_cartesian(ylim = c(0, 15)) +
    scale_fill_manual(values = c("grey80", "grey20")) +
    geom_bar(aes(fill = Sub), stat="identity", position="dodge", width=.5)

Adding asterisks above a column is easy, as baptiste already mentioned. Just create a data.frame with the coordinates.

label.df <- data.frame(Group = c("S1", "S2"),
                       Value = c(6, 9))

p + geom_text(data = label.df, label = "***")

To add the arcs that indicate a subgroup comparison, I computed parametric coordinates of a half circle and added them connected with geom_line. Asterisks need new coordinates, too.

label.df <- data.frame(Group = c(1,1,1, 2,2,2),
                       Value = c(6.5,6.8,7.1, 9.5,9.8,10.1))

# Define arc coordinates
r <- 0.15
t <- seq(0, 180, by = 1) * pi / 180
x <- r * cos(t)
y <- r*5 * sin(t)

arc.df <- data.frame(Group = x, Value = y)

p2 <-
p + geom_text(data = label.df, label = "*") +
    geom_line(data = arc.df, aes(Group+1, Value+5.5), lty = 2) +
    geom_line(data = arc.df, aes(Group+2, Value+8.5), lty = 2)

Lastly, to indicate comparison between groups, I built a larger circle and flattened it at the top.

r <- .5
x <- r * cos(t)
y <- r*4 * sin(t)
y[20:162] <- y[20] # Flattens the arc

arc.df <- data.frame(Group = x, Value = y)

p2 + geom_line(data = arc.df, aes(Group+1.5, Value+11), lty = 2) +
     geom_text(x = 1.5, y = 12, label = "***")
  • It takes very long time to plot between-groups line in my case. Anyway to speed it up? – BioMan Aug 20 '15 at 13:07
  • I am trying to replace label = "***" with label = "p=0.02", but the text get very bold, any suggestions? – BioMan Aug 20 '15 at 13:20
  • this can be set by size like: geom_text(size=1) – pengchy Aug 25 '16 at 5:00
  • 4
    usually when text looks very bold the issue is that there are many identical labels being printed one on top of another. – zeehio Oct 4 '16 at 8:07
34

I know that this is an old question and the answer by Jens Tierling already provides one solution for the problem. But I recently created a ggplot-extension that simplifies the whole process of adding significance bars: ggsignif

Instead of tediously adding the geom_line and geom_text to your plot you just add a single layer geom_signif:

library(ggplot2)
library(ggsignif)

ggplot(iris, aes(x=Species, y=Sepal.Length)) + 
  geom_boxplot() +
  geom_signif(comparisons = list(c("versicolor", "virginica")), 
              map_signif_level=TRUE)

Boxplot with significance bar

To create a more advanced plot similar to the one shown by Jens Tierling, you can do:

dat <- data.frame(Group = c("S1", "S1", "S2", "S2"),
              Sub   = c("A", "B", "A", "B"),
              Value = c(3,5,7,8))  

ggplot(dat, aes(Group, Value)) +
  geom_bar(aes(fill = Sub), stat="identity", position="dodge", width=.5) +
  geom_signif(stat="identity",
              data=data.frame(x=c(0.875, 1.875), xend=c(1.125, 2.125),
                              y=c(5.8, 8.5), annotation=c("**", "NS")),
              aes(x=x,xend=xend, y=y, yend=y, annotation=annotation)) +
  geom_signif(comparisons=list(c("S1", "S2")), annotations="***",
              y_position = 9.3, tip_length = 0, vjust=0.4) +
  scale_fill_manual(values = c("grey80", "grey20"))

enter image description here

Full documentation of the package is available at CRAN.

17

There is also an extension of the ggsignif package called ggpubr that is more powerful when it comes to multi-group comparisons. It builds on top of ggsignif, but also handles anova and kruskal-wallis as well as pairwise comparisons against the gobal mean.

Example:

library(ggpubr)

my_comparisons = list( c("0.5", "1"), c("1", "2"), c("0.5", "2") )

ggboxplot(ToothGrowth, x = "dose", y = "len",
          color = "dose", palette = "jco")+ 
  stat_compare_means(comparisons = my_comparisons, label.y = c(29, 35, 40))+
  stat_compare_means(label.y = 45)

enter image description here

  • This might be a screenshot from this site: (very useful site, too) r-bloggers.com/add-p-values-and-significance-levels-to-ggplots – Tjebo Mar 15 '18 at 17:00
  • But how to combine with geom_boxplot fromggplot? – wasmetqall Oct 17 '18 at 15:33
  • Please, how can you plot the significance level (***) instead of the p-values? This example does not show this. Thank you! – maycca Dec 4 '18 at 11:13
  • 1
    @maycca I've updated my answer to use stars instead. – Holger Brandl Dec 5 '18 at 8:34
2

Made my own function:

ts_test <- function(dataL,x,y,method="t.test",idCol=NULL,paired=F,label = "p.signif",p.adjust.method="none",alternative = c("two.sided", "less", "greater"),...) {
    options(scipen = 999)

    annoList <- list()

    setDT(dataL)

    if(paired) {
        allSubs <- dataL[,.SD,.SDcols=idCol] %>% na.omit %>% unique
        dataL   <- dataL[,merge(.SD,allSubs,by=idCol,all=T),by=x]  #idCol!!!
    }

    if(method =="t.test") {
        dataA <- eval(parse(text=paste0(
                       "dataL[,.(",as.name(y),"=mean(get(y),na.rm=T),sd=sd(get(y),na.rm=T)),by=x] %>% setDF"
                       )))
        res<-pairwise.t.test(x=dataL[[y]], g=dataL[[x]], p.adjust.method = p.adjust.method,
                        pool.sd = !paired, paired = paired,
                        alternative = alternative, ...)
    }

    if(method =="wilcox.test") {
        dataA <- eval(parse(text=paste0(
            "dataL[,.(",as.name(y),"=median(get(y),na.rm=T),sd=IQR(get(y),na.rm=T,type=6)),by=x] %>% setDF"
        )))
        res<-pairwise.wilcox.test(x=dataL[[y]], g=dataL[[x]], p.adjust.method = p.adjust.method,
                             paired = paired, ...)
    }

    #Output the groups
    res$p.value %>% dimnames %>%  {paste(.[[2]],.[[1]],sep="_")} %>% cat("Groups ",.)

    #Make annotations ready
    annoList[["label"]] <- res$p.value %>% diag %>% round(5)

    if(!is.null(label)) {
        if(label == "p.signif"){
            annoList[["label"]] %<>% cut(.,breaks = c(-0.1, 0.0001, 0.001, 0.01, 0.05, 1),
                                         labels = c("****", "***", "**", "*", "ns")) %>% as.character
        }
    }

    annoList[["x"]] <- dataA[[x]] %>% {diff(.)/2 + .[-length(.)]}
    annoList[["y"]] <- {dataA[[y]] + dataA[["sd"]]} %>% {pmax(lag(.), .)} %>% na.omit

    #Make plot
    coli="#0099ff";sizei=1.3

    p <-ggplot(dataA, aes(x=get(x), y=get(y))) + 
        geom_errorbar(aes(ymin=len-sd, ymax=len+sd),width=.1,color=coli,size=sizei) +
        geom_line(color=coli,size=sizei) + geom_point(color=coli,size=sizei) + 
        scale_color_brewer(palette="Paired") + theme_minimal() +
        xlab(x) + ylab(y) + ggtitle("title","subtitle")


    #Annotate significances
    p <-p + annotate("text", x = annoList[["x"]], y = annoList[["y"]], label = annoList[["label"]])

    return(p)
}

Data and call:

library(ggplot2);library(data.table);library(magrittr);

df_long    <- rbind(ToothGrowth[,-2],data.frame(len=40:50,dose=3.0))
df_long$ID <- data.table::rowid(df_long$dose)

ts_test(dataL=df_long,x="dose",y="len",idCol="ID",method="wilcox.test",paired=T)

Result:

enter image description here

1

I found this one is useful.

library(ggplot2)
library(ggpval)
data("PlantGrowth")
plt <- ggplot(PlantGrowth, aes(group, weight)) +
  geom_boxplot()
add_pval(plt, pairs = list(c(1, 3)), test='wilcox.test')

protected by zx8754 Oct 9 '17 at 7:03

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