With the new version ggplot2 and scales, I can't figure out how to get axis label in scientific notation. For example:

x <- 1:4
y <- c(0, 0.0001, 0.0002, 0.0003)

dd <- data.frame(x, y)

ggplot(dd, aes(x, y)) + geom_point()

gives me

Example ggplot with scales

I'd like the axis labels to be 0, 5 x 10^-5, 1 x 10^-4, 1.5 x 10^-4, etc. I can't figure out the correct combination of scale_y_continuous() and math_format() (at least I think those are what I need).

scale_y_log10() log transforms the axis, which I don't want. scale_y_continuous(label = math_format()) just gives me 10^0, 10^5e-5, etc. I see why the latter gives that result, but it's not what I'm looking for.

I am using ggplot2_0.9.1 and scales_0.2.1

  • I'm confused; those values (0, 5^-5, 1^-4, 1.5^-4) don't really match up with the data ranges in your plot.
    – joran
    May 25 '12 at 23:09
  • Correct -- that wasn't clear. I've edited now.
    – kmm
    May 25 '12 at 23:12
  • Possible duplicate of stackoverflow.com/questions/9651903/… ?
    – Ben Bolker
    May 25 '12 at 23:34
  • @BenBolker I don't think that this is really a duplicate of the one you link to, in that that question was about a logarithmic scale and labels formatted as a base to a power (such that the powers are then linearly increasing). This is about labels on a linear scale in scientific notation. May 26 '12 at 0:15

I adapted Brian's answer and I think I got what you're after.

Simply by adding a parse() to the scientific_10() function (and changing 'x' to the correct 'times' symbol), you end up with this:

x <- 1:4
y <- c(0, 0.0001, 0.0002, 0.0003)

dd <- data.frame(x, y)

scientific_10 <- function(x) {
  parse(text=gsub("e", " %*% 10^", scales::scientific_format()(x)))

ggplot(dd, aes(x, y)) + geom_point()+scale_y_continuous(label=scientific_10)

enter image description here

You might still want to smarten up the function so it deals with 0 a little more elegantly, but I think that's it!

  • 1
    Thank you for this answer. This solution works but it prints out a number like 1e+03 as 10^+03. Is there a way to have it print out as 10^3 instead?
    – Berk U.
    Jan 28 '16 at 23:59
  • 1
    @BerkU. Yes. Use scientific_10 <- function(x) { parse(text=gsub("e\\+*", " %*% 10^", scales::scientific_format()(x))) } to ignore the "+" symbol.
    – Chang Ye
    Aug 12 '20 at 12:50
  • The answer below looks more canonical than this accepted one!
    – Yan Foto
    Oct 29 '21 at 9:38

As per the comments on the accepted solution, OP is looking to format exponents as exponents. This can be done with the trans_format and trans_breaks functions in the scales package:


    x <- 1:4
    y <- c(0, 0.0001, 0.0002, 0.0003)
    dd <- data.frame(x, y)

    ggplot(dd, aes(x, y)) + geom_point() +
        breaks = trans_breaks("log10", function(x) 10^x),
        labels = trans_format("log10", math_format(10^.x)))

enter image description here

  • Thanks for this answer. I tried it but I got the plot upside down. stackoverflow.com/questions/46639120/…. I will appreciate your suggestions.
    – shiny
    Oct 9 '17 at 7:57
  • @aelwan: I'll answer in the other thread, but a logarithmic scale does not really work with a barplot because there can be no zero mark. I would consider just use geom_errorbar() and not geom_bar() . Oct 10 '17 at 10:16

gives labels with e instead of 10:

enter image description here

I suppose if you really want 10's in there, you could then wrap that in another function.

scientific_10 <- function(x) {
  gsub("e", " x 10^", scientific_format()(x))

ggplot(dd, aes(x, y)) + geom_point() + 

enter image description here

  • I was trying to figure out a way to combine this with the strategy in math_format() to get the exponents formatted properly, but it was getting complicated.
    – joran
    May 25 '12 at 23:34
  • Is it possible to get the exponents as actual exponents? Otherwise, this is what I'm looking for.
    – kmm
    May 26 '12 at 0:13
  • @Kevin It might be. The general approach would be to make the labels plotmath expressions. I don't know if you can return expressions for a labels function or not. I tried a few things, but couldn't get anything to work easily. Hopefully someone else can chime in. May 26 '12 at 0:36
  • @joran I've added a solution to show how to format the exponents as you wanted (I know this is quite old, however). Aug 30 '13 at 6:50

Riffing off of Tom's answer above, the following removes + signs, and handles 0 better (the function is anonymously inlined as well):

scale_y_continuous(label= function(x) {ifelse(x==0, "0", parse(text=gsub("[+]", "", gsub("e", " %*% 10^", scientific_format()(x)))))} ) +
  • nice! Too bad this kind of option is not in ggplot directly. Oct 30 '20 at 13:25
  • Thank you so much!
    – eggrandio
    Apr 2 '21 at 17:49

I wrote a version of scientific_10 that avoids the scales package; it also removes leading zeroes in exponents (10^04 to 10^4, etc.). This was adapted from the helpful answers given above.

I've also included wrapper scale functions below.

scientific_10 <- function(x) {
    xout <- gsub("1e", "10^{", format(x),fixed=TRUE)
    xout <- gsub("{-0", "{-", xout,fixed=TRUE)
    xout <- gsub("{+", "{", xout,fixed=TRUE)
    xout <- gsub("{0", "{", xout,fixed=TRUE)
    xout <- paste(xout,"}",sep="")

scale_x_log10nice <- function(name=NULL,omag=seq(-10,20),...) {
    breaks10 <- 10^omag

scale_y_log10nice <- function(name=NULL,omag=seq(-10,20),...) {
    breaks10 <- 10^omag

scale_loglog <- function(...) {

qplot(x=exp(5*rnorm(100)),geom="density",kernel="rectangular") + 

I think this became really easy using the great ggtext-package. What I did was:

ggplot(mtcars, aes(x = log10(mpg), y = wt)) +
  geom_point() +
  scale_x_continuous(labels = function(x){return(paste0("10^", x))}) +
    axis.text.x = element_markdown()

enter image description here


Merging the previous answer I've created a function that can get arbitrary power ot tens for x and y as a multiply factor and then create the plot adding the factor near the axes

enter image description here

x <- seq(1,25)
y <- rnorm(25)/10000
dd <- data.frame(x, y)

trim10 <- function(x) {
  parse(text=gsub(".*e", "x10^", scales::scientific_format()(x)))

ggplot_trim10 <- function(x,y,xfac,yfac,...){
    xnew    <- x*xfac 
    ynew    <- y*yfac 
    dd      <- data.frame(xnew,ynew)
    xunit   <- abs(max(xnew) - min(xnew))
    yunit   <- abs(max(ynew) - min(ynew))
    x_min_label <- min(xnew) - xunit*0.1
    x_max_label <- max(xnew) - xunit*0.1
    y_min_label <- min(ynew) - yunit*0.1
    y_max_label <- max(ynew) - yunit*0.1
    ggplot(data=dd, aes(x=xnew, y=ynew),...) +
    geom_line() +
    annotate("text", x = x_max_label, y = y_min_label, label = trim10(xfac)) +
    annotate("text", x = x_min_label, y = y_max_label, label = trim10(yfac)) +
    coord_cartesian(xlim = c(min(xnew), max(xnew)),ylim = c(min(ynew),max(ynew)), clip = "off")


as a note I know that "x" is not the correct symbol but I was getting a bit crazy mixing expression, paste etc. if anyone will fix it it would be great

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