Jan 29, 2019
We will work with the iris
data set available in R. This data set gives the measurements in centimeters of the variables sepal length and width and petal length and width, respectively, for 50 flowers from each of 3 species of iris. The species are Iris setosa, versicolor, and virginica:
head(iris)
## Sepal.Length Sepal.Width Petal.Length Petal.Width Species
## 1 5.1 3.5 1.4 0.2 setosa
## 2 4.9 3.0 1.4 0.2 setosa
## 3 4.7 3.2 1.3 0.2 setosa
## 4 4.6 3.1 1.5 0.2 setosa
## 5 5.0 3.6 1.4 0.2 setosa
## 6 5.4 3.9 1.7 0.4 setosa
In this worksheet, we will work with the library ggplot2, so we need to load it. We also set a theme that doesn’t use a gray background grid:
library(ggplot2) # load ggplot2 library
theme_set(theme_bw(base_size=12)) # set the default plot theme for the ggplot2 library
Using ggplot, make a scatter plot of petal length vs. sepal length for the three species. Then do the same plot but facet by species instead of coloring.
# R code goes here.
Now make side-by-side boxplots of sepal lengths for the three species of iris. The geom you need to use is geom_boxplot()
. See if you can guess the correct aesthetic mapping.
# R code goes here.
The data set sitka
contains repeated measurements of tree size for 79 Sitka spruce trees, which were grown either in ozone-enriched chambers or under control conditions. It contains four columns: size
measures the size of the tree (height times diameter squared, on a log scale). Time
measures the time, in days since Jan. 1, 1988. tree
indicates the tree we are working with, consecutively numbered from 1 to 79. treat
indcates the treatment trees were subjected to, either ozone
for an ozone-enriched chamber or control
.
# download the sitka data set:
sitka <- read.csv("http://wilkelab.org/classes/SDS348/data_sets/sitka.csv")
head(sitka)
## size Time tree treat
## 1 4.51 152 1 ozone
## 2 4.98 174 1 ozone
## 3 5.41 201 1 ozone
## 4 5.90 227 1 ozone
## 5 6.15 258 1 ozone
## 6 4.24 152 2 ozone
Make line plots of tree size vs. time, for each tree, faceted by treatment. First, use the same color for all lines. Hint: you will need to use the group
aesthetic to tell ggplot that you want to have a separate line for each tree.
# R code goes here.
Now, make a variant of this plot where each tree has a separate color.
# R code goes here.
Finally, color each tree by its by size.
# R code goes here.
In the sitka tree example, when you colored each tree by a different color, do you understand why ggplot used a continuous color scale? And how would you make it use a discrete color scale with a different color for each tree?
# R code goes here.
(Note that I have told R Markdown to make a larger figure, by starting the code block with {r fig.height=6, fig.width=10}
instead of {r}
, because the default figure size is too small to show the resulting legend.)
For the iris
data set, make a plot of the 2d distribution of petal length vs. sepal length, by making an x-y plot that shows the individual data points as well as contour lines indicating the density of points in a given spatial region.
# R code goes here.
If this was still easy, now instead of contour lines add a fitted straight black line (not a curve, and no confidence band!) to each group of points.
# R code goes here.