When it says multiple sources it is referring to the start node of the search. You'll notice that the parameters of the algorithms are
BFS(G, s) and
DFS(G). That should already be a hint that BFS is single-source and DFS isn't, since DFS doesn't take any initial node as an argument.
The major difference between these two, as the authors point out, is that the result of BFS is always a tree, whereas DFS can be a forest (collection of trees). Meaning, that if BFS is run from a node s, then it will construct the tree only of those nodes reachable from s, but if there are other nodes in the graph, will not touch them. DFS however will continue its search through the entire graph, and construct the forest of all of these connected components. This is, as they explain, the desired result of each algorithm in most use-cases.
As the authors mentioned there is nothing stopping slight modifications to make DFS single source. In fact this change is easy. We simply accept another parameter
s, and in the routine
DFS_VISIT) instead of lines 5-7 iterating through all nodes in the graph, we simply execute
Similarly, changing BFS is possible to make it run with multiple sources. I found an implementation online: http://algs4.cs.princeton.edu/41undirected/BreadthFirstPaths.java.html although that is slightly different to another possible implementation, which creates separate trees automatically. Meaning, that algorithm looks like this
BFS(G, S) (where
S is a collection of nodes) whereas you can implement
BFS(G) and make separate trees automatically. It's a slight modification to the queueing and I'll leave it as an exercise.
As the authors point out, the reason these aren't done is that the main use of each algorithm lends to them being useful as they are. Although well done for thinking about this, it is an important point that should be understood.