Because COW works on the basis that the page is read-only, so we need a copy of the page-table that is all read-only. When the new process writes to somewhere, a page-fault is taken as a consequences of writing to a page that is read-only. The page-fault handler looks at the status of the page, determines whether it's supposed to be written to (if not, segfault, just like if you write to read-only in the original process) and copies the relevant original page to the new process.
The original page-table is read-write for some of the entries, so at least those will have to be copied. I do believe the entire page-table is copied (because it makes some other code simpler, and a page-table entry is not very large - four or eight bytes per page [plus one entry per 4096KB, plus one for every 4009*4096KB, etc up the hierarchy].
There are also some interesting aspects if, for example, we have some code that does:
char *ptr = malloc(big_number);
// Fill ptr[...] with some data.
// child process works on ptr data.
Now, the page-table entries in the parent process will be removed. If we are sharing these with the child process, we need to know that those page-table entries are shared.
Lots of other similar problems occur when receiving/sending data via network, writing to disk, swapping pages in and out, etc, etc.