It's my understanding that GHC gives each thread a stack. Why is this necessary? Doesn't GHC compile to CPS? Isn't a thread expressed concisely as a closure?
There are several aspects to your question.
The key reference for the design decisions in the GHC runtime is the paper ''Runtime Support for Multicore Haskell''.
GHC does not compile via CPS. Each thread make recursive calls, and they must allocate to the stack. By representing the stack as a heap-allocated object, things are made simpler.
A thread is more than a closure.
As a thread executes, it starts allocating to the heap and stack. Thus:
Garbage collecting objects pointed at by stacks can be optimized to ensure GC takes place on the same physical thread as the thread.
So, GHC has a stack for each thread because the compilation mandates that threads have access to a stack and a heap. By giving each thread its own stack, threads can execute in parallel more efficiently. Threads are more than "just a closure", since they have a mutable stack.