It's not that each thread has its own copy, it's that each instance of a function invocation has its own copy of all automatic (i.e. local non-static) variables, regardless of whether the instances are in the same thread or different threads. This is true if the instances come into existence due to invocation in different threads, recursive invocation, mutual/indirect recursion, or even invocation from an asynchronous signal handler. Note that while the C standard does not specify threads, the relevant section in the standard is probably 5.2.3 Signals and interrupts:
Functions shall be implemented such that they may be interrupted at any time by a signal, or may be called by a signal handler, or both, with no alteration to earlier, but still active, invocations' control flow (after the interruption), function return values, or objects with automatic storage duration. All such objects shall be maintained outside the function image (the instructions that compose the executable representation of a function) on a per-invocation basis.
This makes it explicit that each invocation must have its own storage for automatic variables.