When declaring a global pointer, it will be initialized to zero, and so the generated addresses will be small numbers that may or may not be readable on your system.
When declaring an automatic pointer, its initial value is likely to be much more interesting. It will be, in this case, whatever the run-time library left at that point on the stack prior to calling main(), or perhaps a left-over value from the compiler-generated stack-frame setup code. It is somewhat likely to be a saved stack pointer or frame pointer, which is a valid pointer if used with small offsets.
So anyway, the uninitialized pointer does have something in it, and one value leads to a fault while the other, for now, on your system, does not.
And that's because the segmentation fault is a mechanism of the OS and not the C language.
A fault is a block-based mechanism that allocates to itself and other programs some number of pages -- which are each several K -- and it protects itself and other program's pages while allowing your program free reign. You must stray outside of the block context or try to write a read-only page (even if yours) to generate a fault. Simply breaking a language rule is not necessarily enough. The OS is happy to let your program misbehave and act oddly due to its wild references, just as long as it only reads and writes (or clobbers) itself.