If you are ever in a position where a call-stack underflow could happen, chances are your program is going to die a violent death before it happens. At least, if I understand the way function calls work is accurate.
Basically, the only way for it to happen is if you call a function where the callee cleans up the stack, and it pops off too many values... if the caller believes a function accepts two parameters, but the callee actually takes three, this might happen. A variant would be a function where the callee cleans up the stack, and then the caller cleans up the stack again, as might happen if you get your calling convention wrong. In both situations, you will probably get a problem when you go to link and the mangled names are wrong, but perhaps you just get really unlucky.
Either way, the important thing is that after the function call, the stack is one or more bytes shorter than it is supposed to be. Theoretically the program will then continue on, popping the correct amount of data off, but remaining one or more bytes short of what is expected. Eventually, there is no more data to pop off, and you have a stack underflow.
However, when refering to the stack, addresses are relative to the top. So the compiler will look for a particular object at [top of stack + 3] if it is three bytes from the top of the stack. It will still do that if the stack ends up shorter than expected, and look for that object in the wrong location. Assuming that object is even still there... it might have accidently gotten popped off already. When you get to the end of whatever function you are in, it might not be able to find the correct return address for this same reason, but even if it does, having all of your objects suddenly corrupted is a pretty dire situation to be in.
Caveat: this is all based on the assumption that modern systems behave the same as the old microcontrollers I used to work on a decade ago. Maybe they're smarter than that now.