First, some definitions from the C++03 standard:
1.3.5 implementation-defined behavior
Behavior, for a well-formed program construct and correct data, that depends on the implementation and that each implementation shall document
1.3.12 undefined behavior
Behavior, such as might arises upon use of an erroneous program construct or erroneous data, for which this International Standard imposes no requirements. Undefined behavior may also be expected when this International Standard omits the description of any explicit definition or behavior.
1.3.13 unspecified behavior
Behavior, for a well-formed program construct and correct data, that depends on the implementation. The implementation is not required to document which behavior occurs.
Even though unspecified behavior could be called UB, I've never seen that, and UB always means undefined behavior. Throughout the standard are statements similar to "doing X is undefined behavior," but sometimes you run into a case that's simply not covered.
To put the definition another way, if you have any undefined behavior anywhere, then all bets are off. As far as the standard is concerned, your program could do anything from inviting your mother-in-law over for SuperBowl weekend to running nethack. Due to UB's very nature you can't test for it, and you can't expect any help from the compiler. (Though for some trivial, common errors compilers do generally produce diagnostics.)
Usually something is defined as UB because it just doesn't make sense logically (e.g. accessing an array out of bounds), but also often because it would require the implementation to do too much work to prevent—often at runtime. Remember C++ is derived from C, and being able to produce highly-optimized programs is a major goal of both languages. To this end, the languages defer to the programmer to make sure the code is correct in these situations, related to the "you don't pay for what you don't use" principle.
So, finally, UB is bad, very bad; avoid it at all costs. However, the hard part of UB isn't knowing what it is or under what circumstances it occurs; the hard part is recognizing when you invoke UB. For example:
std::string s = "abc";
char& c = s;
c = '-';
Looks perfectly reasonable, right? Nope, this is UB, yet it will work as you expect on all the popular implementations.