Some solutions are well solved by agents/actors and some are not. This distinction is not really about languages more than how specific problems fit within general classes of solutions. This is a (very short) comparason of Actors/agents vs. References to try to clarify the point that the tool must fit the concurrency problem.
Actors excel in distributed situation where no data needs to be concurrently modified. If your problem can be expressed purely by passing messages then actors will do the trick. Actors work poorly where they need to modify several related data structures at the same time. The canonical example of this being moving money between bank accounts.
Clojure's ref
s are a great solution to the problem of many threads needing to modify the same thing at the same time. They excel at shared memory multi-processor systems like today's PCs and Servers. In addition to the Bank account example, Rich Hickey (the author of clojure) uses the example of a baseball game to explain why this is important. If you wanted to use actors to represent a baseball game then before you moved the ball, all the fans would have to send it a message asking it where it was... and if they wanted to watch a player catching the ball things get even more complex.
Clojure has cascalog which makes writing hadoop jobs look a lot like writing clojure.