The short answer is that Clojure was designed to use a very simple, single pass compiler which reads and compiles a single s-expression or form at a time. For better or worse there is no global type information, no global type inference and no global analysis or optimization. Clojure uses
clojure.lang.Var instances to create global bindings through a series of hashmaps from textual symbols to transactional values.
def forms all create bindings at global scope in this global binding map. So where in Scala a "function" (method) will be resolved to an instance or static method on a given JVM class, in Clojure a "function" (def) is really just a reference to an entry in the table of var bindings. When a function is invoked, there isn't a static link to another class, instead the var is reference by symbolic name, then dereferenced to get an instance of a
clojure.lang.IFn object which is then invoked.
This layer of indirection means that it is possible to re-evaluate only a single definition at a time, and that re-evaluation becomes globaly visible to all clients of the re-defined var.
In comparison, when a definition in Scala changes, scalac must reload the changed file, macroexpand, type infer, type check, and compile. Then due to the semantics of classloading on the JVM, scalac must also reload all classes which depend on methods in the class which changed. Also all values which are instances of the changed class become trash.
Both approaches have their strengths and weaknesses. Obviously Clojure's approach is simpler to implement, however it pays an ongoing cost in terms of performance due to continual function lookup operations forget correctness concerns due to lack of static types and what have you. This is arguably suitable for contexts in which lots of change is happening in a short timeframe (interactive development) but is less suitable for context when code is mostly static (deployment, hence Oxcart). some work I did suggests that the slowdown on Clojure programs from lack of static method linking is on the order of 16-25%. This is not to call Clojure slow or Scala fast, they just have different priorities.
Scala chooses to do more work up front so that the compiled application will perform better which is arguably more suitable for application deployment when little or no reloading will take place, but proves a drag when you want to make lots of small changes.
Some material I have on hand about compiling Clojure code more or less cronological by publication order since Nicholas influenced my GSoC work a lot.
Which I suppose leaves me in the unhappy place of saying simply "I'm sorry, Scala wasn't designed for that the way Clojure was" with regards to code hot swapping.