The implementation of a persistent data structure in C works basically the same way as it does in a functional language. Chris Okasaki's Purely Functional Data Structures is a great reference.
In general, it suffices to map fixed-width integers to objects, because
while that doesn't give you a full-fledged dictionary by itself, you can build a dictionary on top: Use a hash of the actual key as the key of the underlying map, and have the leaves point to lists of (key, value) pairs of the same hash value.
The tricky part is memory management, since you don't generally know when parts of the data structure become unreachable. Luckily, since most persistent data structures are based on trees, reference counting usually works well. In order to be able to manage the objects referenced by the data structure, you can provide a hook for callbacks that get called when a leaf node's reference count becomes 0.
For example, my C implementation of bitmapped Patricia Trees provides the following API:
void *bpt_get(bpt_t bpt, bpt_key_t key);
bool bpt_has_key(bpt_t bpt, bpt_key_t key);
// Adding and Removing Entries
bpt_t bpt_assoc(bpt_t bpt, bpt_key_t key, void *item);
bpt_t bpt_dissoc(bpt_t bpt, bpt_key_t key);
// Managing Memory
void bpt_retain(bpt_t bpt);
void bpt_release(bpt_t bpt);
void bpt_dealloc(bpt_t bpt);
void bpt_set_dealloc_hook(bpt_t bpt,
void (*hook)(bpt_key_t key,
void bpt_for_mappings(bpt_t bpt,
void (*thunk)(bpt_key_t, void*, void*),
// Making a Map Persistent (you can elide this if you don't
// want to support transients)
void bpt_seal(bpt_t bpt);
The implementation might give you some ideas, too.