An easy answer is that, deeper level wildcards can't be replaced by a type variable
void foo( List<List<?>> arg )
is very different from
void foo( List<List<T>> arg)
This is because wildcard capture conversion is only applied to 1st level wildcards. Let's talk about these.
Due to extensive capture conversion, in most places, compiler treats wildcards as if they are type variables. Therefore indeed programmer can replace wildcard with type variables in such places, a sort of manual capture conversion.
Since a type variable created by compiler for capture conversion is not accessible to programmer, this has the restricting effect mentioned by @josefx. For example, compiler treats a
List<?> object as a
List<W> object; since
W is internal to compiler, although it has a method
add(W item), there's no way for programmer to invoke it, because he has no item of type
W. However, if programmer "manually" converts the wildcard to a type variable
T, he can have an item with type
T and invoke
add(T item) on it.
Another rather random case where wildcard can't be replaced type variable:
List<? extends Number> foo()
class Derived extends Base
Here, foo() is overriden with a covariant return type, since
List<Integer> is a subtype of
List<? extends Number. This won't work if the wildcard is replaced with type variable.