I think it has to do with this part of the jvm spec:
Each frame (§2.6) contains a reference to the run-time constant pool (§2.5.5) for the type of the current method to support dynamic linking of the method code. The class file code for a method refers to methods to be invoked and variables to be accessed via symbolic references. Dynamic linking translates these symbolic method references into concrete method references, loading classes as necessary to resolve as-yet-undefined symbols, and translates variable accesses into appropriate offsets in storage structures associated with the run-time location of these variables.
This late binding of the methods and variables makes changes in other classes that a method uses less likely to break this code.
In chapter 5 in the jvm spec they also mention:
A class or interface C may be initialized, among other things, as a result of:
The execution of any one of the Java Virtual Machine instructions new, getstatic, putstatic, or invokestatic that references C (§new, §getstatic, §putstatic, §invokestatic). These instructions reference a class or interface directly or indirectly through either a field reference or a method reference.
Upon execution of a getstatic, putstatic, or invokestatic instruction, the class or interface that declared the resolved field or method is initialized if it has not been initialized already.
It seems to me the first bit of documentation states that any symbolic reference is simply resolved and invoked without regard as to where it came from. This documentation about method resolution has the following to say about that:
[M]ethod resolution attempts to locate the referenced method in C and its superclasses:
If C declares exactly one method with the name specified by the method reference, and the declaration is a signature polymorphic method (§2.9), then method lookup succeeds. All the class names mentioned in the descriptor are resolved (§188.8.131.52).
The resolved method is the signature polymorphic method declaration. It is not necessary for C to declare a method with the descriptor specified by the method reference.
Otherwise, if C declares a method with the name and descriptor specified by the method reference, method lookup succeeds.
Otherwise, if C has a superclass, step 2 of method resolution is recursively invoked on the direct superclass of C.
So the fact that it's called from a subclass seems to simply be ignored. Why do it this way? In the documentation you provided they say:
The intent is that a class or interface type has a set of initializers that put it in a consistent state, and that this state is the first state that is observed by other classes.
In your example, you alter the state of Super when Sub is statically initialized. If initialization happened when you called Sub.staticMethod you would get different behavior for what the jvm considers the same method. This might be the inconsistency they were talking about avoiding.
Also, here's some of the decompiled class file code that executes staticMethod, showing use of invokestatic:
#2 = Methodref #18.#19 // Sub.staticMethod:()V
stack=0, locals=1, args_size=1
0: invokestatic #2 // Method Sub.staticMethod:()V