When you attempt to deserialize an serializable object, the mechanism must create an empty instance of the object, and fill in the members, to restore the object to the state it was when serialized. A constructor of a serializable object would have been called when the object was first constructed, but constructors are NOT called during the deserialization because, technically, you are not constructing the object, instead reconstituting it to the former state. Any effects of construction and subsequence manipulation are expected to already be incorporated into the object state.
Whenever you construct an object of any class, Java must call a constructor of the super class, and the super-super-class, etc. You can specify a specific constructor for the super class by using
super(...) or if you don't specify a super constructor, the default constructor will be used. One way or another, all classes to the root are constructed.
Deserialization of serlializable objects do not cause constructor invocation, but when there is a super class that is not serializable, (that is you extend a non-serializable class with a serializable class) then that class is not expecting to be deserialized, and it has no mechanism for storing/restoring its members. If the super class is not serializable, the deserialization mechanism needs to call the zero-argument constructor to make sure that the reconstituted object instance is initialized correctly.
If you fail to specify a zero-argument constructor, the deserialization code will not warn you of this problem until your first attempt to deserialize an object of that class. There is no warning at compile time.
Furthermore, your serializable subclass must take responsibility for storing/restoring any member values from the non-serializable super class.