The feature that couldn't work without null is being able to represent "the absence of an object".
The absence of an object is an important concept. In object-oriented programming, we need it in order to represent an association between objects that is optional: object A can be attached to an object B, or A might not have an object B. Without null we could still emulate this: for instance we could use a list of objects to associate B with A. That list could contain one element (one B), or be empty. This is somewhat inconvenient and doesn't really solve anything. Code which assumes that there is a B, such as
aobj.blist.first().method() is going to blow up in a similar way to a null reference exception: (if
blist is empty, what is the behavior of
Speaking of lists, null lets you terminate a linked list. A
ListNode can contain a reference to another
ListNode which can be null. The same can be said about other dynamic set structures such as trees. Null lets you have an ordinary binary tree whose leaf nodes are marked by having child references that are null.
Lists and trees can be built without null, but they have to be circular, or else infinite/lazy. That would probably be regarded as an unacceptable constraint by most programmers, who would prefer to have choices in designing data structures.
The pains associated with null references, like null references arising accidentally due to bugs and causing exceptions, are partially a consequence of the static type system, which introduces a null value into every type: there is a null String, null Integer, null Widget, ...
In a dynamically typed language, there can be a single null object, which has its own type. The upshot of this is that you have all the representational advantages of null, plus greater safety. For instance if you write a method which accepts a String parameter, then you're guaranteed that the parameter will be a string object, and not null. There is no null reference in the String class: something that is known to be a String cannot be the object null. References do not have type in a dynamic language. A storage location such as a class member or function parameter contains a value which can be a reference to an object. That object has type, not the reference.
So these languages provide a clean, more or less matematically pure model of "null", and then the static ones turn it into somewhat of a Frankenstein's monster.