I see you've already accepted an answer, but I'd just like to add my take on it, as I think I can be of some help here.
The difference between
List<? extends Animal> is this:
List<Animal>, you know what you have is definitely a list of animals. It's not necessary for all of them to actually be exactly 'Animal's - they could also be derived types. For example, if you have a List of Animals, it makes sense that a couple could be Goats, and some of them Cats, etc - right?
For example this is totally valid:
List<Animal> aL= new List<Animal>();
Animal a = aL.peek();
a.walk();//assuming walk is a method within Animal
Just a sidenote - the following would not be valid:
aL.peek().meow();//we can't do this, as it's not guaranteed that aL.peek() will be a Cat
Of course if we're absolutely certain aL.peek() is a cat, we can do this:
((Cat)aL.peek()).meow();//will generate a runtime error if aL.peek() is not a Cat
List<? extends Animal>, you're making a statement about the type of list you're dealing with.
List<? extends Animal> L;
This is actually not a declaration of the type of object L can hold. It's a statement about what kinds of lists L can reference.
For example, at this point,
L = aL;//remember aL is a List of Animals
would be something we could do.
But even after that assignment, all the compiler knows about L is that it is a List of [either Animal or a subtype of Animal]s
So now the following is not valid:
L.add(new Animal());//throws a compiletime error
Because for all we know, L could be referencing a list of Goats - to which we absolutely cannot add an Animal.
Why not? Well, let's see:
List<Goat> gL = new List<Goat>();//fine
gL.add(new Animal());//compiletime error
The reason the above doesn't work is we are attempting to cast an Animal as a Goat. That doesn't work, because what if after doing that we tried to make that Animal do a 'headbutt', like a goat would? We don't necessariliy know that the Animal can do that.