For higher-order (aka higher kinded) parametric polymorphism, so first values have a type, types have a kind now if you think of a parametric type as sort of a type function (function of types) so for example `IEnumerable<T>`

is a type function of kind * -> *, when you apply a type to this type function you get a type of kind *. So with this view of parametric types (type constructors) as type functions we can start to talk about higher-order type functions, a type function which can take/return type functions as arguments. This is known as higher-kinded polymorphism and it is highly expressive type system feature lacking in languages such as Java & C#. If you know about C++ templates then there is a limited but inconsistant and almost useless support for such a thing via template template parameters (yes template template).

You might wonder why would it be useful to have such a feature? well they allow one to express higher level abstractions and more generic code such as Monads & Functors. Standard Haskell98 supports higher-kinded polymorphism.

For your first-order function example, first you must understand that all functions in a lambda calculus only take one argument and the arrows in your example actually associates to the right so this is what you actually have:

f -> g is zeroth order.
f -> (g -> h) is first order, function returns a function.
f -> (g -> (h -> i)) is second order, function returns a function which returns a function.

The same 'one argument only' applies to type, kind, sorts (kinds having sorts) functions as well.