To better understand where the term comes from, you need to know some history.
The reason why an old Lisp hacker might distinguish downward funargs from funargs in general is that downward funargs are easy to implement in a traditional Lisp that lacks lexical variables, whereas the general case is hard.
Traditionally a local variable was implemented in a Lisp interpreter by adding a binding (the symbol name of the variable, paired with its value) to the environment. Such an environment was simple to implement using an association list. Each function had its own environment, and a pointer to the environment of the parent function. A variable reference was resolved by looking in the current environment, and if not found there, then in the parent environment, and so on up the stack of environments until the global environment was reached.
In such an implementation, local variables shadow global variables with the same name. For example, in Emacs Lisp,
print-length is a global variable that specifies the maximum length of list to print before abbreviating it. By binding this variable around the call to a function you can change the behaviour of print statements within that function:
(defun foo () (print '(1 2 3 4 5 6))) ; output depends on the value of print-length
(foo) ; use global value of print-length
==> (1 2 3 4 5 6)
(let ((print-length 3)) (foo)) ; bind print-length locally around the call to foo.
==> (1 2 3 ...)
You can see that in such an implementation, downward funargs are really easy to implement, because variables that are in the environment of the function when it's created will still be in the environment of the function when it's evaluated.
Variables that act like this are called special or dynamic variables, and you can create them in Common Lisp using the