I'd take Yegge's (and Ola Bini's) opinions on static typing with a grain of salt. If you appreciate what static typing gives you, you'll learn how the type system of the programming language you choose works.
IIRC, ML uses the '*' syntax for tuples. <type> * <type> is a tuple type with two elements. So, (1, 2) would have int * int type.
Both Haskell and ML use -> for functions. In ML, int * int -> int would be the type of a function that takes a tuple of int and int and maps it to an int.
One of the reasons you might see an error that looks vaguely like the one Ola quoted when coming to ML from a different language, is if you try and pass arguments using parentheses and commas, like one would in C or Pascal, to a function that takes two parameters.
The trouble is, functional languages generally model functions of more than one parameter as functions returning functions; all functions only take a single argument. If the function should take two arguments, it instead takes an argument and returns a function of a single argument, which returns the final result, and so on. To make all this legible, function application is done simply by conjunction (i.e. placing the expressions beside one another).
So, a simple function in ML (note: I'm using F# as my ML) might look a bit like:
let f x y = x + y;;
It has type:
val f : int -> int -> int
(A function taking an integer and returning a function which itself takes an integer and returns an integer.)
However, if you naively call it with a tuple:
... you'll get an error, because you passed an int*int to something expecting an int.
I expect that this is the "problem" Ola was trying to cast aspersions at. I don't think the problem is as bad as he thinks, though; certainly, it's far worse in C++ templates.