it's possible to extend the analogy to the factorization of polynomials over finite fields $\mathbb{F}_q$ (see <a href="http://qchu.wordpress.com/2012/11/10/small-factors-in-random-polynomials-over-a-finite-field//">this blog post</a> for details; one needs to take $q \to \infty$ for the statistics to match). In this setting the permutation is Frobenius. But I don't think there's an analogous statement on the number field side. 

I think results like this should be thought of as central limit-type theorems more than anything else; there are certain kinds of statistics that occur universally in certain general situations which otherwise don't necessarily have much in common.