Actually, if you build an interval list or something very-like-it, then store the components of it in an AVL tree, you could probably do okay. The thing is that you don't just want a given sequence, you want longest sequence. Longest run of lexically immediately adjacent keys*, to be more exact. Which, curiously, is quite hard I think without bashing up a custom metric to build your AVL tree on. I guess if your comparator for the AVL tree built on the interval list was f(length-of-interval), you could get it in o(logn) or maybe faster if your AVL implementation has fast max\min.
I'm terribly sorry, I was hoping to be more help, but the fact that we have to use an AVL tree is a little troubling. I'm wondering if there's a trick that one could pull involving sub-trees, but I'm simply seeing no good way to make such an approach o(1) without so much preprocessing as to be a joke. Something with bloom filters might work?
Some total orderings can create similar runs, but not all have a meaningful concept of immediate adjacency in their... well... phase space I guess?**
**My lackluster formal education is really biting me right about now.