Is somebody aware of a natural program or algorithm that has a
non-monotone worst-case behavior?

Please define "natural program or algorithm". The concept "algorithm" has a definition I'm aware of, and there are certainly algorithms (as you correctly admit) which have non-monotone worst-case runtime complexity. Is a program "natural" if it does no unecessary work or has minimal runtime complexity for the class of problem it solves? In that case, would you argue that BubbleSort isn't an algorithm? More importantly, I can define a problem the most efficient solution to which has non-monotone worst-case behavior. Would such a problem be "unnatural"? What is your definition of a "natural problem"?

Of course, it is easy to construct a program with this behavior.

Then what's the real question? Until you commit to a definition of natural/useful algorithms and problems, your question has no answer. Are you interested only in pre-existing algorithms which people already use in the real world? If so, you should state that, and the problem becomes one of searching the literature. Frankly, I cannot imagine a reasonable definition of "natural, useful algorithm" which would preclude many examples of algorithms with non-monotone runtime complexity...

But I'm interested in a useful algorithm that is non-monotone for
large n.

Please define "useful algorithm". The concept "algorithm" has a definition I'm aware of, and there are certainly algorithms (as you correctly admit) which have non-monotone worst-case runtime complexity. Is an algorithm "useful" if it correctly solves some problem? I can easily define a problem which can be solved by an algorithm with non-monotone runtime complexity.