I've explained this very recently -- hopefully someone can find the link. It's a recurring question, so it may well be closed.
At any rate, the outer generator controls the representation. That happens on each level, so if I have this:
a <- A
b <- B
c <- C
} yield f(a, b, c)
Then the representation of
f(a, b, c) is controlled by
C, the representation of that is controlled by
B, and the representation of the final result is controlled by
A. So, for most practical purposes, the representation of the for comprehension is controlled by the first generator.
So what do I mean by "representation"? Well, a for comprehension is a monadic comprehension, usually (actually, it's just a set of calls to methods like
map, so it can be anything that typechecks). That means that given a monad
M[A] and a function
A => M[B], then you can transform
M, the monad, is the "representation".
This means that, for the most part, it would be impossible to combine
List in a for comprehension. All the collections have a common parent in
GenTraversableOnce, so there's no problem in combining them (though things are much more complicated than that under the hood).
However, there is an implicit conversion from
Iterable. That being the case, when Scala finds
b <- a in the first example, and knowing it can't pass an
Option because the comprehension is being "controlled" by a
List, it converts the
Option into an
Iterable, and everything works.
However, that doesn't happen in the second case. Doing a for comprehension with an
Option is ok, so there's no need to convert it into an
Iterable. Unfortunately, one cannot convert a
List into an
Option (what would be the result of such a conversion?), which results in the error.
Scala will not "backtrack" to
a <- Some(List(1, 2)) and apply an implicit conversion to it, as type inference in Scala only goes forward -- what it decided before will remain as is.
I heartily recommend you look at the related questions and understand how a for comprehension is translated.