I believe that is made clear. Here is the relevant section from the boost documentation:
Accordingly, variant is designed to enable the following optimizations
once the following criteria on its bounded types are met:
For each bounded type T that is nothrow copy-constructible (as
indicated by boost::has_nothrow_copy), the library guarantees variant
will use only single storage and in-place construction for T.
bounded type is nothrow default-constructible (as indicated by
boost::has_nothrow_constructor), the library guarantees variant will
use only single storage and in-place construction for every bounded
type in the variant. Note, however, that in the event of assignment
failure, an unspecified nothrow default-constructible bounded type
will be default-constructed in the left-hand side operand so as to
preserve the never-empty guarantee.
boost::blank is nothrow default constructible, the second clause applies. And it sounds like Boost has special-cased this particular type to be chosen in favor of all others, so that instead of it being unspecified which default constructible type will be instantiated the type is guaranteed to be
boost::blank if that's an option.