The question really boils down to: Can the Win32 API (as of MSVC20??)
be efficiently used to provide a complete POSIX layer over the Windows
Short answer: No.
"Complete POSIX" means fork(), mmap(), signal() and such, and these are [almost] impossible to implement on NT.
To drive the point home: GNU Hurd has problems with fork() as well, because Hurd kernel is not POSIX.
NT is not POSIX too.
Another difference is persisence:
In POSIX-compliant systems it is possible to create system objects and leave them there. Examples of such objects are named pipes and shared memory objects (shms). You can create a named pipe or a shm, and leave it in the filesystem (or in a special filesystem-like place) where other processes will be able to access it. The downside is that a process might die and fail to clean up after itself, leaving unused objects behind (you know about zombie processes? same thing).
In NT every object is reference-counted, and is destroyed as soon as its last handle is closed. Files are among the few objects that persist.
Symlinks are a filesystem feature, and don't exactly depend on NT kernel, but current implementation (in Vista and later) is incapable of creating object-type-agnostic symlinks. That is, a symlink is either a file or a directory, and must link to either a file or a directory. If the target has wrong type, the symlink won't work. You can give it the right type if the target exists when you create the symlink, but POSIX requires that symlinks may be created without their target existing. I can't imagine a use-case for a symlink that points first to a file, then to a directory, but POSIX says that this should work, and if it doesn't, you're not completely POSIX-compliant. Or if your symlinking API/utility can be given an option that specifies the right type, when target doesn't exist, that also breaks POSIX compatibility.
It is possible to replicate some POSIX features to some degree (such as "integer descriptors from in a single namespace, referencing any I/O object, and being select()able" without sacrificing [much] performance, but that is still a major undertaking, and POSIX interface is really restrictive (that is, if you could just add one more argument to that function, it would have been possible to Do The Right Thing...but you couldn't, unless you want to throw POSIX compliance away).
Your best bet is to not to rely on POSIX features that are difficult to port to non-POSIX systems, or abstract in such a way that lower levels may have separate implementations for different OSes, and upper levels do not care about the details.