If you're interested in the reason why, understand that IEFBR14 doesn't actually open any of the DD statements you code in your JCL. Rather, it's just a shorthand way to drive the system allocation (and deallocation) routines. Indeed, if you were to look at an assembler listing of iEFBR14, you'd find it's only two instructions: set the R15 return code to zero, and exit.
With batch processing, the idea is that the system (JES plus the batch initiator) should do a lot of the work before an application even starts. Thus, if you allocate a new dataset, or reference (say) a tape device that takes time for the operator to mount, the system does all this for you before your program even starts. IEFBR14 is a convenient way to use the system allocation routines to allocate files using these capabilities of JCL.
But there's a catch when it comes to accessing PDS datasets in JCL, like you're trying to do.
When you specify DSN(MEMBER) syntax in JCL, the allocation routines don't particularly care about the MEMBER part - turns out, this isn't a function of the initiator, but is instead implemented in OPEN/CLOSE. In your example, allocation verifies that the dataset exists (since you coded DISP=SHR), and when a program OPENs the DD statement, the OPEN routines automatically issue BPAM FIND/POINT/STOW to get you to the PDS member you specified. This is how your PDS member gets created, and so you need to use a program that actually OPENs the file (IEBGENR, IEBUPDTE, IEBCOPY, IDCAMS, etc would all work).
One small unrelated comment is that you might want to be careful about updating datasets (especially PDS) using DISP=SHR. If you manage to get the timing wrong, two of these jobs could in theory run at exactly the same time, and this would likely cause corruption to your dataset. Unless you're certain you're the only task accessing the PDS, it's safer to use DISP=OLD in this case.