Somehow, you must turn the container into a subject.
The main problem here is to find an efficient way to notice changes. Most of the time when you run into this problem, it's because the thing you want to observe doesn't offer an efficient notification mechanism (probably because the observer design pattern wasn't invented when they thing was written).
[EDIT] Since you ask for an efficient way, the general answer is "it depends". Design patterns don't have a "one-size-fits-all" solution. They are general rules how to approach a problem. How you need to implement the rules in a specific situation is something that you solve when you're in the situation.
Generally, if your observers need to identify small changes (i.e. an attribute change or adding an element), the notification message should contain enough information that they can do this efficiently. So if you have a big list and an insert, send the list and the index of the new element plus "item as inserted".
As for attribute changes, there are two solutions. One is to add an observer to every element in the list. This can be slow and need a lot of RAM but it means you can add several types into the same list.
Alternatively, you can have a "modify item in list service". This means that it's forbidden to change items directly, you must always use the service. The service can then work as a subject and send notifications with the item, the old and changed value and possibly with the index in the list.
[EDIT2] The general rule is to collect as much information about the change as possible and pass that to the observers. But it really depends on your specific problem. Let's say the observer is sitting on a remote machine. In this case, there is no efficient way to send it the whole list. You can only send it "item X was inserted" and hope that's enough. If the container has no way to notice changes (for example, new web pages on a web site), the container has to traverse the whole site again and again to find changes which it can then tell the observers in an efficient manner.
Again, the details really depend on the specific situation. Google runs thousand of web spiders which visit millions of web pages every hour. For a long time, this was "efficient" (as in "the only way"). A while ago, the "sitemap" protocol was implemented which allows admins to turn their web sites into subjects that can tell the Google observer about changes.
So unless you can give a more specific example what you need to do, I can't give you a more specific answer. With design patterns, there is a point where you need to sit down, take a real problem and turn on your brain.
[EDIT3] Here are a couple of examples for uses of the observer pattern:
Many UI frameworks use this pattern to spread events to interested parties. In Qt, you have a central spot where all subjects can register their signals (notifications they will send) and where observers can attach to subjects. This means there is a single spot where all connections are managed. The advantage is that you don't need to add this data structure to every object. Also, objects from outside (non-Qt objects) can send and receive messages. Since everything is in a single place, this data structure can be optimized easily. The drawback is that this structure can become very big, so sending a message will take more time when there are more parties involved (even ones which are completely unrelated).
Google uses the sitemap protocol to turn web sites into subjects since that's much more efficient than traversing the whole site again and again, even if you only request the last modification time of a URL (HTTP HEAD instead of HTTP GET).
Filesystems in Windows and Linux offer notifications to tell applications about new or deleted files. The main problem here is what should happen when files change while an application doesn't run. Say you have an app which maintains checksums of files in a directory. Obviously, you'd like to know about changes when the app was down but that would mean the notification service would have to keep track of the last change it sent. So here, the app has to read the whole tree in at startup to see anything it might have missed and it needs to use the observer pattern for changes happening while it runs.
A mail client is an observer. It will tell the mail server the ID of the last email it has seen and the server will tell it about any new ones.
When you have lots of attribute changes in a complex model, it's usually the only way to centralize all changes (make them run through a single place) and attach the observers there (instead of attaching N observers to M individual objects). In this implementation, the observers can say "I'm interested in any change anywhere" or "a change of the field X in any subject" or "any change in subject Y" (the last one usually doubles as a "change of field X in subject Y" - the observer will simply ignore changes to fields != X).