Answering my own question, or at least summarizing findings:
So far as I can tell, there is no complete answer to the question as I posed it. What I have learned is this:
 Remy's solution is the way to go if the base item class (here TBaseCopyable) has no state, and either is abstract, or methods don't need to refer to other objects of the same type. (Eg: TBaseCopyable would have no fields and only abstract methods.)
 A significant issue is how to specify a generic class whose descendant classes can specify method arguments and return values of the same type as their enclosing class. In Remy's example, that is accomplished in the descendant class declaration:
TMyCopyable = class(TBaseCopyable<TMyCopyable>)
This means that in the generic class, T will be replaced by the ultimate class of interest.
 However, within TBaseCopyable's generic declaration, the information that T is always a TBaseCopyable is not available, so in TBaseCopyable's implementation, references to objects of type T won't be able to see TBaseCopyable's methods or fields.
This would be solved if we could set a constraint on T to tell the compiler that T is a TBaseCopyable.
That's apparently the approach in C#:
In Delphi, I think that would go like this:
TBaseCopyable<T: TBaseCopyable<T> > = class
like Remy shows for MyCollection. However, that syntax is not legal within the same class declaration (error: undeclared identifier TBaseCopyable), because TBaseCopyable is not yet fully defined. We might think to create a forward declaration for TBaseCopyable (like we would for non-generic classes), but that throws an error, and apparently it's not supported by the compiler:
 Maybe the generic class could inherit the implementation?
What if we did this:
TBaseCopyable<T> = class(TBaseCopyableImpl) ...
That would allow TBaseCopyable to have some fields and methods that could refer to each other. However, even if those methods were virtual, they would impose fixed argument/return types on the descendants, the avoidance of which was the rationale for using generics in the first place.
So this strategy is only good for fields and methods that don't need to specialize in the descendant types... for example an object counter.
This question turns out to concern the somewhat-known "Curiously recurring template pattern": http://en.wikipedia.org/wiki/Curiously_recurring_template_pattern. Even though it seems what one is trying to accomplish is simple, there are theoretical problems behind the scenes.
The situation appears to call for a language keyword meaning something like "Same type as my enclosing class". However that apparently leads to covariance/contravariance issues -- violations of the rules of which types can substitute for which in inheritance hierachies. That said, it seems Delphi doesn't go as far as C# to permit as much of a partial solution.
Of course, I'd be happy to learn that there is a way to go further!
Oh, and I don't feel too bad struggling to get to the bottom of this -- even Ken Arnold thinks it's difficult: https://weblogs.java.net/blog/arnold/archive/2005/06/generics_consid.html#comment-828994