This is my understanding and may not be entirely right.
Typically in a database implementation B Trees are used for indexes, so unless you want to force your user to index every column, defaulting to creating a B Tree for each field is unnecessary. Although this many indexes will lead to a fast read in virtually every case (with an index on everything, you wont have to do a full table scan), it will also cause an extremely slow insert/update/delete, as the corresponding data has to be updated in each tree. As I'm sure you know, modern databases for you to have at least one index (the primary key), so you will have at least one B Tree with a key for the primary key, and a pointer to the appropriate node.
Every node in a B Tree index should have a pointer/reference to the full object it represents.
Future indexes created would include the attributes you specify in the index, such as song name, artist, etc, however will still contain the pointer/reference to the corresponding node. Thus when you modify, lets say, the song title, you will want to modify the referenced node which all the indexes reference. If you have any indexes that have the modified reference as an attribute, you will have to modify the values in that index itself.
Unfortunately I believe you are correct in your belief that you will have to brute-force your way through the other B Trees when deleting/updating, and is one of the downsides of using alot of indexes (slowed update/delete time). If you just delete the referenced nodes, you will likely end up with pointers to deleted objects, which will (depending on your language) give you some form of a NullPointerException. In order to prevent this they references will have to be removed from all the trees.
Keep in mind though that doing a full scan of your indexes will still be much better than doing full table scans.