MongoDB has no cascading deletes. When your application deletes data, it is also responsible for removing any referenced objects itself and any references to the deleted document. But usually when you use
on delete in a relational database, you have a case of composition where one parent object owns one or more child objects, and the child objects are meaningless without the parent. In that situation, MongoDB encourages embedding instead of referencing. That means that you create an array in the parent object, and put the complete child documents into that array instead of keeping them in an own collection. That way they will be deleted together with the parent, because they are a part of it.
While keeping more than one value in a field is an absolute no-go in SQL, there is nothing wrong with that in MongoDB. That's because the MongoDB query language can easily work with arrays and embedded objects. You can even create indices on fields of sub-documents in arrays, so you can easily search for objects which are embedded in other objects.
When you still want to reference objects from another collection, you can either use a DBRef, or you can also use any other unique identifier (uniqueness is one of the few things which can be enforced by MongoDB. To do so, create an unique index with the createIndex command). But MongoDB does not enforce consistency in this case. You can create DBRefs which point to non-existing ObjectIds and when the document the DBRef points to is deleted, nothing will happen. The application is responsible for making sure that when it deletes a document, all documents which reference it are updated.
Constraints can not be enforced by MongoDB either. It can't even enforce a specific type for a field, due to the schemaless nature of MongoDB. Again, your application is responsible for making sure that the data it puts into mongodb is following specific specifications. When you want to automatize this, there are object-relational mapping frameworks for MongoDB for many programming languages available.
To wrap it all up: MongoDB is not as "smart" as SQL databases. It doesn't do much on its own. It does what it is told to do by the application, not more and not less. But that's the reason why it's so fast (no expensive consistency checks) and flexible (no database modifications necessary to implement new features).