My take on this subject is that, xml configuration reduce the clarity of the code, especially in large systems.
Annotations like @Component makes things even worse. It steers developers to make objects mutable, as dependencies can't be made final anymore, given that default constructors need to be provided. Dependencies need to be either injected through public setter, or uncontrolled through @Autowired. [even worse dependency injection is compromised with classes that instantiate their dependencies, I still see this in newly written code!]. By uncontrolled I mean, in large systems, when multiple implementations (or children) of the type are available, it gets much more involved to understand which of the implementations was @Autowired, a complexity that makes investigating bugs much harder. It also means that, supposedly you have a profile for test environment and another for production, your production bugs will only happen when it hurts most - in production, rather than being able to spot the bugs in the test environment, or even better, at compile time!
I stick to the middle ground where I declare my configuration class(es), (java based Spring configuration using @Configuration)
I declare all my beans explicitly in the configuration class(es). I only use @Autowired in the configuration class(es), the purpose is to limit dependency on Spring to the configuration class(es)
The @Configuration reside in a specific package, that's the only place where the spring scan runs. (That speeds up start time substantially in large projects)
I strive to make all my classes immutable, especially the data object, JPA, Hibernate and Spring, as well as many serialization libraries seem to undermine this. I steer away from anything that forces me to provide setters, or remove the final keyword from my property declaration.
Reducing the possibilities of changing objects after they're created, reduces substantially the bugs in large system as well as reduces the time to find a bug when one exists.
It also seems that it forces developer to better design the interaction between the different parts of the system. Problems and bugs become more and more compilation errors, that reduces wasted time and improve productivity.