You actually have several different problems to address: development, testing, deployment into production, monitoring production.
Normally you want to do development on equipment that is separated from production using data and an environment that is similar to production yet has all of the nice things that development needs to be efficient and effective such as test harnesses, debuggers, loggers, automated unit testing, etc. The data needs to something similar to what is in production but not production data since in most cases production data must be secured. Also with development having its own manufactured data, it allows for the testing of specific scenarios as a part of designer test.
I would recommend having a standard test data set to which developers add as changes are made to the source code and functionality of the system. And the addition/modification of test data is a change that needs some kind of formal or semi-formal process with some thought behind it or you will end up with a mess. Entropy is real for software systems just as it is for physical systems tending towards chaos and disarray.
The testing environment needs to be separated from the development environment and to be as close a representation of the production environment as possible. You probably want two versions of the test environment, one for testing functionality with additional data capture to be used for a first pass verification in order to capture data development will need to fix problems found and a second that replicates production as closely as possible in order to get an idea as to efficiency issues.
Developers should not be allowed to put development tools onto the testing environment. I have seen cases where something was rolled into production that crashed the system because a component was missing that the development environment provided. You want to catch these kinds of issues in the testing environment.
Deployment of new system versions need to be planned so that you can roll back the changes if something goes wrong in production.
The main thing is to isolate production from development as much as possible so that you know exactly what is in the production servers. And when yo change what is on the production servers you have a pretty good idea as to what is changing and why and the effects of the changes on the production environment.
This is where the use of a repository such as Mercurial or Subversion places a quality control role. The idea is that what is in the repository is what goes into testing as a complete package. Once testing is completed on a particular package and the quality is good then the package goes into production.
This is also where you need to have a gold version of your production environment. In the interests of stability, you want your production environment to change in a controlled and methodical way. Everyone has seen an update come through that causes a previously working application and functionality to crash so you want to manage that process of updates.
So if you have a gold version of your production environment, an image of some kind then you can use that to replicate additional servers, your test environment, and your designer test environment. The additional variations of your production environment will have their own packages with the additions to the production environment that they need for instance the development environment would be the production environment plus the development environment with its tools, designer test data, etc.
This is where virtual machines are so handy.
This sounds laborious and inefficient and it is. However people make mistakes and this kind of a process helps to reduce the chance that a mistake will make it into production.