(This is in response to your own answer, which is only partially correct)
You've got a case of Z-fighting going on, due to the mapping of your scene's Z values, to the z-buffer. This may be a non-linear mapping (1/f(Z) is common), but I'm not sure on floating point z-buffers.
Your scene is really simple, and while chunking more z-buffer range at the problem is a partial solution, it's at the cost of performance, and not really understanding the issue. You may well run into this same problem again even with the highest possible precision z-buffer you can use on your platform!
Look at your scenes; you want to map the z-range in the 3D scene, to the maximum possible range of values the z-buffer can store, else you're wasting chunks of the range of numbers the z-buffer can store. Calculating this mapping per-frame can be useful, depending on what you want to do with the z-buffer later on.
Have a look here for some calculations. Note, that with a floating point z-buffer, you may well be worse off than with an integer one if you're chucking away a lot of small numbers - that's where the vast majority of possible storable values of a floating point number are!