[edited to get rid of debating terminology]
The Davis Wing emphasized less drag for a given amount of lift. To do that, it had those characteristics including a laminar-flow design -- intentional or not, I have no idea, but without the laminar-flow characteristic, according to the following, the Davis Wing probably would not have been adopted, so that part was perhaps most important.
http://en.wikipedia.org/wiki/Davis_wing
Yes -- that was my point above. Dirt, paint, bugs, footprints, design variation, skin wrinkles, scratches, airframe vibration, turbulence from the propeller, etc. all mean that in practice (not theoretically, or with a perfectly smooth version in a perfectly clean lab) those laminar-flow wings (or "wings based on laminar-flow airfoils" or whatever folks want to call them) did not fully produce laminar flow. However, they did seem to have significantly lower drag than other non-laminar-flow designs and so were good wings in that regard. (That might be because they still had laminar flow for at least a portion of their chord, as Chalenge says -- that is not the point I was debating with him.)
I'm not trying to be obstinate Brooke--its important to understand the difference between the characteristics of wing design and the airfoils that are used on them. Wings by themselves shouldn't be considered as "laminar" as wing design does not generally contribute towards laminar or turbulent flow.
Wing design considers planform shape, aspect and taper ratios, wing tip design, wing to fuselage placement, anhedral or dihedral, sweep, etc. The P-51 wing design was, like the Davis wing, a remarkable step forward in aerodynamic development. They further increased the efficiency of both wings by using airfoils with low profile drag.
Airfoil use introduces the concepts of "laminar" versus "turbulent" airfoils. All airfoils experience laminar flow. Generally speaking, any airfoil that can maintain
theoretical laminar flow beyond the 30% chord region is considered a "laminar" airfoil. Any airfoil who's boundary layer is interrupted short of that 30% region is considered a "turbulent" airfoil.
The P-51 has a laminar airfoil, regardless of whether or not it achieves it in the service condition, because it fits the definition. That same airfoil on a wing made of composites would definitely generate laminar flow, even in the service condition. You are correct that service P-51s suffered from dings and dents that would have interrupted laminar flow in flight, but it still is considered, from a design perspective, to have a laminar airfoil.
The B-24, on the other hand, achieved most of its low drag characteristics as a result of wing design. I haven't analyzed the airfoil in XFOIL, but from the Wiki description you linked, it would appear that the airfoil itself was a very efficient, turbulent (by definition), airfoil.
This may sound like semantics, but its not.
@Chalenge, I'll respond to your post later today...
(good discussion regardless...)