Interesting stuff. I'm kinda busy so wont be able to post too much myself for the next month or so, but should be the start of a good discussion, given it wont be long until the winter is over
One thing though, I seem to recall that cold downdrafts do inhibit tornadogenesis...in simple terms, mostly since the cold air wants to sink and diverge and not converge and rise. Tornadic storms seem to possess a somewhat buoyant RFD ie is relatively warm and moist and promotes upmotion in close proximity to the low-level mesocyclone. I noticed this chasing before I had read anything about it. That's just one reason why LCL height is important (lower reduces evaporative cooling).
Also not being in the field at all, I don't keep up with the latest research, but again, I have read that RFD generation in supercells in thought to be a dynamic process (ie think of downdraft air as being sucked down rather than simply being more dense), due to vertical pressure pertubation gradient. It is really all so complex and so fascinating and one reason why I love chasing supercells, where as simple convection (ie including those damn volcanic eruptions) is not nearly as appealing to me personally
Right, Jimmy!
As for the tornadoes, well we did mention couplets some time back. In some cases I have seen subtle anti-cyclonic circulations at cloud base and assume this to be simply the result of the RFD intrusion (I imagine it like a paddle cutting through the water producing two vortices with opposite sense of rotation). In other cases, it may be the result of presence of meso-anticyclone aloft. Then there can be landpouts along the flanking line if sufficient lapse rates and horizontal vorticity co-exist.
Look forward to reading others thoughts!
