... But, you have failed to explain why evolution on a macroscopic scale can't happen - at what point does some mysterious force prevent small genetic variations from adding up into large variations? If evolution is false, which you have so far failed to demonstrate, then by what mechanism does the diversity of life come about? ...
One: I've never said it was false. I've said it lacked sufficient experimental rigor.
Two: There is no need for me to present an alternative hypothesis. I don't have to know or claim to know what actually happened to say a hypothesized sequence of events doesn't convince me.
Three: I haven't moved any goalposts, but I believe you are accurate in that I haven't clearly stated where I've placed them.
I see Natural Selection as a spanning subset of Selection. Therefore if a particular outcome is to be conceivable as a result of Natural Selection, one need only demonstrate it is a subset of Selection. At present I accept only those results that have been demonstrable using Selection as proven outcomes for Natural Selection. To prove all the proposed outcomes for Natural Selection one must demonstrate their feasibility through deliberate Selection.
At present, this also means that any evolutionary hypothesis I accept as theory is going to exclude abiogenesis.
Furthermore, I see Selection taking place within several areas of Life. This is to say I differentiate between plant and animal life, and level of complexity of life. Mostly this is used to ask assuming Evolution brought the organism to it's present state, is Evolution still possible at this state?
The Evolutionary hypothesis has several stops on its path, each of which I think need to be proven, most of which are, either inductively or directly:
1. Variation.
The ability of a species to have variances within it's population and still be able to reproduce.
Proven.
2. Predictable Variation determined by parentage.
Animal Husbandry did this before Mendel, Darwin and Wallace.
Proven.
3. Speciation.
The ability of a representative descendent species to be unable to procreate with representatives of it's ancestor species.
Mostly proven. It has been observed, possibly deliberately produced. The sticky point becomes the ability for a sufficiently large population of the speciated variety to come into existence at the same time to be viable as a population. The number needed varies depending on the type of critter of course. It's much easier with plants or microscopic creatures than frogs, which are again much easier than mammals. I think the area where the proof is a bit weak are in the 'higher' lifeforms, however that link (I think it was AI or Apostate Abe posted) regarding the ring of seagulls that were compatible with their neighbors but not wholly bidirectionally is definitely compelling.
4. The ability of speciation to develop new variations not within the scope of variation for the ancestor species.
This is the one I think needs real solid, rigorous controlled experimental proof. That it is inductively plausible is not sufficient. That fossils suggest it is not sufficient. I'm waiting for the experiment that shows a created branch that produces descendents different from their control group in a manner on par with (or at least very suggestive of) the difference between cheetahs and rabbits.
Not (to my knowledge) Proven.
Though, the apparent generation of a multicellular organism from a colony originally composed of unicellular organisms is damn close. The weakness is that it was an accident and lacked sufficient controls be certain of the cause of the new organism showing up. Finding a previously unknown organism isn't proof of evolution unless you can positively identify the parent structure and observed the birthing. If those restrictions can be met by the AKC to prove lineage, then surely they can be met by a laboratory.
I also recognize the generation of new variation possibilities can be attributed to mutations that manage not to result in non-viable offspring. That's an area that I don't know how to account for, nor have I heard of experiments to deal with. But it without demonstrating that speciation can produce new types of variation, one must resort to mutation, and I don't see 'mutation' as a get out experiment free card.
