| There are several ways I can think of to falsify "speciation-by-random-mutation": - Show the average mutation rate the theory claimed is not as high as was needed to drive the amount of speciation we see (this particular experiment could have added data against that instead of in support of it). - Show that the rate of needed mutation rate to see the observed speciation amount would drive too much detriment for "workable" mutations to propagate. I.e. "if you need x mutations per generation to get y useful ones and we've seen at least z of y then the amount of bad x mutations would have overwhelmed the population". - Run these types of long run experiments several times with animals with extremely low lifespans (i.e. days like fruit flies) and show the population's DNA is extremely stable over many years with no mutations occuring, casting doubt into the assumption mutations are occuring often enough to drive changes needed for speciation to occur so often. You'd also have to convincingly explain why the error has been in most all of the previous experiments rather than yours e.g. some listed here https://en.wikipedia.org/wiki/Laboratory_experiments_of_spec... - Find significant quantities of speciation which don't appear to be well explained by speciation-by-random-mutation and propose a different testable and falsifiable theory which explains not only those better but the others just as well as speciation-by-random-mutation did. - And of course, the Bingo "free space": reproducibly demonstrate alternative means of speciation directly. Really you can bundle "experiments attempting to support the speciation-by-random-mutation concept" (of which we've attempted many) into the same bucket as "experiments attempting to falsify the speciation-by-random-mutation concept". The only difference between which bucket they end up in is whether the outcome of the experiment agreed with the current theory or not. |