I suggest you start using your training, then. The issues you're raising are some that any geologist should be familiar with, at least to the point of being able to discuss intelligently. I mean, most of this (as well as most errors people make in terms of evolution) are discussed in introductory biology classes, the Gen Ed courses. If your paleo professors were worth anything, you've discussed these in far greater depth than your comments indicate.
Actually I am, it depends on what camp you are in I guess as to how things happen. I believe in punctuated evolution, I also believe that dna can only point to relationships, the regression software used is totally out of line and faulty. I also believe that an impactor did not kill off the dinosaurs (show me the bones, and I already know about those that were relocated by natural processes)
It's a law of evolution when it comes to animals (plants, bacteria, and other organisms behave differently). Speciation in animals, using the biological species concept, occurs when reproductive isolation produces populations that will not interbreed, even when they are given the opportunity. There may be nothing physically preventing them (I'm thinking of fruit flies that lay eggs in pears and apples, and which have different mating seasons, but which are physiologically nearly identical), but if they will not interbreed they are different species.
(Well, in truth, as usual with biology, it's messier than that--different species have interbred and yielded viable offspring. Mules, for example, aren't always sterile. But that's another topic enitrely.)
So, you do not accept the studies of lizards in the last 40 years as much more than words on paper for someone to get a degree and mean little in the real world of evolution and only theoretical?
This is a silly question. It depends on your definition of "species" (not all of us agree on one common definition, or even if the term is valid/useful), and the taxa in question. As I said, for animals, yes, this is it. For plants, hybredization can cause speciation. Bacteria are just weird, and I don't pretend to understand them.
Ok, your talking interbreeding being a key term. Are you just basing your answers on what you have read and been told and not reading up on something before you dive in? you comment about me, but frankly, you are extremely biased on what is and isn't evolution it would appear.
In equines, you have 32, 44, 46, 62, and 64 chromosomes, all can interbreed, and some of the offspring can be fertile. there is a law there that describes which ways will produce fertility.
I'm a paleontologist, and I thought *I* was fairly hard-core about how my science provides the best explination of evolution. You leave me in the dust. I mean, even I'll admit that the squishy biologists (a term I use to annoy my sister, who's studying to be a nurse) have valid evidence for evolution! I mean, the whole concept of using DNA to study evolutionary relationships is pretty much exclusively a squishy biology thing, as is ontology, behavioral studies, the entirety of The Origin of the Species, all fruit fly studies, the whole "Let's see if we can build a dinosaur from a bird" thing, animal husbandry, genetic engineering....
So, explain how building a dinosaur from a bird is squishy. seems pretty sound and based in fact at this point (species of chicken with teeth, getting tail vertebrae to grow, it's only about switching on and off genes, and then the soft tissue issue, which won't provide dna, but does provide more proof that birds are dinosaurs and not a distinct branch of archosauria.
Paleontologists study how evolution happened to occur in the Earth's past. We do not presume to have a monopoly on the topic of evolution. We cannot look forward very well (no rocks from the future), and we are limited to morphology (more or less). In short, paleontologists study how evolution DID happen. Everyone else can freely discuss how evolution COULD, CAN, and MUST NECESSARILY happen (in other words, the theoretical framework).
