Mutation influencing the evolutionary process are easily see in micro-organisms as they have such a prolific turnover rate.
Animal husbandry has also produced a wide range of variations in domestic animals.
So you are defining mutations and cross breeding as "evolution?" My experience shows that this produces a weaker animal, not a better one. The fact that humans have to go in and alter the dna actually disproves evolution.
Mutations, adaptions and or variations drive the evolutionary process. Cross breeding "human manipulation" readily shows us the various ways that it may express itself. Superior/Inferior who knows, what may be beneficial today may become detrimental tomorrow, many animals have evolved there way to extinction.
The key that you're missing though, is that mutation always, without exception, limits genetic variability. A common sparrow may evolve a special beak, but in so doing, is forever limited by that transition. Unless you're talking about epigenetics, where genes are turned on and shut off by environmental factors, evolution is strictly a one-way track. That allows for adaption, but not speciation. A dolphin cannot evolve into a dog, or vice versa.
Evolution occurs, it's happening around us now,
Sauce?
Mutation influencing the evolutionary process are easily see in micro-organisms as they have such a prolific turnover rate. Animal husbandry has also produced a wide range of variations in domestic animals.
So you are defining mutations and cross breeding as "evolution?" My experience shows that this produces a weaker animal, not a better one. The fact that humans have to go in and alter the dna actually disproves evolution.
Good answer! ✔️
Mutations, adaptions and or variations drive the evolutionary process. Cross breeding "human manipulation" readily shows us the various ways that it may express itself. Superior/Inferior who knows, what may be beneficial today may become detrimental tomorrow, many animals have evolved there way to extinction.
The key that you're missing though, is that mutation always, without exception, limits genetic variability. A common sparrow may evolve a special beak, but in so doing, is forever limited by that transition. Unless you're talking about epigenetics, where genes are turned on and shut off by environmental factors, evolution is strictly a one-way track. That allows for adaption, but not speciation. A dolphin cannot evolve into a dog, or vice versa.
Lloyd Pye is a good place to start. Robert Sepehr address the rh issue in detail. Several microbiologist of faith explain the DNA gaps.