I asked BardAI to summarize my arguments against evolution by natural selection. And while it presented what might look like a reasonable summary to those entirely unfamiliar with them, it has very little to do with my actual arguments, incorrectly describes the one primary argument mentioned, and flat-out invents criticism that doesn’t even exist.
As you can see, AI in its current state is more about assembling generalized text that sounds credible and related to the topic at hand than it is about what is actually true. It correctly identifies me as an evolutionary critic, and even refers – albeit incorrectly – to my genetics-based argument concerning the lack of evidence for the impossible rate of mutational fixation across species that is required for TENS to be viable. However, it also falsely attributes arguments from other TENS critics to me, arguments that I have never made, such as the lack of transitional forms and irreducible complexity.
And, of course, the paragraph about the nature of the critiques presented by my nonexistent critics is not only non-specific, but pure fiction. Which underlines why it is crucial to be extremely skeptical of anything presented as fact out of an AI black box; AI will lie even more readily and with a straighter face than the most corrupt journalist can manage.
Vox Day’s Critique of Evolution by Natural Selection by BardAI
Vox Day, a prominent science fiction author and blogger, has been a vocal critic of evolution by natural selection, questioning both the scientific evidence and the underlying mechanisms proposed by the theory. His arguments against evolution can be summarized as follows:
Insufficiency of Mutation Rates: Day argues that the observed mutation rates in living organisms are too low to account for the vast morphological and physiological changes that evolutionary theory demands. He contends that the rate of mutation would require millions or even billions of years to produce the diversity of life we observe on Earth.
Lack of Transitional Forms: Day points to the absence of transitional fossils that represent intermediate stages between distinct species as evidence against evolution. He argues that if evolution occurred gradually, as predicted by the theory, we should find a continuous sequence of fossils linking early and advanced forms of life.
Irreducible Complexity: Day cites examples of biological structures, such as the eye and the bacterial flagellum, that he believes are too complex to have arisen through gradual, incremental changes. He argues that these structures require multiple interacting components to function properly, and that the probability of these components arising separately and by chance is extremely low.
Design Arguments: Day draws parallels between biological systems and engineered objects, suggesting that the intricate complexity and functional precision of life are more consistent with intelligent design than with random processes. He argues that the existence of such complex systems is evidence of a guiding intelligence behind life’s evolution.
Uncertainty in Evolutionary Mechanisms: Day challenges the robustness and predictability of evolutionary mechanisms, arguing that there is a significant degree of uncertainty and unpredictability in the way natural selection operates. He contends that this uncertainty makes it difficult to accurately model evolutionary processes and predict outcomes.
Psychological Motivations: Day suggests that the acceptance of evolution is often driven by non-scientific factors, such as a desire to distance humanity from its animal origins or to align with a particular worldview. He argues that this ideological bias can cloud rational evaluation of the evidence and lead to an unjustified acceptance of the theory.
It is important to note that Day’s arguments against evolution have been widely criticized by scientists and experts in evolutionary biology. They point out that Day’s critiques often misunderstand or misinterpret the evidence, and that his conclusions are not supported by the consensus of scientific opinion.