Category: Evolution
Dave Ussery Ruminates about The Edge of Evolution
The first part of Professor Ussery’s review of The Edge of Evolution on the website BioLogos is mainly an exercise in throat clearing, where he describes his “philosophical and personal perspective,” notes that he and I agree on common descent, and correctly points out that my book concerns the mechanism of evolution. In the second installment Dave begins to show that he somehow just doesn’t get the big points of the book. In writing of the sickle cell and other antimalarial mutations which degrade the genome, I had said that they were “hurtful.” He misunderstands this, writing, “the example [Behe] gives us is not a ‘good mutation.’” But the sickle cell and other antimalarial mutations most certainly are “good” mutations Read More ›
BioLogos Voices Sing the Same Old Tune
I normally do not respond to criticisms and reviews of my work that are simply posted on the internet. Rather, I engage reviews, comments, and articles that appear in journals or prominent newspapers and magazines. The reason is that those printed venues usually ask noted scientists or philosophers to review books, so that they are very likely to contain the most pertinent and insightful comments. After all, if a book challenging Darwinian evolution is reviewed separately by the likes of Sean Carroll, Jerry Coyne, Michael Ruse, and Richard Dawkins, then the odds are good that they would have discovered any major errors, if such there be. However, if upon considering their criticisms, we see huffing and puffing instead of reasoned Read More ›
The Darwinian Basis of the Prokaryote-to-Eukaryote Transition Collapses
The question of the evolution of eukaryotic cells from prokaryotic ones has long been a topic of heated discussion in the scientific literature. It is generally thought that eukaryotes arose by some prokaryotic cells being engulfed and assimilated by other prokaryotic cells. Called endosymbiotic theory, there is some empirical basis for this. For example, mitochondria contain a single circular genome, carry out transcription and translation within its compartment, use bacteria-like enzymes/components, and replicate independently of host cell division and in a manner akin to bacterial binary fission. Despite such evidence, however, when assessing the causal sufficiency of unguided processes, they — predictably — come up short. After all, it is all-too-easy to lapse into a long-discredited Lamarckian “inheritance-of-acquired-characteristics” mentality. It Read More ›
Adaptive Immunity: Darwinism in Miniature or High-Tech Tinkering with Stasis?
[Editor’s Note: Today we present part five out of six in a series by microbiologist Donald L. Ewert. These posts are responding to the BioLogos Foundation’s blog where Kathryn Applegate argued that “random” processes that generate antibodies illustrate the creative power of Darwinian evolution. Previous installments of Dr. Ewert’s rebuttal can be found at the following links: Part One, Part Two, Part Three, and Part Four.] Kathryn Applegate’s main point is that if “natural” processes — which she characterizes as “random” and “blind” — can be used to generate antibodies, the same mechanisms presumably could be used to “create life over long periods of time.” The question addressed here is: Do the terms “random” and “blind” accurately describe the mechanisms Read More ›
Not By Chance: Controlling Affinity Maturation
[Editor’s Note: This is part four of a six-part series from microbiologist Donald L. Ewert responding to Kathryn Applegate, of the BioLogos Foundation, in her arguments that the vertebrate adaptive immune system illustrates the claimed creative the Darwinian mechanism. Previous parts of Ewert’s response can be found at the following links: Part One, Part Two, Part Three.] Pathogen-directed activation of the immune response The initiation of an immune response is designed so that the cellular and molecular components that are best equipped to deal with a pathogen are engaged. There are basically three response pathways. Non-protein antigens that have repeating carbohydrate units on their surface, such as are found on bacteria, can directly activate B cells. These B cell do Read More ›