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Saturday, 17 February 2024

Yet more on one of our planet's other civilization.

 Ants “Think” Differently from Humans


There are some 20 quadrillion ants living in the world today. John Whitfield offers an essay at Aeon on the factors underlying the successful spread of vast colonies from, say, South American to Europe — by piggybacking on human journeys.

Whitfield, author of Lost Animals: The Story of Extinct, Endangered and Rediscovered Species (Welbeck 2020), resists the temptation to compare ant dominance to human dominance of the globe, in part because, well, ants think differently. Here are a couple of the questions he answers in his sparkling and informative essay:

Why Do Ants Work So Well Together?

Recognition looks very different for humans and insects. Human society relies on networks of reciprocity and reputation, underpinned by language and culture. Social insects — ants, wasps, bees and termites — rely on chemical badges of identity. In ants, this badge is a blend of waxy compounds that coat the body, keeping the exoskeleton watertight and clean. The chemicals in this waxy blend, and their relative strengths, are genetically determined and variable. This means that a newborn ant can quickly learn to distinguish between nest mates and outsiders as it becomes sensitive to its colony’s unique scent. Insects carrying the right scent are fed, groomed and defended; those with the wrong one are rejected or fought.

JOHN WHITFIELD, “ANT GEOPOLITICS,” AEON, FEBRUARY 16, 2024

As Eric Cassell notes in Animal Algorithms: Evolution and the Mysterious Origin of Ingenious Instincts (2021) , all species of ants are social; there are no known solitary ants.

How Different Is Ants’ Way of Thinking?

The more I learn, the more I am struck by the ants’ strangeness rather than their similarities with human society. There is another way to be a globalised society — one that is utterly unlike our own. I am not even sure we have the language to convey, for example, a colony’s ability to take bits of information from thousands of tiny brains and turn it into a distributed, constantly updated picture of their world. Even ‘smell’ seems a feeble word to describe the ability of ants’ antennae to read chemicals on the air and on each other. How can we imagine a life where sight goes almost unused and scent forms the primary channel of information, where chemical signals show the way to food, or mobilise a response to threats, or distinguish queens from workers and the living from the dead? 

WHITFIELD, “ANT GEOPOLITICS”


Cassell suggests that colony communication is somewhat like a computer algorithm: The ant processes pheromones (scent signals) as if they were AND gates and STOP in a computer system (p. 91). Thus, the ant is not judging the situation and deciding whether to go along with the group or not — as a human might — but rather, processing a signal. Stanford entomologist Deborah M. Gordon calls the resulting communication without personal understanding the “anternet.”

Whitfield tells the story of Biosphere 2, a giant terrarium in Arizona, designed in the 1980s as a self-sustaining living system with no connection to the outside world. Developed to test the design of biospheres for space exploration, it fell victim in 1996 to the southeast Asian black crazy ant, which turned it into a honeydew factory.

So sometimes, sheer numbers and a viable social algorithm win out over high individual intelligence. But, in fairness, the eight humans who lived inside Biosphere 2 for two years did not seem to enjoy it much:

In pursuit of a third way? II

 Denis Noble in Nature: “Time to Admit Genes Are Not the Blueprint For Life”


Last November I reviewed an article in BioEssays which declared a Kuhnian “paradigm shift” away from the concept of junk DNA. That article compellingly argued that we need to abandon the notion that genes only make proteins because our genome is full of “RNA genes” that produce RNAs which perform vital functions. Now another groundbreaking article in Nature by Oxford emeritus biologist Denis Noble is calling for a major “rethink” of biology by charging that “It’s time to admit that genes are not the blueprint for life” because this “view of biology often presented to the public is oversimplified and out of date.” Noble is reviewing a new book, How Life Works, by Philip Ball. 

This is not to say that genes aren’t important for life — of course they are. It’s that they aren’t the fundamental blueprint that controls an organism. In fact, in a surprising twist, Noble argues that it’s the organism that controls the genome! Before we get there, we must review some of Noble’s striking discussions of the complexity of life. 

Life is Complicated

Those who travel in the intelligent design (ID) community know that we have often compared biological systems to machines. Now we have never intended to say that living organisms literally are machines — but rather that machine-like structures exist within living organisms, alongside many other features which may or may not be comparable to machines. The idea that life contains machine-like structure was explained eloquently by former U.S. National Academy of Sciences president Bruce Alberts, who famously wrote in the journal Cell:

[T]he entire cell can be viewed as a factory that contains an elaborate network of interlocking assembly lines, each of which is composed of a set of large protein machines.… Why do we call the large protein assemblies that underlie cell function protein machines? Precisely because, like machines invented by humans to deal efficiently with the macroscopic world, these protein assemblies contain highly coordinated moving parts.

Noble’s current Nature paper seemingly disagrees with Alberts’s use of machine-metaphors for biology. I think the metaphor still works in many cases, but before we explore Noble’s view, it must be understood that the reason for Noble’s disagreement with machine-metaphors isn’t because life is less complex than machines, but rather because it is MORE complex and the machine comparison fails to capture the true nature of life’s incredible complexity. Here’s what Noble writes:

For too long, scientists have been content in espousing the lazy metaphor of living systems operating simply like machines, says science writer Philip Ball in How Life Works. Yet, it’s important to be open about the complexity of biology — including what we don’t know — because public understanding affects policy, health care and trust in science. “So long as we insist that cells are computers and genes are their code,” writes Ball, life might as well be “sprinkled with invisible magic”. But, reality “is far more interesting and wonderful”, as he explains in this must-read user’s guide for biologists and non-biologists alike.

I don’t think that Noble is saying that the comparison between life and computers or machines is entirely inappropriate or completely irrelevant to anything we find in biology. Rather, I take him to be saying that life is “far more interesting and wonderful” than the idea that life is merely a computer or machine. If that’s what he’s saying, then I agree completely. 

Proteins More Complex than Initially Thought

Another area where Noble argues that biological systems are more complex than often appreciated is “intrinsically disordered proteins” (IDPs) — proteins that don’t have a stable three-dimensional shape. Brian Miller and I wrote about IDPs in a response to critics of Douglas Axe posted last year:

Venema (2018) cites intrinsically disordered proteins (IDPs), noting they “do not need to be stably folded in order to function” and therefore represent a type of protein with sequences that are less tightly constrained and are presumably therefore easier to evolve. Yet IDPs fulfill fundamentally different types of roles (e.g., binding to multiple protein surfaces) compared to the proteins with well-defined structures that Axe (2004) studied (e.g., crucial enzymes involved in catalyzing specific reactions). Axe (2018) also responds by noting that Venema (2018) understates the complexity of IDPs. Axe (2018) points out that IDPs are not entirely unfolded, and “a better term” would be to call them “conditionally folded proteins”. Axe (2018) further notes that a major review paper on IDPs cited by Venema (2018) shows that IDPs are capable of folding — they can undergo “coupled folding and binding”; there is a “mechanism by which disordered interaction motifs associate with and fold upon binding to their targets” (Wright and Dyson 2015). That paper further notes that IDPs often do not perform their functions properly after experiencing mutations, suggesting they have sequences that are specifically tailored to their functions: “mutations in [IDPs] or changes in their cellular abundance are associated with disease” (Wright and Dyson 2015). In light of the complexity of IDPs, Axe (2018) concludes:

“If Venema (2018) pictures these conditional folders as being easy evolutionary onramps for mutation and selection to make unconditionally folded proteins, he’s badly mistaken. Both kinds of proteins are at work in cells in a highly orchestrated way, both requiring just the right amino-acid sequences to perform their component functions, each of which serves the high-level function of the whole organism. (Axe 2018)”

Noble’s essay provides a direct vindication of our view of IDPs as dynamic, multi-functional systems. Yes, IDPs can adopt different three-dimensional structures, but that isn’t because their shape doesn’t matter but rather because they can switch from one shape to another — like miniature transformers — to perform different functions. And the shape is undoubtedly vital to their proper function in each case. Noble’s description of IDPs is striking:

Another metaphor that Ball criticizes is that of a protein with a fixed shape binding to its target being similar to how a key fits into a lock. Many proteins, he points out, have disordered domains — sections whose shape is not fixed, but changes constantly.

This “fuzziness and imprecision” is not sloppy design, but an essential feature of protein interactions. Being disordered makes proteins “versatile communicators”, able to respond rapidly to changes in the cell, binding to different partners and transmitting different signals depending on the circumstance. For example, the protein aconitase can switch from metabolizing sugar to promoting iron intake to red blood cells when iron is scarce. Almost 70% of protein domains might be disordered.

In other words, IDPs can switch from one shape to another in response to environmental cues or signals they encounter, and this allows them to perform multiple vital functions. Once again, the complexity of life appears to be greater than we expected. 

But what are the implications of all this for evolution? 

Questioning Classic Views of Evolution

In his review, Noble comes right out and says that “Classic views of evolution should also be questioned.” Now Noble is an evolutionist and not an ID proponent to be sure. But he seems open to more rapid forms of evolution that, from our vantage in the ID community, seem preprogrammed to yield favorable results that benefit the organism. Here’s what he writes:

Evolution is often regarded as “a slow affair of letting random mutations change one amino acid for another and seeing what effect it produces”. But in fact, proteins are typically made up of several sections called modules — reshuffling, duplicating and tinkering with these modules is a common way to produce a useful new protein.

Noble also thinks there’s a place for “agency and purpose” in biology. He’s not talking about the intelligent design of life by an external agent, but he is acknowledging that much in biology is purposeful, noting that multiple experts now argue that “argue that agency and purpose are definitive characteristics of life that have been overlooked in conventional, gene-centric views of biology.” Again, this isn’t the modern theory of intelligent design, but once we begin to allow agency and purpose into our understanding of how life works, we’re taking important steps towards being able to recognize design in biology. 

So, Where’s the Blueprint?

Noble offers various lines of evidence that the “blueprint” of life cannot be found in the DNA. He notes examples where hundreds of genes are involved in the development of certain diseases, suggesting that “It’s therefore a huge oversimplification … to say that genes cause this trait or that disease.” Moreover, rather than genomes controlling the organism, Noble notes that organisms themselves can “control their genomes” — suggesting genomes aren’t the foundation of life:

Ball is not alone in calling for a drastic rethink of how scientists discuss biology. There has been a flurry of publications in this vein in the past year, written by me and others. All outline reasons to redefine what genes do. All highlight the physiological processes by which organisms control their genomes. 

If “organisms control their genomes” rather than the classical reductionist view that genomes determine organisms, then perhaps it is time for a radical “rethink” of how biology works. Here’s Noble’s vision of the future:

Ultimately, Ball concludes that “we are at the beginning of a profound rethinking of how life works”. In my view, beginning is the key word here. Scientists must take care not to substitute an old set of dogmas with a new one. It’s time to stop pretending that, give or take a few bits and pieces, we know how life works. Instead, we must let our ideas evolve as more discoveries are made in the coming decades. Sitting in uncertainty, while working to make those discoveries, will be biology’s great task for the twenty-first century.

Noble’s vision of biology is one where dogma is discarded, new ideas are considered, agency and purpose are acknowledged, cells are more complex than computers and machines, proteins are like miniature transformers, and organisms control their genomes, is highly compatible with intelligent design — certainly far more compatible than the biological thinking of the past hundred years. This means biology is moving in the right direction. 

Friday, 16 February 2024

More Darwinian appeals to engineerless engineering?

 Fruit Fly Eyes and More Surprises for Darwin


Those tiny, pesky fruit flies have gotten no respect. Sprayed, swatted, and irradiated, the little flying machines have been treated by humans as better off dead. Hermann J. Muller got a 1946 Nobel Prize for blasting Drosophila melanogaster fruit flies with X-rays, finding that the barrage gave them lethal mutations. Scientists have manipulated their genes to make them grow legs out of their antennae or grow four wings, rendering them helpless. And worried farmers have convinced politicians to spray malathion over cities like Los Angeles to prevent invasions of fruit flies. But before killing off all these critters, it would be worth taking a closer look at their design.

Eyes’ Size

An adult fruit fly emerges from the egg and pupa in about two weeks. As the eyes are developing in a fruit fly embryo, an amazing process unfolds. A wave of signals sweeps across stem cells in the budding compound eye, switching on certain progenitor cells to stop proliferating and become unit eyes (ommatidia) and signaling others to undergo programmed cell death (apoptosis). The result is an “organ of extreme perfection” to call on Darwin’s phrase that is not only geometrically beautiful but functional for the fly — and it comes in matching left and right sides, like a pair of rubies.

Navarro et al. published a paper about how this works in PLOS Biology. In the same journal, Marco Milán from the Barcelona Institute of Science and Technology summarized the paper, explaining how the regulated process achieves “size precision” as the eye grows. Internal controls reduce “fluctuating asymmetry” (FA), a wobbly mismatch of size and shape. In effect, the growing cells of the eye do The Wave.

A new study unravels an organ-intrinsic mechanism of growth control in the developing fly eye that confers size precision through feedback interactions between proliferating and differentiating cells. This mechanismreduces eye size variability between and within animals, thus contributing to the symmetry between contralateral eyes and having a clear potential impact on eye functionality. In the growing eye primordium, a wave of differentiation moves anteriorly, whereby proliferative progenitors located anterior to the wave are recruited as differentiating retinal cells that exit the cell cycle (Fig 1). When the wave reaches the anterior-most region of the primordium, no remaining progenitors remain in the tissue, and the final eye size is attained. The movement of the differentiation wave relies on the activity of 2 morphogens [shape generators], the BMP homolog Dpp and Hedgehog (Hh), which are produced by differentiating retinal cells that signal anteriorly to nearby proliferating cells to recruit them as new differentiating retinal cells. 

The Barcelona team calls this “feedback control of organ size precision mediated by BMP2-regulated apoptosis.” The result is a geometrically perfect oval-shaped eye with 800 ommatidia neatly arranged like hexagonal cells on a curved honeycomb. The curved shape gives the fly greater than 180-degree visibility on each side. 

Much more must be going on, because bristles grow between each ommatidium to provide touch sensation for the fly, and each unit must be wired properly to the optic nerves going to the developing brain. What’s more, the two eyes must become exact mirror images of each other to prevent fluctuating asymmetry so that the fly can navigate with precision. The authors believe a similar process controls wing development so that the wings match. Imagine a pilot trying to maneuver a plane with one wing shorter than the other!

This one example illustrates an astonishing amount of control in an insect just a few millimeters in length. And they only investigated this in one organ — the visual system — while all the other body systems are also in the process of developing simultaneously: circulation, digestion, reproduction, muscular, flight, sensory, jointed appendages, and much more.

The authors, Navarro et al., make a logical mistake in how these controls came about:

Three features should have resulted in a strong evolutionary pressure to maximize the precision in eye size: First, size impacts vision directly, as image resolution and contrast sensitivity is proportional to the number of light sensing units in the eye; second, making and maintaining the eyes is energetically very expensive, so there is a pressure to match eye size to vision needs; and third, left and right eyes must survey a symmetrical part of the space, so eye asymmetry, which could be driven by developmental noise, should be minimized.

An unguided, blind process could not care about what “should” be done and is incapable of being pressured to do anything. Stephen Crane once quipped, “A man said to the universe: ‘Sir, I exist!’ ‘However,’ replied the universe, ‘The fact has not created in me a sense of obligation.’” Much less could molecules know about or care about “evolutionary pressure.” The authors are admittedly surprised how all these parts come together so neatly:

Biological processes are intrinsically noisy, and yet, the result of development — like the species-specific size and shape of organs — is usually remarkably precise. This precision suggests the existence of mechanisms of feedback control that ensure that deviations from a target size are minimized.

Right Flight

Here’s another fruit fly trick from recent news. How did the fruit fly make a sharp turn? This is not a joke. Sharp turns don’t just happen in a fruit fly because it has wings. They are controlled by specialized neurons. 

This month, Ros et al. published their findings in Current Biology about “Descending control and regulation of spontaneous flight turns in Drosophila.” In the same issue, Matthieu Lewis summarized the research about how and why fruit flies make sudden zigs and zags while flying.

Upon detecting an attractive odor plume, a fly surges upwind, followed by crosswind casting separated by counterturns when the plume is lost. While the sensory control of turning and casting is shared across most animals, little is known about its neural underpinnings. In a paper in this issue of Current Biology, Ros et al. report the identification and functional characterization of a pair of bistable descending neurons that orchestrate casting during flight behavior in the fly Drosophila.

These neurons, Ros et al. explain, consist of “couplets of one excitatory and one inhibitory descending cell form functional units.” As with many systems in biology and in engineering, an accelerator is paired with a brake, providing fine control with a push-and-pull combination of systems responsive to input from the surroundings. Particular “command units” of descending neurons enable a fruit fly to make sharp turns called saccades. “An array of excitatory and inhibitory neurons provides input to the saccade network,” the authors say about one of their major findings.

Within the central nervous system of insects, descending neurons (DNs) constitute a critical stage in the transformation of sensory input in the brain into motor commands in the ventral nerve cord (VNC). Drosophila possess ∼650 pairs of DNs, some of which appear to function as specialized command neurons for specific behaviors, including courtship, walking backward, turning, take-off, and landing. Thus, DNs provide a logical starting point for investigating the circuits that generate and regulate flight saccades.

Stop for a moment to picture this little millimeter-range creature containing 650 pairs of descending neurons each programmed for specific commands. One fires, and the fly walks backward. Another fires, and the fly comes in for a landing. Another fires, and boy fly courts girl fly. This sounds much more astonishing than a computer-controlled robotic drone. 

By ablating one or the other of the descending neurons (DNs) involved in saccades, the team supported their hypothesis that the couplet functions as a saccade-generating unit (SGU). 

The altered saccade dynamics and temporal distribution after ablation support the hypothesis that each DN can produce saccades independently of the other but with different dynamics than those of control flies. The results support a working hypothesis that the two DNs play complementary roles by activating different components of the motor circuit in the VNC responsible for generating saccades. Together, functional imaging, unilateral activation, and ablation experiments suggest that two pairs of descending interneurons, DNae014 and DNb01, function together as saccade-generating units (SGUs) to execute commands for spontaneous turns during flight.

Louis gives examples in other animals, from insects to mammals, that use a similar “sector search” strategy during navigation. But why would a fruit fly need to make a sharp turn?

Saccades are thought to benefit flying animals in several ways. From a sensory perspective, saccades may restrict the deleterious effects of motion blur to brief moments interjected within longer sequences of gaze stabilization. Brief bursts of saccades in the same direction may aid local search strategy by allowing the animal to quickly scan the local environment for salient visual and olfactory features. More recently, it has been suggested that comparing sensory measurements immediately before and after each saccade might enable flies to estimate key parameters that are otherwise not directly measurable, such as the direction and magnitude of the ambient wind. For all these hypotheses, the timing between saccades is critical…

Critical timing, fine control, and convergent strategies between unrelated animals — such concepts defy Darwin’s bluffing notion of the creative power of natural selection. At one point, the authors acknowledge that this looks like engineering.

The activity levels between the left and right DNae014 cells followed an inverse, highly non-linear relationship, analogous to “flip-flop” components in digital electronic circuits (Figure 1J) and reminiscent of neurons identified in the steering behavior of male silkmoths. Further, the DNb01 cells synapse directly onto contralateral DNae014 cells. This is a simple reciprocal inhibitory motif, consistent with a network responsible for binary 

More to Come

We’re not done with design in fruit flies. Next time, we will look at some of the sensory apparatus within these little insects. While fruit flies are convenient lab animals for study, undoubtedly similar systems can be found in even smaller flying insects like mosquitoes and gnats, all of which, being heavier than air, “evolved” powered flight and all their related systems because of “selection pressure.” Not.

In pursuit of a third way.

 Bad News for the “Theist on the Street”


Is mainstream evolutionary theory compatible with a biology-based argument for intelligent design? That’s the argument of theologian Rope Kojonen’s book, The Compatibility of Evolution and Design (CED). Kojonen contends that evolution (and biology) rightly understood actually point to design. His book is perhaps the best treatment available of design and evolution from a theistic evolutionary point of view. But does it succeed?

Casey Luskin, Brian Miller, Emily Reeves, and I have published a peer-reviewed article that analyzes Kojonen’s proposal. Here I will provide an epistemological critique. We’ll see that Kojonen’s model undermines itself by raising obstacles to design detection — including the very design detection that he uses to undergird his own design argument. 

Kojonen defends the perspective of what he calls the “theist on the street” — an everyday believer in God who accepts design based on direct perception or intuition rather than a rigorous design argument. Yet it turns out that his model actually undermines such a person’s design beliefs.

The Model

We summarize his model as follows:

The details of his proposal are manyfold, but the basic idea is straightforward: the locus of design is at the origin of the cosmos (or the laws of nature) (CED, pp. 164–67). God acts at the beginning of the universe, granting to it all that is necessary for biological complexity to eventually unfold. The deity creates the laws of physics and chemistry, which then give rise to preconditions — including “the library of forms” — that enable evolution to produce complex entities. Random mutations and natural selection alone are insufficient for the emergence of biological complexity; preconditions are required, and God ultimately stands behind these preconditions (CED, pp. 97–143).1

So God designed the laws of nature, which then give rise to laws of form and other processes, which eventually produce all flora and fauna. Thus, a person who sees, say, a hummingbird for the first time can rightly intuit (or infer) that it was designed. It’s just that the locus of its design was billions of years earlier and that natural processes transmitted and unfolded this design over time.

The Problem: Part 1

What’s wrong with this picture is that it harms humans’ ability to detect design in the first place. This is for two primary reasons, which build on each other. The first is that it damages a human’s “direct design” beliefs. A “direct design” belief is a belief that a certain type of thing, like a hummingbird, was created by the immediate action of a designer rather than by mediated or secondary causes. As we explain:

In our lived experience, humans readily attribute direct design to various types of biological phenomena. (This is not only true of “theists on the street”, for example, but also of some other people as well.) For example, consider a person who sees a hummingbird for the first time. A natural reaction is to think that this type of bird was directly designed. (“Wow! That’s spectacular. Somebody made that!”) In fact, humans often experience things like hummingbirds as distinct entities — what Axe (2016, pp. 65–86, esp. 71) calls “busy wholes” or what one might call “natural kinds”. That is, humans often experience an entity like a hummingbird as a certain type of thing, and they naturally believe that this type is the result of direct design. By contrast, it is rarely the case that, upon seeing a hummingbird for the first time, a typical person would say, “Wow! That’s specular. Somebody indirectly created that by a process of secondary causes over millions of years”. Instead, many people believe that a designer directly crafted the first instance of a given specimen or feature. (“God made the first hummingbirds, then they reproduced”.) Whether rightly or wrongly, human beings routinely apprehend (or infer) direct design when they encounter the power, beauty, and complexity of organisms or organs.2

So how does Kojonen’s model affect this type of experience? Here’s how:

Yet in Kojonen’s model, these beliefs in direct design are uniformly false. In his view, there is no direct design of biological phenomena. All biological diversity and complexity are the result of indirect design. The locus of design was billions of years prior to the advent of life on Earth. (Indeed, even if Kojonen were to locate direct design at the origin of life, all subsequent flora and fauna would still be the result of indirect design.) This simply follows from Kojonen’s understanding of design (and of evolution). So, if Kojonen’s proposal were true, human beings who accepted his view would have a serious defeater for their ‘direct design’ beliefs about biological organisms and features. They would realize that they have little or no grounds to trust their minds in this context.3

So, in this model, a person would have lots of defeaters for her “direct design” beliefs about biological phenomena. 

But on what basis does Kojonen know that the laws of physics are directly designed? After all, “direct design” beliefs in biology are unreliable and, on his model, biology (alone) has sufficient evidence for design. As we explain:

[H]ow would a person in this general situation know that the laws of physics and chemistry were directlydesigned, as Kojonen believes them to be? Recall that his argument for design is supposed to be based on biological phenomena. But if his model were correct, humans would have no cases of biological things that seemed to be directly designed actually turning out to be directly designed. So, if there are no such cases — and these cases are the basis for believing that the laws of nature are directly designed — then the ground for believing that the laws are directly designed is very poor indeed. If a baseball player strikes out in his first 23 plate appearances, what basis does he have to believe that he will get a hit at his next at-bat?4

The bottom line is that Kojonen undermines his own basis for saying that the laws of physics are directly designed. If so, then he has lost his case for design. The whole point of his model is that biology provides good evidence of design even if evolutionary theory is true. But his view of biology actually undermines his view of design. Whether a person is an expert or an everyday “theist on the street,” anyone who accepts Kojonen’s model can no longer locate design where Kojonen needs it to be.

The Problem: Part 2

 A second problem, building on the first, likewise damages a human’s ability to detect design. A person who accepts Kojonen’s proposal would have significantly less ground for saying that biological phenomena provide evidence of design. This is because his model, to bring about all the flora and fauna in our world, relies on non-agent causessubsequent to the Big Bang. A non-agent cause is any cause that does not include the direct action of an agent. Most non-agent causes are physical in nature. They include, but are not limited to, evolutionary causes. Practically speaking, what does this mean?

For example, if Kojonen’s model were true, a person who accepted the model would believe that, despite her ostensible prima facie belief that, say, a designer directly crafted an eagle’s eye or the first hummingbirds, it is actually the case that each of these phenomena are proximately explained by non-agent causes. For each biological organism or feature, there would be continuity of non-agent causes from before that entity’s existence that led up to (and through) the advent of that entity. Indeed, this continuity would extend all the way back in time. (In fact, there might not be any particular reason, based in biology, to think there was a big bang.) A person who accepted this model would believe that non-agent causes gave (proximate) rise to case after case of biological complexity. The same would be true for human beings, too. An unbroken chain of non-agent causes from the ancient past would extend up to (and through) the rise of the first humans, whoever they happened to be.5

The problem is that “continuity” attenuates (or erases) evidence of design in biology. Given the continuity of non-agent causes to produce all biological phenomena, what basis is there in Kojonen’s model to say that any particular biological entity was designed? Recourse to fine-tuning in astrophysics or the Big Bang in cosmology is no help: the whole point of Kojonen’s model is that biological phenomena point to design. But if every biological entity arose from prior material causes (or non-agent) causes, on what grounds can one say that a mind was needed? Kojonen’s model destroys the detectability of design. There might still be ultimate design (at the beginning of the universe) but the evidence of design — based on biological phenomena — has been obscured.

Arguably, “mainstream” evolutionary theory — which rejects appeals to God in biology — expects strong continuity of natural causes in organic history: there’s no need to invoke God to account for the rise of any particular “kind” because natural causes are held to be sufficient. “Continuity” is just what one would expect if a non-theistic version of evolution were true — namely, that direct design beliefs are uniformly false and that, instead, natural processes appear to be capable of morphing one “kind” into another “kind” over time. Such a view is decidedly unexpected on the pre-theoretic lay theist’s default disposition toward direct design of biological kinds. Mainstream evolutionary theory pushes the theist on the street in precisely the wrong direction. Accordingly, it obscures the detectability of design for such a person. Insofar as Kojonen’s model accepts “mainstream” evolution (as he says it does), his model faces this significant epistemological difficulty.

An Eagle’s Eye

This means that Kojonen’s own biology-based design argument no longer works. After all, such an argument requires that biological design be detectable. If design cannot be detected, it cannot be parlayed into a rigorous argument. This same line of reasoning also undermines the ability of a “theist on the street” to detect design. Insofar as she accepts Kojonen’s model, she would have to regard her initial impression of direct design — of, say, an eagle’s eye — as mistaken. She’d now believe that God didn’t create the first instance directly; instead, it came about by an unbroken chain of material causes (or non-agent causes) throughout the entirety of organic history. For all that she can tell (based on biology), there is no need for recourse to a Mind. Thus, she no longer has grounds to trust her common-sense intuition of the design of the eagle’s eye — or for that matter of any other flora or fauna.     

So much for the design intuitions of everyday theists. For more on Kojonen’s book, see here

America's reform party: a brief history.

 

Wednesday, 14 February 2024

The stones continue to cry out re: the historicity of JEHOVAH'S Word.

 

Why trust JEHOVAH'S Word?

 

Yet more rethinking of the unrethinkable.

 

An interlude XVI

 It's not just your politicians.

Darwinism's ministry of truth's public enemy #1 holds court.

 

Return of the king of titans.

 

On Christendom and colonialism in South Africa.

 

On protestant Christendom's consorting with the NAZIs

 

Pope Pius XII Was Hitler's Pope?: pros and cons.

 

Tuesday, 13 February 2024

Yet more on Christendom's consorting with the NAZI regime.

 

The shameful record of christendom in NAZI Germany.

 

Yet more re:JEHOVAH'S Witnesses resisting the NAZI Juggernaut.

 

There is neither faith without science ,nor science without faith?

 

Time for some much needed iconoclasm re: St.Darwin?

 Does the World Need Another Book About Darwin?


Editor’s note: We are delighted to present an excerpt from the new book by Dr. Shedinger, Darwin's Bluff: The Mystery of the Book Darwin Never Finished. This article is adapted from the Introduction.

What can anyone say that has not already been said about this seminal figure, Charles Darwin, considering the wealth of literature written about him? To the question posed in the headline above, the simple answer is yes, we do need another book about Darwin, for there are aspects of his life and work that have surprisingly continued to evade the attention of his many biographers and interpreters.

The very human Charles Darwin has grown into a mythological figure — the paradigmatic example of a true scientist — without whom nothing in biology would make sense, in the words of Theodosius Dobzhansky. Unfortunately, this mythological figure would be scarcely recognizable to Darwin’s own contemporaries.

Happily for the present enterprise, the flesh-and-blood Charles Darwin is considerably more interesting than the two-dimensional Darwin of the hagiographies.

The state of his scientific legacy is also more intriguing than those same hagiographies would allow — intriguing because it is embattled in ways confessed to in some of the peer-reviewed literature and at high-level scientific conferences but rarely acknowledged beyond these specialized contexts.

Modern scientific advances in fields like molecular biology, genomics, epigenetics, paleontology, developmental biology, and more are raising significant questions about the power of the Darwinian mechanism of variation and natural selection to account for the evolutionary history of life on Earth. Some are calling for an extended evolutionary synthesis while others believe the entire Darwinian edifice needs to be overhauled. It is no longer clear that Darwin can be said to have answered the question of the origin of species. There is thus no reason to begin an investigation into his life and work with the assumption that he did.

Abstract Art

One effect of Darwinian mythology has been to downplay the 19th-century Englishman’s own characterization of The Origin of Species as a mere abstract of his species theory, a summary lacking much of the facts, evidence, and authorities he promised would follow in a later work. The Origin is usually treated as Darwin’s magnum opus, a characterization in keeping with Darwinian mythology but out of step with Darwin’s own view of his work. In truth, The Origin of Species was an abstract of a much larger book on species that Darwin was working on (and that was three-quarters complete) before events forced him to put the larger book aside and instead publish a mere abstract of it.

Once the Origin was in circulation, Darwin’s many correspondents anticipated that he would quickly follow up with the publication of his big book on species so they could better evaluate the argument for natural selection made in the Origin. Indeed, Darwin himself created this expectation both in the Origin and in his correspondence. Even early reviewers of the Origin noted the lack of empirical evidence for natural selection but gave Darwin the benefit of the doubt since the Origin was a mere abstract and therefore could not be expected to provide all the evidence. Given the anticipation among Darwin’s readers for the big book on species, anticipation that Darwin himself repeatedly stoked, why did he never publish the big book? This question is rarely asked.

A rough, handwritten manuscript of Darwin’s big book, titled Natural Selection, survived among his papers and was published by Cambridge University Press in 1975.1 Yet despite the easy access scholars now have to this work (I bought a copy on Amazon), there has been little detailed engagement with its contents or comparison of this work with its abstracted form in the Origin. Such a comparison proves enlightening, for it serves to highlight the secondary nature of the Origin as a hastily written abstract rather than a finely honed scientific treatise, thus challenging the iconic status of the Origin as the foundational text of the modern biological sciences. This, of course, may be precisely why the big book gets overlooked.

Missing Goods

Another reason the big book has been largely ignored, I hope to show, is that it does not deliver the promised goods. This, I will also argue, is the best explanation for why Darwin never brought the book to print. It wasn’t, as one might suppose, that he had made little headway on it and simply lacked the time or energy to produce it. Abstracts are usually distillations of longer works already in existence. So, if the Origin, as Darwin constantly repeats, is only an abstract, it would suggest the big book on species already existed in some substantial form prior to 1859. And in fact, this was the case. The manuscript contained nine chapters and was close to 300,000 words in length. It would likely have been around 400,000 words complete. Given that this book was nearly three-quarters complete, why did Darwin never publish it? And why did he instead turn to the study of orchids as a follow-up to the Origin? Because, as will become clear, he came to see that it did not answer some key criticisms that the Origin had elicited. So, he abandoned the project, even as he allowed anticipation of its publication to persist for many years.

To be sure, Darwin’s orchid book, which he called “a flank movement on the enemy,”2 did attempt to provide some of the evidence for natural selection missing from the Origin (and, as it turns out, missing from the big book as well). He tried to outflank his opponents by putting before them an entirely new work on the numerous contrivances (Darwin’s word) found among orchid flowers to ensure their cross-fertilization by insects. Surely this would impress his readers with the power of natural selection to evolve all these exquisite contrivances.

But Darwin’s strategy failed. Reviewers of his orchid book read it as providing evidence for natural theology, not natural selection. And surprisingly, even Darwin himself in one place likened his orchid book to the Bridgewater Treatises, a series of writings designed to extol the power of God manifest in nature! Could anything be more ironic than that Charles Darwin, the poster child for the triumph of scientific naturalism in biology, actually advanced the cause of natural theology in his day? This is an aspect of his life and work that has been entirely erased by the prevailing mythological Darwinian narrative.

For all these reasons, a more nuanced assessment of Darwin’s evolutionary writings is warranted.

An Enigmatic Victorian

In my engagement with Darwin, I will give pride of place to his voluminous correspondence as the evidentiary basis of this more critical portrait of a truly enigmatic Victorian figure. The argument that lies ahead cites more than 250 letters written by and to Darwin up to the year 1863, some never cited in Darwinian biographies. These letters represent Darwin’s engagement with more than seventy friends, family members, and scientific correspondents. I have elected to adorn the book with many direct quotations from these letters, since I think it is crucial for readers to hear Darwin’s own voice on the page as much as possible to truly encounter the thought patterns and rhetorical style of this fascinating individual.

Many of Darwin’s biographers take the reverse approach — providing their own paraphrases of Darwin’s words — which has the effect of subordinating Darwin to the mythological figure the biography exists to perpetuate. I have also elected, for authenticity’s sake, to retain Darwin’s spelling and punctuation rather than correct them to modern standards. We need to let Darwin speak for himself. It turns out that Darwin, given the opportunity, is quite capable of dismantling his own mythology.


Feng Shan Ho : a brief history.

 

The four horsemen should have let sleeping dogs lie.

 Richard Dawkins and the Law of Unintended Consequences


Post-1945 evolutionary studies were, as far as the public could discern at any rate, a relatively sedate affair right up to the later 1970s. Then, a new, brasher breed of biologists and philosophers began to declaim an unambiguously atheistic interpretation of Darwin’s legacy. This new trend can be dated to the publication of Richard Dawkins’s The Selfish Gene in 1976, a volume which enjoyed the then unusual novelty for science writing of not just presenting dispassionate reporting, but of inaugurating a new era of scientific proselytization. Without a trace of irony, it appeared, Dawkins in Selfish Gene and his numerous later publications was setting up his stall as a would-be messianic preacher with a distinctly secular/nihilist gospel to spread.

Educator or False Messiah?

The polarized responses elicited by Dawkins’s sermonizing are well enough known. Those who witnessed post-1976 discursive developments in real time will likely remember a narrative in two parts. On the one hand there were Dawkins and his followers attempting to give theologians a jolly good drubbing by pointing out to them the futility of endorsing any belief system which disregarded the exclusively material reality undergirding human life. Against that line of argument came a strong counterblast resulting in what seemed a veritable renaissance of Christian apologetics where one theological writer would follow another to point out the callowness of Dawkins’s understanding of religion,1 widely recognized as consisting in little but a rerun of the old conflict model of science and religion which first arose in formal terms in the later Victorian period in America.2 However, to nobody’s surprise the theological volumes which the dispute produced cut little ice with the persons to whom their critiques were directed (even assuming they were read by those persons at all). It is for that reason that I wish in what follows to turn to a less well reported aspect of the controversy but one which exerted a far greater public impact.

The New Atheists had indeed, just as they intended, stirred up a hornets’ nest, but it was their misfortune that so many of the more aggressive hornets have since turned round to sting them. This trend stems in good part from the fact that those expounding the Dawkinsite gospel had vastly underestimated those large ambivalences in many persons’ minds which for many decades had been concealed under a forbearing mask of civilized tolerance. The New Atheists’ failure to understand the nuanced way that “ordinary people” think was a strategic error so profound in its repercussions that, for reasons to be considered below, those after-effects could yet consign Darwin and his works to the dustbin of history.

Darwin Fatigue

In order to understand how and why Dawkins and his followers came to commit such a grave error it would be as well to reprise something of the reception of Darwin’s Origin in the more than a hundred years following 1860. The theories Darwin originally expounded were resoundingly rejected by the first cohort of scientific critics.3 Over the English Channel, too, skepticism about the ways and methods of pure speculation appears to have lain behind the decision of the French Academy of Sciences when it declined to elect Darwin to its zoological section on the grounds that both Origin and its pendant volume, The Descent of Man (1871), were “not science, but a mass of assertions and absolutely gratuitous hypotheses, often evidently fallacious.”4

Despite this clear scientific disapprobation, however, there emerged as the 19th century wore on an increasing acceptance of or at least acquiescence in Darwinian ideas on the part of increasing numbers among the educated classes (although many, like Thomas Huxley, whilst assenting to evolution, dissented from Darwin’s distinctive notion/misnomer of “natural selection,” recte natural preservation). By the century’s end a form of “Darwin fatigue” appears to have settled upon many people’s thinking, and with it a drift towards letting the case go by default. Where for instance writers and opinion-formers of the high Victorian era were once vitally engaged with Darwinism and its implications, many of their literary successors at the approach of the 20th century (excepting Thomas Hardy) reacted with some indifference, often quietly relegating Darwinism to the status of a superannuated controversy. As Professor John Holmes noted with regard to these later writers, “It was their parents’ and grandparents’ controversy, not their own.”5 And although pockets of questioning continued to exist to the extent that there could even be talk of an eclipse of Darwinism in the early decades of the 20th century6, the so-called New Synthesis of the early 1940s (which claimed to harmonize Darwinism with more up-to-date findings in genetics) ostensibly succeeded in steadying the ship, persuading large numbers to accept the Darwinian legacy positively. But how steady was the passage of the ship really?

Settled Science or Polite Fiction?

By the middle of the 20th century Darwinism had seemed by default to have slipped into that niche commonly termed settled science, and Darwin’s legacy was far less often confronted critically, at least in the public arena. All that new students supposedly had to do now was “learn about” Darwin in the same way they learned about such irrefutable historical information as the dates of Magna Carta or the American Revolution. Most 20th-century attitudes to Darwinism before the advent of the later 1970s might then perhaps most politely be labelled “accommodationist.” That mindset involved a tolerant acceptance of Darwinism — even whilst some might have suspected they were assenting to a polite fiction — accepting Darwinism “under erasure,” so to speak.

For did not Darwinism possess the commendable virtue of providing at least a colorable explanation for the underlying reality of biological existence, an explanation which remained consistent with the zeitgeist of a secularizing age? By which I mean that, if you bring to evolution an anything-but-God mindset, then you will cling tenaciously to the one purely materialist theory you believe has any chance — however improbable it may appear to you — of explaining life’s diversity. At the very least, Darwinism had, with all its glaring empirical deficits, become a convenient place-holder position in the absence of any genuinely demonstrable explanations for that which the classical poet Lucretius had once termed the Nature of Things. This attitude of somewhat disengaged half-belief linked to a courteous disinclination to rock the boat remained the norm until the later 1970s. It was a diplomatic (but behind the scenes heavily caveated) acceptance of Darwinism, but the New Atheists displayed little sensitivity or perhaps even bare comprehension of the subtleties of such nuanced thinking.

Renaissance of Dissent

In the event it has turned out not to be so much wounded religious sensibilities as a dispassionate re-analysis of the evidence carried out by independent, non-aligned thinkers that is bidding fair to topple the speculative edifice of Darwinism. A more fatal counterattack than that mounted by theologians has come not only from dissenting scientists but from ordinary, educated persons goaded into reconsidering the questionable data on the basis of which they have heard unsubstantiated truth-claims being proclaimed. The salient point here is that many such persons might never have felt impelled to review the evidence had they not been rather roughly importuned to attend to what was, without evidence, purported to be The Truth. This was all the more the case because of a suspicion that the official Darwinian line might not represent the truth since, as W. Daniel Hillis commented in the context of a symposium on the dialogue between scientific culture and the intelligentsia in a broader sense:

There’s a feeling in biology that scientists should keep their dirty laundry hidden, because the religious right are always looking for any argument between evolutionists as support for their creationist theories. There’s a strong school of thought in biology that one should never question Darwin in public.7

Be that as it may, it was primarily due to the “Thou shalt believe what I say regardless or else be scorned as a nitwit” tone that many in the 1980s and ’90s felt stung to review the evidence afresh or, in many cases, for the first time in their lives. Such was certainly the case for the present author who a bare half decade ago was driven to research the evidence put forward by Darwin — whereupon he found that such evidence as exists was not merely flimsy but almost entirely nugatory and even illusory. In legal terminology I came to see the case as being without merit.

Intellectual Revolt 

My negative conclusion concerning the life’s work of an icon of British science at first alarmed me since it seemed so presumptuous, but I soon found that others of my own age cohort and comparable educational background shared similar misgivings. In fact, the irreverent views of novelist A. N. Wilson and of veteran journalist Melanie Phillips reached a pitch of mocking satire which even I would hesitate to emulate. Wilson for instance discusses Swedish biologists’ computing of the time-scale on which “natural selection” would have to operate to produce a properly functioning eye in a number of fish-types, suggesting the figure of half a million years — a timeframe which Dawkins pronounced to be well-nigh instantaneous by the standards of geological time. Wilson’s sardonic response: “Having been fair to the Swedish biologists, it is also necessary to be fair to the haddock or the bream who might, if capable of speech, have wanted to say to Professor Dawkins, ‘Half a million years might seem ‘instantaneous’ in Oxford, but down here on the ocean bed, when we needed an eye to protect us from predators such as sharks, it seems rather a long time.’”8 Phillips is no less withering. To Dawkins’s contention that a molecule arose that just happened to have the property of self-copying (a “replicator”) she adds, “As the late, great comedian/magician Tommy Cooper would have said, ‘Just like that!’ There is no evidence whatever for this just-so story. It belongs not to science but to Dawkins’s imagination.”9 The fact that distinguished members of an educated intelligentsia have come forward to oppose Darwinism should surely be an indication that the whole Darwinian belief system requires to be analyzed afresh since the present theories of biological science clearly do not command the support of educated opinion.

Unknowable Unknowns

It seems inherently unlikely that just one of the many sempiternal imponderables of human existence would have revealed its secrets to what has been so much conjecture and hope-driven guesswork. Many informed minds clearly still view evolution in the same way that they do those other imponderables with which the question of the origin of species may most appropriately be compared, such as, What is the ultimate origin of the genetic code and who/what directed it to produce plant and animal species? Why are we safely cocooned in a cosmic Goldilocks zone in contrast to the truly Hadean state of the rest of the universe? Where do the laws of physics come from? What was before the Big Bang? Why is there something rather than nothing? These are the well-known existential imponderables with which the question of the origin of species is best compared. In fact, the “origin” of species (by which Darwin meant the “origination” or diversification of species) has traditionally been seen as a matter beyond all sensible conjecture, on a par with those other sources of human puzzlement referenced.

Evolution’s closest comparator is arguably that of the absolute origin of life on earth. That is, how did a once barren terrestrial environment give rise to life forms in the first place and how did the resources deemed necessary to this process — self-replicating molecules bearing well-nigh incalculable amounts of genetic information — come about? Darwin and Dawkins, in company with sundry media scientists, have made various guesses by invoking concepts like fluke chemical reactions in warm ponds or oceans and “spontaneous generation” (for which read “chance development”). However, the “abiogenetic” nostrum of water + chemicals = organic life has so far turned out to be a false hope, on earth as in outer space. There is no proof that life is just an “emergent” property of chemistry, and so the answer as to how life first arrived to reap the benefits of Earth’s bio-friendly conditions must necessarily remain a mystery.

The same skepticism could, mutatis mutandis and with equal justice, be applied to the subject of natural selection. Erasmus Darwin’s postulation of a transmutation of species was hardly a new hypothesis: it goes back to Greek antiquity and the thought experiments of Anaximander and Anaximenes in the 6th century before Christ,10 an era in which the idea of scientific proof as we understand it did not exist. Even Charles thought his grandfather’s hypotheses speculative; and in the 18th century such ideas as those of Erasmus and his French transmutationist colleagues were commonly regarded as the eccentric musings of a small, self-referential coterie. 

Hence the prime desideratum in the 19th century was seen as the identification of a causal mechanism that might render plausible the counterintuitive claim of boundless metamorphic evolution alleged by Erasmus and his French confrères. Hoping to justify his grandfather’s intuitions on this point, Charles applied himself to finding a wholly material mechanism underlying the evolution of all things and so cut out the cosmic middleman, so to speak, which he found (via Thomas Malthus) in his conception of natural selection. Charles had essentially been hunting around for any idea that would make the incredible appear credible.

Randomness vs. Teleology

Although Charles had some qualified success with his Malthusian turn, many scientists, while readily conceding the possibility of incidental modifications on a minor scale as ad hoc adaptations to changing environments, have objected that the spawning of new species (speciation) is by definition a teleological project in pursuit of a new physiological goaland therefore dependent on a prior plan or conception. Purpose can after all hardly be achieved purposelessly. When Darwin bowed to peer pressure to change the term natural selection to natural preservation (on the entirely reasonable grounds that there was no goal-driven selection involved), this rather annulled the idea of innovation (i.e., development of new body plans and new species). The retitled “natural preservation” was by definition only a conservative force, not a productive one. This limitation, so fatal to Darwin’s original conception, should surely be revisited as a matter of prime importance. For to suggest that natural preservation could advance species or produce new ones seems to be an outrageous cooking of the books in order to produce a conclusion contradicted by evidence.

A similar stricture might be applied to the large role accorded to chance in the evolutionary process, which stands in logical contradiction to the idea of a predictable mechanism or vera causa. By normally accepted standards, any observation making a claim to the status of a regularity or scientific law which depended on the postulation of chance would condemn itself as being a contradiction in terms. For chance is by definition not a (causative) agency nor does it evidence the predictability and regularity of a natural law. Darwin, to give him due credit, at least had the grace to harbor doubts about the role of chance in evolution, which is more than can be said of many of his 20th- and 21st-century legatees, some of whom show themselves blithely free of such reservations. Here for instance is Daniel Dennett expounding with unruffled finality (and circularity) what he terms his “algorithmic” ideas about natural selection: “Can the biosphere really be the outcome of nothing but a cascade of algorithmic processes feeding on chance? And if so, who designed that cascade? Nobody. It is itself the product of a blind algorithmic process.”11 That proposition seems to be not only culpably unfalsifiable (in Karl Popper’s sense) but also, frankly, indiscussable (to use the term used by the logical positivist philosophers of the earlier 20th century to designate what they called non-sense). 

The Mystery of Mysteries

In the quest to get to the bottom of perennial mysteries, it has been justly observed, “absolute materialism does not triumph because it cannot fully explain the nature of reality.”12 Darwinism provides no convincing answers to the problems it claims to solve because the questions it attempts to confront lie beyond the domain of empirical science and its strictly delimited methodological parameters. Humankind’s steps towards solving these mysteries have hitherto been Lilliputian at best and all too frequently wrong-headed. As astrophysicist Paul Davies once observed, we can pursue rational enquiry till the cows come home but “my instinctive belief [is] that it is probably impossible for poor old Homo sapiens to get to the bottom of it all.”13 Furthermore, he adds, when we finally come to review an extended explanatory chain, “sooner or later we will have to accept something as given, whether it is God, or logic or a set of laws or some other foundation for existence… whether we call this deeper level of explanation God or something else is essentially a semantic matter.”

The irony is that Darwin himself in private correspondence showed himself only too aware of the limitations of the scientific method:
                    I cannot anyhow be contented to view this wonderful universe & especially the nature of man, & to conclude that everything is the result of brute force. I am inclined to look at everything as resulting from designed laws, with the details, whether good or bad, left to the working out of what we may call chance. Not that this notion at all satisfies me. I feel most deeply that the whole subject is too profound for the human intellect. A dog might as well speculate on the mind of Newton.14

Quite so. Rather surprisingly, Darwin’s conclusion makes him something of a poster boy for our postmodern mentality, whereas his more doctrinaire modern disciples seem more like Victorian forebears trapped in an anachronistic, pre-quantum universe. For almost a century now the Newtonian/Enlightenment paradigm has had to cede scientific authority and status to that of quantum physics where, in the subatomic world, the predictable regularities of the Newtonian universe simply do not apply. No self-respecting scientist can now claim to deliver certainty and predictability in the wake of bewildering advances in quantum mechanics with its (only) probabilistic laws.15 It may even be necessary to revisit causality and even reality itself. Early 20th-century British scientist Sir Arthur Eddington could see that clearly when he claimed that religion became eminently possible for a reasonable scientific person in the year 1927. The significance of that very precise date was that it was the year of the promulgation of Werner Heisenberg’s uncertainty principle which essentially announced that “all bets are off” with regard to mankind’s aspirations to be able to truly understand nature. We were, Eddington strongly hinted, dependent on powers far beyond our comprehension.

 Although he could have known nothing of the quantum world, the Darwin who latterly termed himself a theist seemed to show an instinctive understanding of albeit dimly apprehended hidden dimensions of reality when he courteously but firmly refused to endorse the views of the first atheist Member of Parliament, Charles Bradlaugh. It therefore seems probable that he would have felt considerably affronted had he been able to foresee the tendentious uses to which his essentially questioning legacy has been put by certain of his modern disciples. It would be reasonable to suppose in an imaginary counterfactual scenario that Darwin would show the door to Dawkins and the New Atheists as politely but as firmly as he once did to Charles Bradlaugh.

Darwin decanonized?

 Deconstructing Darwin: The Myth and the Man


Our observance of Darwin Day 2024 — the birthday of the iconic scientist — continues. Why didn’t Charles Darwin finish and publish his promised sequel to On the Origin of Species? Is it possible to separate Darwin the Myth from Darwin the Man to find the answer? On a new episode of ID the Future, I begin a conversation with author and professor Dr. Robert Shedinger about his new book, Darwin's Bluff: The Mystery of the Book Darwin Never Finished. 

Most Darwin scholars take for granted that he satisfied the question of the origin of species. They promote a mythological view of Darwin as a scientific and cultural icon who forever changed the world with his theory of evolution by natural selection. But what if we study his life and work without making that assumption? Quite by accident, Dr. Shedinger began reading the voluminous private correspondence of the enigmatic naturalist. The letters to family, friends, and other scientists of his day revealed to him a very different Darwin from the myth — a Darwin prone to insecurity, false modesty, and rhetorical craftiness.

In Part 1, Dr. Shedinger explains the importance of comprehensively engaging with Darwin’s correspondence. He also reveals the frailties of Darwin that help us see him in a very different light. Harboring a secret fear that he’d become what his father said he would — a disgrace to himself and his family — Darwin desperately sought status and recognition in the scientific community of his day. After formulating his theory of natural selection, no contradicting argument or evidence could dissuade him from it. But what if he was wrong? In his study of Darwin, Shedinger dares to ask this question, perhaps the most important Darwin question of all.

Download the podcast or listen to it here.

More on the death of privacy.

 

Conflict for sale?

 

The fall of Rome II?

 

How india entered the nuclear club.

 

Monday, 12 February 2024

A sleeping giant?

 

What does the coming of JEHOVAH'S Kingdom mean? The bible's answer.

 

Yet more on the challengers of man's global dominion.

 

The thumb print of JEHOVAH is obvious?

 

On calling Darwin's bluff.

 

Time for Darwin to throw down?

For Darwin Day, Robert Shedinger Calls Darwin’s Bluff


It’s Darwin Day 2024, the birthday of Charles Darwin, and Discovery Institute Press has a new truth bomb for the occasion — Darwin’s Bluff: The Mystery of the Book Darwin Never Finished. The book, by Robert Shedinger, Professor of Religion at Luther College in Decorah, Iowa, drags from Charles Darwin’s closet a long overlooked skeleton devastating to the Darwinian mythology.

Tucked away in Darwin’s surviving papers is a lengthy manuscript he never finished, The Origin of Species’ oft-promised sequel on speciation he said would finally supply solid empirical evidence for the creative power of natural selection. He admitted such evidence was largely absent from the Origin, a work he repeatedly described as a “mere abstract.” And yet Darwin soon abandoned his sequel, and without ever revealing this decision to his reading public. 

A Long-Unsolved Mystery

The question of why Darwin set the work aside has never been satisfactorily resolved. In this fresh and engrossing piece of historical detective work, Shedinger probes Darwin’s letters, notebooks, and the unfinished manuscript itself to piece together the solution to the mystery — namely, that Darwin never finished his big sequel because in the end he couldn’t deliver the promised goods. His book, begun in earnest, devolved into a bluff. 

Shedinger previously authored The Mystery of Evolutionary Mechanisms: Darwinian Biology’s Grand Narrative of Triumph and the Subversion of Religion. That earlier book received praise from scientists inside and outside the intelligent design community. 

Scientists and scholars are also singing the new book’s praises. Historian Richard Weikart, author of Darwinian Racism, calls Darwin’s Bluff “fascinating.” Steve Fuller, Auguste Comte Professor of Social Epistemology at the University of Warwick, UK, describes it as “nothing short of a demythologization of modern biology’s origin story.” 

“History of Science at Its Best”

The book resonated at a personal level for Günter Bechly, an internationally distinguished paleontologist. As he explains, “In 2009, as a card-carrying Darwinist serving as a fossil curator in one of Germany’s natural history museums,” he came to the startling realization that modern Darwinism rests “on a carefully constructed bluff.” Shedinger’s new book helped him see that, as Bechly puts it, such evolutionary “bluffing has a long pedigree, stretching back to the master of Down House himself. What emerges from Shedinger’s deep dive into Darwin’s private writings is a picture of a man wracked by doubts and insecurities about his evolutionary theory, but also a man not above a good bluff, one he sold so artfully that he may even have persuaded himself.”

Jeffrey Kripal, J. Newton Rayzor Professor of Religion at Rice University, says the new book also exposes modern Darwinism. Kripal lauds Darwin’s Bluff as “a minutely researched piece of new scholarship,” which shows that “the confident scientific naturalism for which Darwin is mythologized today is largely a set of rhetorical devices and dogmatic beliefs that add up to a massive bluff.” Shedinger’s book, Kripal concludes, “is the history of science and the study of religion at their best.”