Search This Blog

Friday, 25 August 2017

On irreconcilable differences between mathematics and Darwinism?

Surprise! There’s no satisfactory mathematical model for macroevolution, at the present time.

In 2006, Professor Allen Macneill acknowledged that macroevolution is not mathematically modelable in the way that microevolution is. He could have meant that macroevolution is not mathematically modelable at all; alternatively, he may have simply meant that macroevolutionary models are not as detailed as microevolutionary models. If he meant the latter, then I would ask: where’s the mathematics that explains macroevolution? Surprisingly, it turns out that there is currently no adequate mathematical model for Darwinian macroevolution. Professor James Tour’s remark that “The Emperor has no clothes” is spot-on.

Evolutionary biology has certainly been the subject of extensive mathematical theorizing. The overall name for this field is population genetics, or the study of allele frequency distribution and change under the influence of the four main evolutionary processes: natural selection, genetic drift, mutation and gene flow. Population genetics attempts to explain speciation within this framework. However, at the present time, there is no mathematical model – not even a “toy model” – showing that Darwin’s theory of macroevolution can even work, much less work within the time available. Darwinist mathematicians themselves have admitted as much.

In 2011, I had the good fortune to listen to a one-hour talk posted on Youtube, entitled, Life as Evolving Software. The talk was given by Professor Gregory Chaitin, a world-famous mathematician and computer scientist, at PPGC UFRGS (Portal do Programa de Pos-Graduacao em Computacao da Universidade Federal do Rio Grande do Sul.Mestrado), in Brazil, on 2 May 2011. I was profoundly impressed by Professor Chaitin’s talk, because he was very honest and up-front about the mathematical shortcomings of the theory of evolution in its current form. As a mathematician who is committed to Darwinism, Chaitin is trying to create a new mathematical version of Darwin’s theory which proves that evolution can really work. He has recently written a book, Proving Darwin: Making Biology Mathematical (Random House, 2012, ISBN: 978-0-375-42314-7), which elaborates on his ideas.

Here are some excerpts from Chaitin’s talk, part of which I transcribed in my post, At last, a Darwinist mathematician tells the truth about evolution (November 6, 2011):

I’m trying to create a new field, and I’d like to invite you all to leap in, join [me] if you feel like it. I think we have a remarkable opportunity to create a kind of a theoretical mathematical biology…

So let me tell you a little bit about this viewpoint … of biology which I think may enable us to create a new … mathematical version of Darwin’s theory, maybe even prove that evolution works for the skeptics who don’t believe it…

I don’t want evolution to stagnate, because as a pure mathematician, if the system evolves and it stops evolving, that’s like it never evolved at all… I want to prove that evolution can go on forever…

OK, so software is everywhere there, and what I want to do is make a theory about randomly evolving, mutating and evolving software – a little toy model of evolution where I can prove theorems, because I love Darwin’s theory, I have nothing against it, but, you know, it’s just an empirical theory. As a pure mathematician, that’s not good enough…

… John Maynard Smith is saying that we define life as something that evolves according to Darwin’s theory of evolution. Now this may seem that it’s totally circular reasoning, but it’s not. It’s not that kind of reasoning, because the whole point, as a pure mathematician, is to prove that there is something in the world of pure math that satisfies this definition – you know, to invent a mathematical life-form in the Pythagorean world that I can prove actually does evolve according to Darwin’s theory, and to prove that there is something which satisfies this definition of being alive. And that will be at least a proof that in some toy model, Darwin’s theory of evolution works – which I regard as the first step in developing this as a theory, this viewpoint of life as evolving software….

…I want to know what is the simplest thing I need mathematically to show that evolution by natural selection works on it? You see, so this will be the simplest possible life form that I can come up with….

The first thing I … want to see is: how fast will this system evolve? How big will the fitness be? How big will the number be that these organisms name? How quickly will they name the really big numbers? So how can we measure the rate of evolutionary progress, or mathematical creativity of my little mathematicians, these programs? Well, the way to measure the rate of progress, or creativity, in this model, is to define a thing called the Busy Beaver function. One way to define it is the largest fitness of any program of N bits in size. It’s the biggest whole number without a sign that can be calculated if you could name it, with a program of N bits in size….

So what happens if we do that, which is sort of cumulative random evolution, the real thing? Well, here’s the result. You’re going to reach Busy Beaver function N in a time that is – you can estimate it to be between order of N squared and order of N cubed. Actually this is an upper bound. I don’t have a lower bound on this. This is a piece of research which I would like to see somebody do – or myself for that matter – but for now it’s just an upper bound. OK, so what does this mean? This means, I will put it this way. I was very pleased initially with this.

Table:
Exhaustive search reaches fitness BB(N) in time 2^N.
Intelligent Design reaches fitness BB(N) in time N. (That’s the fastest possible regime.)
Random evolution reaches fitness BB(N) in time between N^2 and N^3.

This means that picking the mutations at random is almost as good as picking them the best possible way…

But I told a friend of mine … about this result. He doesn’t like Darwinian evolution, and he told me, “Well, you can look at this the other way if you want. This is actually much too slow to justify Darwinian evolution on planet Earth. And if you think about it, he’s right… If you make an estimate, the human genome is something on the order of a gigabyte of bits. So it’s … let’s say a billion bits – actually 6 x 10^9 bits, I think it is, roughly – … so we’re looking at programs up to about that size [here he points to N^2 on the slide] in bits, and N is about of the order of a billion, 10^9, and the time, he said … that’s a very big number, and you would need this to be linear, for this to have happened on planet Earth, because if you take something of the order of 10^9 and you square it or you cube it, well … forget it. There isn’t enough time in the history of the Earth … Even though it’s fast theoretically, it’s too slow to work. He said, “You really need something more or less linear.” And he has a point…

Professor Chaitin’s point here is that if even a process of intelligently guided evolution takes, say, one billion years (1,000,000,000 years) to reach its goal, then an unguided process of cumulative random evolution (i.e. Darwin’s theory) will take one billion times one billion years to reach the same goal, or 1,000,000,000,000,000,000 years. That’s one quintillion years. The problem here should be obvious: the Earth is less than five billion years old, and even the universe is less than 14 billion years old.

May the Mainstream media R.I.P:Pros and cons.

File under "well said" LIII

To suppress free speech is a double wrong. It violates the rights of the hearer as well as those of the speaker. Frederick Douglass

Engineerless engineering?

Nature’s Amazing Machines — Denver Looks at the Marvels of “Natural Engineering”
Steve Laufmann  


The Denver Museum of Nature and Science is running an excellent special exhibition featuring examples of the amazing engineering observed in biology. The DMNS  website  captures the gist of it:

Nature’s Amazing Machines uses real objects, scientific models, and fun activities to show the marvels of natural engineering.
The exhibit focuses on six functional domains observed in living systems (though there are many, many more they could have chosen): Legs and Springs, Wings and Fins, Jaws and Claws, Structures and Materials, Pumps and Pipes, and Insulators and Radiators.

These amazing machines truly are “marvels.” As I pondered the displays, I was struck by just how nearly perfect these natural machines are — from basic design to operational efficiency to various classes of optimizations.

In previous articles (here and here) I’ve tried to make exactly this point. Life requires exquisitely engineered systems. And now DMNS has stepped up to provide dozens of examples. My thanks to them for their timely (and unwitting) support!

The exhibit incorporates many examples of biomimetics, where human engineers have co-opted the designs of living systems. Like Velcro, which was inspired by the burrs of plants. (For the youngsters, note that this kind of co-option is generally patentable, too! … a good way to generate income that you can use to take care of your parents when they get old.)

As you’d expect, the exhibit includes the requisite references to evolution, but these references are descriptive rather than explanatory. Darwinian evolution is simply an assumption underlying the exhibit, with no attempt at further explanations.

They call this natural engineering. This is an interesting term. Presumably they mean that evolution can engineer amazing machines entirely by accident. So it’s possible to get engineering without an engineer — systems engineering performed entirely by natural forces with no intentionality, plan, or purpose. (We should note, as a counterpoint, that the known forces of nature are mainly working to kill every living thing — to achieve equilibrium, aka death — so there must be some as-yet-undiscovered natural force capable of doing these things.)

How does DMNS know that natural engineering can do such things? Nowhere in the exhibit is this question asked, nor is it answered.

Since DMNS doesn’t provide much by way of explanation, you’ll need to add your own. This is a good opportunity to discuss these issues with your kids and your friends. There’s no shortage of questions to be asked, and this is good practice in learning to ask both the obvious and the not-so-obvious questions. For example:

Examine the complexities in the amazing machines featured in the exhibit, not just at the top level, but the underlying mechanisms that must be there to make them work.

How many parts are required, in all the right places, with all the right properties, connected in all the right ways, to achieve the end functions of these machines?
How specifically must they be arranged and interconnected to achieve their function(s)?
How much information is needed to generate all those parts, from base information, to assembly instructions, to the correct parameters for sizing, fit, and capacities?
How precisely must these be fine-tuned in order to successfully operate?
How can natural engineering create such amazing marvels? What natural forces could possibly do all the work required to generate such systems?

How can such finely tuned systems come to exist when so many parts are needed in order to achieve even minimal functionality?
How many tries does it take to get all that stuff right? How many tries does a living organism get when one of its systems doesn’t function effectively?
Is it possible for such systems to arise gradually? If so, how?
Does anything in this exhibit explain how any of this could happen?

If not, why not? Was it omitted simply because the kids might not understand it?
Are these machines more likely to be caused by accident or by design? Through purposelessness or intention?

Why is it that in any other domain of knowledge, the answer would be obvious (design), whereas in biology this answer is simply not allowed?
Each of us is faced with a decision — whether such purposeful outcomes could possibly be purposeless, or whether they are exactly what they look like — the intentional designs of an awesome (and innovative and powerful and detail-oriented) engineer.

Maybe it’s just me, but it seems hard not to see teleology throughout this exhibit.


If you find yourself in the Denver area this fall, make a point of taking in this exhibit. It focuses mainly on high-level designs that will make sense to everyone, including the kids, using hands-on exhibits to make its points. It’s nicely presented, and a great way to spend a couple of hours. It’s free with general admission to DMNS, which includes many other displays that will provide yet more fodder for explaining the mysterious and wonderful design of our world. Organized youth groups get an especially good deal on admission. No reservations are required. Through January 1, 2018.

From healers to hitmen? II

Michael Egnor: How Assisted Suicide Corrupts Medicine and Medical Doctors
David Klinghoffer | @d_klinghoffer  

“A doctor killing a patient is analogous to a pilot deliberately crashing a plane.” So says neurosurgeon and Evolution News contributor Michael Egnor in a conversation with biologist Ray Bohlin.

It’s a brilliant comparison, in both parts of which a trained professional turns his expertise to the exact opposite purpose it was intended to serve. There are huge manuals stacked upon manuals for physicians on how to avoid killing patients, just as pilots are drilled to expose airplane passengers to minimum danger of falling from the sky.

In a new ID the Future episode, Egnor argues that if judges, legislators, or other advocates support killing patients under certain circumstances, then fine, let them do the killing. But don’t corrupt the medical profession on which we all rely.

As Dr. Egnor acutely notes, the point of involving doctors appears to be a non-medical one – putting a pretty, sanitary seal of approval on a heinous deed, in which MDs are really unneeded. It’s not for the patient’s good. It’s for the rest of us, to ease our conscience in something we know is wrong.  Listen to the podcast here, or download it here.

A castle in the clouds?

Information Storage — In the Cloud(s)
Evolution News @DiscoveryCSC 

In the second-released Star Wars film, The Empire Strikes Back (1980), a “cloud city” of magnificent structures, filled with active intelligent beings, was portrayed floating in the atmosphere of the giant planet Bespin. If we can re-portray it down a few orders of magnitude, something like that exists right here at planet Earth: whole ecosystems of machinery, active structures, and complex ecosystems in the droplets of clouds.

It’s surprising no one ever checked this before in detail. There were hints that microbes could become airborne or “aerosolized” and take flight in the clouds, but how many are there? What types regularly inhabit cloud droplets? How do they survive, and what do they do? A team of nine from CNRS, the National Center for Scientific Research in France, decided to find out. Their results, published in PLOS ONE, could initiate a whole new science of global “cloud ecology,” the results of which can only be imagined.

Within the atmospheric system, clouds are genuine atmospheric interfaces with the ground: they physically connect high altitudes with the surface by being to a large extent at the origin of wet deposition of aerosols, including microorganisms. Cloud water is a complex mixture of soluble gas and particles dissolved into millions of micron-sized water droplets, and forming very reactive and dynamic systems…. As non-soluble biological particles, some microorganisms can physically impact clouds by acting as embryos for the formation of water droplets and ice crystals, with subsequent impacts on hydrological cycles. Observations of microbiological features in fog and clouds raised the possibility that these also represent habitats for microorganisms, where they would actively take part in the chemical reactivity through metabolic activity and nutrient utilization. So far these active inhabitants of clouds remain largely unknown. 

What they found was truly astonishing, calling to remembrance Leeuwenhoek’s first observation in 1665 of a world of microbes in a drop of water. Now, some 350 years later, science has discovered another unseen world of living creatures. In 2013, the team collected three samples from a mountaintop in France in sterile collectors, quickly flash-freezing the material for later analysis. It’s taken a long time to search through the genomes of microbes, because there were so many of them. DNA and RNA sequencing allowed them to make these initial determinations:

Here, microbial communities in cloud water collected at puy de Dôme Mountain’s meteorological station (1465 m altitude, France) were fixed upon sampling and examined by high-throughput sequencing from DNA and RNA extracts, so as to identify active species among community members. Communities consisted of ~103−104 bacteria and archaea mL-1 and ~102−103 eukaryote cells mL-1. They appeared extremely rich, with more than 28,000 distinct species detected in bacteria and 2,600 in eukaryotes. Proteobacteria and Bacteroidetes largely dominated in bacteria, while eukaryotes were essentially distributed among Fungi, Stramenopiles and Alveolata. Within these complex communities, the active members of cloud microbiota were identified as Alpha- (Sphingomonadales, Rhodospirillales and Rhizobiales), Beta- (Burkholderiales) and Gamma-Proteobacteria (Pseudomonadales). These groups of bacteria usually classified as epiphytic are probably the best candidates for interfering with abiotic chemical processes in clouds, and the most prone to successful aerial dispersion.

This could change your cloud viewing forever. Up there in those drifting puffs of white, tens of thousands of complex organisms live in cloud cities! There are a hundred to a thousand eukaryotic cells per milliliter, and a thousand to ten thousand bacteria and archaea. These numbers vastly exceed cell counts from previous observations. “Clouds are extremely rich and diverse mosaics of multiple sources ecosystems,” the researchers say.

What are the microbes doing up there? Well, as the authors indicated, they modify the weather. They can act as embryos for the formation of water droplets (think rain) and ice crystals (think snow and sleet). In a real sense, they are natural cloud seeders that can influence the life of the rest of the organisms on earth. Now there’s a good science project for someone in the tradition of Michael Denton and Privileged Species: To what extent is weather regulated by the presence or absence of microbes in the clouds?

Another thing they do is migrate. Catching the cloud trains in the sky, microbes can distribute themselves around the globe. Since all multicellular organisms (including humans) carry numerous microbes around with them, this could me a means of ensuring beneficial microbes are available in every habitat. Of course, it cannot rule out the spread of pathogens, too, but those represent a small fraction of microbes as a whole.

A survey of this type cannot hope to find all the functions of the cloud-city ecosystem, and the authors admit there’s a lot to learn:

Their identification certainly helps understanding the atmosphere as a habitat; it will also allow focusing researches for evaluating microbial impact on cloud physical and chemical processes, but their actual functioning, the “what do they do?” question remains to be answered.

Nevertheless, the authors suspect that these ecosystems engage in significant functions. They speak of the “global functioning of the community” and describe their interactions as a system:

If an abundant group was to be lost from the community, i.e. a group that is likely to contribute significantly to the structure and global functioning of the system, there would be a high probability to lose or reduce also the functions associated with it. This ecological theory, that functional stability implies even structure, derives from established ecosystems and it is applied here for apprehending the functioning of cloud’s microbial communities in the frame of clouds as microbial habitats hypothesis; it is possible though that this is not applicable to environments acting mainly as transport areas, where microbial establishment is by essence not possible, like clouds.

Transport areas can be places of function. Business meetings are held on cruise ships. People interact (sometimes) on subway trains. As long as the cloud community in a droplet of water has the resources it needs, it could carry on whatever functions it is capable of, the nature and extent of which remain to be discovered.

A big question for design advocates might concern whether microbes are necessary for habitability. Microbes may not be necessary for weather (Cassini scientists, for instance, inferred that cloudbursts occur on Saturn’s moon Titan), but perhaps microbes regulate the climate of a planet in some way. It’s too early to predict exactly what functions of this newly discovered “system” will present to the health of the planet, but it surely looks promising. Maybe astrobiologists should not rush to declare exoplanets habitable till the “global functioning of the community” of microbes is better understood.


For the time being, though, we can certainly marvel at the fact that what appeared to be largely a domain of lifeless dust and water up there turns out to be perfused with huge amounts of complex specified information: the genetic codes of tens of thousands of organisms. It wouldn’t be surprising to learn that all that information is there for a purpose. We encourage design-friendly scientists to take this information and extend our understanding into the next big question: “What do they do?”

Tuesday, 22 August 2017

Runaway Scientism?

The Multiverse Is Science’s Assisted Suicide
Denyse O'Leary  


In 2015, Wired told us that physicists were desperate to be wrong  about the Higgs boson. They yearned to push the Standard (Big Bang) Model of the universe “in new directions.” But the unmindful particle “acted just like the model said it would act, obeyed every theorized rule.”

In the silence that followed, asking for evidence for these physicists’ proposed infinity of universes (the multiverse) felt like assaulting a victim’s feelings. At the Guardian, Stuart Clark later informed us that “Brexit and Trump are nothing compared to the alternate universes some astronomers are contemplating.” Really? Regional political upsets vie with a multiverse?

Astronomers, Clark tells us, pin their hopes on the Cold Spot, a cool patch of space from the early universe: “We can’t entirely rule out that the Spot is caused by an unlikely fluctuation explained by the standard theory. But if that isn’t the answer, then there are more exotic explanations.” Indeed. There are more exotic explanations for almost anything.

Eugene Lim insisted at The Conversation in 2015 that parallel universes are science: “Whether we will ever be able to prove their existence is hard to predict. But given the massive implications of such a finding it should definitely be worth the search.” Very well, but some people research ghosts on the same basis. What makes the multiverse quest “science” but the ghost hunt “anti-science,” once evidence no longer matters as much as it used to?

Cosmologists sense the problem and strive to rescue their multiverse from the nagging demands for evidence. Pop science media offer a window into major trends.

One is cosmic Darwinism. Lee Smolin has advocated a cosmic version of Darwinian natural selection in which the most common universes will be those most suitable for producing black holes, as our universe does. Is Darwinism the cause? In “The Logic and Beauty of Cosmological Natural Selection” (Scientific American, 2014), Lawrence Rifkin admitted that the main problem with the hypothesis is lack of direct evidence:

But keep in mind that from a direct evidence perspective, cosmological natural selection is no worse off at this point than proposed scientific alternatives. There is no direct evidence that universes are created by quantum fluctuations in a quantum vacuum, that we live in a multiverse, that there is a theory of everything, or that string theory, cyclic universes or- brane cosmology even exist.

Then why should we not set all such speculations aside? There is no obvious need for hurry.

Darwinism, as in natural selection acting on random mutations, is a theory developed by Darwin and his followers to account for complex, specified information in life forms on this planet. Whether it is correct or not when used as intended, if it is applied to an undetected multiverse, it becomes philosophy (metaphysics).

An anecdote suffices.  Michael Egnor has observed here, philosopher Joseph P. Carter told us in the New York Times that the universe does not care about purpose. Evolutionary psychologist Michael E. Price disputes that view at ,Psychology Today insisting that in a multiverse natural selection can create purpose. His position is denied by most of natural selection’s advocates in biology. But, riffing on Smolin, Price explains that “life is more likely than black holes (or anything else) to be a mechanism of universe replication.” If this kind of ungrounded assertion is the best naturalism can do for us now, why do we encourage it?

Physicist Ethan Siegel counsels at Forbes that we must not “doubt the Multiverse’s existence without considering the very good, scientific reasons that motivate it.” But “very good scientific reasons” are precisely what we lack, unless the term “scientific reasons” now includes immunity to “experimental and observational tests.”  Similarly, physicist Brian Cox told us in 2016 that the “idea of multiverses is not too big a leap” from cosmic inflation. But he is dealing with leaps of the imagination, not of physics discoveries.

Earlier this year, skeptical mathematician Peter Woit fretted with science writer  John Horgan at Scientific American, “The problem with such things as string-theory multiverse theories is that ‘the multiverse did it’ is not just untestable, but an excuse for failure.” Commenting elsewhere on Zeeya Merali’s  A Big Bang in a Little Room (2017),  he noted that she contemplates “the possibility that “string theory and inflation may be conspiring against us in such a way that we may never find evidence for them, and just have to trust in them as an act of faith.” He would  describe it as “a scientifically worthless idea.”

With a clash of world views, where to begin? Woit and Horgan assume that post-modern science is a quest to understand reality, just as traditional science has been. It is not.

For many people today, post-modern science is more of a quest to express an identity as believer in science, irrespective of evidence. Cosmologist Paul Steinhardt  got a sense of this  in 2014, when he reported that some proponents of early rapid cosmic inflation “already insist that the theory is equally valid whether or not gravitational waves are detected.” It fulfilled their needs. In 2017, cosmologist George Ellis, long a foe of post-modern cosmology, summed it up: “Scientific theories have since the seventeenth century been held tight by an experimental leash. In the last twenty years or so, both string theory and theories of the multiverse have slipped the leash.”

We have so much more data now. But it provides no evidence for a multiverse. That’s nothing unusual historically (think phlogiston and ether for great ideas that did not work). We used to just adjust. But today, increasing numbers of science-minded people demand a post-modern science that adapts to their needs.  After all, we evolved to survive and pass on our genes, not to understand reality.

As a result, many cosmologists and science writers speak as if the multiverse merely awaits routine administrative clearance to morph into textbook science, absent evidence. Characteristically, they see themselves as fighting a conservative (fuddy-duddy) establishment which clings to a role for mere evidence.

Fine tuning of our planet and our universe for life sets limits on mere belief by challenging us to calculate probabilities. The multiverse is deeply attractive by comparison because it dissipates evidence. It conjures unimaginably infinite, unproven, and incalculable probabilities. As New Scientist  puts it, “We merely inhabit one out of the infinite selection.” That feels so right just now.

The multiverse has only ever existed, so far as we know, in the mind of man. Its most promising research programs, string theory and early rapid cosmic inflation theory, have bounced along on enthusiasm alone, prompting ever more arcane speculations for which there may never be any possibility of evidence.


But like so many other empty ideas, the multiverse has consequences. If we accept it, we abandon the view that science deals with the observed facts of nature. We adopt the view that it tells us what we want to believe about ourselves. In other words, the multiverse is science’s assisted suicide.

Saturday, 19 August 2017

Beholding the perfect eclipse a privilege?

Listen: Eclipse Led to the Privileged Planet Thesis
Evolution News @DiscoveryCSC  


A perfect solar eclipse like the one on Monday was the inspiration for The Privileged Planet, an important and unusual book in the canon of intelligent design works. Perfect solar eclipses are, in fact, the subject of the book’s first chapter. On a new ID the Future episode, co-author and CSC Senior Fellow Jay Richards chatted with interviewer Andrew McDiarmid, explaining how such awesome cosmic events are the tip of an iceberg-size design argument.


The conditions for a habitable planet (right distance from the right size star, a big but not too big moon that is the right distance away to stabilize Earth’s tilt and circulate its oceans) are also conditions that make perfect solar eclipses from the Earth’s surface much more likely.

And perfect eclipses aren’t just eerie and beautiful. They’ve helped scientists test and discover things, and are part of a larger pattern: The conditions needed for a habitable place in the cosmos correlate with the conditions well suited for scientific discovery. As Richards notes, this correlation is inexplicable if the cosmos is the product of chance. But if it’s intelligently designed with creatures like us in mind, it’s just what we might expect.

Is Darwinism fit for survival?

Ouch: A Slashing New Anti-Darwin Biography from Darwin’s Own Publisher
David Klinghoffer | @d_klinghoffer  


The English literacy critic and biographer A.N. Wilson is a brilliant writer. We’ve been aware for some time that he’s a Darwin skeptic, too. Most recently, in the London Spectator,praised Discovery Institute biologist Michael Denton for writing one of the best books of 2016 – Evolution: Still a Theory in Crisis,which Wilson called a “truly great book,” “fascinatingly clear,” that “destroys the Darwinian position.”

Now we learn that Wilson has been working for the past five years on a biography of Charles Darwin. That is fascinating news. To judge from a sample (not an excerpt, apparently) in the London Evening Standard, it promises to be merciless (A.N. Wilson: It’s time Charles Darwin was exposed for the fraud he was). And in a particularly unkind irony, the book’s British publisher is John Murray, which published Darwin’s own books, On the Origin of Species and The Descent of Man.

Wilson proposes moving Darwin’s statue from its current place of honor at London’s Natural History Museum, and replacing it with the statue of museum founder Richard Owen that originally occupied the spot. (See here for brief video conversation with Dr. Denton  on Owen, Darwin, and the revolving statues issue.) In a further indignity, Darwin is already slated to be replaced on the 10 pound note with Jane Austen, a “more benign figure.”

Wilson writes:

The great fact of evolution was an idea that had been current for at least 50 years before Darwin began his work. His own grandfather pioneered it in England, but on the continent, Goethe, Cuvier, Lamarck and many others realised that life forms evolve through myriad mutations. Darwin wanted to be the Man Who Invented Evolution, so he tried to airbrush all the predecessors out of the story. He even pretended that Erasmus Darwin, his grandfather, had had almost no influence on him. He then brought two new ideas to the evolutionary debate, both of which are false.

One is that evolution only proceeds little by little, that nature never makes leaps. The two most distinguished American palaeontologists of modern times, Stephen Jay Gould and Niles Eldredge, both demonstrated 30 years ago that this is not true. Palaeontology has come up with almost no missing links of the kind Darwinians believe in. The absence of such transitional forms is, Gould once said, the “trade secret of palaeontology”. Instead, the study of fossils and bones shows a series of jumps and leaps….

Darwin’s second big idea was that Nature is always ruthless: that the strong push out the weak, that compassion and compromise are for cissies whom Nature throws to the wall. Darwin borrowed the phrase “survival of the fittest” from the now forgotten and much discredited philosopher Herbert Spencer. He invented a consolation myth for the selfish class to which he belonged, to persuade them that their neglect of the poor, and the colossal gulf between them and the poor, was the way Nature intended things. He thought his class would outbreed the “savages” (ie the brown peoples of the globe) and the feckless, drunken Irish. Stubbornly, the unfittest survived. Brown, Jewish and Irish people had more babies than the Darwin class. The Darwinians then had to devise the hateful pseudo-science of eugenics, which was a scheme to prevent the poor from breeding.

We all know where that led, and the uses to which the National Socialists put Darwin’s dangerous ideas.


That connects a lot of dots. With the crowning insult of Darwin’s own publisher being involved, it almost makes you feel bad for the man. Actually, I’ll go further – I do feel bad for Darwin. The book is out on September 7 in the U.K., but, frustratingly, not until December 12 in the United States. We are looking forward it.

Tuesday, 15 August 2017

*Terms and conditions apply?

Evolutionist: Free Speech for Me, Not for Thee, Certainly Not for ID
Evolution News @DiscoveryCSC  

We love evolutionist Jerry Coyne in part because unlike more wary Darwinists, he blunders into contradictions all the time that expose the inconsistencies in his view of the world. The University of Chicago biologist has said on various occasions that we’re “obsessed” with him, but the truth is he is just very useful, very helpful to us. If there ever comes a time when he tires of blogging at Why Evolution Is True,  that will be a very sad day.

In a new ID the Future podcast, following on the heels of the one we noted yesterday, biologist Ray Bohlin talks with neurosurgeon Michael Egnor about Coyne’s writings on free speech. Dr. Coyne favors it for people who agree with him, not so much for those who disagree. Perfect!


As Dr. Egnor recalls, when he was first getting interested in intelligent design, something that impressed him was the way ID proponents are absolutists about letting opponents talk, write, and teach freely, never, ever stooping to the tactic of threatening someone’s job at a university, or the like. Meanwhile, Darwinists are keen on shutting down conversation — not a hallmark of a strongly supported scientific theory, don’t you agree?  Listen to the podcast here, or download it here.

Monday, 14 August 2017

Time to end welfare for the rich?Pros and cons.

Back to the circus

Textbooks a liability for Darwinism?

Textbooks Refuted — Three Case Studies
Evolution News @DiscoveryCSC   

Textbooks evolve, but not by natural selection. Intelligent minds write textbooks. Those minds, however, are fallible, and don’t know everything. It’s not surprising to see the need for revisions as new discoveries are made, but we should consider three possible outcomes: (a) knowledge is converging on the truth; (b) knowledge is diverging from fake “truth”; or (c) knowledge could just be wandering in a random walk. Let’s look at three recent examples where the news says textbooks need to be rewritten.

Van der Waals Forces
The first discovery, coming from the University of Luxembourg, sounds potentially important. “Textbook knowledge in molecular interactions refuted,”  Science Daily says, indicating that the textbook knowledge is not being improved, but overturned. What happened?

Van der Waals interactions between molecules are among the most important forces in biology, physics, and chemistry, as they determine the properties and physical behavior of many materials. For a long time, it was considered that these interactions between molecules are always attractive. Now, for the first time, Mainak Sadhukhan and Alexandre Tkatchenko from the Physics and Materials Science Research Unit at the University of Luxembourg found that in many rather common situations in nature the van der Waals force between two molecules becomes repulsive. This might lead to a paradigm shift in molecular interactions. 

The team found that, under confinement, these molecular forces can be repulsive. Those are exactly the conditions in cells and cell membranes. So here we have a situation where textbooks have been wrong for decades. Now that “the true nature of these van der Waals forces differs from conventional wisdom in chemistry and biology,” conventions must change, and previous wisdom becomes folly.

DNA Packing
This textbook challenge is quite exciting and deserves a more detailed write-up. For now, let’s look at the headline from the National Institute of Biomedical Imaging and Bioengineeering, which states, “New imaging technique overturns longstanding textbook model of DNA folding.” Basically, it means that existing diagrams of hierarchical folding of DNA into chromosomes is too simplistic. What goes on in the nucleus is much more elegant and complicated:

How can six and half feet of DNA be folded into the tiny nucleus of a cell? Researchers funded by the National Institutes of Health have developed a new imaging method that visualizes a very different DNA structure, featuring small folds of DNA in close proximity. The study reveals that the DNA-protein structure, known as chromatin, is a much more diverse and flexible chain than previously thought. This provides exciting new insights into how chromatin directs a nimbler interaction between different genes to regulate gene expression, and provides a mechanism for chemical modifications of DNA to be maintained as cells divide. The results will be featured in the July 28 issue of Science.

The old models portrayed chromatin like spheres of protein all the same size. Now, “Contrary to the longstanding text book models, DNA forms flexible chromatin chains that have fluctuating diameters between five and 24 nanometers that collapse and pack together in a wide range of configurations and concentrations.”

It is truly astonishing how a 6.5-foot strand of DNA can be packed into a cell nucleus. One biologist was overheard commenting that it sounds like “putting 1,000 people in a VW bug, maybe a million.” The potential for ID research here seems high:

The newly observed and diverse array of structures provides for a more flexible human genome that can bend at varying lengths and rapidly collapse into chromosomes at cell division. It explains how variations in DNA sequences and interactions could result in different structures that exquisitely fine tune the activity and expression of genes.

Whatever it means, “This is groundbreaking work that will change the genetics and biochemistry textbooks,” the lead author says.

Cambrian Fossils
Chaetognaths (“bristle-jaws”), also called arrow worms, are long slender animals with bristles at the mouth. Most are very small, just a few millimeters at most. They comprise a major component of drifting plankton. So distinctive are they, they belong in their own phylum that dates back to the Cambrian, as Stephen Meyer shows in his diagram of first appearances of animal phyla on page 32 of Darwin’s Doubt.

Derek Briggs, whom we saw in October of 2015  committing propaganda to de-fuse the Cambrian explosion, has now found big chaetognaths in Burgess Shale-like beds in Canada. With his colleague Jean-Bernard Caron, Briggs reveals in the newest issue of Current Biology “one of the largest chaeotognaths known, living or fossil.”

The problem is that these fossil specimens turn textbook expectations of Darwinian evolution upside down, because they are bigger and badder than living representatives. They found 50 well-preserved examples in the fossil beds. This species is “unique” in bearing more spines, “as many as 25 spines in each half” of its mouth. And that’s not all. Briggs and Caron reveal additional surprises:

Age: Chaetognaths originated “early in the Cambrian period, if not earlier,” they say.
Soft tissue: So well preserved are these specimens, they “preserve evidence of soft tissues.”
Burial: “Clusters of specimens preserving the body indicate that they were rapidly buried, providing indirect evidence that they swam near the seabed,” unlike the drifting plankton today.
Complexity: “The feeding apparatus comprises up to ∼25 spines in each half, almost double the maximum number in living chaetognaths.”
Ecological revolution: “The large body size and high number of grasping spines in C. praetermissus may indicate that miniaturization and migration to a planktonic lifestyle were secondary” — i.e., they got smaller and less specialized.
Geographical distribution: “Fossilized chaetognath bodies, in contrast, are very rare: only two unequivocal specimens have been reported, both from the early Cambrian of China,” they say. Well, lo and behold, here are scads of big ones on the other side of the globe!
Misinterpretation: “Chaetognath grasping spines, originally reported as conodonts, occur worldwide in many Cambrian marine sediments.” This means that they are distinct from conodonts, not related by ancestry, and that they appear explosively around the world.
Clearly these fossils overturn a lot of what was known about this phylum, even though the authors do not mention textbook being wrong. We already knew (as Darwin knew) that the Cambrian fossils represent a severe challenge to evolution. How many times recently have we seen that the details only exacerbate the problem? The best was first, and evolution in this phylum at least has been downhill since its explosive appearance without any ancestors.

Concluding Thoughts
So what kind of knowledge change do we see in these examples? Materialists like to portray the triumphal march of scientific progress as new findings come to light. It’s not clear that any of these three prominent examples help their case:

Physicists were wrong about van der Waals forces, and the implications could be far-reaching across many disciplines, especially molecular biology.
Geneticists were wrong about chromatin, applying evidence in vitro to evidence in vivo, where conditions are in fact very different — and much more complicated.
Paleontologists were wrong about phylum Chaetognatha, assuming that Darwinian evolution moves from simple to complex.

It’s hard to find convergence toward the truth in these cases. What’s interesting is that each of these findings exacerbates problems for Darwinian evolution while favoring intelligent design. Life is far more capable of exploiting the nuances of atomic forces than thought. DNA packing is far more sophisticated than thought. And the earliest animals were already advanced and apparently more specialized than their living counterparts.