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Sunday 17 December 2023

On the quest for a more plausible explaining away of finetuning.

 More on Roger Penrose and Fine-Tuning


Earlier this month I discussed a video containing a segment on fine-tuning from an amicable debate between 2020 physics Nobel Prize winner Roger Penrose and Christian philosopher William Lane Craig. The video was interesting to me because Penrose does not like the multiverse/anthropic principle explanation which is nearly always proposed as the only alternative to design.

I suggested that perhaps one reason Penrose does not like the multiverse explanation for fine tuning is that it would require an awful lot of universes to explain the fine-tuning he has himself discovered. I have since found another video interview, this one with Robert Lawrence Kuhn, in which Penrose makes clear that this is indeed one of his main objections to the multiverse/anthropic principle explanation for-fine tuning, at least for his own spectacular “initial entropy” fine-tuning. 

He calls the other examples of fine-tuning “chicken feed” compared to the fine-tuning required for the “special” initial conditions at the Big Bang and says there must be another explanation for this fine-tuning, though he has only “hypotheses.” But even if a better explanation than chance or design were found for these spectacularly special initial conditions, that would still leave the “chicken feed” fine-tunings unexplained, for example, why the gravitational constant had to be exactly what it is out to 30 or 60 digits of precision! 

“We Ought to Be Observing”

I also noted that in the Penrose-Craig debate, Craig summarized one of Penrose’s objections to the multiverse argument as “We ought to be observing a much different universe than we do” if the anthropic principle could explain fine-tuning. And I said that it appears that Penrose sees the same problem with a multiverse explanation that Michael Behe did in The Edge of Evolution: 

On the finite random multiverse view, we should very likely live in a bare-bones world, with little or nothing in life beyond what’s absolutely required to produce intelligent observers. So, if we find ourselves in a world lavished with extras — with much more than the minimum — we should bet heavily against our world being the result of a finite multiverse scenario.

Other “Extras” from Our Universe

It is clear from the Robert Kuhn interview that Penrose’s objection is indeed that the order in our universe extends far beyond what should be required for observers to exist (4:10+), though he is talking about a specific kind of order that relates to the initial entropy of the universe. Other “extras” that our universe (and our planet) seem to provide us, which are far beyond what should be required for observers to exist, include, apparently, fine-tuning for scientific discovery and technological progress, as the clips from the Fire-Maker (Michael Denton) and Privileged Planet (Guillermo Gonzalez and Jay Richards) videos included here suggest.

In the interview with Robert Kuhn, Roger Penrose still offers as an alternative to design only that maybe some very different kind of life might still have been possible without the fine-tunings we see in our universe (1:15+). And the problems with that alternative are still as expressed in the last paragraphs of my earlier post.

Of course, all of these discussions assume that once you get the constants of physics and initial conditions of a universe right, life could arise and conscious observers could evolve without design, an assumption that is, to put it very mildly, questionable.

James Ch.1:13,14 and eternal conscious torment in an afteflife.

 James Ch.1:13,14NLT"Temptation comes from our own desires, which entice us and drag us away. 15These desires give birth to sinful actions. And when sin is allowed to grow, it gives birth to death."

Death(the expression of divine wrath) brings an end to wrong desire and wrong doing. Wrong desire and wrong doing cannot endure the expression of JEHOVAH'S Wrath.

So death is not merely the penalty for wrong desire and wrong doing death totally expunges wrong desire and wrong doing from the creation.

Roman's Ch.6:7NIV"because anyone who has died has been set free from sin."

The dead are non existent and thus incapable of wrong or right doing.

1John Ch.2:17NIV"The world and its desires pass away, but whoever does the will of God lives forever."

The expression of JEHOVAH'S righteous wrath will bring an end to rebellious humans and angels and their selfish longings.

In contrast his loyalists will delight in eternal service to our majestic God.

James Chapter 1 New king James Version.

 1.James, a bondservant of God and of the Lord Jesus Christ,

To the twelve tribes which are scattered abroad:

Greetings.

2My brethren, count it all joy when you fall into various trials, 3knowing that the testing of your faith produces [a]patience. 4But let patience have its perfect work, that you may be [b]perfect and complete, lacking nothing. 5If any of you lacks wisdom, let him ask of God, who gives to all liberally and without reproach, and it will be given to him. 6But let him ask in faith, with no doubting, for he who doubts is like a wave of the sea driven and tossed by the wind. 7For let not that man suppose that he will receive anything from the Lord; 8he is a double-minded man, unstable in all his ways.

9Let the lowly brother glory in his exaltation, 10but the rich in his humiliation, because as a flower of the field he will pass away. 11For no sooner has the sun risen with a burning heat than it withers the grass; its flower falls, and its beautiful appearance perishes. So the rich man also will fade away in his pursuits.

12Blessed is the man who endures temptation; for when he has been approved, he will receive the crown of life which the Lord has promised to those who love Him. 13Let no one say when he is tempted, “I am tempted by God”; for God cannot be tempted by evil, nor does He Himself tempt anyone. 14But each one is tempted when he is drawn away by his own desires and enticed. 15Then, when desire has conceived, it gives birth to sin; and sin, when it is full-grown, brings forth death.

16Do not be deceived, my beloved brethren. 17Every good gift and every perfect gift is from above, and comes down from the Father of lights, with whom there is no variation or shadow of turning. 18Of His own will He brought us forth by the word of truth, that we might be a kind of firstfruits of His creatures.

19[c]So then, my beloved brethren, let every man be swift to hear, slow to speak, slow to wrath; 20for the wrath of man does not produce the righteousness of God.

21Therefore lay aside all filthiness and [d]overflow of wickedness, and receive with meekness the implanted word, which is able to save your souls.

22But be doers of the word, and not hearers only, deceiving yourselves. 23For if anyone is a hearer of the word and not a doer, he is like a man observing his natural face in a mirror; 24for he observes himself, goes away, and immediately forgets what kind of man he was. 25But he who looks into the perfect law of liberty and continues in it, and is not a forgetful hearer but a doer of the work, this one will be blessed in what he does.

26If anyone [e]among you thinks he is religious, and does not bridle his tongue but deceives his own heart, this one’s religion is useless. 27Pure and undefiled religion before God and the Father is this: to visit orphans and widows in their trouble, and to keep oneself unspotted from the world.

Saturday 16 December 2023

Some see Dr. Moreau as an exemplary rather than a cautionary model?

 Return (Yet Again) of the Humanzee


A few days ago, the Templeton Foundation’s mailer for its online magazine Nautilus pointed to a five-year-old article by University of Washington psychology prof (emeritus) David P. Barash, advocating the creation of a humanzee: “Doing so would be a terrific idea.”

But Why Now?

It’s not clear why Nautilus is publicizing the article now. The Soviet Union failed to produce a humanzee. Nothing much has happened since 2018 that suggests that it is imminent. We do learn something of why Barash wants one, though:

Haven’t we learned that Promethean hubris leads only to disaster, as did the efforts of the fictional Dr. Frankenstein? But there are also other disasters, currently ongoing, such as the grotesque abuse of nonhuman animals, facilitated by what might well be the most hurtful theologically-driven myth of all times: that human beings are discontinuous from the rest of the natural world, since we were specially created and endowed with souls, whereas “they” — all other creatures — were not.

DAVID P. BARASH, “IT’S TIME TO MAKE HUMAN-CHIMP HYBRIDS,” NAUTILUS, MARCH 5, 2018

So it comes down to a war on the human soul. Now, here’s the interesting part: Humans are self-evidently unique; otherwise, Barash’s interaction with his readers could not occur. The human minds that enable that interaction are clearly not material things. And no one has any idea how they came to exist. Evolutionary theory provides no significant information here. In the end, however much many thinkers don’t like that fact, everyone eventually admits it.

Yet, on cue, readers — including many with PhDs — will agree with Barash that human exceptionalism is wrongthink. They will not ask why either he or they can maintain such an absurd view — when the very act of maintaining it refutes it. Perhaps all those years of education enable them to be oblivious to contradictions that should be apparent to an alert high schooler.

Barash, although he professes concern for animal rights, is not deterred by concern for the humanzees that a successful experiment would produce:

Neither fish nor fowl, wouldn’t they find themselves intolerably unspecified and inchoate, doomed to a living hell of biological and social indeterminacy? This is possible, but it is at least arguable that the ultimate benefit of teaching human beings their true nature would be worth the sacrifice paid by a few unfortunates. It is also arguable, moreover, that such individuals might not be so unfortunate at all. For every chimphuman or humanzee frustrated by her inability to write a poem or program a computer, there could equally be one delighted by her ability to do so while swinging from a tree branch.

BARASH, “HUMAN-CHIMP HYBRIDS”

The risk of “a living hell of biological and social indeterminacy” … And this is the same David Barash who worries about whether worms feel pain?

What Makes the Suffering Worthwhile?

When claims are made about the “right to life,” invariably the referent is human life, a rigid distinction only possible because of the presumption that human life is somehow uniquely distinct from other forms of life, even though everything we know of biology demonstrates that this is simply untrue. What better, clearer, and more unambiguous way to demonstrate this than by creating viable organisms that are neither human nor animal but certifiably intermediate?

BARASH, “HUMAN-CHIMP HYBRIDS”

So the humanzee’s suffering is rendered worthwhile precisely because it enables the denigration of other human beings. Good to know.

At the time, bioethics commentator Wesley J. Smith, clearly shocked by the moral nullity on display, responded,

We are the only truly moral species in the known universe. Only we can be held morally accountable for our actions. Only we have the capacity to rationally determine issues of right and wrong, ought and ought not, etc. Indeed, if being human — in and of itself — isn’t what gives us the moral obligation to treat animals humanely, what in the world does?

And if that duty arises solely and directly from our humanity — which it indisputably does — that means, by definition, that we are exceptional. All other species are amoral and, as such, they don’t owe a duty to each other, us, or anything. Duties, and moral accountability, are simply beyond their ken.

WESLEY J. SMITH, “DARWINIST WANTS US TO CREATE ‘HUMANZEE,’” NATIONAL REVIEW, MARCH 8, 2018

Of course, that’s both true and obvious, and one needs a lot of education to be rendered unable to see it. So then why does this obviously ridiculous and clearly inhumane idea keep coming back?

An Underlying Cultural Trend

Experimental physicist Rob Sheldon writes to suggest that there may be an underlying cultural trend here: When ridiculous inhumane ideas are routinely aired without pushback, we become more willing to accept inhumane ideas that are in fact quite viable:

It’s like an artillery barrage before the infantry go over the wire. The intent isn’t to be taken seriously, the intent is to make the next move seem innocuous.

The basic idea is the constant exposure to “shocking” material until it stops being shocking. And this response is entirely normal. We couldn’t function as humans without a brain circuit that filters out repetitive stimuli. Anything that happens repetitively gets ignored eventually.

He offers some examples:

The hybridization of animal-human embryos allowed to develop past the 14 day “ethical threshold”. The introduction of animal genes to “improve” the human genetic stock. And of course, the Holy Grail — extending the life of humans.

Once we remove the ethical barriers between humans and animals, we can then experiment on humans with all the tools we’ve perfected for animals.

One can agree or disagree with his thesis. But we will probably find out in the next decade or so whether he is right. If he is, what to do about the relentless march of dehumanization is a huge challenge.

The resurrection is a historical fact.

 

The plagiarizing of the original technologist continues apace.

 

Convergent serendipity?

 Fossil Friday: Scansoriopterygidae, Bizarre Bird-Like Dinosaurs, Illustrate Darwinist Trickery


This Fossil Friday is dedicated to Scansoriopterygidae, which “truly are one of the most bizarre clades of non-avian theropods” (Wang et al. 2019). These fossil animals are known only from the Middle to Late Jurassic of China with the genera Ambopteryx, Epidexipteryx, Scansoriopteryx (= Epidendrosaurus?) and the featured Yi. Scansoriopterygidae were very small (sparrow to crow sized) feathered dinosaurs, characterized by an enlarged third finger and ribbon-like tail feathers (Zhang et al. 2008).

Their phylogenetic position among dinosaurs and early birds is unclear (Turner et al. 2012, Cau 2018) and highly disputed, so that no consensus has emerged in spite of several well-preserved fossils. Czerkas & Yuan (2002) placed scanoriopterygids as close relatives to Archaeopteryx and birds, but outside of theropod dinosaurs, while most other studies consider them as theropod dinosaurs. Some studies placed them in a closer relationship with birds in Avialae (Senter 2007, Zhang et al. 2008), while other studies rejected a position in Avialae and placed them more distantly related to birds among basal paravian dinosaurs (Agnolin & Novas 2011, Godefroit et al. 2013, Brusatte et al. 2014, Lefèvre et al. 2014, Sorkin 2020). Several studies even recovered them among oviraptorid dinosaurs outside of Paraves (Agnolin & Novas 2013, O’Connor & Sullivan 2014; also see Headden 2013, Pittman & Xu 2020).

Against Darwinian Predictions

This scientific disagreement is mainly caused by the fact that the pattern of similarities does not unequivocally fall into a nested hierarchy, as would be predicted by Darwinism, but is highly incongruent. But the large degree of convergences is not restricted to similarities with different groups of dinosaurs but also includes characters of other vertebrate groups. “One of the most surprising of these is that of the scansoriopterygid (Theropoda, Maniraptora) Yi qi, which has membranous wings — a flight apparatus that was previously unknown among theropods but that is used by both the pterosaur and bat lineage” (Wang et al. 2019). The discovery by Xu et al. (2015) was so surprising that it was doubted by some experts (e.g., Padian 2015), but the discovery of a new taxon Ambopteryx longibrachium (Wang et al. 2019) strongly confirmed the findings.

The describers of Yi qi (Xu et al. 2015) concluded that “in having wings with a well-developed membranous component, Yi would differ from other volant paravians but resemble distantly related groups including pterosaurs, bats and many gliding mammals, representing a striking case of convergent evolution of the aerodynamic apparatus among tetrapods.” After the confirmation of membraneous wings in the new scansoriopterygid Ambopteryx, Milligan (2019) commented that “unlike other flying dinosaurs, namely birds, these two species have membranous wings supported by a rod-like wrist bone that is not found in any other dinosaur (but is present in pterosaurs and flying squirrels).” Consequently, “birds, it’s clear, weren’t the only flying dinosaurs — and these fossils reveal that flight itself, whether gliding or powered, evolved multiple times among them” (Gramling 2020). A new aerodynamic study by Dececchi et al. (2020) concluded that scansoriopterygids were a failed experiment in pre-bird theropod flight.

Evo-Babble and Convergence

Don’t let the evo-babble of convergent evolution fool you. Convergence is not evidence for evolution but conflicting evidence against evolution. It is incongruent data that do not fit with the Darwinian prediction of a nested hierarchy. Therefore, such incongruences have to be explained away with ad hoc hypotheses like homoplasy (convergence and/or secondary reduction), incomplete lineage sorting, hydridization, or horizontal gene transfer. Instead of admitting incongruent similarities as conflicting evidence, Darwinists hide this dirty secret with deceptive doublespeak like “convergent evolution.” Even though there are some similarities that are revealed as non-homologous by irreconcilable structural and/or genetic differences, most assumed convergences are just interpretations or rather rationalisations after the fact. It is not like the structure has a label that says “I am a convergence” but rather it is a corollary of the assumed correct tree of life and the optimization of characters on this tree. The latter procedure means that the principle of parsimony is used to minimize the number of gains and losses of a character that have to be assumed to plot its distribution on a given tree. If the distribution of the similarities is not congruent with the nested hierarchy of the tree, then multiple gains (convergence) or multiple losses (reduction) of the character have to be postulated. This is crucial and cannot be emphasized enough: Convergences are not observed, they are postulated (compare Kluge 1999 who defined homoplasy nominally as an operational error)!

Here is a thought experiment to expose the trickery: you’ve probably heard about the example of bat wings and bird wings as a paradigmatic showcase of convergent evolution. This is because both groups have transformed the tetrapod foreleg into wings, but are not closely related. Each is nested deeply within different non-volant tetrapod groups with normally developed legs, so that the wings cannot be interpreted as homologous and inherited from an assumed winged common ancestor. Now imagine the counterfactual case that the majority of evidence (e.g., from comparative morphology and phylogenomics) would rather suggest that birds and bats were closest relatives (so-called sister groups). Suddenly the assumed convergence would of course be interpreted as a shared derived character that was inherited from a winged bat+bird ancestor as a homology (synapomorphy). The differences between both wing constructions would be explained away as autapomorphic specializations from a common ground plan, and biologists would emphasize that birds don’t just have feathered wings, but that beneath the feathers you can find small wing membranes (so-called patagia) that would be considered as homologous to the wing membrane of bats. With the discovery of the membraneous scanosoriopterygid wings, evolutionists would have celebrated the discovery of a predicted transitional form that proves the reconstructed ground plan and provides an indisputable confirmation of the evolutionary scenario linking bats and birds. Only science deniers would doubt such an obvious established fact of evolution, right?

How Darwinists Reason (or don't)

However, since birds and bats are not considered as closely related in the actual world, because birds cluster with dinosaurs and bats within mammals, their wings are interpreted as convergent. Likewise, the membraneous wings of scansoriopterygids are interpreted as another convergence, which would make vertebrate wings originate four times independently in pterosaurs, scansoriopterygids, birds, and bats. Darwinists do not really reason from the evidence to a hypothesis, as all good science should do, but only (re)interpret the evidence on the basis of their hypothesis, which therefore is immune to any challenge by conflicting data. When critics of intelligent design claim that it is not falsifiable, they are not only wrong (ID does make very specific testable predictions), but miss the inconvenient truth that it is Darwinism that is not falsifiable and thus of questionable scientific status.

The eminent philosopher of science Karl Popper explicitly recognized this until he was silenced and pushed to recant (Popper 1978: 345) by the Darwinist thought police. Here is what Popper (1976: 151 and 168) had said: “… because I intend to argue that the theory of natural selection is not a testable scientific theory, but a metaphysical research programme; … I have come to the conclusion that Darwinism is not a testable scientific theory, but a metaphysical research programme …” But even more interesting is what Popper (1957: 106) had said: “What we call the evolutionary hypothesis is an explanation of a host of biological and paleontological observations — for instance, of certain similarities between various species and genera — by the assumption of common ancestry of related forms.” (Emphasis added.) Read that carefully again. Did the penny drop? Common descent is assumed and the evidence interpreted accordingly, rather than common descent being deduced from the evidence. Common descent is the only conceivable materialistic option and thus considered as an unquestionable axiom. It may well be true, but it is hardly proven by this kind of dubious science.

References

Agnolín FL & Novas FE 2011. Unenlagiid theropods: are they members of the Dromaeosauridae (Theropoda, Maniraptora)? Anais da Academia Brasileira de Ciências 83(1), 117–162. DOI: https://doi.org/10.1590/S0001-37652011000100008
Agnolín FL & Novas FE 2013. Chapter 3 Systematic Paleontology. pp. 9–36 in: Avian Ancestors: A Review of the Phylogenetic Relationships of the Theropods Unenlagiidae, Microraptoria, Anchiornis and Scansoriopterygidae. SpringerBriefs in Earth System Sciences. Springer: Dordrecht (NL), ix+96 pp. DOI: https://doi.org/10.1007/978-94-007-5637-3
Brusatte SL, Lloyd GT, Wang SC & Norell MA 2014. Gradual assembly of avian body plan culminated in rapid rates of evolution across the dinosaur-bird transition. Current Biology 24(20), 2386–2392. DOI: https://doi.org/10.1016/j.cub.2014.08.034
Cau A 2018. The assembly of the avian body plan : a 160-million-year long process. Bollettino della Societa Paleontologica Italiana 57(1), 1–25. DOI: https://doi.org/10.4435/BSPI.2018.01 (https://www.researchgate.net/publication/324941372)
Czerkas SA & Yuan C 2002. An arboreal maniraptoran from northeast China. pp. 63–95 in: Czerkas SJ (ed.). Feathered Dinosaurs and the Origin of Flight. The Dinosaur Museum Journal 1. The Dinosaur Museum: Blanding (UT). http://dinosaur-museum.org/featheredinosaurs/arboreal_maniraptoran.pdf
Dececchi TA, Roy A, Pittman M, Kaye TG, Xu X, Habib MB, Larsson HCE, Wang X & Zheng X 2020. Aerodynamics Show Membrane-Winged Theropods Were a Poor Gliding Dead-end. iScience 23(12), 101574, 1–17. DOI: https://doi.org/10.1016/j.isci.2020.101574
Godefroit P, Demuynck H, Dyke G, Hu D, Escuillié F & Claeys P 2013. Reduced plumage and flight ability of a new Jurassic paravian theropod from China. Nature Communications 4: 1394, 1–6. DOI: https://doi.org/10.1038/ncomms2389
Gramling C 2020. Bat-winged dinosaurs were clumsy fliers. ScienceNews October 22, 2020. https://www.sciencenews.org/article/dinosaurs-bat-wings-clumsy-evolution-flying-gliding
Headden JA 2013. Are Scansoriopterygids Oviraptorosaurs? TheBiteStuff March 4, 2013. https://qilong.wordpress.com/2013/03/04/are-scansoriopterygids-oviraptorosaurs/
Kluge AG 1999. The Science of Phylogenetic Systematics: Explanation, Prediction, and Test. Cladistics 15(4), 429–436. DOI: https://doi.org/10.1006/clad.1999.0123
Lefèvre U, Hu D, Escuillié FO, Dyke G & Godefroit P 2014. A new long-tailed basal bird from the Lower Cretaceous of north-eastern China. Biological Journal of the Linnean Society 113(3), 790–804. DOI: https://doi.org/10.1111/bij.12343
Milligan M 2019. New Jurassic non-avian theropod dinosaur sheds light on origin of flight in Dinosauria. Heritage Daily May 8, 2019. https://www.heritagedaily.com/2019/05/new-jurassic-non-avian-theropod-dinosaur-sheds-light-on-origin-of-flight-in-dinosauria/123670
     O’Connor JK & Sullivan C 2014. Reinterpretation of the Early Cretaceous maniraptoran (Dinosauria: Theropoda) Zhongornis haoae as a scansoriopterygid-like non-avian, and morphological resemblances between scansoriopterygids and basal oviraptorosaurs. Vertebrata Palasiatica 52, 3–30. http://www.ivpp.cas.cn/cbw/gjzdwxb/xbwzxz/201401/P020140121386966325113.pdf
Padian K 2015. Dinosaur up in the air. Nature 521, 40–41. DOI: https://doi.org/10.1038/nature14392
Pittman M & Xu X 2020. Pennaraptoran Theropod Dinosaurs Past Progress and New Frontiers. Bulletin of the American Museum of Natural History 440(1), 1–355. DOI: https://doi.org/10.1206/0003-0090.440.1.1
Popper K 1957. The Poverty of Historicism. Routledge. London (UK), 166 pp.
Popper K 1976. Unended Quest: An Intellectual Autobiography. Fontana/Collins: Glasgow (UK), iii+316 pp.
Popper K 1978. Natural selection and the emergence of mind. Dialectica 32(3/4), 339–355. https://www.jstor.org/stable/42970324
Senter P 2007. A new look at the phylogeny of Coelurosauria (Dinosauria: Theropoda). Journal of Systematic Palaeontology 5(4), 429–463. DOI: https://doi.org/10.1017/S1477201907002143
Sorkin B 2021. Scansorial and aerial ability in Scansoriopterygidae and basal Oviraptorosauria. Historical Biology 33(12), 3202–3214. DOI: https://doi.org/10.1080/08912963.2020.1855158
Turner AH, Makovicky PJ & Norell M 2012. A Review of Dromaeosaurid Systematics and Paravian Phylogeny. Bulletin of the American Museum of Natural History 371, 1–206. DOI: https://doi.org/10.1206/748.1
Wang M, O’Connor J, Xu X & Zhou Z 2019. A new Jurassic scansoriopterygid and the loss of membranous wings in theropod dinosaurs. Nature 569, 256–259. DOI: https://doi.org/10.1038/s41586-019-1137-z
Xu X, Zheng X, Sullivan C, Wang X, Xing L, Wang Y, Zhang X, O’Connor JK, Zhang F & Pan Y 2015. A bizarre Jurassic maniraptoran theropod with preserved evidence of membranous wings. Nature 521, 70–73. DOI: https://doi.org/10.1038/nature14423
Zhang F, Zhou Z, Xu X, Wang X & Sullivan C 2008. A bizarre Jurassic maniraptoran from China with elongate ribbon-like feathers. Nature 455(7216), 1105–1108. DOI: https://doi.org/10.1038/npre.2008.2326.1

On explaining (away?) Complexity.

 

ID is the science driver?

 It’s Intelligent Design, Not Darwinism, that Drives Scientific Progress


There’s a common objection to intelligent design that the positive case for ID helps us to answer. In his Kitzmiller v. Dover testimony, biologist Kenneth Miller referred to intelligent design as a “science stopper.”1 Similarly, in his book Only a Theory, Miller stated, “The hypothesis of design is compatible with any conceivable data, makes no testable predictions, and suggests no new avenues for research. As such, it’s a literal dead end…”2

Yet in fact, ID makes a variety of testable and successful predictions. This allows ID to serve as a paradigm guiding scientific research to make new discoveries. The list below shows various fields where ID is helping science to generate knowledge. For each field, multiple ID-friendly scientific publications are cited as examples.

How ID Inspires the Progress of Science

Protein science: ID encourages scientists to do research to test for high levels of complex and specified information in biology in the form of the fine-tuning of protein sequences.3 This has practical implications not just for explaining biological origins, but also for engineering enzymes and anticipating and fighting the future evolution of diseases.
Physics and cosmology: ID has inspired scientists to seek and find instances of fine-tuning of the laws and constants of physics to allow for life, leading to new fine-tuning arguments such as the Galactic Habitable Zone. This has implications for proper cosmological models of the universe, hinting at avenues for successful “theories of everything” that must accommodate fine-tuning, and other implications for theoretical physics.4
Information theory: ID leads scientists to understand intelligence as a cause of biological complexity, capable of being scientifically studied, and to understand the types of information it generates.5
Pharmacology: ID directs both experimental and theoretical research to investigate the limitations of Darwinian evolution to produce traits that require multiple mutations in order to function. This has practical implications for fighting problems like antibiotic resistance or engineering bacteria.6
Evolutionary computation: ID produces theoretical research into the information-generative powers of Darwinian searches, leading to the discovery that the search abilities of Darwinian processes are limited, which has practical implications for the viability of using genetic algorithms to solve problems.7
Anatomy and physiology: ID predicts function for allegedly “vestigial” organs, structures, or systems whereas evolution has made many faulty predictions of nonfunction.8
Bioinformatics: ID has helped scientists develop proper measures of biological information, leading to concepts like complex and specified information or functional sequence complexity. This allows us to better quantify complexity and understand what features are, or are not, within the reach of Darwinian evolution.9
Molecular machines: ID encourages scientists to reverse-engineer molecular machines — like the bacterial flagellum — to understand their function like machines, and to understand how the machine-like properties of life allow biological systems to function.10
Cell biology: ID causes scientists to view cellular components as “designed structures rather than accidental by-products of neo-Darwinian evolution,” allowing scientists to propose testable hypotheses about cellular function and causes of cancer.11
Systematics: ID helps scientists explain the cause of the widespread features of conflicting phylogenetic trees and “convergent evolution” by producing models where parts can be reused in non-treelike patterns.12 ID has spawned ideas about life being front-loaded with information such that it is designed to evolve, and has led scientists to expect (and now find!) previously unanticipated “out-of-place” genes in various taxa.13
Paleontology: ID allows scientists to understand and predict patterns in the fossil record, showing explosions of biodiversity (as well as mass extinction) in the history of life.14Genetics: ID has inspired scientists to investigate the computer-like properties of DNA and the genome in the hopes of better understanding genetics and the origin of biological systems.15 ID has also inspired scientists to seek function for noncoding junk-DNA, allowing us to understand development and cellular biology.16

Avenues of Discovery

Critics wrongly charge that ID is just a negative argument against evolution, that ID makes no predictions, that it is a “god of the gaps” argument from ignorance, or that appealing to an intelligent cause means “giving up” or “stopping science.” These charges are misguided. 

Ironically, when critics claim that research is not permitted to detect design because that would stop science, it is they who hold science back by preventing scientists from investigating the scientific theory of intelligent design. When researchers are allowed to infer intelligent agency as the best explanation for information-rich structures in nature, this opens up many avenues of discovery that are bearing good fruit in the scientific community.

Notes

Kenneth R. Miller, Kitzmiller v. Dover, Day 2 AM Testimony (September 27, 2005).
Kenneth R. Miller, Only a Theory: Evolution and the Battle for America’s Soul (New York: Viking Penguin, 2008), 87.
Axe, “Extreme Functional Sensitivity to Conservative Amino Acid Changes on Enzyme Exteriors”; Axe, “Estimating the Prevalence of Protein Sequences Adopting Functional Enzyme Folds”; Behe and Snoke, “Simulating Evolution by Gene Duplication of Protein Features That Require Multiple Amino Acid Residues”; Axe, “The Case Against a Darwinian Origin of Protein Folds”; Gauger and Axe, “The Evolutionary Accessibility of New Enzyme Functions: A Case Study from the Biotin Pathway”; Reeves et al., “Enzyme Families-Shared Evolutionary History or Shared Design? A Study of the GABA-Aminotransferase Family”; Thorvaldsen and Hössjer, “Using statistical methods to model the fine-tuning of molecular machines and systems.”
Guillermo Gonzalez and Donald Brownlee, “The Galactic Habitable Zone: Galactic Chemical Evolution,” Icarus 152 (2001), 185-200; Guillermo Gonzalez, Donald Brownlee, and Peter D. Ward, “Refuges for Life in a Hostile Universe,” Scientific American (2001), 62-67; Guillermo Gonzalez and Jay Wesley Richards, The Privileged Planet: How Our Place in the Cosmos Is Designed for Discovery (Washington, DC, Regnery, 2004); Guillermo Gonzalez, “Setting the Stage for Habitable Planets,” Life 4 (2014), 34-65; D. Halsmer, J. Asper, N. Roman, and T. Todd, “The Coherence of an Engineered World,” International Journal of Design & Nature and Ecodynamics 4 (2009), 47-65.
William A. Dembski, The Design Inference; William A. Dembski and Robert J. Marks II, “Bernoulli’s Principle of Insufficient Reason and Conservation of Information in Computer Search,” Proceedings of the 2009 IEEE International Conference on Systems, Man, and Cybernetics(October 2009), 2647-2652; William A. Dembski and Robert J. Marks II, “The Search for a Search: Measuring the Information Cost of Higher Level Search,” Journal of Advanced Computational Intelligence and Intelligent Informatics 14 (2010), 475-486; Øyvind Albert Voie, “Biological function and the genetic code are interdependent,” Chaos, Solitons and Fractals 28 (2006), 1000-1004; McIntosh, “Information and Entropy —Top-Down or Bottom-Up Development in Living Systems?”
Behe and Snoke, “Simulating evolution by gene duplication of protein features that require multiple amino acid residues”; Ann K. Gauger, Stephanie Ebnet, Pamela F. Fahey, and Ralph Seelke, “Reductive Evolution Can Prevent Populations from Taking Simple Adaptive Paths to High Fitness,” BIO-Complexity 2010 (2).
William A. Dembski and Robert J. Marks II, “Conservation of Information in Search: Measuring the Cost of Success,” IEEE Transactions on Systems, Man, and Cybernetics-Part A: Systems and Humans 39 (September 2009), 1051-1061; Winston Ewert, William A. Dembski, and Robert J. Marks II, “Evolutionary Synthesis of Nand Logic: Dissecting a Digital Organism,” Proceedings of the 2009 IEEE International Conference on Systems, Man, and Cybernetics (October 2009); Dembski and Marks, “Bernoulli’s Principle of Insufficient Reason and Conservation of Information in Computer Search”; Winston Ewert, George Montanez, William Dembski and Robert J. Marks II, “Efficient Per Query Information Extraction from a Hamming Oracle,” 42nd South Eastern Symposium on System Theory (March 2010), 290-297; Douglas D. Axe, Brendan W. Dixon, and Philip Lu, “Stylus: A System for Evolutionary Experimentation Based on a Protein/Proteome Model with Non-Arbitrary Functional Constraints,” Plos One 3 (June 2008), e2246.
       Jonathan Wells, “Using Intelligent Design Theory to Guide Scientific Research”; William Dembski and Jonathan Wells, The Design of Life: Discovering Signs of Intelligence in Living Systems (Dallas, TX: Foundation for Thought and Ethics, 2008).
Meyer, “The origin of biological information and the higher taxonomic categories”; Kirk K. Durston, David K.Y. Chiu, David L. Abel, Jack T. Trevors, “Measuring the functional sequence complexity of proteins,” Theoretical Biology and Medical Modelling 4 (2007), 47; David K.Y. Chiu and Thomas W.H. Lui, “Integrated Use of Multiple Interdependent Patterns for Biomolecular Sequence Analysis,” International Journal of Fuzzy Systems4 (September 2002), 766-775.
Minnich and Meyer. “Genetic Analysis of Coordinate Flagellar and Type III Regulatory Circuits in Pathogenic Bacteria”; McIntosh, “Information and Entropy—Top-Down or Bottom-Up Development in Living Systems?” 
Jonathan Wells, “Do Centrioles Generate a Polar Ejection Force?,” Rivista di Biologia / Biology Forum, 98 (2005), 71-96; Scott A. Minnich and Stephen C. Meyer, “Genetic analysis of coordinate flagellar and type III regulatory circuits in pathogenic bacteria,” Proceedings of the Second International Conference on Design & Nature Rhodes Greece (2004); Behe, Darwin’s Black Box; Lönnig, “Dynamic genomes, morphological stasis, and the origin of irreducible complexity.”
Lönnig, “Dynamic genomes, morphological stasis, and the origin of irreducible complexity”; Nelson and Jonathan Wells, “Homology in Biology”; Ewert, “The Dependency Graph of Life”; John A. Davison, “A Prescribed Evolutionary Hypothesis,” Rivista di Biologia/Biology Forum 98 (2005), 155-166; Ewert, “The Dependency Graph of Life.”
Sherman, “Universal Genome in the Origin of Metazoa: Thoughts About Evolution”; Albert D.G. de Roos, “Origins of introns based on the definition of exon modules and their conserved interfaces,” Bioinformatics 21 (2005), 2-9; Albert D.G. de Roos, “Conserved intron positions in ancient protein modules,” Biology Direct 2 (2007), 7; Albert D.G. de Roos, “The Origin of the Eukaryotic Cell Based on Conservation of Existing Interfaces,” Artificial Life 12 (2006), 513-523.
Meyer et al., “The Cambrian Explosion: Biology’s Big Bang”; Meyer, “The Cambrian Information Explosion”; Meyer, “The origin of biological information and the higher taxonomic categories”; Lönnig, “Dynamic genomes, morphological stasis, and the origin of irreducible complexity.”
Richard v. Sternberg, “DNA Codes and Information: Formal Structures and Relational Causes,” Acta Biotheoretica 56 (September 2008), 205-232; Voie, “Biological function and the genetic code are interdependent”; David L. Abel and Jack T. Trevors, “Self-organization vs. self-ordering events in life-origin models,” Physics of Life Reviews 3 (2006), 211-228.
Richard v. Sternberg, “On the Roles of Repetitive DNA Elements in the Context of a Unified Genomic– Epigenetic System”; Jonathan Wells, “Using Intelligent Design Theory to Guide Scientific Research”; Josiah D. Seaman and John C. Sanford, “Skittle: A 2-Dimensional Genome Visualization Tool,” BMC Informatics 10 (2009), 451.
This article is a modified excerpt from the recent book The Comprehensive Guide to Science and Faith: Exploring the Ultimate Questions About Life and the Cosmos. 

The world's most important corporation?

 

Thursday 14 December 2023

Another body blow to the "simple" lifeform trope?

 Quorum Sensing: A Clever Trick by Microbes


You’re exploring in the dark on a secret mission. You need a dozen compatriots to initiate operations. How do you know when the minimum number is assembled, when you cannot see them or talk to them? The answer is quorum sensing: using techniques to silently count the friends near you. When you have a quorum, you start the mission.

These days, radio communication makes the imaginary secret mission a cinch. Without sight or sound, members of a team can know where their compatriots are on hand-held devices using encrypted messaging. In ordinary life, many people use apps like Apple’s “Find My Friends” to see where family members are before starting a birthday party. We take quorum sensing for granted, but we are purposeful, intelligent agents. Distributed robot systems designed by MIT use biomimetic algorithms pre-programmed into them by engineers.

Quorum sensing is used all the time by… (wait for it…) bacteria. Microbes can wait to commence an activity until a threshold density of neighboring conspecifics is detected. This skill has been observed in other microbes, like slime molds, and in higher organisms that exhibit collective behaviors, like insects, fish, and birds. Robot designers are learning tricks from the simplest of life forms: how to communicate with and respond to other unseen members of a population. Quorum sensing (QS) extends the concept of the interactome from intracellular to intercellular, converting a population of individuals into a super-organism. In this sense, a population of bacteria is a multicellular life form. This puts increased pressure on Darwinian notions of a “simple” cell. Could a lucky protocell, all alone, survive without a population of protocells able to communicate and coordinate their behaviors?

Requirements for Quorum Sensing

Consider the requirements for quorum sensing. The most rudimentary specifications include a sensor, a receptor, and a response plan. Bacteria employ QS by sending out specific molecules into the environment. On their surfaces, they post receptors for molecules from other members of their species. The incoming count is measured. When a threshold is reached, the signal triggers changes in gene expression, leading to pre-programmed actions coordinated with the other members of the swarm. These could include forming a biofilm, altering migration behavior, or switching on defensive maneuvers. Some bioluminescent microbes will only “turn on the lights” when a threshold density is detected.

Already we can see that a QS algorithm is irreducibly complex, but in real life examples, additional requirements become apparent. For instance, there is the need for “quorum quenching” — turning off the response when conditions change. The bacterium must also discern the degree of similarity of incoming signal molecules. In news about QS echoed on Phys.org, researchers from Aalto University in Finland likened the skill to understanding dialects and foreign languages:

“We did a ‘bacterial language check’ and found that bacteria using very similar languages can understand each other, just like a Dutch person might understand some German. We also tested communication between bacteria using very different languages and found that they couldn’t understand each other at all — just like a conversation between people speaking Finnish, Dutch and Arabic wouldn’t get far,” says Christopher Jonkergouw, the doctoral student who led the study. 

In the military, soldiers with different English dialects can generally understand one another to get by and continue their mission. They might even understand natives in other cultures who speak Pidgin, assisted by some gestures and facial expressions. There comes a point of “no comprendo” when the languages are too different, as anyone knows who has traveled abroad. The point is that beyond the threshold of comprehension, more is required for communication: language training, a smartphone translation app, or a human interpreter. Recall the consternation of Japanese soldiers in World War II listening in to the Navajo “code talkers” communicating American military strategies over the radio.

Bacteria Have a Similar Problem

The Aalto researchers identified over 160 bacterial “languages” spoken in molecular “words.” Molecules that are structurally similar can trigger a response up to a point, after which the bacteria do not respond. This knowledge is a first step for scientists wishing to intervene in bacterial responses like antibacterial resistance.

With these tools, the researchers have shown that we can accurately estimate the connections between bacterial languages and predict whether they can be understood. These findings will be valuable in further refining the team’s new treatment approach, and they also have implications for biotechnology — bacterial languages can be used to coordinate tasks between groups in bacterial communities, or even in bacterial microprocessors.

The team’s paper in Angewandte Chemie doesn’t use the language metaphor, but it elaborates on the methods for determining the limits of bacterial responses to similar molecules. Prior work on QS has focused on a few of these molecules, most prominently the homoserine lactones (HSLs). Like dialects, HSLs as a class include structurally similar forms, considered “cognate” — i.e., members of a family.

Here, we move beyond the commonly utilized HSL QS signalling systems and explore how chemical diversity in ligands can serve as a guiding principle to understand and circumvent non-cognate binding interactions. We explore the chemical diversity in a comprehensive set of known QS ligands and, based on the hypothesis that diversity in ligand chemical structures minimizes non-cognate interactions, experimentally assess a set of structurally similar as well as a diverging set of QS signalling systems (Figure 1). Using this approach, we significantly expand upon the known and available synthetic orthogonal QS signalling systems and provide a clear strategy towards future expansion efforts of additional synthetic orthogonal signalling systems.

Beyond the threshold of recognition, the signal molecule no longer triggers a response. The researchers “repaired” one such mutant molecule to see if the response could be regained:

Extensive screening from multiple ligation and transformation attempts generated a limited number of colonies that all contained non-synonymous mutations, resulting in amino acid substitutions. In the case of PauR, four sequenced colonies (from different ligations and transformations) all contained a point mutation in S129 a serine involved in AHL binding, within the autoinducer binding domain (Figure S2). Four clones of PluR contained non-synonymous mutations, all resulting also in amino acid substitutions. We hypothesized that constitutive expression severely affects viability in E. coli, so to overcome this, we controlled the expression of the receptor proteins with L-rhamnose (Figure 4b). This resulted in functional (and sequencing verified) constructs that we were able to experimentally assess.

It was a bit like intervening in a conversation to help a listener understand a word the speaker was mispronouncing. The mutations did not help the bacterium understand the signal. Less likely would a mutation help the listening bacterium come up with an improved response.

QS as a Life Trait

Rocks do not do quorum sensing. Could one boulder care how many others are around, using the information to initiate a programmed response? A critic might point to collective behaviors of particles in clouds, tornados, hurricanes, or other emergent phenomena. Such cases, however, do not send signals, receive signals, and respond by triggering embedded instructions. They simply respond to laws of physics. Life is different. From the smallest cell to the greatest whale or redwood tree, algorithmic processes like QS distinguish the biotic from the abiotic.

QS signalling systems are ubiquitous in prokaryotes, and novel [i.e., previously unknown] QS ligands are continually being identified. Furthermore, increasing evidence alludes to interspecies and even interkingdom signalling systems, expanding the range, scope, and complexity of intercellular signal recognition.

Within our own bodies there are examples of QS, for example in the immune system, hormone signaling, and blood clotting. Additionally, microbes in the gut use quorum sensing to respond to changes in food intake and wellness.

The authors know that QS is a characteristic of living things. They have nothing to say about Darwinian evolution, probably because we humans intuitively know intelligent design when we see it. Else why would scientists try to imitate it with engineering projects?

Cellular cooperation forms one of the defining features of higher organisms. The differentiation into various cell types allows cells to divide tasks and specialize. Prokaryotes have also developed methods to organizemore complex architectures. Bacteria utilize small molecules in quorum sensing (QS) as a form of intercellular signalling, which enables them to synchronize and organize behaviour on a population-wide or even community-wide level to facilitate bacterial biofilm architectures, promote plant colonization, or commence the production of a range of virulence factors. Consequently, these intercellular signalling systems have attracted widespread interest in biotechnology, where the potential to control community-wide responses has sparked innovations in microbiome therapeutics, microbial factories, and cellular computing.

Jonathan McLatchie wrote about quorum sensing here in 2010. His article embedded a TED talk by Bonnie Bassler that is worth watching again. Denyse O’Leary mentioned QS briefly in 2021 as an indicator of cognition, but there has been little mention of it otherwise in these pages. I hope this review of the latest news on QS will raise more awareness about this fascinating phenomenon. Perhaps it will prompt some ID scientists to take the lead in de-Darwinizing it for human health. In the meantime, all of us can use it as one more illustration of specified complexity and low probability that justifies the design inference


On the forgotten holocaust.

 

"Not so fast" re: saltation in Darwinism

 Hitting the Brakes on “Rapid Evolution”


Andrew McDiarmid


Evolutionary biologist Richard Lenski hopes to demonstrate Darwinian evolution in action. But one humble scientist from Northern Idaho says not so fast! On this episode of ID the Future, host Eric Anderson concludes his “Why It Matters” interview with microbiologist Dr. Scott Minnich. 


In Part 2, Dr. Minnich critiques Lenski’s famous Long Term Evolutionary Experiment. Through experiments of his own, Minnich has shown how the practical results of Lenski’s project on E. coli are easily repeatable under different conditions, and how some key changes to E. coli are even reversible, both of which speak more to an organism’s pre-existing capabilities than to a Darwinian explanation. “Overall, [Lenski’s] E. coli haven’t generated anything new,” observes Minnich. “They’re getting rid of stuff they don’t need…they have hyper mutational rates…but in the long run, that’s not an advantage, because you’re just going to acquire too many mutations, and that’s the road to extinction.”


Dr. Minnich also cautions that the authority of science can be abused, sharing his personal experience of being tasked by the Defense Intelligence Agency to look for biochemical weapons in Iraq. In the end, one of the things that most fascinates him about design in nature is DNA, with E. coli’s code-like logic that reminds us of the logical system operations programmed by human engineers.


Download the podcast or listen to it here. This is the second of a two-part conversation. Listen to part 1

Wednesday 13 December 2023

On the irreducible complexity of sleep

 Sleep — Designed for Our Good


The other day, when I awoke from a restful sleep, the thought occurred to me that sleep, as an important part of our physical lives, holds some deep evidence of design. 

In reviewing research on sleep, I found that a common but somewhat surprising result is the acknowledgement of how incomplete our understanding is of why we sleep in the first place. 

Despite the fact that it’s been a universal of human experience for our entire existence as a species, it remains one of science’s greatest mysteries.1

Although it is apparent that humans need sleep, the current understanding of precisely why sleep is an essential part of life is still yet to be determined. We might suggest that the primary value of sleep is to restore natural balances among neuronal centers, which is necessary for overall health. However, the specific physiological functions of sleep remain a mystery and are the subject of much research.2

Darwinian evolution credits animal traits such as strength, speed, flight, and prowess to the selective mechanism of survival of the fittest (never mind how those complex functions arose in the first place), but survival of the unconscious? How reasonable is that?

Surely natural selection would weed out the unfit who fall prey in sleep and would favor those able to stay awake, wouldn’t it? Yet that is not the case in insects, reptiles, birds, mammals or humans.3

An Obstacle to Understanding

I would suggest that the evolutionary mindset operates as a major obstacle to the scientific understanding of sleep. In presupposing that all animals evolved from a common ancestor and that the universal biological need for the sleep-wake cycle evolved along with all organisms, two unsupported assumptions are exposed. One is that “survival of the fittest” has selected for the counterintuitive process of regularly going unconscious, and the other is that Darwinian mechanisms have the capacity to generate the high levels of information within the designed systems inherent in the process of sleep.

…if sleep doesn’t serve some vital function, it is the biggest mistake evolution ever made.4

Debate rages over why all but the simplest of animals have evolved to spend so much of their lives unconscious. One idea is that sleep conserves energy, but studies have shown we burn almost as many calories snoozing as we do when we are awake, so that seems unlikely.

Unfortunately, however, evolutionary theories are hard to prove, so for the moment we are left wondering how sleep emerged in the first place.5

Various studies have yielded some clues as to why we need sleep, based on physiological processes that occur during sleep. 

Researchers discovered that cells in the brains of sleeping mice shrink, allowing cerebrospinal fluid — the colourless liquid that circulates in the brain and spinal cord — to flow more easily, sweeping away debris that builds up around active cells during the day. This is carried to lymph glands and flushed out of the body. So perhaps sleep is vital because without it, these toxic by-products build up in the brain. The idea that sleep cleans up our brains is hard to test…6

Organisms without brains also exhibit evidence of a rhythm of sleep, revealing that even simple nerve responses to external stimuli may overtax the body without some regular period of respite.7

But although creatures with more primitive nervous systems don’t sleep quite the same way as more complex animals, they do in fact display regular sleeping behaviors.8

To Sleep, Perchance to Dream

Psychological studies reveal that our brains utilize the sleeping state to organize sensory information and thoughts received during waking hours.

During sleep, our brains sort through information taken in during the day, decide what to store, and make connections between new facts and memories. It is possible that dreams help with this…9

“Dropping off,” as we sometimes call going to sleep, involves a cascade of physiological modifications within our bodies that belies the seeming simplicity of the act of closing our eyes for a rest. 

Sleep is an extremely complicated process that consists of more than simply closing one’s eyelids and counting sheep. It is an active state of unconsciousness produced by the body where the brain is in a relative state of rest and is reactive primarily to internal stimulus. The exact purpos

An abbreviated description of just a few of the necessary processes for regulating sleeping and wakefulness are presented below. Sleep stages are distinguished by rapid-eye movement (REM) and non-REM stages.

Sleep-Promoting Processes

GABA [Gamma-aminobutyric acid] is the primary inhibitory neurotransmitter of the central nervous system, and it has been well established that activation of GABA-a receptors favors sleep. Sleep-promoting neurons in the anterior hypothalamus release GABA, which inhibits wake-promoting regions in the hypothalamus and brainstem. Adenosine also promotes sleep by inhibiting wakefulness-promoting neurons localized to the basal forebrain, lateral hypothalamus, and tuberomammillary nucleus.11

Wakefulness-Promoting Processes

Neurochemicals such as acetylcholine (Ach), dopamine, norepinephrine, serotonin (5-HT), histamine, and the peptide hypocretin maintain the waking state. Cortical ACh release is greatest during waking and REM sleep and lowest during NREM sleep…. The noradrenergic cells of the [locus coeruleus] inhibit REM sleep, promote wakefulness, and project to various other arousal-regulating brain regions, including the thalamus, hypothalamus, basal forebrain, and cortex.

Circadian rhythms, which begin to develop in humans at 2-3 months of age, follow a 24-hour cycle and affect several biological functions, including sleeping and waking.

The sleep cycle is regulated by the circadian rhythm, which is driven by the suprachiasmatic nucleus (SCN) of the hypothalamus. GABAergic sleep-promoting nuclei are found in the brainstem, lateral hypothalamus, and preoptic area.12

Transitions between sleep and wake states are orchestrated by multiple brain structures, which include:

Hypothalamus: controls onset of sleep
Hippocampus: memory region active during dreaming
Amygdala: emotion center active during dreaming
Thalamus: prevents sensory signals from reaching the cortex
Reticular formation: regulates the transition between sleep and wakefulness
Pons: helps initiate REM sleep. The extraocular movements that occur during REM are due to the activity of PPRF (paramedian pontine reticular formation/conjugate gaze center).13

As Steve Laufmann and Howard Glicksman lucidly describe in their recent book, Your Designed Body, a “push-pull principle” dominates in the proper regulation of many critically important bodily systems. Our body’s sleep-wake cycle exhibits this type of complex engineering design.

The mechanism through which sleep is generated and maintained is more of a balance between two systems located within the brain: the homeostatic processes, which are functionally the body’s “need for sleep” center, and the circadian rhythm which is an internal clock for the sleep-wake cycle.

Since the regulatory processes producing sleep and the return to wakefulness involve the coordinated activity of multiple brain structures and numerous neurotransmitters, calling it all irreducibly complex seems like quite the understatement. If getting to sleep is necessary for survival, returning to wakefulness is undeniably more so. All aspects of the process of sleeping and waking need to be in full operation before this “evolutionary mystery” could impart any survival advantage. For sleep to be able to accomplish its function of restoration and refreshment for body and mind, without leaving us to languish in the “land of nod,” is evidence of an intelligent designer whose purposes work for our blessing.14

Notes

“The Mystery of Sleep,” Penn Medicine News.
Aakash K. Pate, Vamsi Reddy, Karlie R. Shumway, John F. Araujo, “Physiology, Sleep Stages” (September 7, 2022).
“Sleep on It: Design in the Subconscious Brain,” Evolution News.
“Why do we sleep?” BBC Science Focus Magazine.
“The mysteries of sleep: everything we don’t know about why we snooze,” BBC Science Focus Magazine.
“Why do we sleep?” BBC Science Focus Magazine.
“The Simplest of Slumbers,” Elizabeth Pennisi, Science.
“The Mystery of Sleep,” Penn Medicine News.
“Why do we sleep?” BBC Science Focus Magazine.
Joshua E. Brinkman, Vamsi Reddy, Sandeep Sharma, “Physiology of Sleep” (April 3, 2023).
Aakash K. Pate, Vamsi Reddy, Karlie R. Shumway, John F. Araujo, “Physiology, Sleep Stages” (September 7, 2022).
Ibid.
Ibid.
“In peace I will both lie down and sleep; for you alone, O Lord, make me dwell in safety.” (Psalm 4:8 ESV)

Musing on the the thumb print of JEHOVAH.

 Stephen Meyer and Spencer Klavan on the Book of Nature: Is There an Author?


At a Chanukah dinner over the weekend I met a man who had a passing awareness of intelligent design. When we got to talking about it, he criticized Stephen Meyer for being “disingenuous.” Why? Because, he informed me, “Meyer clearly believes that ID points to God but he won’t come out and say so directly.” Hah! Evidently, my new acquaintance hadn’t run across Dr. Meyer’s latest book, Return of the God Hypothesis: Three Scientific Discoveries That Reveal the Mind Behind the Universe. I told him about it and was glad the next day to be able to hand him a copy.

I thought of that as I was listening to a fascinating interview with Meyer on the Young Heretics podcast. The host, Spencer Klavan, is himself a very interesting person — a classicist with a love of science and an openness to considering challenging ideas. He calls Return of the God Hypothesis “one of the must-read books of the century thus far.” He and Meyer review several centuries of the history of science. They observe that intelligent design was the default understanding of nature and the cosmos — until the hostile takeover by Darwinian materialism in the middle of the 19th century. With new discoveries since then in biology and cosmology, science has been recovering the idea of purpose working through nature that it had lost.

And for our culture, that’s none too soon. As Meyer notes, citing new research from the Harvard Graduate School of Education, young adults are in a mental health crisis, beset by anxiety and depression tied to a failing sense of “meaning and purpose.” Perhaps knowing that the universe itself bears evidence of meaning and purpose can help address the roots of the crisis, summarized by psychologist Viktor Frankl in his classic 1946 book Man’s Search for Meaning.

The Book of Nature

Klavan, with his expertise in classical languages, is an insightful interviewer. He points out that the verse in Psalm 19 – “The heavens declare the glory of God, and the firmament showeth His handiwork” — uses a Hebrew verb, translated as “declare,” that shares a root with the word sefer, a “book.” The book of nature testifies to its author. And the Greek word cosmos, from which we get “cosmology,” comes from a verb that means to order or direct. So the study of cosmic origins fittingly reveals not just mindless material processes but, ultimately, the purposeful mind behind that ordering.

This is a terrific conversation between Meyer and Klavan, whose own recent book is How to Save the West: Ancient Wisdom for 5 Modern Crises. Listen to it here on Apple Podcasts or here on the episode website.

The enlightenment was not particularly enlightening? Pros and Cons.


Tuesday 12 December 2023

OOL science keeps raiding I.D'S tool kit?

 Cronin-Tour at Harvard: How Researchers Smuggle Design into Their Theories


I recently watched the debate hosted at Harvard between origins researcher Lee Cronin and synthetic chemist James Tour on the state of research into the origin of life. Günter Bechly already contrasted Tour’s presentation which focused on the most relevant chemistry with Cronin’s presentation that simply described his Assembly Theory while completely avoiding the details of the chemistry. Here, I will build upon Bechly’s insightful analysis by illustrating how all attempts by Cronin and others to justify belief in an undirected origin of life smuggle design into their theories in the guise of natural selection and self-organization. 

Cronin’s Assembly Theory

Cronin presented his Assembly Theory as a framework for understanding life’s origin. I believe he is correct but not in the way he intends. He describes Assembly Theory as a method for detecting life by identifying signatures of biological complexity. It quantifies the amount of biological information or “assembly” generated or residing in a biological system. He acknowledges that natural processes do not produce biological information or order, which is why the appearance of functional information and purposeful order points to life. His framework appears to function as a crude form of William Dembski’s design-detection apparatus presented in both editions of The Design Inference (here, here). The difference is that Cronin avoids the conclusion of design by assuming that the order is generated by natural selection. 

The problem is that so-called natural selection cannot commence until after a fully functional cell capable of high-accuracy self-replication already exists. Hypotheses of simple molecules self-replicating and evolving toward life are completely implausible for reasons Tour and I previously outlined (here, here). Even leading origins researcher Steven Benner acknowledged in his article “Paradoxes in the Origin of Life” that the spontaneous emergence of self-replicating molecules appears impossible. 

Self-Organization and Metastable States 

During the dinner conversation, physicist Randy Isaac and another physicist added self-organization to natural selection as life-creation mechanisms. They asserted that self-organizational process can generate a series of metastable states that could lead to life (here). 

Again, this claim is not based on evidence. Steven Benner and Michael Russel, another leading origin-of-life researcher, believe on faith that life-generating self-organizational processes must exist, but they acknowledge that the empirical evidence and everything known about physics and chemistry suggest that they cannot exist. Chemical systems never move toward life but always away from it. Experiments that generate patterns that are even remotely life-like only do so because of the systems being carefully engineered with that purpose in mind. 

Misleading the Public

Origins researchers intuitively recognize that life displays clear evidence for design, but their philosophical commitments prevent them from acknowledging where the evidence naturally leads. Instead, they invoke natural selection and self-organization not as real processes supported by empirical evidence but as secular demigods capable of any feat of creative genius. The public is easily misled since the bait-and-switch is concealed behind technical language that is impenetrable for the layperson. 

James Tour and others who have carefully studied the technical literature quickly came to realize that nearly all origin-of-life studies fall into one of three categories (here, here):

Prebiotic experiments: This class starts with molecules that could have existed on the early Earth. Energy is applied, and the product is analyzed. These studies consistently generate enormous numbers of molecules where only a tiny percentage is relevant to life. The large numbers of extraneous molecules prevent long chains of amino acids, nucleotides, or sugars from ever forming. All origins hypotheses collapse at this point. 
Synthesis experiments: This class typically starts with carefully chosen molecules in unrealistically high concentrations and purities. Experimental conditions are carefully designed to yield some life-relevant products such as amino acid chains. If such experiments started with realistic conditions, biological products would form in such trace quantities that they could never support future steps toward life. In addition, they would decompose on the early Earth into simpler molecules long before they would ever find a staging ground for a cell. 
Simulations and mathematical models: This class creates a simulation or mathematical model for some stage of an origin-of-life scenario. The models only produce interesting results if highly unrealistic parameters and starting conditions are employed. They have no relevance to what could ever have occurred on the early Earth. 
Claims that any of these classes of experiments demonstrates the plausibility of life forming through undirected processes represent gross exaggerations of their significance and media-driven hype. 

Tour also described how the public has been greatly misled by such unrealistic predictions as researchers creating life in a lab in a manner of years. Cronin attempted to downplay the hyperbole by citing other examples of researchers’ failed predictions, but the examples he cited pale in comparison to the highly misleading claims Tour mentioned. Such claims are comparable to a researcher discovering a new design for a battery and then claiming his research would allow NASA in a decade to colonize a planet in another galaxy. The problem is that presenting the truth about the evidence to the public would threaten the stranglehold that cherished materialist philosophies maintain over many institutions.