Clement of Rome (AD 45-101) : "The apostles received the gospel for us from Jesus Christ, and Jesus Christ was sent from God. So Christ is from God, and the apostles are from Christ: thus both came in proper order by the will of God."[4] Also, "Let all the heathen know that thou [the Father] art God alone, and that Jesus Christ is thy Servant..."[5]
The scientific revolution began in the 16th century, and it began in Europe. No one knows why it happened nor why it happened where it happened, but when it happened, everything changed.
Until the day before yesterday, the imperial architects of the scientific revolution were well satisfied and sleek as seals. An immense tower was going up before their very eyes. The physicists imagined that shortly it would reach the sky; the biologists were satisfied that it had left the ground; and only the theologians were heard to observe that it would soon collapse.
The Tower is still there. It is, in fact, larger than ever. But it has neither reached the sky nor left the ground. It resembles Bruegel’s Tower of Babel far more than the Chrysler Building, and if it suggests anything at all, it suggests that its original plans have somehow been lost. Some parts of the Tower are sound and sturdy; but, my goodness, the balustrade devoted to the multiverse — what were they thinking?
Who Knows?
In looking at the Tower, if we are moved to admire its size, we are also bound to acknowledge its faults. The algorithm and the calculus are the two great ideas of the scientific revolution. They are radically different. Algorithms belong to the world of things. The creation of numbers, Thierry of Chartres observed, was the creation of things. In the theory of recursive functions, some part of thinginess has been brought under rational control.
It is the continuum, on the other hand, that is essential to the calculus. If an algorithm is a part of the world of things, in war, Lewis Fry Richardson once remarked, thinginess fails. In quantum field theory, too. A quantum field is not a thing. The true continuum, René Thom once remarked to me, has no points: it reflects at a distance Freud’s oceanic feeling — what Meister Eckhardt described as pure formlessness. And these, too, are ideas deep in human experience. In the calculus, and mathematical analysis generally, some part of the continuum has been brought under rational control.
Mathematical analysis and the theory of recursive functions are great achievements, but they are different; they answer to different imperatives; they are the work of different architects.
No wonder the Tower looks as it does. It is a miracle that it remains standing.
The result has been a popular culture littered with ideological detritus: atheism, of course, or naturalism, or materialism, or physicalism, or scientism, or even, God help us, transhumanism. These are not very precise terms, nor do they denote very precise ideas. Naturalists can rarely say of naturalism anything beyond that it is natural.
“I come from a scientific background,” David Chalmers modestly remarked. “I want everything to be natural,” he added at once, “reduced to the simplest possible set of laws and entities.”1
A Foundation for Belief
On this view, it is hard to see why stuff happens should not be considered a foundation for belief, the declaration requiring only two words and one substance.
Materialism has just a bit more by way of oomph. From a material base, as Marxists might say ominously, everything. Within contemporary physics, the deduction of everything from something is by no means complete and remains in that empyrean of assurances of which your check is in the mail is a notable example. Nor is the requisite something persuasively a material object. On current physical theories, that material base is occupied by various quantum fields, where, like so many electric eels, they occupy themselves in quivering with energy. Leptons and bosons emerge as field excitations, and so does everything else.
The great merit of materialism has always been its apparent sobriety. A world of matter? Look around! Bang the table, if necessary. Quantum fields do not encourage a look-around. There is no banging them beyond banging on about them. And for the most obvious of reasons. “Quantum field theory,” Lisa Randall writes, “the tool with which we study particles, is based upon eternal, omnipresent objects that can create and destroy those particles.”2
This is an account that suggests the dominion of Vishnu as much as metaphysical materialism, a point not lost on Indian physicists. And it may well change, that account, those infernal quantum fields vanishing tomorrow in favor of otherwise unexpected entelechies.
What Everyone Accepts
There remains the curious fact that no one much likes what everyone accepts. What everyone accepts is something like the scientific system of belief. It is to this system that every knee must bend, with trust the science functioning both as an inducement and an admonition. If contemporary scientists are not voyaging strange seas alone, to recall Wordsworth’s epitaph for Isaac Newton, they are yet determined to put as much distance as possible between themselves and dry land. That quantum mechanics makes no sense is widely celebrated as one of its virtues. Not a day passes in which its weirdness is not extolled. As much might be said of the Eucharist, but with this considerable difference: scientific weirdness tends inexorably toward a kind of bleakness. “Le silence éternel de ces espaces infinis m’effraie,” Pascal remarked3; and had he been acquainted with contemporary cosmologies in which the universe is destined to gutter out into something barren, formless, flaccid, lightless, and large, his anxieties may well have been proportionally increased.
Implacable and Unavoidable
The scientific system of belief remains what it was: implacable and unavoidable. There is no getting around it and so no getting out of it. The notes, incidental remarks, essays, and reviews that comprise this book represent an inside job, and it is in the nature of inside jobs that the inside jobber cannot expect outside help. It is an irony of any imperial enterprise, whether political, social, or intellectual, that it determines the conditions under which it may be criticized.
For this reason, what I have written in this book is an exercise in self-criticism as much as anything else. I often wish that things were otherwise. “The Shepherd in Virgil grew at last acquainted with Love, and found him a Native of the Rocks.”4 No one quite gets what he wants — not in life, nor in love, nor, as it happens, in writing critical essays.
Notes
David Chalmers, “Is the Soul Immortal?,” interview by Robert Kuhn, Closer to the Truth, YouTube, May 4, 2021, video, 9:06, https://www.youtube.com/watch?v=Bejm1mYsr5s&t=34s.
Lisa Randall, Warped Passages: Unraveling the Mysteries of the Universe’s Hidden Dimensions (New York: Harper Perennial, 2006), 158.
Blaise Pascal, Pensées (1670).
Samuel Johnson to Lord Chesterfield (Philip Dormer Stanhope), February 7, 1755,
Luke ch.10:21 "At that time Jesus, full of joy through the Holy Spirit, said, “I praise you, Father, Lord of heaven and earth, because you have hidden these things from the wise and learned, and revealed them to little children. Yes, Father, for this is what you were pleased to do."
If we would simply allow JEHOVAH'S word to speak for itself. The truth would fairly leap off the page and command our allegiance.
John ch.1:18Douay Version "No man hath seen God at any time: the only begotten Son who is in the Bosom of the Father, he hath declared him."
First the text does not say that no man has seen the Father. Mainly because it does not need to. This being prior to the confusion introduced by Christendom it was common knowledge that the Father was the God. As it was that God was immutably invisible.
Romans ch.1:20NIV"For since the creation of the world God’s invisible qualities—his eternal power and divine nature—have been clearly seen, being understood from what has been made(including the Son of Man), so that people are without excuse."
From the creation onward the Lord JEHOVAH has been continuously invisible to Man. His virtues could be discerned however through his creation, especially his first and foremost creation his Logos.
Here's my beef with reductive materialists ,as they themselves doubtless know, matter itself is not reducible to matter. A quantum(i.e an atom) of matter does not consists of matter.
Likely you recall enough of your secondary (high) school chemistry to know that atoms are composed of immaterial subatomic "particles" in reality tiny packets of energy ,in other words wraiths. That's right matter which has weight and occupies space consists of ghosts which neither have weight nor occupy space. Also the cause of physical matter must doubtless be super physical if we are being logically consistent.
So the premise of reductive materialists i.e that there is no evidence of a superphysical reality that can affect physical matter is demonstrably false.
Whether deconstructing the latest theory of everything or dishing on scientists and mathematicians he has known, whatever David Berlinski writes is delightful and profitable to read!
MICHAEL BEHE, PROFESSOR OF BIOLOGICAL SCIENCES, LEHIGH UNIVERSITY, AUTHOR OF DARWIN’S BLACK BOX, THE EDGE OF EVOLUTION, AND DARWIN DEVOLVES
If I were picking two books to be required reading for every college student in the United States, Science After Babel would be one. A striking and beautiful and absolutely necessary book. David Berlinski at his spectacular best.
DAVID GELERNTER, PROFESSOR OF COMPUTER SCIENCE, YALE UNIVERSITY
Science After Babel is a literary triumph. In it, David Berlinski masterfully exposes the hubris of scientific pretensions with a wit that dances deftly between the lines, unveiling profound insights with a refreshing candor. This book testifies to the author’s penetrating intellect, inviting readers to reconsider the limits of scientific authority and reject facile invocations of science that demand assent at the expense of compelling evidence and rigorous thought.
WILLIAM DEMBSKI, MATHEMATICIAN, PHILOSOPHER, AND FORMER HEAD OF THE MICHAEL POLANYI CENTER AT BAYLOR UNIVERSITY; AUTHOR OF MULTIPLE GROUNDBREAKING WORKS ON THE THEORY OF INTELLIGENT DESIGN, INCLUDING THE DESIGN INFERENCE (CAMBRIDGE UNIVERSITY PRESS, 1998)
Berlinski speaks wittingly as an insider to the sciences and their recent history. As a historian-philosopher of science, I recognize numerous valuable insights in this collection of arguments and memories. He captures the wonder of scientific inquiry without misplaced worship of speculative pronouncements made in its name. Berlinski is the most enjoyable antidote to scientism I know.
MICHAEL KEAS, LECTURER IN THE HISTORY AND PHILOSOPHY OF SCIENCE, BIOLA UNIVERSITY, AUTHOR OF UNBELIEVABLE: 7 MYTHS ABOUT THE HISTORY AND FUTURE OF SCIENCE AND RELIGION
Dr. Berlinski explores everything from the complicated spawning behavior of salmon and the problems with the RNA World hypothesis to various acute challenges to modern evolutionary theory, including the Cambrian explosion, molecular machines, and the failure of punctuated equilibrium. As he shows, trouble is brewing for Darwin on other fronts as well — population genetics, taxonomy, behavioral psychology, and the philosophy of biology, to name just a few. In total, Science After Babel is a lively mix of deep scientific knowledge, literary skill, and humor. The work reveals why scientism’s contemporary tower of babel has failed to reach the heavens. I highly recommend the book and hope it is widely read.
OLA HÖSSJER, PROFESSOR OF MATHEMATICAL STATISTICS, STOCKHOLM UNIVERSITY
In Science After Babel David Berlinski takes critical scholarly aim at many current day “scientific truths” — more properly shibboleths — including Darwinism, reductionism, the Standard Model of particle physics, and “talking” chimpanzees; and he shows how much nonsense often passes as secure scientific knowledge. Neo-Darwinism he describes as “empty,” and in discussing the Standard Model he comments wryly, “Theories come and go.” He also takes aim at a vast constellation of recent authors, including cosmologists Brian Greene and Lawrence Krauss, biologist Stephen Jay Gould, and philosopher of biology Michael Ruse.
The book is a delightful read delivered with great wit and erudition. We are treated to unique recollections — of his drinking coffee in Paris with René Thom, the founder of catastrophe theory; of the insane driving, also in Paris, of his friend, the mathematician, polymath, and leading French anti-Darwinist Marcel Schützenberger; and of a conversation with Noam Chomsky. Altogether the book represents an extraordinary and absolutely fascinating tour de force touching on topics as diverse as medieval Islamic astronomy and the great twentieth-century mathematician John von Neumann’s reflections on the role of chance in evolution. The text is interspersed throughout with some beautiful descriptive writing — Mount Rainer’s snow glimpsed flying out of SeaTac was “silent, sweeping, silvery, still, serene.”
The book is a stunning intellectual achievement. Few authors could have written such a far-reaching, in-depth critique of so many current philosophical and scientific beliefs. Science After Babel is mandatory reading for anyone interested in a critical assessment of much current scientific thinking. No other recent publication comes close, and unquestionably this brilliant book establishes David Berlinski as one of the leading intellectuals of our time.
MICHAEL DENTON, PHD, MD, FORMER SENIOR RESEARCH FELLOW IN THE BIOCHEMISTRY DEPARTMENT AT THE UNIVERSITY OF OTAGO IN DUNEDIN, NEW ZEALAND, AUTHOR OF EVOLUTION: A THEORY IN CRISIS, NATURE’S DESTINY, AND THE MIRACLE OF MAN
A terrific conference just took place in Denton, Texas (June 1-3, 2023): the Conference on Engineering in Living Systems, or CELS. Its aim was to inspire cross-disciplinary research between biology and engineering by bringing together biologists, engineers, and some fellow travelers like me (a mathematician). I had the privilege of speaking on intelligence metrics. Here are my Slides. I hope soon to develop this talk into a proper peer-reviewed paper.
I want to thank Steve Laufmann and Eric Anderson especially for helping to make this conference happen.
What they have found is an array of incredible, and lowly (pun intended), creatures. Surely Ralph Cudworth and John Ray would have, by this point, doubled down on their infra-dignitatem argument that such creatures are beneath the Creator’s dignity. There must have been an intermediate creative force to account for the muck and its inhabitants, not to mention those bungles and errors we find in creation.
Isn't it amazing what those random mutations will come up with? (And no, natural selection doesn’t help).
Recently I have been responding to several articles by evolutionist Dennis Venema. Venema has made various arguments about how genetic evidences strongly support evolution and I have provided rebuttals to those claims. For instance, I explained Here that while Venema discusses evidences that are consistent with evolutionary expectations, he does not list or mention the substantial body of scientific findings that are inconsistent with evolution. This is a problem with the evolution literature: the scientific evidence is too often selectively presented. In fact, I have often seen evolutionists claim that there are no contrary evidences, and that the science fully backs evolution. This sort of confirmation bias presents a roadblock to meaningful discourse on the topic of origins.
Next Venema focused his claim on the specific case of human evolution, and the similarity between the human and chimpanzee genomes. Again, Venema made high claims about the evidence. He concluded: “These observations strongly support the hypothesis that our species arose through an evolutionary process.”
But, in fact, as I explainqed Here, there are several significant problems with this claim. For example, the chimpanzee and human genomes have differing patterns that do not fit evolutionary expectations. There is also a big difference between viruses in the genomes of humans and the other primates. Again, these differences do not fit the expected evolutionary pattern. Furthermore, the chimp-human genome beneficial differences are few and appeals to alternate splicing differences (another big difference between the genomes of humans and the other primates) to evolve humans lead to astronomically improbable pathways.
As always, I explained that the point is not that evolutionary explanations are not possible. Speculative explanations are always possible. Perhaps evolution did this, perhaps it did that. But that does not change the fact that the primate genomes do not “strongly support the hypothesis that our species arose through an evolutionary process,” as Venema and the evolutionists claim.
Next Venema focused even more narrowly on a particular genetic detail: human chromosome two, which he presented as a powerful example of an evolutionary confirmation. And yet as I explained here, not only did Venema not mention several scientific problems with his claim but the claim, even if true, would not demonstrate evolution as evolutionists claim. There is no evolutionary relationship revealed. Even if evolution were true, these data would give us no evidence for it. What was disturbing about this example was Venema’s recounting of a deceptive lecturing strategy he uses in presenting this topic in his class.
Next Venema presented pseudogenes which Venema argued are powerful and compelling evidences for common descent. It is, explained Venema, “one of the strongest pieces of evidence in favor of common ancestry between humans and chimpanzees (and other organisms).” And again, I explained, here and here, that there are several, fundamental, problems with this evolutionary claim.
In this case, however, Venema discussed his underlying religious belief that this evidence is a problem for creationism type theories. Venema was highlighting one of the important beliefs at the foundation of evolutionary thought. This belief, if true, does indeed require evolution to be true. But of course it is not falsifiable.
Vitellogenin genes
Now we move on to Venema’s next Topic , the vitellogenins. Vitellogenin genes are found in a wide range of species and, like most genes, perform multiple functions including helping to provide the nutrients in egg yolks. Also like most genes, the pattern they form amongst the species does not always correspond very well to the expected evolutionary pattern. Of course there are always explanations, and evolutionists draw upon a variety of mechanisms, including lineage-specific events, to explain the vitellogenin genes.
For example, this paper focuses on mosquito vitellogenin genes. It concludes that the genes arose by a series of duplication events, and that the pattern of duplication was different in each mosquito genus. The Paper also uses purifying selection, gene conversion, unequal crossover, and concerted evolution to explain the observed pattern of the mosquito vitellogenin genes, and concludes that these mechanisms must have also worked, independently, in other invertebrate species, and vertebrate organisms as well.
Similarly, this Paper examines the evolution of vertebrate vitellogenins and also draws upon a variety of events and lineage-specific mechanisms. As I have discussed many times, while the basic idea of evolution is that the species share common designs as a consequence of common ancestry, in fact biology is loaded with unique, one-off designs for which evolutionists need to appeal to “lineage-specific” evolution. Consequently evolution can explain a wide variety of observations and patterns, and this applies equally well to the vitellogenins.
Clearly evolutionary theory is fine with a range of patterns when it comes to the vitellogenins. Of course this is true for molecular, and morphological, designs in general, as we have seen many times. Designs can fall into an evolutionary common descent pattern, or not.
The advantage of this flexibility is that evolutionary theory can explain a wide range of observables. The disadvantages, however, are many. The theory becomes less parsimonious. It becomes more resistant to falsification. And it loses its evidential arguments. If a theory can explain A, and B, and C, … and so forth, then the finding of A is hardly compelling evidence for the theory.
Yet this is what Venema argues. The vitellogenin genes in chickens share a weak similarity with corresponding genetic segments in humans. Evolutionists view the human segments as pseudogenes—broken versions of vitellogenin genes inherited from their egg-laying ancestors. Given this vitellogenin similarity between humans and chickens, for example, evolutionists such as Venema incredibly conclude that, therefore, humans and chickens evolved by random mutations from a common ancestor. Not only does that not follow, but it takes Venema to the unlikely solution of random mutations creating humans and chickens, and of course all the other species.
Venema also argues that the similarity of the vitellogenin genes between humans and chickens extends to, and is all the more confirmed by, their positioning within their respective genomes. But this argument from synteny is no different from what we saw above. When there is a loss of synteny evolution is not harmed, and the theory has another set of explanatory mechanisms available for just about any outcome. If the vitellogenin genes had been in a different order, evolution could have explained it just fine.
Affirming the consequent
In spite of these problems with his argument, Venema is enthusiastic about this evidence. In fact his enthusiasm leads to the fallacy of affirming the consequent, as he equates shared synteny (genes with similar positioning in the genomes of different species) with common descent
This evidence increases our confidence that we are indeed looking at regions with shared synteny: in other words, a region in two present-day species that was once a region in the genome of their common ancestral population.
That is a fallacy. Ignoring the problems discussed above for the moment, even if evolution did make a hard prediction of shared synteny, and even if it was universally observed, that would not prove evolution. In that case, you would have a confirmed prediction. That is good, but it is not equivalent to a finding of evolution. Venema violates this scientific fundamental when he defines shared synteny as “a region in two present-day species that was once a region in the genome of their common ancestral population.” Unfortunately, affirming the consequent is not uncommon in the evolution literature.
Life would be impossible without phosphorus,” begins an editorial in Nature.
Present in molecules from DNA to membrane lipids to the compounds that shuttle energy in cells, it acts as an essential nutrient alongside nitrogen. Phosphorus moves through the environment in vigorous biogeochemical cycles, reflecting its chemical reactivity and intense competition by hungry organisms.
How did this bio-geo-chemical cycle begin? Scientists at the University of Cambridge are perplexed about “How life and geology worked together to forge Earth’s nutrient rich crust.” In their analysis, they see that the element phosphorus appears to have increased in the crust around the same time as the Cambrian explosion. Was one the cause or the effect of the other? It didn’t seem coincidental.
Around 500 million years ago life in the oceans rapidly diversified. In the blink of an eye — at least in geological terms — life transformed from simple, soft-bodied creatures to complex multicellular organisms with shells and skeletons.
Now, research led by the University of Cambridge has shown that the diversification of life at this time also led to a drastic change in the chemistry of Earth’s crust — the uppermost layer we walk on and, crucially, the layer which provides many of the nutrients essential to life.
They reiterate, as we’ve discussed before, that phosphorus (P) is a limiting factor on biological productivity. Unlike the other most abundant vital elements (C, H, O, N, S), P must be extracted from rocks by chemical weathering — not in its pure form, which is explosive, but as PO43- (phosphate). Microbes and plants can utilize inorganic phosphate (Pi). Then other organisms can use the phosphate-containing molecules made by them (organic phosphate, or Po).
A Biogeochemical Cycle Triggered
Craig Walton of Cambridge points out that once life became abundant in the oceans, a phosphorus recycling program could begin.
When these organisms die, most of the phosphorus is returned back into the oceans. This efficient recycling process is a key control on the amount of total phosphorus in the ocean, which in turn supports life, “It enables us to have all the life we see around us today, so understanding when this process started is really key,” said Walton.
The Oxygen Theory for the Cambrian Explosion plays into his model, although he does not explicitly say he believes oxygen caused the sudden increase in animal life. He only points out the interesting correlation.
But, all of this biological reprocessing power relies on oxygen. This is what fuels the bacteria responsible for the breakdown of dead organic material that returns phosphorus back into the oceans.
The researchers think that a surge in oxygen at around the time of the Cambrian explosion might explain why phosphorus increased in rocks. “If oxygen did increase at that time, then more oxygen may have been available to break down deep sea biomass and recycle phosphorus to shallow coastal regions,” said Walton. Moving this phosphorus back towards the land meant it was better preserved in rocks that make up the continents.“That series of changes were ultimately responsible for fuelling the activity of complex life as we know it,” said Walton.
Oxygen, therefore, is a third essential component in the phosphorus cycle.
“It’s tricky to unravel the sequence of events — whether complex life evolved in part because of increased supplies of oxygen and phosphorus to start with, or if they were in fact fully responsible for increasing availability of both, is still a controversial topic.” Walton and the team now looking to investigate the trigger for and timing of this phosphorus enrichment in the crust in more detail.
Summing up, there is a remarkable interplay of biology with two abiotic elements (oxygen and phosphorus) that sustains life on our planet. The Cambridge scientists were unable to decide which came first, how the cycle was triggered, and how things stayed in balance once the cycle was initiated.
Phosphate Balance and Management
Organisms have remarkable mechanisms for dealing with phosphate limitation, as noted here. The Nature editorial blames man for messing up the cycle by mining phosphorus for fertilizer, which often drains into the oceans, causing toxic algal blooms.
The modern phosphorus cycle has been profoundly meddled with by humans to overcome phosphorus limitation. Half of the phosphorus available to crops in agricultural soils may come from fertilizer application. Fertilizer is a limited resource — often derived from ancient rocks composed of detritus deposited beneath marine upwelling zones — and its depletion will eventually lead to problems for agriculture and other organisms that rely upon it.
In March, Science Magazine featured Dan Egan’s book about phosphorus, The Devil’s Element and a World Out of Balance, “an enjoyable, lively, and thought-provoking read” according to reviewer Robert W. Haworth, an expert on phosphorus and the environment. Wise management of this critical element will be essential, as phosphate runoff can pollute waterways and deplete soils if handled carelessly. Yet its automatic recycling through the crust and biosphere is not mentioned in the review. If the world is “out of balance” now due to human activities, how did it get into balance in the first place?
A commentary by Senjie Lin in Nature Communications explores the complexities of biological responses to phosphorus limitation, including interactions with ocean acidification, climate, and nitrogen fixation. Lin leaves more questions than answers, but notes that phytoplankton differ in their responses to pH, so much more research is needed.
Just-in-Time Delivery
One particularly interesting finding about phosphorus comes from research on fruit flies. A new organelle was found in the intestinal cells of the flies that buffers phosphate to maintain homeostasis. Described by Gemma Conroy in Nature, this “previously unknown” organelle “acts like a reservoir of phosphate, helping to regulate levels of the nutrient inside cells and triggering processes that maintain tissues when it is in short supply.”
Conroy tells how Charles Xu of Rockefeller University noticed some oval-shaped structures surrounded by multiple membranes that were being traversed by a phosphate-sensing transporter protein named PXo:
“These were quite visible, and we wondered what they were,” says Xu. When the scientists took a closer look at the mysterious structures, they saw they had several membrane layers, and the PXo protein was transporting phosphate across them. Once inside the unfamiliar organelles, the phosphate was converted to phospholipids, the main building blocks of cellular membranes.
When the fly cells were deprived of phosphate, the organelles broke apart and released the stored phospholipids into each cell, indicating that they function like reservoirs, says Xu.
His team’s paper in Nature shows microphotographs of these “PXo bodies” and describes how they store and release inorganic phosphate (Pi).
In unicellular organisms, Pi is indicative of environmental nutrient abundance and generally supports cell growth and division1. In metazoans, however, Pi availability is affected by nutrient uptake, systemic metabolism and local Pi usage, thus implicating more complex Pi signalling. In this study, we demonstrated that Pi starvation or PXo deficiency induces hyperproliferation and enterocyte differentiation in the epithelium of the Drosophila midgut, which might be a compensatory mechanism to produce more enterocytes capable of Pi absorption. Given the scarcity of knowledge about cytosolic Pi regulation in animal cells, our findings might have broad implications and open new avenues for studying Pi metabolism and signalling.
The system for just-in-time delivery of phosphates from a reservoir equipped with a sensor is reminiscent of our story about the way cells buffer and deliver heme.
Coincidences vs. Intentions
The Cambridge article says that “life and geology worked together to forge Earth’s nutrient rich crust.” From a materialist perspective, that’s a fallacy of personification. Mindless entities do not work together to forge something like a Cambrian animal body plan or a cell organelle with a sensor able to buffer phosphate for just-in-time delivery.
Scientists are generally wary of explanations that depend on lucky coincidences. In the phosphorus cycle, biology and geology are seen cooperating as to timing, triggers, balance, and homeostasis of essential parts for a functioning biosphere. These are concepts rich with purpose. If a functioning biosphere was intended, then these observational realities would make sense.
Matthew ch.4:11PHB"Then Yeshua said to him, “Depart Satan, for it is written: 'You shall worship THE LORD JEHOVAH your God and him(note the singular personal pronoun) ALONE shall you serve.'"
If the the object of our devotion is a mystical union of co-equals obviously their would be no single person anywhere who is entitled to exclusive devotion even if ,as some have, we make the entire union a single person,thus adding a forth person to our supposed triad. Trinitarians insists that each member of the trinity is entitled to the highest worship effectively meaning that no member of their mystifying concept including the trinity(quadrinity?) Himself is entitled to exclusive devotion
John ch.1:18ASV"No one has seen God at any time. The only begotten [h]Son, who is in the bosom of the Father, He has declared Him."
The coming to earth of our Heavenly Father's nearest and dearest Child was meant to make JEHOVAH plain to his people this is most certainly not the case with the logos of Christendom.
