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Saturday, 3 December 2022

David Berlinski on why we can dare to deny Darwin.

  The Deniable Darwin.


The fossil record is incomplete, the reasoning flawed; is the theory of evolution fit to survive?


DAVID BERLINSKI JUNE 1, 1994 INTELLIGENT DESIGN. 


CHARLES DARWIN presented On the Origin of Species to a disbelieving world in 1859 — three years after Clerk Maxwell had published “On Faraday’s Lines of Force,” the first of his papers on the electromagnetic field. Maxwell’s theory has by a process of absorption become part of quantum field theory, and so a part of the great canonical structure created by mathematical physics.




By contrast, the final triumph of Darwinian theory, although vividly imagined by biologists, remains, along with world peace and Esperanto, on the eschatological horizon of contemporary thought.




“It is just a matter of time,” one biologist wrote recently, reposing his faith in a receding hereafter, “before this fruitful concept comes to be accepted by the public as wholeheartedly as it has accepted the spherical earth and the sun-centered solar system.” Time, however, is what evolutionary biologists have long had, and if general acceptance has not come by now, it is hard to know when it ever will.




IN ITS most familiar, textbook form, Darwin’s theory subordinates itself to a haunting and fantastic image, one in which life on earth is represented as a tree. So graphic has this image become that some biologists have persuaded themselves they can see the flowering tree standing on a dusty plain, the mammalian twig obliterating itself by anastomosis into a reptilian branch and so backward to the amphibia and then the fish, the sturdy chordate line–our line, cosa nostra–moving by slithering stages into the still more primitive trunk of life and so downward to the single irresistible cell that from within its folded chromosomes foretold the living future. 


This is nonsense, of course. That densely reticulated tree, with its lavish foliage, is an intellectual construct, one expressing the hypothesis of descent with modification.




Evolution is a process, one stretching over four billion years. It has not been observed. The past has gone to where the past inevitably goes. The future has not arrived. The present reveals only the detritus of time and chance: the fossil record, and the comparative anatomy, physiology, and biochemistry of different organisms and creatures. Like every other scientific theory, the theory of evolution lies at the end of an inferential trail.




The facts in favor of evolution are often held to be incontrovertible; prominent biologists shake their heads at the obduracy of those who would dispute them. Those facts, however, have been rather less forthcoming than evolutionary biologists might have hoped. If life progressed by an accumulation of small changes, as they say it has, the fossil record should reflect its flow, the dead stacked up in barely separated strata. But for well over 150 years, the dead have been remarkably diffident about confirming Darwin’s theory. Their bones lie suspended in the sands of time-theromorphs and therapsids and things that must have gibbered and then squeaked; but there are gaps in the graveyard, places where there should be intermediate forms but where there is nothing whatsoever instead.(1)  


Before the Cambrian era, a brief 600 million years ago, very little is inscribed in the fossil record; but then, signaled by what I imagine as a spectral puff of smoke and a deafening ta-da!, an astonishing number of novel biological structures come into creation, and they come into creation at once.




Thereafter, the major transitional sequences are incomplete. Important inferences begin auspiciously, but then trail off, the ancestral connection between Eusthenopteron and Ichthyostega, for example–the great hinge between the fish and the amphibia–turning on the interpretation of small grooves within Eusthenopteron’s intercalary bones. Most species enter the evolutionary order fully formed and then depart unchanged. Where there should be evolution, there is stasis instead–the term is used by the paleontologists Stephen Jay Gould and Niles Eldredge in developing their theory of “punctuated equilibria”–with the fire alarms of change going off suddenly during a long night in which nothing happens.




The fundamental core of Darwinian doctrine, the philosopher Daniel Dennett has buoyantly affirmed, “is no longer in dispute among scientists.” Such is the party line, useful on those occasions when biologists must present a single face to their public. But it was to the dead that Darwin pointed for confirmation of his theory; the fact that paleontology does not entirely support his doctrine has been a secret of long standing among paleontologists. “The known fossil record,” Steven Stanley observes, “fails to document a single example of phyletic evolution accomplishing a major morphologic transition and hence offers no evidence that the gradualistic model can be valid.” 


Small wonder, then, that when the spotlight of publicity is dimmed, evolutionary biologists evince a feral streak, Stephen Jay Gould, Niles Eldredge, Richard Dawkins, and John Maynard Smith abusing one another roundly like wrestlers grappling in the dark. 


Pause for the Logician 


SWIMMING IN the soundless sea, the shark has survived for millions of years, sleek as a knife blade and twice as dull. The shark is an organism wonderfully adapted to its environment. Pause. And then the bright brittle voice of logical folly intrudes: after all, it has survived for millions of years.




This exchange should be deeply embarrassing to evolutionary biologists. And yet, time and again, biologists do explain the survival of an organism by reference to its fitness and the fitness of an organism by reference to its survival, the friction between concepts kindling nothing more illuminating than the observation that some creatures have been around for a very long time. “Those individuals that have the most offspring,” writes Ernst Mayr, the distinguished zoologist, “are by definition . . . the fittest ones.” And in Evolution and the Myth of Creationism, Tim Berra states that “[f]itness in the Darwinian sense means reproductive fitness-leaving at least enough offspring to spread or sustain the species in nature.” 


This is not a parody of evolutionary thinking; it is evolutionary thinking. Que sera, sera.




Evolutionary thought is suffused in general with an unwholesome glow. “The belief that an organ so perfect as the eye,” Darwin wrote, “could have been formed by natural selection is enough to stagger anyone.” It is. The problem is obvious. “What good,” Stephen Jay Gould asked dramatically, “is 5 percent of an eye?” He termed this question “excellent.”




The question, retorted the Oxford professor Richard Dawkins, the most prominent representative of ultra-Darwinians, “is not excellent at all”:




Vision that is 5 percent as good as yours or mine is very much worth having in comparison with no vision at all. And 6 percent is better than 5, 7 percent better than 6, and so on up the gradual, continuous series.




But Dawkins, replied Phillip Johnson in turn, had carelessly assumed that 5 percent of an eye would see 5 percent as well as an eye, and that is an assumption for which there is little evidence. (A professor of law at the University of California at Berkeley, Johnson has a gift for appealing to the evidence when his opponents invoke theory, and vice versa.) 


Having been conducted for more than a century, exchanges of this sort may continue for centuries more; but the debate is an exercise in irrelevance. What is at work in sight is a visual system, one that involves not only the anatomical structures of the eye and forebrain, but the remarkably detailed and poorly understood algorithms required to make these structures work.




“When we examine the visual mechanism closely,” Karen K. de Valois remarked recently in Science, “although we understand much about its component parts, we fail to fathom the ways in which they fit together to produce the whole of our complex visual perception.”




These facts suggest a chastening reformulation of Gould’s “excellent” question, one adapted to reality: could a system we do not completely understand be constructed by means of a process we cannot completely specify?




The intellectually responsible answer to this question is that we do not know–we have no way of knowing. But that is not the answer evolutionary theorists accept. According to Daniel Dennett (in Darwin’s Dangerous Idea), Dawkins is “almost certainly right” to uphold the incremental view, because “Darwinism is basically on the right track.” In this, he echoes the philosopher Kim Sterenly, who is also persuaded that “something like Dawkins’s stories have got to be right” (emphasis added). After all, she asserts, “natural selection is the only possible explanation of complex adaptation.” 


Dawkins himself has maintained that those who do not believe a complex biological structure may be constructed in small steps are expressing merely their own sense of “personal incredulity.” But in countering their animadversions he appeals to his own ability to believe almost anything. Commenting on the (very plausible) claim that spiders could not have acquired their web-spinning behavior by a Darwinian mechanism, Dawkins writes: “It is not impossible at all. That is what I firmly believe and I have some experience of spiders and their webs.” It is painful to see this advanced as an argument. 


Unflagging Success 


DARWIN CONCEIVED of evolution in terms of small variations among organisms, variations which by a process of accretion allow one species to change continuously into another. This suggests a view in which living creatures are spread out smoothly over the great manifold of biological possibilities, like colors merging imperceptibly in a color chart.




Life, however, is absolutely nothing like this. Wherever one looks there is singularity, quirkiness, oddness, defiant individuality, and just plain weirdness. The male redback spider (Latrodectus hasselti), for example, is often consumed during copulation. Such is sexual cannibalism–the result, biologists have long assumed, of “predatory females overcoming the defenses of weaker males.” But it now appears that among Latrodectus basselti, the male is complicit in his own consumption. Having achieved intromission, this schnook performs a characteristic somersault, placing his abdomen directly over his partner’s mouth. Such is sexual suicide-awfulness taken to a higher power.(2) 


It might seem that sexual suicide confers no advantage on the spider, the male passing from ecstasy to extinction in the course of one and the same act. But spiders willing to pay for love are apparently favored by female spiders (no surprise, there); and female spiders with whom they mate, entomologists claim, are less likely to mate again. The male spider perishes; his preposterous line persists.




This explanation resolves one question only at the cost of inviting another: why such bizarre behavior? In no other Latrodectus species does the male perform that obliging somersault, offering his partner the oblation of his life as well as his love. Are there general principles that specify sexual suicide among this species, but that forbid sexual suicide elsewhere? If so, what are they?




Once asked, such questions tend to multiply like party guests. If evolutionary theory cannot answer them, what, then, is its use? Why is the Pitcher plant carnivorous, but not the thorn bush, and why does the Pacific salmon require fresh water to spawn, but not the Chilean sea bass? Why has the British thrush learned to hammer snails upon rocks, but not the British blackbird, which often starves to death in the midst of plenty? Why did the firefly discover bioluminescence, but not the wasp or the warrior ant; why do the bees do their dance, but not the spider or the flies; and why are women, but not cats, born without the sleek tails that would make them even more alluring than they already are? 


Why? Yes, why? The question, simple, clear, intellectually respectable, was put to the Nobel laureate George Wald. “Various organisms try various things,” he finally answered, his words functioning as a verbal shrug, “they keep what works and discard the rest.”




But suppose the manifold of life were to be given a good solid yank, so that the Chilean sea bass but not the Pacific salmon required fresh water to spawn, or that ants but not fireflies flickered enticingly at twilight, or that women but not cats were born with lush tails. What then? An inversion of life’s fundamental facts would, I suspect, present evolutionary biologists with few difficulties. Various organisms try various things. This idea is adapted to any contingency whatsoever, an interesting example of a Darwinian mechanism in the development of Darwinian thought itself.




A comparison with geology is instructive. No geological theory makes it possible to specify precisely a particular mountain’s shape; but the underlying process of upthrust and crumbling is well understood, and geologists can specify something like a mountain’s generic shape. This provides geological theory with a firm connection to reality. A mountain arranging itself in the shape of the letter “A” is not a physically possible object; it is excluded by geological theory.




The theory of evolution, by contrast, is incapable of ruling anything out of court. That job must be done by nature. But a theory that can confront any contingency with unflagging success cannot be falsified. Its control of the facts is an illusion. 


Sheer Dumb Luck 


CHANCE ALONE,” the Nobel Prize-winning chemist Jacques Monod once wrote, “is at the source of every innovation, of all creation in the biosphere. Pure chance, absolutely free but blind, is at the very root of the stupendous edifice of creation.”




The sentiment expressed by these words has come to vex evolutionary biologists. “This belief,” Richard Dawkins writes, “that Darwinian evolution is ‘random,’ is not merely false. It is the exact opposite of the truth.” But Monod is right and Dawkins wrong. Chance lies at the beating heart of evolutionary theory, just as it lies at the beating heart of thermodynamics.




It is the second law of thermodynamics that holds dominion over the temporal organization of the universe, and what the law has to say we find verified by ordinary experience at every turn. Things fall apart. Energy, like talent, tends to squander itself. Liquids go from hot to lukewarm. And so does love. Disorder and despair overwhelm the human enterprise, filling our rooms and our lives with clutter. Decay is unyielding. Things go from bad to worse. And overall, they go only from bad to worse. 


These grim certainties the second law abbreviates in the solemn and awful declaration that the entropy of the universe is tending toward a maximum. The final state in which entropy is maximized is simply more likely than any other state. The disintegration of my face reflects nothing more compelling than the odds. Sheer dumb luck.




But if things fall apart, they also come together. Life appears to offer at least a temporary rebuke to the second law of thermodynamics. Although biologists are unanimous in arguing that evolution has no goal, fixed from the first, it remains true nonetheless that living creatures have organized themselves into ever more elaborate and flexible structures. If their complexity is increasing, the entropy that surrounds them is decreasing. Whatever the universe-as-a-whole may be doing–time fusing incomprehensibly with space, the great stars exploding indignantly–biologically things have gone from bad to better, the show organized, or so it would seem, as a counterexample to the prevailing winds of fate.




How so? The question has historically been the pivot on which the assumption of religious belief has turned. How so? “God said: ‘Let the waters swarm with swarms of living creatures, and let fowl fly above the earth in the open firmament of heaven.”‘ That is how so. And who on the basis of experience would be inclined to disagree? The structures of life are complex, and complex structures get made in this, the purely human world, only by a process of deliberate design. An act of intelligence is required to bring even a thimble into being; why should the artifacts of life be different? 


Darwin’s theory of evolution rejects this counsel of experience and intuition. Instead, the theory forges, at least in spirit, a perverse connection with the second law itself, arguing that precisely the same force that explains one turn of the cosmic wheel explains another: sheer dumb luck.




If the universe is for reasons of sheer dumb luck committed ultimately to a state of cosmic listlessness, it is also by sheer dumb luck that life first emerged on earth, the chemicals in the pre-biotic seas or soup illuminated and then invigorated by a fateful flash of lightning. It is again by sheer dumb luck that the first self-reproducing systems were created. The dense and ropy chains of RNA–they were created by sheer dumb luck, and sheer dumb luck drove the primitive chemicals of life to form a living cell. It is sheer dumb luck that alters the genetic message so that, from infernal nonsense, meaning for a moment emerges; and sheer dumb luck again that endows life with its opportunities, the space of possibilities over which natural selection plays, sheer dumb luck creating the mammalian eye and the marsupial pouch, sheer dumb luck again endowing the elephant’s sensitive nose with nerves and the orchid’s translucent petal with blush.




Amazing. Sheer dumb luck. 


Life, Complex Life 


PHYSICISTS ARE persuaded that things are in the end simple; biologists that they are not. A good deal depends on where one looks. Wherever the biologist looks, there is complexity beyond complexity, the entanglement of things ramifying downward from the organism to the cell. In a superbly elaborated figure, the Australian biologist Michael Denton compares a single cell to an immense automated factory, one the size of a large city:




On the surface of the cell we would see millions of openings, like the portholes of a vast space ship, opening and closing to allow a continual stream of materials to flow in and out. If we were to enter one of these openings we would find ourselves in a world of supreme technology and bewildering complexity. We would see endless highly organized corridors and conduits branching in every direction away from the perimeter of the cell, some leading to the central memory bank in the nucleus and others to assembly plants and processing units. The nucleus itself would be a vast spherical chamber more than a kilometer in diameter, resembling a geodesic dome inside of which we would see, all neatly stacked together in ordered arrays, the miles of coiled chains of the DNA molecule . . . . We would notice that the simplest of the functional components of the cell, the protein molecules, were, astonishingly, complex pieces of molecular machinery . . . . Yet the life of the cell depends on the integrated activities of thousands, certainly tens, and probably hundreds of thousands of different protein molecules. 


And whatever the complexity of the cell, it is insignificant in comparison with the mammalian nervous system; and beyond that, far impossibly ahead, there is the human mind, an instrument like no other in the biological world, conscious, flexible, penetrating, inscrutable, and profound.




It is here that the door of doubt begins to swing. Chance and complexity are countervailing forces; they work at cross-purposes. This circumstance the English theologian William Paley (1743-1805) made the gravamen of his well-known argument from design:




Nor would any man in his senses think the existence of the watch, with its various machinery, accounted for, by being told that it was one out of possible combinations of material forms; that whatever he had found in the place where he found the watch, must have contained some internal configuration or other, and that this configuration might be the structure now exhibited, viz., of the works of a watch, as well as a different structure. It is worth remarking, it is simply a fact, that this courtly and old-fashioned argument is entirely compelling. We never attribute the existence of a complex artifact to chance. And for obvious reasons: complex objects are useful islands, isolated amid an archipelago of useless possibilities. Of the thousands of ways in which a watch might be assembled from its constituents, only one is liable to work. It is unreasonable to attribute the existence of a watch to chance, if only because it is unlikely. An artifact is the overflow in matter of the mental motions of intention, deliberate design, planning, and coordination. The inferential spool runs backward, and it runs irresistibly from a complex object to the contrived, the artificial, circumstances that brought it into being. 


Paley allowed the conclusion of his argument to drift from man-made to biological artifacts, a human eye or kidney falling under the same classification as a watch. “Every indication of contrivance,” he wrote, “every manifestation of design, exists in the works of nature; with the difference, on the side of nature, of being greater or more, and that in a degree which exceeds all computation.




In this drifting, Darwinists see dangerous signs of a non sequitur. There is a tight connection, they acknowledge, between what a watch is and how it is made; but the connection unravels at the human eye–or any other organ, disposition, body plan, or strategy–if only because another and a simpler explanation is available. Among living creatures, say Darwinists, the design persists even as the designer disappears.




“Paley’s argument,” Dawkins writes, “is made with passionate sincerity and is informed by the best biological scholarship of his day, but it is wrong, gloriously and utterly wrong.”




The enormous confidence this quotation expresses must be juxtaposed against the weight of intuition it displaces. It is true that intuition is often wrong-quantum theory is intuition’s graveyard. But quantum theory is remote from experience; our intuitions in biology lie closer to the bone. We are ourselves such stuff as genes are made on, and while this does not establish that our assessments of time and chance must be correct, it does suggest that they may be pertinent. 

On Darwinism's failure as a predictive model III

Cornelius G Hunter 

In the twentieth century, the theory of evolution predicted that mutations are not adaptive or directed. In other words, mutations were believed to be random with respect to the needs of the individual. As Julian Huxley put it, “Mutation merely provides the raw material of evolution; it is a random affair, and takes place in all directions. … in all cases they are random in relation to evolution. Their effects are not related to the needs of the organisms.” (Huxley, 36) Or as Jacques Monod explained:


chance alone is at the source of every innovation, of all creation in the biosphere. Pure chance, absolutely free but blind, at the very root of the stupendous edifice of evolution: this central concept of modern biology is no longer one among other possible or even conceivable hypotheses. It is today the sole conceivable hypothesis, the only one that squares with observed and tested fact. And nothing warrants the supposition—or the hope—that on this score our position is likely ever to be revised. (Monod, 112) Ronald Fisher wrote that mutations are “random with respect to the organism’s need” (Orr). This fundamental prediction persisted for decades as a recent paper explained: “mutation is assumed to create heritable variation that is random and undirected.” (Chen, Lowenfeld and Cullis)


But that assumption is now known to be false. The first problem is that the mutation rate is adaptive. For instance, when a population of bacteria is subjected to harsh conditions it tends to increase its mutation rate. It is as though a signal has been sent saying, “It is time to adapt.” Also, a small fraction of the population increases its mutation rates even higher yet. These hypermutators ensure that an even greater variety of adaptive change is explored. (Foster) Experiments have also discovered that duplicated DNA segments may be subject to higher mutation rates. Since the segment is a duplicate it is less important to preserve and, like a test bed, appears to be used to experiment with new designs. (Wright)


The second problem is that organisms use strategies to direct the mutations according to the threat. Adaptive mutations have been extensively studied in bacteria. Experiments typically alter the bacteria food supply or apply some other environmental stress causing mutations that target the specific environmental stress. (Burkala, et. al.; Moxon, et. al; Wright) Adaptive mutations have also been observed in yeast (Fidalgo, et. al.; David, et. al.) and flax plants. (Johnson, Moss and Cullis) One experiment found repeatable mutations in flax in response to fertilizer levels. (Chen, Schneeberger and Cullis) Another exposed the flax to four different growth conditions and found that environmental stress can induce mutations that result in “sizeable, rapid, adaptive evolutionary responses.” (Chen, Lowenfeld and Cullis) In response to this failed prediction some evolutionists now are saying that evolution somehow created the mechanisms that cause mutations to be adaptive. 

References 

Burkala, E., et. al. 2007. “Secondary structures as predictors of mutation potential in the lacZ gene of Escherichia coli.” Microbiology 153:2180-2189.


Chen, Y., R. Lowenfeld, C. Cullis. 2009. “An environmentally induced adaptive (?) insertion event in flax.” International Journal of Genetics and Molecular Biology 1:38-47.


Chen, Y., R. Schneeberger, C. Cullis. 2005. “A site-specific insertion sequence in flax genotrophs induced by environment.” New Phytologist 167:171-180.


David, L., et. al. 2010. “Inherited adaptation of genome-rewired cells in response to a challenging environment.” HFSP Journal 4:131–141.


Fidalgo, M., et. al. 2006. “Adaptive evolution by mutations in the FLO11 gene.” Proceedings of the National Academy of Sciences 103:11228-11233.


Foster, P. 2005. “Stress responses and genetic variation in bacteria.” Mutation Research / Fundamental and Molecular Mechanisms of Mutagenesis 569:3-11.


Huxley, Julian. 1953. Evolution in Action. New York: Signet Science Library Book.


Johnson, C., T. Moss, C. Cullis. 2011. “Environmentally induced heritable changes in flax.” J Visualized Experiments 47:2332.


Monod, Jacques. 1971. Chance & Necessity. New York: Vintage Books.


Moxon, E., et. al. 1994. “Adaptive evolution of highly mutable loci in pathogenic bacteria.” Current Biology 4:24-33.


Orr, H. 2005. “The genetic theory of adaptation: a brief history.” Nature Review Genetics 6:119-127.

Wright, B. 2000. “A biochemical mechanism for nonrandom mutations and evolution.” J Bacteriology 182:2993-3001.

Friday, 2 December 2022

More on the fossil record fossil recording to Darwinists dismay.

Fossil Friday: Is Triassic Angiosperm-Like Pollen a Solution to Darwin’s Abominable Mystery? 

Günter Bechly 

In a series of articles (Bechly 2021b, 2021c, 2021d, 2021e, 2022a) and podcasts (Bechly 2021a) I have thoroughly discussed Darwin’s abominable mystery of the abrupt appearance of flowering plants in the Early Cretaceous. I also showed that all alleged pre-Cretaceous fossils of flowering plants have been refuted by experts (Sokoloff et al. 2019, Bateman 2020) as misidentified gymnosperms.


However, there is one remaining issue to address, which is palynology, the science of fossil pollen. Despite their tiny size, plant pollen are extremely durable and well-represented as microfossils throughout the Phanerozoic fossil record, even in sediments that otherwise lack any discernible fossils. Some scientists have described fossil pollen from the Triassic period (252-201 million years ago), which have unique angiosperm characteristics such as a single furrow (monosulcate) and a reticulate-columellar sculpture (Pocock & Vasanthy 1988, Cornet 1989b, Zavada 1990, Doyle & Hotton 1991, Hochuli & Feist-Burkhardt 2004, 2013). This Fossil Friday features microphotographs of angiosperm-like pollen of type 1 from the Middle Triassic of Switzerland (Hochuli & Feist-Burkhardt 2013). These angiosperm-like pollen have been interpreted by some as evidence for a much earlier origin of flowering plants, and you can also find this claim in media reports (Palmer 1994, Anderson 2013, University of Zurich 2013). Even some creationists have uncritically embraced these claims (Thomas & Clarey 2013), because they erroneously believed that it supports their young earth scenario. However, do these claims really hold water at all? 

Flies in the Ointment 

The first fly in the ointment was early considerations that monosulcate pollen from the Triassic of North America may have independently acquired angiosperm-like characteristics (Zavada 1990). The same holds for the angiosperm-like wind dispersal mechanism in a Triassic plant seed, which is “probably representing a case of convergent evolution of a similar structure in a gymnosperm” (Axsmith et al. 2013).


Doyle (2005) mentioned that the angiosperm-like Triassic Crinopolles grains possess a gymnosperm-like thick endexine layer, which is unexpected under common schemes of angiosperm evolution. However, he proposed a new scheme (Doyle 2001), which could make this feature equally likely to be a retained primitive character that was later reduced in angiosperm evolution. He concluded that “more evidence on the plants that produced Crinopolles pollen is needed to determine whether they were angiosperm relatives or an extinct convergent line.” 

Herendeen et al. (2017) reviewed molecular and paleontological evidence for the age of angiosperms and remarked that “angiosperm-like pollen grains with reticulate pollen walls [were] recorded from the Middle and Late Triassic, but so far their botanical affinity remains uncertain.” They concluded that a “critical assessment of these reports shows that, so far, none provide unequivocal evidence of pre-Cretaceous angiosperms.” They cautioned that “it may also be significant that similar reticulate angiosperm­-like grains have not been reported from the Jurassic.” They also cautioned that tricolpate pollen (Eucommiidites) from the Triassic and Jurassic was previously misidentified as angiosperm pollen resembling the extant genus Eucommia, but later was shown “to have been produced by an extinct group of non­-angiosperm seed plants, Erdtmanithecales,” likely related to living gnetophytes (Friis & Pedersen 1996). This is especially relevant, because according to the authors, the Crinopolles not only share with Eucommiidites grains the non-angiosperm-like thick endexine but also a similar unusual distribution of apertures. 

A Disturbing Discrepancy 

Coiro et al. (2019), co-authored by the very James Doyle mentioned before, studied the disturbing discrepancy between molecular clock datings and the fossil record of angiosperms. They found that the sequence of pollen types in the Lower Cretaceous strongly conflicts with any earlier datings for the origin of angiosperms. It would simply make no sense that features which clearly appear in a sequence in the Cretaceous were already present all along in the Triassic, but absent throughout the Jurassic period, and then miraculously reappear in a particular order that suggests a Cretaceous sequential origin. The authors furthermore concluded that “critical scrutiny shows that supposed pre-Cretaceous angiosperms either represent other plant groups or lack features that might confidently assign them to the angiosperms.”


The most recent study by Zavialova & Tekleva (2021) reviewed all the angiosperm-like pollen from pre-Cretaceous deposits that lack angiosperm macrofossils. They concluded: “The general morphology, sculpture, exine ultrastructure, as well as some available data on associations with macroremains allow us to interpret with sufficient confidence an overwhelming majority of such finds as gymnosperm pollen.” That’s pretty unambiguous and finally buries the whole thing. Concerning the remaining finds they likewise clarified: “The finds of Pre-Cretaceous reticulate pollen seem the most controversial; however, those from the Permian are also known from conifer sporangia, and a gymnosperm variant of the endexine was revealed in one of Triassic reticulates.” 

Thus, the alleged Triassic angiosperm pollen fossils just seem to repeat the same pattern of misidentified gymnosperms as the alleged Jurassic angiosperm plant fossils we have discussed in my previous articles. It looks like the strong desire to find what Darwins’s theory would predict strongly biases the interpretations of some experts. Instead, the consistent failure of all these claims should be considered as conflicting evidence and failed predictions that challenge the theory. With all counterarguments now decisively refuted, Darwin’s abominable mystery remains a sting in the flesh of Darwinists, as part of the general inconvenient pattern of abrupt appearances in the fossil record that suggest intelligent design (Bechly & Meyer 2017, Bechly 2021f).


P.S.: The above mentioned studies (e.g., Crane 1987, Herendeen et al. 2017, Coiro et al. 2019) also rejected Triassic macrofossils of supposed angiosperm origin, i.e., Sanmiguelia (Cornet 1986, 1989a), either as misidentified gymnosperms or at least insufficiently justified. 

References 

Anderson N 2013. Flowering Plants May Have Originated Earlier than Previously Thought. SciNews October 2, 2013. https://www.sci.news/paleontology/science-flowering-plants-01427.html

Axsmith BJ, Fraser NC & Corso T 2013. A Triassic seed with an angiosperm-like wind dispersal mechanism. Palaeontology 56(5), 1173–1177. DOI: https://doi.org/10.1111/pala.12049

Bateman RM 2020. Hunting the Snark: the flawed search for mythical Jurassic angiosperms. Journal of Experimental Botany 71(1), 22–35. DOI:https://doi.org/10.1093/jxb/erz411

Bechly G 2021a. Botany Journal Revisits Darwin’s “Abominable Mystery”. ID the Future 1420. https://idthefuture.com/1420/

Bechly G 2021b. Darwin’s “Abominable Mystery”: Still Alive and Kicking. Evolution NewsJune 11, 2021. https://evolutionnews.org/2021/06/darwins-abominable-mystery-still-alive-and-kicking/

Bechly G 2021c. Darwin’s “Abominable Mystery” Is Not Alone: Gaps Everywhere! Evolution News June 12, 2021. https://evolutionnews.org/2021/06/darwins-abominable-mystery-is-not-alone-gaps-everywhere/ 

Bechly G 2021d. Darwin’s “Abominable Mystery”: Jurassic Flowering Plants After All? Evolution News June 14, 2021. https://evolutionnews.org/2021/06/darwins-abominable-mystery-jurassic-flowering-plants-after-all/

Bechly G 2021e. Darwin’s “Abominable Mystery”: Mesozoic Cupules Come to the Rescue? Evolution News June 15, 2021. https://evolutionnews.org/2021/06/darwins-abominable-mystery-mesozoic-cupules-come-to-the-rescue/

Bechly G 2021f. Chapter 31: Does the Fossil Record Demonstrate Darwinian Evolution? pp 345–356 in: Dembski WA, Luskin C, Holden JM (eds). The Comprehensive Guide to Science and Faith. Eugene (OR): Harvest House.

Bechly G 2022a. Fossil Friday: Flowering Plants — Darwin’s Abominable Mystery. Evolution News October 21, 2022. https://evolutionnews.org/2022/10/fossil-friday-flowering-plants-darwins-abominable-mystery/

Bechly G 2022b. Fossil Friday: Florigerminis, Another Failed Candidate for a Jurassic Flowering Plant. Evolution News November 18, 2022. https://evolutionnews.org/2022/11/fossil-friday-florigerminis-another-failed-candidate-for-a-jurassic-flowering-plant/

Bechly G 2022b. Fossil Friday: Florigerminis, Another Failed Candidate for a Jurassic Flowering Plant. Evolution News November 18, 2022. https://evolutionnews.org/2022/11/fossil-friday-florigerminis-another-failed-candidate-for-a-jurassic-flowering-plant/

Bechly G, Meyer SC 2017. Chapter 10. The Fossil Record and Universal Common Ancestry. Pp 331–361 in: Moreland JP, Meyer SC, Shaw C, Gauger AK, Grudem W (eds). Theistic Evolution: A Scientific, Philosophical, and Theological Critique. Wheaton (IL): Crossway, 1008 pp.

Coiro M, Doyle JA & Hilton J 2019. How deep is the conflict between molecular and fossil evidence on the age of angiosperms? New Phytologist 223(1), 83–99. DOI: https://doi.org/10.1111/nph.15708

Cornet B 1986. The leaf venation and reproductive structures of a Late Triassic angiosperm, Sanmiguelia lewisii. Evolutionary Theory 7(5), 231–309.

Cornet 1989a. The reproductive morphology and biology of Sanmiguelia lewisii, and its bearing on angiosperm evolution in the Late Triassic. Evolutionary Trends in Plants 3(1), 25–51. https://www.researchgate.net/publication/284026757

Cornet B 1989b. Late Triassic Angiosperm-Like Pollen from the Richmond Rift Basin of Virginia, U.S.A. Palaeontographica B 213(1–3), 37–87. https://www.researchgate.net/publication/285282538

Crane PR 1987. Review of “The leaf venation and reproductive structures of a Late Triassic angiosperm, Sanmiguelia lewisii” by B. Cornet. Taxon 36(4), 778–779. DOI: https://doi.org/10.2307/1221141

Doyle JA 2001. Significance of molecular phylogenetic analyses for paleobotanical investigations on the origin of angiosperms. The Palaeobotanist 50(1–3), 167–188. DOI: https://doi.org/10.54991/jop 

Doyle JA 2005. Early evolution of angiosperm pollen as inferred from molecular and morphological phylogenetic analyses, Grana 44(4), 227–251, DOI: https://doi.org/10.1080/00173130500424557

Doyle JA & Hotton CL 1991. Diversification of early angiosperm pollen in a cladistic context. pp. 169–195 in: Blackmore S & Barnes SH (eds). Pollen and Spores: Patterns of Diversity. Systematics Association Special Volume 44. Clarendon Press, Oxford (UK), 391 pp

Friis EM & Pedersen KR 1996. Eucommiitheca hirsuta, a new pollen organ with Eucommiidites pollen from the Early Cretaceous of Portugal. Grana 35(2), 104–112. DOI: https://doi.org/10.1080/0017313960942948

Herendeen PS, Friis EM, Pedersen KR & Crane PR 2017. Palaeobotanical redux: revisiting the age of the angiosperms. Nature Plants 3:17015, 1–8. DOI: https://doi.org/10.1038/nplants.2017.1

Hochuli PA & Feist-Burkhardt S 2004. A boreal early cradle of Angiosperms? Angiosperm-like pollen from the Middle Triassic of the Barents Sea (Norway). Journal of Micropalaeontology 23(1), 97–104. DOI: https://doi.org/10.1144/jm.23.2.9

Hochuli PA & Feist-Burkhardt S 2013. Angiosperm-like pollen and Afropollis from the Middle Triassic (Anisian) of the Germanic Basin (Northern Switzerland). Frontiers in Plant Science4:344, 1–14. DOI: https://doi.org/10.3389/fpls.2013.0034

Palmer D 1994. First flowers emerge from Triassic mud. NewScientist January 29, 1994. https://www.newscientist.com/article/mg14119102-600-science-first-flowers-emerge-form-triassic-mud/ 

Pocock SAJ & Vasanthy G 1988. Cornetipollis reticulata, a new pollen with angiospermid features from the Upper Triassic (Carnian) sediments of Arizona (U.S.A.), with notes on Equisetosporites. Review of Palaeobotany and Palynology 55(4), 337–356. DOI: https://doi.org/10.1016/0034-6667(88)90092-9

Sokoloff DD, Remizowa MV, El ES, Rudall PJ & Bateman RM 2019. Supposed Jurassic angiosperms lack pentamery, an important angiosperm-specific feature. New Phytologist228(2), 420–426. DOI: https://doi.org/10.1111/nph.15974

Thomas B & Clarey T 2013. Pollen Fossils Warp Evolutionary Time. ICR November 27, 2013. https://www.icr.org/article/7836/

University of Zurich 2013. New fossils push the origin of flowering plants back by 100 million years to the early Triassic. ScienceDaily October 1, 2013. https://www.sciencedaily.com/releases/2013/10/131001191811.htm

Zavada MS 1990. The Ultrastructure of Three Monosulcate Pollen Grains from the Triassic Chinle Formation, Western United States. Palynology 14, 41–51.http://www.jstor.org/stable/3687497

Zavialova NE & Tekleva MV 2021. Angiosperm Features in Pre-Cretaceous Pollen. Botanicheskiii Zhurnal 106(7), 627–657. DOI: https://doi.org/10.31857/S0006813621070115 [In Russian with English abstract]. 


 

It's still design all the way down?

 Your Designed Body: “Irreducible Complexity on Steroids”

Evolution News 

On a new episode of ID the Future, Your Designed Body co-author and physician Howard Glicksman talks with host and neurosurgery professor Michael Egnor about Glicksman’s new book, written with systems engineer Steve Laufmann. Glicksman walks through a series of systems in the human body that are each irreducibly complex, and are each part of larger coherent interdependent systems. As Glicksman puts it, the human body is “irreducible complexity on steroids.” How could blind evolutionary processes, such as neo-Darwinism’s joint mechanism of natural selection working on random genetic mutations, build this bio-engineering marvel? Your Designed Body makes the case that it couldn’t. It’s not even close. What is required instead is foresight, planning, and engineering genius  

Download the podcast or listen to it here.


Whither the smartest ape?

 Studying Chimps Is “Politics by Other Means” 

Evolution News 

A review by animal historian Brigid Prial of a recent book in which chimpanzee experts reflect on their work tells us a good deal about the chimpanzee expert world.


The reviewer is also the author of “Primatology Is Politics by Other Means” from which we learn: 

“Adam and Eve, Robinson Crusoe and Man Friday, Tarzan and Jane: these are the figures who tell white western people about the origins and foundations of sociality. The stories make claims about “human” nature, “human” society. Western stories take the high ground from which man — impregnable, potent, and endowed with a keen vision of the whole — can survey the field. The sightings generate the aesthetic-political dialectic of contemplation/exploitation, the distorting mirror twins so deeply embedded in the history of science. 

Wait. Isn’t it a fact that humans do have a keen “vision of the whole” and that chimpanzees do not? And cannot? 

Theorizing and Politicking 

Yes. Humans are concerned with chimpanzee welfare and chimpanzees are not concerned with human welfare. All the theorizing and politicking in the world will not change the difference that the human mind makes.


From the h-net review of Chimpanzee Memoirs: Stories of Studying and Saving Our Closest Living Relatives (2022):

Several chapters, notably by established primatologists Goodall, Richard Wrangham, and Christopher Boesch, discuss aspects of their work that have been viewed as controversial, perceived as challenging orthodoxy, or publicly misconstrued. Boesch describes how his observations of cooperation and teaching behaviors in chimpanzees at Taï Forest in Côte D’Ivoire were dismissed by anthropologists and psychologists who privilege laboratory data and believe in “human superiority” (p. 88). Goodall and Wrangham both noted backlash they had received regarding their findings about aggression and violence in chimpanzees, controversies that are examined extensively by Erika Lorraine Milam in her book Creatures of Cain: The Hunt for Human Nature in Cold War America (2019). Supervisors told Goodall that publishing her claims in the 1970s would lend credence to those who argued that war was an inevitability, while Wrangham received similar resistance to his admittedly provocatively titled book Demonic Males: Apes and the Origins of Human Violence (1997). Many authors also describe frustration with the way their research has become sensationalized or stripped of nuance in the media. Elizabeth Lonsdorf was particularly disappointed to see her work lampooned on a “men’s rights” website. For historians of science, these chapters provide insight into how the science of animal behavior is mined for answers to contentious social questions of gender and violence. 

But haven’t these academics made their own field ridiculous already? If they want to claim that chimpanzees, who lack abstract thinking, can teach us a lot about human beings, who have it, they have just plain set themselves up. 

Read the rest at Mind Matters


It made Darwin doubt; it makes Darwinists defiant II

 “Lying on the Internet”? Debunking Dave Farina on Stephen Meyer 

Günter Bechly 

I have been reviewing and responding to popular YouTuber Dave Farina’s recent video (Farina 2022) attacking Stephen Meyer and Darwin’s Doubt. This is the third post in my series. Find the first two here and here. I have provided timecodes in square brackets throughout for ease of following Professor Dave’s (as he styles himself) assertions. 


[TC 15:43] Mr. Farina claims that Dr. Meyer’s central thesis is that “Animals appear in the Cambrian explosion with no predecessors! Nothing!” Farina calls this “caught lying on the Internet” and says it exposes one of Meyer’s biggest and most persistent lies. This is ludicrous, as Farina himself admits in the same video that Meyer in Darwin’s Doubt explicitly acknowledges the existence of Precambrian animals like sponges, cnidarians, and even a possible bilaterian (Kimberella). Farina then goes into various cases of alleged Ediacaran animals. This is supposed to debunk Meyer, or rather Farina’s straw man of Meyer’s argument.


[TC 16:54] Farina starts with sponges and cites the biomarker study of Gold et al. (2016) as evidence for Precambrian sponges. First, as I’ve already emphasized, Meyer acknowledges the possible presence of sponges in the Ediacaran and as Farina himself recognized before, Meyer clearly refers to the origin of bilaterian animal body plans as the problem of the Cambrian Explosion. Therefore, fossils of putative sponges, ctenophores, and cnidarians from the Ediacaran are totally irrelevant. However, even these claims are highly disputed. I have discussed and debunked all this evidence for Precambrian sponges (Bechly 2020c). And in a comment on Facebook, Joe Botting, one of the world leading experts on fossil sponges, agreed with the all points in this article (apart from the conclusion to ID). 

In the description of his video on YouTube, Farina links to two new papers (Zumberge et al. 2018, Love et al. 2020), by the same team of authors, about steroid biomarker evidence for Cryogenian animals about 650 mya. Nettersheim et al. (2019) challenged the identification of demosponges as likely producers of the Cryogenian biomarkers because they found these putative typical sponge biomarkers to be common among unicellular organisms (Rhizaria) and concluded that “negating these hydrocarbons as sponge biomarkers, our study places the oldest evidence for animals closer to the Cambrian Explosion.” Love et al. (2020) briefly responded and disputed the results of Nettersheim et al. as possible artifacts and again suggested that demosponges are currently the only known biological source for the found sterane biomarkers. But another even more recent study by Maldegem et al. (2021) demonstrated that these particular steranes can form via geological alteration of common algal sterols. Here is what the press release by the Australian National University (2020) said: “Scientists have resolved a longstanding controversy surrounding the origins of complex life on Earth. The studies found molecular fossils extracted from 635-million-year-old rocks aren’t the earliest evidence of animals, but instead common algae.” Thus, the alleged conclusive evidence for Cryogenian animals has evaporated. Farina is either unaware of the more recent research, and thus did not do his homework, or he is misleadingly cherry-picking older studies to support his case. 

In Search of Ediacaran Animals 

[TC 17:41] Are there Ediacaran animals 635-541 mya? Farina claims that it is in this period that we find the first animal body fossils. This is of course possible, even though controversial even among the mainstream experts, but it is irrelevant unless we were to find bilaterian animals and putative ancestors of the Cambrian bilaterian animal phyla. Here is what Telford et al. (2015) concluded: “Even if bilaterians were tiny in the Precambrian, they would be capable of being preserved in the microfossil record, suggesting that their absence is real.” Meyer cites Budd and Jensen (2003) forcefully pointing out the lack of Precambrian bilaterian fossils: 

As Graham Budd and Sören Jensen state, “The known [Precambrian/Cambrian] fossil record has not been misunderstood, and there are no convincing bilaterian candidates known from the fossil record until just before the beginning of the Cambrian (c. 543 Ma), even though there are plentiful sediments older than this that should reveal them.” Thus they conclude, “The expected Darwinian pattern of a deep fossil history of the bilaterians, potentially showing their gradual development, stretching hundreds of millions of years into the Precambrian, has singularly failed to materialize.” 

[TC 17:50] Farina mentions Lantianella as a putative Ediacaran cnidarian, so not a bilaterian animal but a member of one of the animal groups that Meyer acknowledges to occur in the Ediacaran. But the case for Lantianella as a cnidarian is far from conclusive. Actually, the fossils described as Lantianella were originally considered to be problematica, possible animals, or taphonomic variations of macroalgae (Yuan et al. 2011, 2013). Van Iten et al. (2013, 2014) and Wan et al. (2016) suggested that Lantianella might be a cnidarian animal, but this was only based on the superficially conulariid-like habitus with presence of a holdfast and tentacle-like structures. Therefore, even the latter authors admitted that “these animal interpretations are intriguing possibilities, but definitive evidence for an animal affinity is lacking.” Nevertheless, without further study or arguments, most subsequent authors have tentatively accepted or at least considered this possibility (e.g., Bowyer et al. 2017, Cunningham et al. 2017b, Dunn & Liu 2017, Dzik et al. 2017, Wood et al. 2019, Cordani et al. 2020, Zhao et al. 2021). Of course they did. Why should they question such convenient hypotheses? The recently described alleged Ediacaran cnidarian Auroralumina (Dunn et al. 2022) is very similar to Lantianella, which surprisingly is not even mentioned in this publication. Maverick paleontologist Gregory Retallack, who considers most Ediacaran organisms as terrestrial lichens, suggested in a comment on Facebook that Auroralumina is similar to the podetium and soredia of the living lichen Cladonia chlorophaea. I don’t believe this fringe view either, but it shows how much room for very different interpretations these fossils leave. These organisms may have been conulariid-like cnidarians, or not. It is a lot of guesswork based on superficial similarities of relatively poorly preserved fossils without much in the way of diagnostic features. For the time being, I think that Lantianella and Auroralumina would be better considered as related forms of Precambrian problematica or macroalgae, especially since similar uncontroversial macroalgae abound in the Ediacaran localities from China (Wang et al. 2020). Anyway, as I have already said, Meyer did not dispute the existence of Ediacaran cnidarians and their (potential) existence is irrelevant for his case about the Cambrian Explosion of bilaterian animal phyla. 


[TC 17:54] Concerning the phosphatized animal embryos from Doushantuo, Farina had boldly claimed that Meyer lied about them, but now at least acknowledges briefly that they have been the subject of intensive debate. However, he thinks that Megasphaera, Caveasphaera, Helicoforamina, and Spiralicellula are genuine animal embryos rather than algae or protists. This is based on the recent papers by Yin et al. (2019, 2022), but they only talk about holozoan affinity, total-group metazoans, and metazoan-like development. That’s fine (even though likely wrong), but again irrelevant in the absence of a strong case that these putative animal embryos belonged to bilaterian animals rather than stem animals. There is no such case, though, even according to the champions of the embryo-interpretation. There is wide agreement that the Doushantuo fossils are not crown-group animals (e.g., Butterfield 2011, Kaplan 2011, Chen et al. 2014b) and thus not bilaterians (the bilaterian animal nature of Vernanimalcula was thoroughly debunked by Bengtson et al. 2012). Telford et al. (2015) therefore said that none of the Doushantuo fossils “can be confidently assigned to bilaterians.” But are those fossils even animal embryos in the wider sense at all? 

Like numerous previous studies (see Bechly 2020c and 2020d for a brief review and references), a brand-new study by Zhang & Zhang (2022) strongly disagrees and concludes that Megasphera’s developmental “features are inconsistent with the embryogenesis of living animals, and therefore do not support the metazoan-embryo interpretation.” Tang (2015) reviewed the controversy around the interpretation of Megasphera and the other genera and concluded that they are algae rather than animal embryos. Spiralicellula was first suggested as possible metazoan embryo by Xiao et al. (1998). Just two years later the authors themselves admitted that the interpretation is problematic (Xiao & Knoll 2000). Later studies suggested that Spiralicellula and Helicoforaminacould instead be of algal (Zhang & Pratt 2015) or mesomycetozoan-like protist (Huldtgren et al. 2011) origin. Xiao et al. (2014) suggested that all these genera are likely multicellular eukaryotes but could not decide if they are algae or stem-animals. Cunningham et al. (2017a) concluded that “although the Weng’an Biota includes forms that could be animals, none can currently be assigned to this group with confidence.” Ouyang et al. (2019)therefore still classified Megasphera, Helicoforamina, and Spiralicellula as acanthomorph acritarchs. Farina does not care about such scientific “subtleties” and presents these problematic and highly controversial taxa as proven evidence of Ediacaran animals. 

By the way: Just this year, another of the alleged Doushantuo animal embryos, called Tianzhushania, was debunked and identified as an algal cyst (Moczydłowska & Liu 2022), which is the most likely fate for all the others.


At best a few forms like Caveasphaera could be stem-metazoans with animal-like development (Yin et al. 2019), but this is far from established. New York Times science writer and ardent evolutionist Carl Zimmer was not convinced either and quoted numerous eminent scientists who strongly dispute such an animal affinity (Zimmer 2019). Another scientific study from the same year accordingly classified Caveasphera among acanthomorph acritarchs like the other genera mentioned above (Ouyang et al. 2019). 

Wondering about Acritarchs 

[TC 18:26] Farina mentions a diversification of acritarchs as possible indirect evidence based on co-evolution with eumetazoans. This seems dubious, because we have no clue what acritarchs even are, and which ecological role if any they might have played for early metazoans. Acritarchs are problematic microfossils that could represent an artificial assemblage of algal cysts, moss pollen, and planktonic protists. Farina’s statement is likely based on the study by Peterson & Butterfield (2005), which found no evidence at all for acritarchs as metazoans or for any metazoans. Instead, they simply correlated molecular clock dates for the origin of metazoans, which we know are highly unreliable and disputed, with detected regime changes in the Proterozoic acritarch record, and boldly concluded in favor of co-evolution. That’s hardly science but more like reading tea leaves. Yet even if true, these early metazoans would most likely have been stem metazoans or non-bilaterian metazoans and thus would be totally irrelevant to the Cambrian Explosion. Nothing in this argument explains the abrupt appearance of the bilaterian animal phyla and body plans in the Early Cambrian.


[TC 18:59] Farina also mentions the low-oxygen requirements of sponges and ctenophores (Mills et al. 2018) as relating to the fact that only the ocean surface was oxygenated until the middle Ediacaran. So what? Unlike me, Meyer did not even dispute the existence of Ediacaran sponges and coelenterates like ctenophores and cnidarians. So this is yet another red herring from Farina that has nothing to do with the real problem of the Cambrian Explosion. 


[TC 19:20] Farina refers to the three assemblages of the typical Ediacaran biota that exhibit increasing ecological complexity (Eden et al. 2022): 

Avalon Assemblage 771-555 mya

White Sea Assemblage 560-551 mya

Nama Assemblage 555-541 mya

Apparently, he wants to give the impression that Ediacaran biota progress towards the Cambrian animal phyla. However, this is false. No phylogenetic link has been established between the organisms of these Ediacaran biota and the Cambrian animal phyla, and the very existence of any Ediacaran animals is highly controversial among experts to say the least (see further). 

[TC 19:58] Farina misleads his viewers by claiming that the interpretation of the Ediacaran biota as enigmatic problematics, multicellular protists, fungi, and lichens, was just due to an early lack of knowledge, from the time of their discovery in the 1940s to Stephen Jay Gould’s time in the 1980s. Farina maintains that modern research has changed this picture in favor of an animal interpretation, which he seems to base on Liu et al. (2015).


[TC 20:39] He quotes a study by Wan et al. (2016) on alleged animal fossils from the Lantian Formation in China and does not conceal their admission that Ediacaran candidate animals represent “frustrating cases for animal affinities.” Farina uncritically accepts this study and does not recognize that it is highly problematic. Here is just one example: the authors speculated that Xiuningella could be a bilaterian worm but admitted that alternatively it “could be an epibenthic algal organism, with the bulbous structure being a holdfast, the stalk being a stem, and the cylindrical tube representing a coenocytic siphonous thallus.” Since macroalgae totally dominate the Lantian biota and clear animals are lacking, this seems like a much more reasonable interpretation. The authors even admitted that for all their discussed candidate organisms “definitive evidence for an animal affinity is lacking.” We’ve already discussed in this series the problematic nature of Lantianella, but what if it should indeed be a cnidarian as speculated by Wan et al.? So what? I hate to say it another time, but Meyer has acknowledged the possible existence of Ediacaran cnidarians, so this would be just another one. The problem of the Cambrian Explosion is the abrupt appearance of numerous different body plans of bilaterian animal phyla, and cnidarians are not one of them. Farina is here again shooting down caricatures of Meyer’s arguments, which shows that this wannabe “professor” cannot refute the actual arguments. 

(see here for a precise definition of this technical term of cladistics) of Metazoa or Eumetazoa, and not even a homology within Metazoans has been established. Furthermore, the fractal growth (Seilacher 1992, Gehling & Narbonne 2007) of the Ediacaran frond-like taxa differs from anything we know in metazoans. Taken together, this evidence suggests a convergence and shows that Dunn et al. (2021) definitely presented a case of invalid phylogenetic reasoning even from the viewpoint of mainstream evolutionary cladistics. But I can only repeat the same thing ad nauseam: Even if Charnia were a stem-metazoan, if would contribute absolutely zilch to solving the problem of the Cambrian Explosion of bilaterian animal phyla. 

Please, Not Again 

[TC 22:55] Farina introduces Haootia quadriformis as almost certainly a cnidarian. Please, not again. Meyer acknowledges Ediacaran cnidarians, thus it is irrelevant if there is another one. Maybe Haootia indeed is a cnidarian, but not so fast: A recent paper (Dunn et al. 2022) about Ediacaran cnidarians is not so confident and even excludes Haootia from their phylogenetic analysis because of its uncertain position. This study instead suggested that the new fossil Auroralumina from Charnwood Forest is a putative Ediacaran crown group cnidarian, which is problematic as well (see my earlier comments). Even if Haootia and Auroralumina are Ediacaran cnidarians, they would just confirm what Meyer acknowledged anyway and that does nothing to explain the sudden appearance of bilaterian animal phyla in the Cambrian Explosion. This is getting ridiculous! 

[TC 23:07] Farina shows a screenshot from the study of Evans et al. (2021), which places Tribrachidium, Dickinsonia, Ikaria, and Kimberella in the Eumetazoan tree with the latter two taxa as putative Bilateria. Well, at least the latter two taxa are a bit more interesting as they have been claimed to be bilaterian animals. I discussed this paper in a previous article (Bechly 2021c), and have critically discussed all four genera in great detail in others (Bechly 2018c, 2020b, 2020g, 2021c, 2022e). Therefore, I will refer to those articles and just include a few notes here:


[TC 23:18] Farina first presents Tribrachidium of the extinct phylum Trilobozoa as another stem-eumetazoan, which allegedly was a benthic, sessile, suspension feeder. In my article series on trilobozoans (Bechly 2021c) I showed that the suspension feeder interpretation by Rahman et al. (2015) is dubious and controversial, judging from up-to-date mainstream science that contradicts this interpretation. The authors even admit that the related genera within Trilobozoa or Triradialomorpha “appear to lack the apical ‘pits’ that we hypothesize are key to this method of feeding in Tribrachidium,” which basically debunks their hypothesis as emphasized by McMenamin (2016: 60-62). New research has also revealed the internal anatomy of trilobozoans (Taylor et al. 2017, Zakrevskaya & Ivantsov 2020) and it is incompatible with the suspension feeding hypothesis and unlike any known animal body plans. Many experts therefore still consider the enigmatic trilobozoans as a “failed evolutionary experiment in multicellular eukaryote body plans” (Droser et al. 2017, Hall et al. 2018). Even Rahman et al. (2015) admitted that “Tribrachidium is best understood as a multicellular eukaryote with uncertain relationships to crown Metazoa.” Trilobozoans were very aberrant and clearly not ancestral to any of the Cambrian animal phyla and thus are completely irrelevant for solving the problem of the Cambrian Explosion. 

[TC 23:33] Second in Farina’s list is Dickinsonia, which he introduces as a stem-bilaterian, based on alleged strong ichnological, developmental, and biomarker evidence. The ichnological (trace fossil) evidence is not strong but controversial, and some leading experts think that the alleged traces are just successive imprints of passively drifting specimens (McIlroy et al. 2009), and conclude that “there is no evidence from within material of Dickinsonia from Ediacara, or from any other material yet known, of true escape trails, faecal trails or locomotion traces” (Brasier & Antcliffe 2008). New results suggest that the developmental evidence is not only weak, but actually incompatible with an animal nature for Dickinsonia (Retallack 2022). Another recent study by Runnegar (2022) showed “that the biomarker evidence supports a lifestyle based on poriferan-style phagocytosis rather than bilaterian extracellular digestion.” The absence of a gut was also suggested by the biomarker study of Bobrovskiy et al. (2022). Runnegar also confirmed that at least some dickinsoniids had glide symmetry rather than bilateral symmetry and suggested that “Seilacher’s characterization of them as fluid-filled ‘pneus’ may serve as the current null hypothesis.” Cabey (2020) concluded that “the phylogenetic relationships of the genus Dickinsonia remain still undetermined.” This all supports my critical discussion of Dickinsonia and its rejection as a bilaterian animal (Bechly 2018c, Bechly 2022e). 

symmetry in Cnidaria. Cabey (2020) agrees that “whether Kimberella is a bilaterian or a coelenterate-grade animal is still unresolved.” Again, my critique was recently confirmed by Runnegar (2022), who agreed that Kimberella “might be an animal of cnidarian grade” and even thinks that “it is possible to regard Kimberella as some kind of foraging anemone.” Of course, it is also possible that Kimberella and Yilingia will still turn out to document the existence of two bilaterian groups of uncertain affinity prior to the Cambrian period, as suggested by a very recent biomarker study (Bobrovskiy et al. 2022), which suggested the presence of a gut based on molecular signatures of supposed gut content. However, their unique specializations strongly suggest that they could only represent extinct side branches but could not be directly ancestral to any of the numerous Cambrian animal phyla, and thus do not resolve their enigmatic origin. Meyer in Darwin’s Doubt also discusses Kimberella and generously acknowledges that it could be a bilaterian. What is Farina’s problem, then? Meyer can hardly be blamed for not having discussed Yilingia, which was described years after his book was published. 

The Nama Assemblage 

[TC 24:33] Farina turns to the Nama assemblage and mentions three fossil taxa: Cloudina, Yilingia, and Namacalathus.


[TC 24:48] Concerning the tubular fossil Cloudina he correctly says that it has recently been argued to be likely an annelid. I disputed this attribution in an earlier article (Bechly 2020a) based purely on mainstream science. He immediately acknowledges that other cloudinomorphs were rather attributed to cnidarians, but instead of doubting one of the two attributions, he suggests that cloudinomorphs might not be a natural group of related organisms.


[TC 25:12] He describes Yilingia (Chen et al. 2019) as a segmented bilaterian, possibly either an annelid or a panarthropod. That’s indeed what the paper and the accompanying media reports suggested. However, there is a big problem because annelids (belonging to lophotrochozoans) and panarthropods (belonging to ecdysozoans) are not closely related and their similar body plan is generally considered to be a convergence. This makes it very weak evidence because another convergence could be quite likely. Farina also says that a relationship with panarthropods would be supported by the trilobed structure as in trilobites. However, this structure does not even belong to the ground plan of Panarthropoda and is absent in basal groups such as Cambrian lobopods. Farina seems to get his information from Wikipedia (https://en.wikipedia.org/wiki/Yilingia) and other unreliable sources. Also, the metameric pattern of Yilingia is very different from any known panarthropod or annelid (Evolution News 2019, Bechly 2020b). [TC 25:29] Finally, he claims that Namacalathus appears to be an early relative of brachiopods and bryozoans. I criticized this attribution on many grounds (Bechly 2020e, 2020f, 2021a, 2021b), not the least of which is that brachiopods and bryozoans are of questionable relationship and the homology of the used similarities has been disputed and refuted by the experts even for these two living groups. The phylogenetic attribution of Namacalathus was therefore objectively based on invalid arguments. A lot of nonsense gets published in peer-reviewed scientific articles (just think of the replication crisis) and it requires a bit of expertise to separate the wheat from the chaff and to recognize poor arguments. Farina clearly lacks any expertise to do this. 


Thursday, 1 December 2022

The thumb print of JEHOVAH: Botanic edition.

Viewing Chinese Lanterns in Pittsburgh 

Paul Nelson 

On the day after Thanksgiving, I was viewing Abutilon pictum — commonly known as the Chinese lantern  plant — at Phipps Conservatory and Botanical Gardens, Pittsburgh, PA. While being charmed by its whimsical beauty, I also mused about the genetic coding requirements for the changes in protein expression and timing (during development) to give its precise floral morphology. Psalm 111:2.  


 

Whither the Christian nation?

America’s Unchristian Beginnings : Founding Fathers: Most, despite preachings of our pious right, were deists who rejected the divinity of Jesus. 

BY STEVEN MORRIS 

The Christian right is trying to rewrite the history of the United States as part of its campaign to force its view of religion on others who ask merely to be left alone. According to this Orwellian revision, the Founding Fathers were devout Christians who envisioned a Christian nation.


Not true. The early presidents and patriots were generally deists or Unitarians, believing in some form of impersonal Providence but rejecting the divinity of Jesus and the relevance of the Bible.

* Thomas Paine, pamphleteer whose manifestoes encouraged the faltering spirits of the country and aided materially in winning the War of Independence: “I do not believe in the creed professed by the Jewish church, by the Roman church, by the Greek church, by the Turkish church, by the Protestant church, nor by any church that I know of. Each of those churches accuse the other of unbelief; and for my own part, I disbelieve them all.” 

* George Washington, first President: He seems to have had the characteristic unconcern of the 18th-Century deist for the forms and creeds of institutional religions. Although he often referred to Providence as an impersonal force, remote and abstract, he never declared himself to be a Christian, either in contemporary reports or his voluminous correspondence.


Washington championed the cause of freedom from religious intolerance and compulsion. When John Murray, a Universalist who denied the existence of hell, was invited to become an Army chaplain, other chaplains petitioned Washington to reject him. Instead, Washington gave him the appointment. On his deathbed, Washington uttered no words of a religious nature and did not call for a clergyman to be in attendance. 

* John Adams, second President: Drawn to the study of law but facing pressure from his father to become a clergyman, he wrote that he found among lawyers “a noble air and gallant achievements” but among the clergy, the “pretended sanctity of some absolute dunces.” Late in life he wrote, “Twenty times in the course of my late reading, have I been upon the point of breaking out, ‘This would be the best of all possible Worlds, if there were no Religion in it!!!’ ” It was during Adams’ presidency that the Senate ratified the Treaty of Peace and Friendship, which states in Article XI that “The Government of the United States of America is not in any sense founded on the Christian religion.” This treaty with the Islamic state of Tripoli had been written and concluded by Joel Barlow during Washington’s Administration. 

* Thomas Jefferson , third President and author of the Declaration of Independence: “I trust that there is not a young man now living in the United States who will not die an Unitarian.” He referred to the Book of Revelations as “the ravings of a maniac” and in further criticism of the Bible he wrote: “The Christian priesthood, finding the doctrines of Christ leveled to every understanding and too plain to need explanation, saw, in the mysticisms of Plato, materials with which they might build up an artificial system which might, from its indistinctness, admit everlasting controversy, give employment for their order, and introduce it to profit, power and preeminence. The doctrines which flowed from the lips of Jesus himself are within the comprehension of a child; but thousands of volumes have not yet explained the Platonisms engrafted on them: and for this obvious reason that nonsense can never be explained.” 

* James Madison, fourth President and father of the Constitution: “Religious bondage shackles and debilitates the mind and unfits it for every noble enterprise,” he wrote. “During almost 15 centuries has the legal establishment of Christianity been on trial. What have been its fruits? More or less in all places, pride and indolence in the Clergy, ignorance and servility in the laity; in both, superstition, bigotry and persecution.” 

* Ethan Allen , whose capture of Ft. Ticonderoga while commanding the Green Mountain Boys helped inspire the country to pursue the War of Independence: “That Jesus Christ was not God is evident from his own words.” Allen also wrote that he was generally “Denominated a deist, the reality of which I never disputed, being conscious I am no Christian.” Allen stopped his own wedding ceremony when the judge asked if he promised “to live with Fanny Buchanan agreeable to the laws of God.” Allen refused to answer until the judge agreed that the God referred to was the god of nature, and the laws those “written in the great book of Nature.” 

* Benjamin Franklin, delegate to the Continental Congress and the Constitutional Convention: “As to Jesus of Nazareth, my Opinion of whom you particularly desire, I think the System of Morals and his Religion . . . has received various corruption changes, and I have, with most of the present Dissenters in England, some Doubts as to his divinity; tho’ it is a question I do not dogmatize upon, having never studied it, and think it needless to busy myself with it now, when I expect soon an Opportunity of knowing the Truth with less Trouble.” He died a month later, a deist, not a Christian. 

Ps. America's founders and doubtless many others were pushed away from the JEHOVAH of the bible because Christendom's version of him is the author of a hyper politicized gospel that is OK with attempting to force an outward piety upon society by force of arms. And both traditionalists and modernists are guilty of this vice lest anyone conclude that I am picking sides.



 

On Darwinism's failure as a predictive model II

 Failed Darwinian predictions 

Cornelius G Hunter 

addition to the DNA code, there are other fundamental molecular processes that appear to be common to all life. One intriguing example is DNA replication which copies both strands of the DNA molecule, but in different directions. Evolution predicts these fundamental processes to be common to all life. Indeed this was commonly said to be an important successful prediction for the theory. As Niles Eldredge explained, the “underlying chemical uniformity of life” was a severe test that evolution passed with flying colors. (Eldredge, 41) Likewise Christian de Duve declared that evolution is in part confirmed by the fact that all extant living organisms function according to the same principles. (de Duve, 1) And Michael Ruse concluded that the essential macromolecules of life help to make evolution beyond reasonable doubt. (Ruse, 4)


But this conclusion that the fundamental molecular processes within the cell are common to all species was superficial. In later years, as the details were investigated, important differences between species emerged. For example, key DNA replication proteins surprisingly “show very little or no sequence similarity between bacteria and archaea/eukaryotes.” (Leipe) Also different DNA replication processes have been discovered. These results were not what were expected:


In particular, and counter-intuitively, given the central role of DNA in all cells and the mechanistic uniformity of replication, the core enzymes of the replication systems of bacteria and archaea (as well as eukaryotes) are unrelated or extremely distantly related. Viruses and plasmids, in addition, possess at least two unique DNA replication systems, namely, the protein-primed and rolling circle modalities of replication. This unexpected diversity makes the origin and evolution of DNA replication systems a particularly challenging and intriguing problem in evolutionary biology. (Koonin)


Some evolutionists are reconsidering the assumption that all life on Earth shares the same basic molecular architecture and biochemistry, and instead examining the possibility of independent evolution, and multiple origins of fundamentally different life forms. (Cleland, Leipe) 

References 

Cleland, Carol. 2007. “Epistemological issues in the study of microbial life: alternative terran biospheres?.” Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 38:847-861.


de Duve, Christian. 1995. Vital Dust. New York: BasicBooks.


Eldredge, Niles. 1982. The Monkey Business. New York: Washington Square Press.


Koonin, E. 2006. “Temporal order of evolution of DNA replication systems inferred by comparison of cellular and viral DNA polymerases.” Biology Direct 18:1-39.


Leipe, D., L. Aravind, E. Koonin. 1999. “Did DNA replication evolve twice independently?.” Nucleic Acids Research 27:3389-3401.

Ruse, Michael. 1986. Taking Darwin Seriously. New York: Basil Blackwell.

How the quest for the thumb print of JEHOVAH can drive science.

Religious Intuition Can Lead to Scientific Discovery: The Cases of Copernicus and Ferguson 

Robert Shedinger 

A common criticism of intelligent design holds that ID is more religion than science. This criticism is problematic as ID possesses a strong and growing empirical foundation. The purpose of this criticism, however, is to undermine any claims to truth associated with ID. As the argument goes, religion is subjective and faith-based while science is objective and empirically based. Religion therefore almost by definition can never provide reliable insights about the nature and structure of the physical universe. Thus, if ID is religion, it cannot be true. This would all be well and good except for the fact that there are at least two noteworthy examples of religious reasoning leading directly to scientific hypotheses later empirically confirmed to be true.


When I first began teaching at Luther College over twenty years ago, I had a senior colleague who held a PhD in the history of science from the University of Wisconsin, Madison. Bruce Wrightsman (who has since passed away) shared with me an article he had published back in 1980 in an obscure anthology titled “The Legitimation of Scientific Belief: Theory Justification by Copernicus.” My colleague argued persuasively that Nicholas Copernicus possessed no empirical evidence to place the sun at the center of the solar system but that he rather had relied on a religious justification. It is a shame this article has not garnered more attention. 

Epicycles and Equants 

By the 16th century, the old Ptolemaic system had become rather messy with its bevy of ad hoc features like epicycles and equants designed to keep the geocentric system consistent with observations. Messy as it was, the Ptolemaic system did remain consistent with observations and retained its practical use as a calendrical tool. There was no compelling empirical evidence suggesting a heliocentric solar system (a point supported by Harvard astronomer Owen Gingerich in God’s Planet). 


Copernicus, however, viewed the Ptolemaic system as a monstrosity. The God he believed in was the great artisan of the universe, and such a God would never create something as messy and clumsy as the Ptolemaic system. Placing the sun at the center of the solar system led to a simpler and more elegant model, one more pleasing to Copernicus’ religiously inspired aesthetic sensibilities. And it was on this basis that his theory rested. In Bruce Wrightsman’s words: 

One may not like Copernicus’s reasons for coming to believe in and justifying his system but that is not a rational ground for refusing to accept them as reasons. We must therefore remind ourselves that scientific investigation had much broader implications for Copernicus than it has for many today and included those purposes which we classify as religious and extra-scientific.1 

To be sure, Copernicus’ theory flew in the face of church doctrine, forcing Copernicus to delay publication out of fear of ecclesiastical reprisal. Yet despite the fact that Copernicus’ religiously inspired ideas about the structure of the cosmos may have been deemed heretical according to the orthodoxies of his day, they were religious nonetheless. And when Galileo later began peering at the night sky through his telescope, Copernicus’ religiously inspired aesthetics were found to have led him to truth about the structure of the solar system! Empirical evidence came after Copernicus had already proposed his theory on religious grounds, not before.  

“A Mean Opinion of the Divine Wisdom” 

A second example comes from the work of a lesser-known figure, 18th-century Scottish astronomer James Ferguson. Ferguson, like Copernicus, contradicted the religious orthodoxies of his day by suggesting that the stars that light up the night sky represented bodies like our sun accompanied by their own planetary systems and perhaps even extraterrestrial life. Orthodox beliefs of the time viewed the heavens as existing entirely for the aesthetic pleasure of humans on Earth. But according to Ferguson: 

It is no ways probable that the Almighty, who always acts with infinite wisdom and does nothing in vain, should create so many glorious Suns, fit for so many important purposes, and place them at such distances from one another, without proper objects near enough to be benefitted by their influences. Whoever imagines they were created only to give a faint glimmering light to the inhabitants of this Globe, must have a very superficial knowledge of Astronomy, and a mean opinion of the Divine Wisdom.2 

Clearly Ferguson possessed no empirical evidence suggesting the existence of planetary systems revolving around extra-solar suns. But his religious reasoning led him to propose that such things should exist. And here we are today with 21st-century technology continuing to empirically confirm the existence of extra-solar planets on a nearly daily basis! 

Science and Aesthetics 

These examples challenge any notion that religious thinking can never lead to true understandings about the nature and structure of the physical universe. Interestingly, aesthetic sensibilities continue to drive science in the case of theoretical physicists’ fascination with elegance, simplicity, and grand unification as a criterion of fundamental truth (even if this aesthetic sensibility has been divorced from its religious roots). 


ID is not religion. But even if we were to concede falsely that it is, such a characterization is irrelevant to the question of whether it is true. Religion may not always lead to truth about the physical world, but it is patently false to say that it never has or never can. 

Notes 

1)Bruce Wrightsman, “The Legitimation of Scientific Belief: Theory Justification by Copernicus” in T. Nickles, ed., Scientific Discovery: Case Studies (D. Reidel, 1980), 62.

2)Quoted in Michael J. Crowe, “Astronomy and Religion (1780-1915): Four Case Studies Involving Ideas of Extraterrestrial Life” in John Hedley Brooke, et al., eds., Science in Theistic Contexts, Osiris 16 (2001): 212