F Rosa Rubicondior: Archaeology
Showing posts with label Archaeology. Show all posts
Showing posts with label Archaeology. Show all posts

Saturday 9 March 2024

Creationism in Crisis - Geobiologists Discover The Cause of Earth's First Mass Extinctions Event - 550 Million Years Before 'Creation Week'


Impressions of the Ediacaran fossils Dickinsonia (at center) with the smaller anchor shaped Parvancorina (left) in sandstone of the Ediacara Member from the Nilpena Ediacara National Park in South Australia.
Photo: Scott Evans.
Geobiologists shine new light on Earth’s first known mass extinction event 550 million years ago | VTx | Virginia Tech

A big problem for Creationists, especially those who believe the Bible was written by an infallible creator god, so think Earth is just a few thousand years old, is that science keeps finding evidence that Earth is billions of years old, and finding fossils of the life-forms that were around then.

As though that wasn't refutation enough, a team of scientists from Virginia Tech have now explained the mass extinction that wiped out most of these early life forms several billion years ago - giving the lie that they were intelligently designed by a god with the ability of foresight. Such a god would have known about the future mass extinctions and either prevented it, designed his creations to survive it or at least waited till it was safe to create things. Creating things to go extinct is not the act of an intelligent or sane creator.

This mass extinction appears not to have been a sudden event, such as that that resulted in the extinction of the non-avian dinosaurs and large marine reptile predators, but to have occurred in two phases that resulted in a loss of about 80% of species and separated by about 10 million years.

But before creationists get over-excited, this does not mean all the Ediacarans were extinct at the Cambrian 'explosion' so the Cambrian biota had no ancestors. It means that there were still about 20% of the Ediacaran biota to evolve over the 6 million years of the Cambrian 'explosion' into the Cambrian biota.

The Ediacaran mass extinction was probably caused by falling Oxygen levels as Ediacarans that had evolved large mass to surface-area ratios suffered from a loss of oxygen more so than those which had retained a smaller mass to surface area ratio.

How this mass extinction was identified and related to changes in global oxygen levels was the subject of an open access paper in PNAS and a Virginal Tech News item:
A new study by Virginia Tech geobiologists traces the cause of the first known mass extinction of animals to decreased global oxygen availability, leading to the loss of a majority of animals present near the end of the Ediacaran Period some 550 million years ago.

The research spearheaded by Scott Evans, a postdoctoral researcher in the Department of Geosciences, part of the Virginia Tech College of Science, shows this earliest mass extinction of about 80 percent of animals across this interval.

This included the loss of many different types of animals, however those whose body plans and behaviors indicate that they relied on significant amounts of oxygen seem to have been hit particularly hard. This suggests that the extinction event was environmentally controlled, as are all other mass extinctions in the geologic record.

Dr Scott D. Evans, lead author
Department of Geosciences
Virginia Tech, Blacksburg, VA, USA
Evans’ work was published today [7 November 2022] in the Proceedings of the National Academy of Sciences, a peer-reviewed journal of the National Academy of Sciences. The study was co-authored by Shuhai Xiao, also a professor in the Department of Geosciences, and several researchers led by Mary Droser from the University of California Riverside’s Department of Earth and Planetary Sciences, where Evans earned his master’s degree and Ph.D.

Environmental changes, such as global warming and deoxygenation events, can lead to massive extinction of animals and profound disruption and reorganization of the ecosystem. This has been demonstrated repeatedly in the study of Earth history, including this work on the first extinction documented in the fossil record. This study thus informs us about the long-term impact of current environmental changes on the biosphere.

Shuhai Xiao, co-author
Department of Geosciences
Virginia Tech, Blacksburg, VA, USA.

[What exactly caused the drop in global oxygen?] The short answer to how this happened is we don't really know. It could be any number and combination of volcanic eruptions, tectonic plate motion, an asteroid impact, etc., but what we see is that the animals that go extinct seem to be responding to decreased global oxygen availability.

Dr Scott D. Evans
The study by Evans and Xiao is timelier than one would think. In an unconnected study, Virginia Tech scientists recently found that anoxia, the loss of oxygen availability, is affecting the world’s fresh waters. The cause? The warming of waters brought on by climate change and excess pollutant runoff from land use. Warming waters diminish fresh water’s capacity to hold oxygen, while the breakdown of nutrients in runoff by freshwater microbes gobbles up oxygen.

Our study shows that, as with all other mass extinctions in Earth's past, this new, first mass extinction of animals was caused by major climate change — another in a long list of cautionary tales demonstrating the dangers of our current climate crisis for animal life/

Dr Scott D. Evans
Some perspective: The Ediacaran Period spanned roughly 96 million years, bookended on either side by the end of Cryogenian Period — 635 million years ago — and the beginning of the Cambrian Period — 539 million years ago. The extinction event comes just before a significant break in the geologic record, from the Proterozoic Eon to the Phanerozoic Eon.

There are five known mass extinctions that stand out in the history of animals, the “Big Five,” according to Xiao, including the Ordovician-Silurian Extinction (440 million years ago), the late Devonian Extinction (370 million years ago), the Permian-Triassic Extinction (250 million years ago), the Triassic-Jurassic Extinction (200 million years ago), and the Cretaceous-Paleogene Extinction (65 million years ago).

Impressions of the Ediacaran fossils Dickinsonia (at left) and related but rare form Andiva (at right) in sandstone of the Ediacara Member from the Nilpena Ediacara National Park in South Australia.
Photo courtesy of Scott Evans.

“Mass extinctions are well recognized as significant steps in the evolutionary trajectory of life on this planet,” Evans and team wrote in the study. Whatever the instigating cause of the mass extinction, the result was multiple major shifts in environmental conditions. “Particularly, we find support for decreased global oxygen availability as the mechanism responsible for this extinction. This suggests that abiotic controls have had significant impacts on diversity patterns throughout the more than 570 million-year history of animals on this planet,” the authors wrote.

Fossil imprints in rock tell researchers how the creatures that perished in this extinction event would have looked. And they looked, in Evans’ words, “weird.”

These organisms occur so early in the evolutionary history of animals that in many cases they appear to be experimenting with different ways to build large, sometimes mobile, multicellular bodies. There are lots of ways to recreate how they look, but the take-home is that before this extinction the fossils we find don't often fit nicely into the ways we classify animals today. Essentially, this extinction may have helped pave the way for the evolution of animals as we know them.

Dr Scott D. Evans
The study, like scores of other recent publications, came out of the COVID-19 pandemic. Because Evans, Xiao, and their team couldn't get access to the field, they decided to put together a global database based mostly on published records to test ideas about changing diversity. “Others had suggested that there might be an extinction at this time, but there was a lot of speculation. So we decided to put together everything we could to try and test those ideas.” Evans said. Much of the data used in the study was collected by Droser and several graduate students from the University of California Riverside.
Impressions of the Ediacaran fossil Dickinsonia, one of the first mobile animals, in sandstone of the Ediacara Member from the Nilpena Ediacara National Park in South Australia.">
Photo courtesy of Scott Evans.
Technical details is in the team's open access paper on PNAS:
Significance
Mass extinctions are well recognized as significant steps in the evolutionary trajectory of life on this planet. Here, we document the oldest known extinction of animals and test for potential causes. Our results indicate that, like younger diversity crises, this event was caused by major shifts in environmental conditions. Particularly, we find support for decreased global oxygen availability as the mechanism responsible for this extinction. This suggests that abiotic controls have had significant impacts on diversity patterns throughout the more than 570-My history of animals on this planet.

Abstract

The Ediacara Biota—the oldest communities of complex, macroscopic fossils—consists of three temporally distinct assemblages: the Avalon (ca. 575–560 Ma), White Sea (ca. 560–550 Ma), and Nama (ca. 550–539 Ma). Generic diversity varies among assemblages, with a notable decline at the transition from White Sea to Nama. Preservation and sampling biases, biotic replacement, and environmental perturbation have been proposed as potential mechanisms for this drop in diversity. Here, we compile a global database of the Ediacara Biota, specifically targeting taphonomic and paleoecological characters, to test these hypotheses. Major ecological shifts in feeding mode, life habit, and tiering level accompany an increase in generic richness between the Avalon and White Sea assemblages. We find that ∼80% of White Sea taxa are absent from the Nama interval, comparable to loss during Phanerozoic mass extinctions. The paleolatitudes, depositional environments, and preservational modes that characterize the White Sea assemblage are well represented in the Nama, indicating that this decline is not the result of sampling bias. Counter to expectations of the biotic replacement model, there are minimal ecological differences between these two assemblages. However, taxa that disappear exhibit a variety of morphological and behavioral characters consistent with an environmentally driven extinction event. The preferential survival of taxa with high surface area relative to volume may suggest that this was related to reduced global oceanic oxygen availability. Thus, our data support a link between Ediacaran biotic turnover and environmental change, similar to other major mass extinctions in the geologic record.

Soft-bodied fossils of the Ediacara Biota comprise the oldest communities of macroscopic organisms, including animals, and are critical for understanding the advent and diversification of complex life (1, 2). However, equally important are the dynamics that lead to the disappearance of such animals (36). Two major drops in diversity of the Ediacara Biota have been recognized, an initial decrease between the White Sea and Nama assemblages and a second across the Ediacaran–Cambrian boundary (Fig. 1 and ref. (5)). Although these events may be related, they are separated by more than 10 My and vary in magnitude and taxa impacted. The exceptional conditions required to preserve the Ediacara Biota also leave uncertainty around potential taphonomic biases that may contribute to such patterns. Diversity crises shaped the course of evolution in the Phanerozoic. Thus, a comprehensive understanding of each of these Ediacaran events is critical to determine the fate of Earth’s early animals.
Raw generic diversity (black squares), bootstrapped diversity (gray triangles), bootstrapped (42) per taxon extinction rate (solid blue), and origination rate (dashed green). Error bars represent 1 SD. For bootstrapping analysis, database occurrences were randomly subsampled to 50 occurrences.
M
Similar mechanisms have been proposed for losses of diversity during both the White Sea–Nama and Ediacaran–Cambrian transitions. One suggestion is that taxa did not go extinct but instead are not preserved in subsequent intervals (the “Cheshire cat” model of ref. (3)). Biases may include differences in the paleolatitudes and paleoenvironments sampled as well as variable taphonomic windows preserving fossils from each assemblage (7). Alternatively, these events may represent true extinctions triggered by either biotic or abiotic factors or some combination thereof (3, 5). The biotic replacement model, generally attributing the demise of the Ediacara Biota to competition with more advanced “Cambrian-style” metazoans, focuses on the impact of bioturbators as indicated by increases in trace fossil diversity (e.g., ref. (8)). Such ecosystem engineers are proposed to have fundamentally changed carbon packaging and fluid transport in the latest Ediacaran (3, 4, 810). Alternatively, the catastrophic extinction model posits that a major environmental perturbation led to the rapid loss of a variety of Ediacara taxa (3, 5) supported by geochemical data for environmental conditions, such as changes in oxygen availability (e.g., ref. (11)).


Here, we use a holistic approach, combining the distribution, taphonomy, and ecology of constituent taxa, to investigate changes in the Ediacara Biota through compilation of global occurrence data. Specifically, we test for potential sampling biases in the form of major differences in the paleolatitudes, facies associations, or preservational modes that could account for apparent changes in taxonomic composition. Based on the lack of correlation between these factors, we then investigate paleoecological trends through the Ediacaran under the assumption that, as with other diversity crises in the fossil record (12), patterns of selectivity across these intervals should reflect the factors responsible for such change. Analysis was conducted by comparing differences between the three assemblages—necessarily representing time-averaged groups of organisms on the order of millions to tens of millions of years—as in previous studies (e.g., refs. (3, 5, 13)). However, we also examined patterns of change involving taxa that survived and went extinct at the end of the White Sea assemblage to investigate changes on relatively shorter geologic timescales.
Fig. 2. Paleogeographic distribution of fossil localities (A) within the three assemblages of the Ediacara Biota based on continental configurations by Merdith et al. (14) and pie charts with the distribution of paleoenvironments (B) and modes of preservation (C) sampled for each assemblage, with “n” referring to the No. of formations/facies sampled in each time bin. See SI Appendix, Fig. S1 for locality labels.
Mass extinctions alone are enough to refute the childish notion of creation by an omniscient designer, let alone an intelligent one, and of course one reason the Ediacaran biota doesn't get a mention in the Bible is because, like all the other extinct taxons, the primitive Bronze Age authors had not got the slightest idea that they ever existed or that Earth was old enough to have gone through several major geological era lasting hundreds of millions of years, and several mass extinctions which had wiped out most of the earlier species or they wouldn't have assumed everything was magically created as it was then, But then they only had what little knowledge their culture possessed out of which to concoct a believable story.

Creationism in Crisis - Earth's Oldest Forest Was In Present-Day Dorset, UK - 390 Million Years Before Creationism's 'Creation Week'


Cliffs of the Hangman Sandstone Formation, where many of the fossils were found.
Credit: Neil Davies
Earth’s earliest forest revealed in Somerset fossils

Archaeologists have found what are believed to be the remains of the earliest forest so far discovered in Devonian sandstone rocks dated to 390 million years ago, which makes them 4 million years older than the previous record found in New York State, and means they were living almost 390 million years before creationism's 'Creation Week' when their god decided to create a small flat planet with a dome over it, centered on the Middle East.

The fossils were discovered in coastal cliffs near Minehead, Dorset, England in what is known as the Eifelian Hangman Sandstone Formation and consist of primitive trees which were ancestral to today's trees but looked more like palm trees. The discovery is the subject of a paper in the Journal of the Geological Society and a news release from the University of Cambridge, UK.

First a little about this rock formation:

Wednesday 6 March 2024

Creationism in Crisis - Giant Sea Lizards From 66 Million Years Before 'Creation Week'


Fossil skull of Khinjaria acuta
Reconstruction of the skull of Khinjaria acuta
Dr. Nicholas R. Longrich
Fossils of giant sea lizard show how our oceans have fundamentally changed since the dinosaur era

Creationists only have themselves to blame. By insisting that Earth is only 6-10 thousand years old, they are consigning the vast majority of Earth’s 3.8-billion-year history to the pre-'Creation Week' period, before they believe Earth Existed.

So, they then need to perform the most ludicrous of intellectual gymnastics to avoid dealing with all the evidence that they are wrong about the age of Earth and wrong about their denial of what else that evidence shows. For example, there is no way a 66-million-year-old fossil of a marine lizard could be assimilated into creationist superstition, so their only recourse is to devise a way to dismiss it. Favorite tactics are straight denial; bear false witness against the scientists by impugning their honesty and professional integrity; claim, without any evidence to support it, that the dating methods were so flawed they somehow made 10,000 or less look like 66 million.

But the fact remains, no matter that creationists stamp their feet and cover their eyes and ears and demand the Universe changes to conform to their requirements, there were orca-sized marine lizards in the seas 66 million years ago.

This is explained in a recent paper by researchers from the University of Bath in the UK, the Marrakech Museum of Natural History, Morocco, the Museum National d’ Histoire Naturelle (NMNH) in Paris, France, Southern Methodist University in Texas, USA, and the University of the Basque Country, Bilbao, Spain. Their paper is published in Cretaceous Research and explained in a Bath University news release.

First, a little background on the dating of the phosphate deposits in Morocco where the fossils were found:

Saturday 24 February 2024

Creationism in Crisis - Evolution Of The Carnivores 315-251 Million Years Before 'Creation Week'


Dimetrodon, an early predatory synapsid from the early Permian (~298-272 Million years ago). (Display at the Royal Tyrell Museum, Canada).

Credit: Suresh A. Singh
February : Killer instinct drove evolution of mammals’ predatory ancestors | News and features | University of Bristol

The ancestors of all modern mammals, the synapsids, first appeared in the fossil record long before the dinosaurs. Some were vegetarian while others were the top land predators for 60 million years before being replaced by the dinosaurs. Their evolution followed the same pattern of an arms race with their prey species in which the carnivores had to get better at killing to survive.

This gives the lie to the claim of any involvement of a single intelligent designer in their evolution since no intelligent designer worthy of the name would compete with itself in an arms race in which there are no winners or losers while all the time additional complexity is needed to keep up.
Tell me all about the synapsids, please. Synapsids are a group of vertebrates that includes mammals and their extinct relatives. They are characterized by several key features, including a single temporal opening behind the eye socket, teeth set in sockets, and a more erect posture compared to earlier reptiles. Synapsids first appeared during the late Carboniferous period, about 315 million years ago, and they were a dominant group throughout much of the Permian and Triassic periods. Here are some key points about synapsids:
  1. Evolutionary History: Synapsids evolved from reptilian ancestors, specifically from a group called the pelycosaurs. One of the most famous pelycosaurs is Dimetrodon, which lived during the early Permian period and is often mistakenly identified as a dinosaur. Synapsids evolved further into two main groups: the therapsids and the cynodonts.
  2. Therapsids: This group includes the most mammal-like synapsids. They had more advanced jaw structures, with larger temporal fenestrae (openings behind the eye socket) and specialized teeth. Therapsids diversified during the Permian period, with some species evolving into large herbivores like the iconic sail-backed Dimetrodon, while others were carnivorous predators. Towards the end of the Permian, some therapsids gave rise to the first true mammals.
  3. Cynodonts: Cynodonts were a subgroup of therapsids that emerged during the late Permian and diversified extensively during the Triassic period. They exhibited several mammalian characteristics, including a more upright posture, specialized teeth, and possibly hair-like structures. Some cynodonts were quite small and likely had a lifestyle similar to modern mammals, while others were larger predators.
  4. Mammalian Evolution: The transition from cynodonts to true mammals occurred during the Triassic period. Early mammals retained many reptilian features but also displayed characteristics that are distinctly mammalian, such as lactation and specialized jaw joints. By the end of the Triassic period, mammals had become more diverse and widespread.
  5. Impact on Evolutionary History: Synapsids, particularly therapsids and cynodonts, played a crucial role in evolutionary history. They were among the dominant land vertebrates during the Permian and Triassic periods, occupying various ecological niches as herbivores, carnivores, and omnivores. The extinction of many synapsid groups at the end of the Permian, possibly due to environmental changes and the effects of the Permian-Triassic mass extinction event, paved the way for the rise of dinosaurs as the dominant land vertebrates during the Mesozoic Era.
  6. Modern Descendants: The only surviving descendants of synapsids are mammals, which have diversified into a vast array of species occupying nearly every terrestrial and aquatic habitat on Earth. From tiny shrews to massive whales, modern mammals exhibit remarkable diversity in terms of size, shape, behavior, and ecological adaptations.
Overall, synapsids are a fascinating group of vertebrates that played a significant role in the evolutionary history of life on Earth, ultimately giving rise to the diverse and successful lineage of mammals that we see today.
Now a team of researchers from Bristol University, together with a colleague from the Open University, Milton Keynes, have traced the evolution of the carnivorous synapsid jaw and body size and discovered a major change in the jaw about 270 million years ago which would have been associated with a shift in the behaviour of these carnivores as they became better at killing their prey more quickly, so reducing the risk of injury.
Their findings are the subject of an open access paper in Communications Biology and is the subject of a Bristol University news release:

Monday 19 February 2024

Old Dead Gods - With Long Forgotten Religions - And No Way To Recover Them


Joint interment of a dog and a human perinate.

Photo by S.R.Thompson, courtesy of SABAP-VR Soprintendenza archeologia, belle arti e paesaggio per le province di Verona, Rovigo e Vicenza.

Laffranchi Z, Zingale S, Tecchiati U, Amato A, Coia V, Paladin A, et al. (2024)
Some Pre-Roman humans were buried with dogs, horses and other animals | ScienceDaily

I've made the point several time before, but another paper published recently, reinforces it again, that when old gods are forgotten and old religions die, there is nothing on which they can be reconstructed because religions are never founded in verifiable evidence.

Unlike religion, science, which is a description of reality, could be rediscovered if it, or a major branch of it, was somehow wiped from our collective memories and all text books on the subject were wiped clean. And the rediscovered science would be the same as it is today. Atoms would have the same structure and properties, chemistry would do what we know it does today; physics would have the same explanations for the different colours of light, for the way energy is conserved; entropy and the laws of thermodynamics would be the same; and the description of the universe, together with the Big Bang, how suns form and how planets form around them, would be the same.

In fact, we can be as sure as eggs is eggs, that if ever we contact intelligent life from another planet, their science will be the same as ours, although they'll use different words to describe it and their numbering system may well have a different base.

But, expunge every trace of Christianity, Islam, Judaism, Hindi, Shintoism, etc., and erase everyone’s memory of them, and we would never again know what the followers believed or what they believe their god(s) did or didn't do. We would know no more about the major religions of today than we know about the ancient religions before writing was invented. We have not the slightest idea what inspired the builders of Stonehenge and Silbury Hill in Wiltshire; we don't have a clue what the people who built the oldest existing roofed building in Europe, in Menorca in the Balearic Islands believed or what the Minoans of Crete believed, or even the names of their gods, and, unless someone decodes the language the Minoans wrote, we never will. We only know anything about the Egyptian and Sumerian pantheons because someone learned to read their writing.

And we know nothing about the gods and religion of the people who buried horses and dogs with their dead in Late Iron Age, Northern Italy - the subject of a recent paper in PLOS ONE.

In information from PLoS, cited in Science Daily, the authors explain their findings:

Saturday 17 February 2024

Creationism in Crisis - Now It's Evidence In Spain From 6,200 Years Ago That Survived Creationism's Favourite Genocide


Stratigraphic units (SU) from which P. lineatus shells analysed in this investigation were recovered: SU 1406 (C), SU 1704 (D), SU 705 (E) and SU 1516 (F)

Neolithic groups from the south of the Iberian Peninsula first settled in San Fernando (Cadiz) 6,200 years ago - Universitat Autònoma de Barcelona - UAB Barcelona

Another terrible week for creationism is coming to an end with news that archaeologist from the Universitat Autonòma de Barcelona (UAB) and the University of Càdiz, together with colleagues from the Max Planck Institute for Evolutionary Anthropology (MPI-EVA), Leipzig, Germany, have uncovered evidence that Neolithic groups from the south of the Iberian Peninsula first settled in San Fernando (Càdiz) 6,200 years ago and supplemented their diet with shellfish.

This news comes on top of the news that the remnants of a stone plaza in Peru and the body of the victim of a sacrificial bog burial in Denmark, that could not have survived creationism's mythical global genocidal flood if it had really happened as described in the Bible, had also been revealed by archaeologists.

The discovery, and details of how the date was calculated is the subject of an open access paper in the journal Archaeological and Anthropological Sciences and the subject of a UAB new release:

Creationism in Crisis - A 4750-Year-Old Stone Plaza in Peru That Survived Creationists' Favourite Genocide


Callacpuma archaeological site, Peru
UW Anthropologists’ Research Unveils Early Stone Plaza in the Andes

Imagine for a moment that you're dating someone who told you they were 30 years old, then you discover a photograph of them as a teenager, in a newspaper dated 1984. Would you conclude that someone had been lying to you and your date was really about 55 years old, or would you assume the photograph had been faked or the newspaper had the wrong date?

Imagine now being a creationist who believed Earth was devastated by a global flood that covered the highest mountains, about 4000 years ago, which would have scoured the Earth and destroyed everything on it, then someone shows you the remains of a building in Peru that had been there for 4750 years, and showed no signs of ever being submerged in even a few feet of water, let along several thousand feet of it!

If you're a creationist, you dismiss the evidence or assume the dates are wrong or that somehow the inevitable layer of silt had been cleaned up, even if the building had managed to escape the destruction going on around it, because, if you're a creationist, the last thing you can admit to is that your beliefs could be wrong because that would make you feel less important that you think you should be, so you're prepared to perform any mental contortions necessary to avoid that thought.

And this is why belief in a literal interpretation of the Bible has been in headlong decline ever since science began providing evidence of an old Earth and evidence that there never was a global genocidal flood just a few thousand years ago, because people with intellectual integrity who value truth and have the humility to let the evidence lead their opinions, even if it leaves them feeling less important than they think they should be, have realised that the evidence tells them that the Bible is wrong, despite their mummy and daddy believing otherwise.

And of course, just such remains of a building have been found in Peru by two University of Wyoming anthropology professors, and dated to about 4750 BP. It is the remains of a stone plaza and is the oldest stone structure so far found in the Americas, being older even than the Egyptian pyramids and about the same age as Stone Henge (both of which, incidentally, also survived the alleged genocidal flood).
How they did it is explained in a University of Wyoming news release:

Friday 16 February 2024

Creationism in Crisis - How The Fossil Record Provides Evidence For Evolution - No Magic Needed


Desert sand dune landscape of the Upper Cretaceous Djadokhta/Baruungoyot Formations. Foreground: the large-bodied monstersaurian lizard Estesia mongoliensis predating on the enantiornithine bird Gobipteryx minuta.

Illustration by Nathan Dehaut
A Lighthouse in the Gobi Desert | Natural History Museums of Los Angeles County

We are regularly told by creationists who have either been fooled by a lie, or are trying to fool us with one, that biomedical scientists are increasingly rejecting the Theory of Evolution and replacing it with the notion of intelligent design.

This was, of course, the aim of the Discovery Institute's 26-year-old, 5-year[sic] strategy detailed in The Wedge to insert Bible literalism into mainstream science, apparently believing that for the first time in the history of science, a well-established scientific theory is going to be replaced by a an evidence-free superstition based on misrepresentation of the data and including unproven supernatural entities doing magic.

Intelligent design creationism, of course, doesn't meet the basic criteria to be called a science, which is why any scrutiny of the relevant scientific literature will find no hint that the TOE is inadequate for explaining the data or that magic explains it in a more scientifically satisfying way. Indeed, as I repeatedly show in these blog-posts, virtually every piece of scientific research casually refutes creationism by revealing the evidence and not a single peer-reviewed biomedical science paper ever concludes that intelligent design is the only way to explain the observations.

As Michael J Behe was forced to admit in the Kitzmiller case, "There are no peer-reviewed article by anyone advocating for intelligent design supported by pertinent experiments or calculations which provide detailed rigorous accounts of how intelligent design of any biological system occurred". And that situation has not changed since Behe effectively sank the Wedge Strategy with that grudging admission under oath in an American court. Instead, we find papers like this technical one in which a team of researchers led by Dr. Hank Woolley, a Postdoctoral Research Fellow at the Dinosaur Institute, Natural History Museum of Los Angeles County, and the Department of Earth Sciences, University of Southern California, Los Angeles, California, discuss and evaluate the degree to which exceptional collections of fossils, such as those found in the Gobi Desert of Central Asia can influence our understanding of evolutionary relationships between fossil groups - what they term the lagerstätten effect .

The team have explained their research in a news release from the Natural History Museums of Los Angeles County:

Creationism in Crisis - What Creationist Frauds Will Never Tell You - Vittrup Man's Body Could Not Have Survived a Global Genocidal Flood


The life of a Stone Age man has been mapped | University of Gothenburg

There are two things about a global flood deep enough to cover the highest mountains, just about 4,000 years ago, that would have been inevitable.

The first is that the whole surface of Earth would have been scoured and all trace of prior human and animal existence would have been destroyed along with any soil or alluvial deposits which would have been suspended in the water to fall out later or be left behind as silt. For example, no bog burial would have survived because no bogs would have survived.

The second is that the bare rocks would then have been left with a layer of silt which settled out, complete with the remains of all the animals and plants destroyed in the flood. Those remains, moreover would not just be from the local area, but would have had a world-wide distribution prior to the flood, so bodies of animal and plants from the Americas would have been jumbled up with those from Africa, Asia and Australia, etc. and they would all have been mixed with the remains of sea creature that would have inevitably been killed to. In fact, on that point, the Bible is quite specific that all living matter outside the Ark was destroyed.

But that's simply not what we see, ever!

Nowhere on the surface of the planet is there such a layer and yet its existence is a certain prediction of the legendary global genocidal flood.

Tuesday 13 February 2024

Creationism in Crisis - Humans Were Making Beads In North America 2,900 Years Before 'Creation Week' - And The Evidence Survived The Legendary Genocidal Flood!


UW Archaeology Professor Discovers Oldest Known Bead in the Americas

The problem with having counter-factual beliefs that are only believed because you want to feel more important than you're afraid you really are, is that you need a vast array of strategies for ignoring the vast amount of evidence that your beliefs are wrong. This is especially important if you live in a technological society where there is free access to that vast amount of evidence and news such as this discovery of what could be the oldest known bead from the western hemisphere, dated to 12,940 years ago.

It was recovered from a site in Wyoming, USA at an archaeological site known as the La Prele Mammoth site:
What information do you have on the La Prele Mammoth site in Wyoming, USA?

Sunday 11 February 2024

Creationism in Crisis - More Bad News For Creationists - 12 Million-Year-Old Colored Snail Shells


Fossil shell of Pithocerithium rubiginosum (height is 1.5 cm) from the Miocene sediments of Nexing in Austria (left) and isolated reddish polyene pigments on calcium fluoride disc (diameter of disc is 2 cm) (right).
Photo: Klaus Wolkenstein
Information for the Media: Surprisingly vibrant colour of 12-million-year-old snail shells - Georg-August-Universität Göttingen

Another terrible week for creationists is continuing today with news that a team of researchers from the University of Göttingen and the Natural History Museum Vienna (NHMW) have shown that the red pigment frequently found associated with the shells of fossilised snails from the Middle Miocene is the pigment that would have been present in the living shells, and not, as had been suggested, the product of later reactions.

This makes these pigments, from the chemical group of polyenes which includes the carotenes that give the colour to the plumage of some birds and to carrots, the oldest known pigments ever discovered. The fossil snails, Pithocerithium rubiginosum, so named from the 'rusty red' pigment they often contain, are from the Middle Miocene deposits in the geologically important Vienna Basin:

Sunday 4 February 2024

Creationism in Crisis - A Strange Shaped Tree 360 Million Years Before 'Creation Week'.


Enigmatic fossil plants with three-dimensional, arborescent-growth architecture from the earliest Carboniferous of New Brunswick, Canada: Current Biology

Creationism's designer is not known for creating a design then sticking to it. If you believe creationists, it has designed something like 500,000 beetles, for example, and, although they all do basically the same thing, hundreds of different trees.

And, if you believe creationist mythology, it created almost everything on Earth, hundred, even thousands of millions of years before it created the small flat planet with a dome over it, centred on the Middles East. Sadly, the Bronze Age story-tellers who wrote about it were oblivious of what had been living 360 million years earlier in the Tournaisian age in what is now New Brunswick, Canada, so said nothing about it in their tales. They said nothing about Canada either for that matter, because they were ignorant of anywhere outside their small area of the Middle East, as can be seen from the naive way they describe their world as they imagined it.

Had they been better informed though, they might have mentioned one of the more bizarre tree designs which consisted of a straight trunk about 15 feet tall, with long thin leaves radiating out from the top third and measuring about 18 feet in length, the whole thing resembling a giant green bottle brush. It doesn't appear to have had any branches.

Fossils of this tree have been described by an international team led by Robert Gastaldo of Colby College in Waterville, Maine, USA in collaboration with Matthew Stimson and Olivia King of the New Brunswick Museum, Saint John, and Saint Mary's University in Halifax, Nova Scotia, Canada, and others.

Their work is published, open access, in Current Biology and described in a Cell Press article reprinted in Science Daily:

Saturday 27 January 2024

Creationism in Crisis - A Multicellular Organism 1.63 Billion Years Before 'Creation Week'


Fig. 1. Transmitted-light (TL) photomicrographs of Q. magnifica from the Chuanlinggou Formation.
(A to D and K) Filaments with cells of varying length and width. (E) Four-celled filament with hemispherical terminal cell. (F and G) Filament with notably decreasing cell width toward one end. Note that (F) and (G) represent the same specimen; (F) lost the narrowest part of the filament as shown in (G). (H to J) Filaments displaying more uniformity of cell dimensions. (L) Two-celled filament with ovoid terminal cell. All specimens were handpicked from organic residues of acid maceration and photographed in wet mounts, except for (K), which was photographed from a permanent strew mount. Solid and empty gray triangles in (A), (C), and (K) indicate the longest and the shortest cells, respectively, within single filaments. tb, transverse band (interpreted as cross wall); tr, transverse ring (interpreted as partially preserved cross wall). Scale bar, 50 μm [(A) to (E), (I), (J), and (L)] and 100 μm [(F) to (H) and (K)].
Fossils from North China indicate eukaryotes first acquired multicellularity by at 1.63 billion years ago---- Nanjing Institute of Geology and Palaeontology Chinese Academy of Sciences

As though the abundant evidence of life on earth before about 10,000 years ago wasn't bad enough for creationists who believe the Universe and everything in it were was magicked out of nothing in 6 days around about then, a team of scientists led by led by Professor ZHU Maoyan from the Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences (NGIPAS), has now pushed the date of oldest-known multicellular, eukaryote organism back another 70 million years to a whapping 1.63 billion years before the supposed 'Creation Week'.

This would mean, if their superstition had any merit that creationists believe Earth has been around for just the last 0.0006% of the time that multicellular eukaryotes have existed on it.

And they wonder why people laugh!

The fossils were discovered in the Yanshan area of North China in the late Paleoproterozoic Chuanlinggou shale Formation which is about 1,635 million years old. The age of the fossils is constrained by a layer of volcanic ash ~40 m above the fossil horizon in the Kuancheng area, which has yielded a U-Pb zircon age of 1634.8 ± 6.9 Ma (23).

All complex life on Earth, including diverse animals, land plants, macroscopic fungi and seaweeds, are multicellular eukaryotes. Therefore, multicellularity is key for eukaryotes to acquire organismal complexity and large size, and often regarded as one major transition in Earth’s life history by scientists. However, it is still poorly understood when eukaryotes first evolved this innovation in their deep evolutionary history.

Fossil records with convincing evidence show that eukaryotes with simple multicellularity already appeared at 1.05 billion years ago, including red and green algae, and putative fungi. Older records claimed to be multicellular eukaryotes, but most of them are controversial due to their simple morphology and lack of cellular structure.

Tuesday 23 January 2024

Creationism in Crisis - Flying Reptiles In The Mendip Hills - 200 Million Years Before 'Creation Week'


Showing partial skeleton of gliding reptile Kuehneosaurus on rock from Emborough.
Credit: David Whiteside
January: Ancient flying reptiles | News and features | University of Bristol

200 million years, give or take a few thousand years, before creationists believe Earth and life on it were all created by magic from nothing in a week, gliding lizard-like reptiles related to ancestral crocodiles, were gliding from tree to tree, and probably hunting flying insects, in what is now the Mendip Hills, near Bristol, UK. The area around Bristol was then an archipelago of islands in a sub-tropical, shallow sea.

Fossil remains of these reptiles were found by University of Bristol Masters student Mike Cawthorne, researching numerous reptile fossils from limestone quarries, in what was then the biggest sub-tropical island at the time, called the Mendip Palaeo-island.

As the Bristol University press release explains:
The study, published today in Proceedings of the Geologists’ Association, also records the presence of reptiles with complex teeth, the trilophosaur Variodens and the aquatic Pachystropheus that probably lived similarly to a modern-day otter likely eating shrimps and small fish.

The animals either fell or their bones were washed into caves and cracks in the limestone.

“All the beasts were small,” said Mike. “I had hoped to find some dinosaur bones, or even their isolated teeth, but in fact I found everything else but dinosaurs.

“The collections I studied had been made in the 1940s and 1950s when the quarries were still active, and palaeontologists were able to visit and see fresh rock faces and speak to the quarrymen.”

Professor Mike Benton, from Bristol’s School of Earth Sciences, explained: “It took a lot of work identifying the fossil bones, most of which were separate and not in a skeleton.

“However, we have a lot of comparative material, and Mike Cawthorne was able to compare the isolated jaws and other bones with more complete specimens from the other sites around Bristol.

“He has shown that the Mendip Palaeo-island, which extended from Frome in the east to Weston-super-Mare in the west, nearly 30 km long, was home to diverse small reptiles feeding on the plants and insects.

“He didn’t find any dinosaur bones, but it’s likely that they were there because we have found dinosaur bones in other locations of the same geological age around Bristol.”

The area around Bristol 200 million years ago in the Late Triassic was an archipelago of small islands set in a warm sub-tropical sea.

Bristol’s Dr David Whiteside added: “The bones were collected by some great fossil finders in the 1940s and 1950s including Tom Fry, an amateur collector working for Bristol University and who generally cycled to the quarries and returned laden with heavy bags of rocks.

“The other collectors were the gifted researchers Walter Kühne, a German who was imprisoned in Great Britain in the 2nd world war, and Pamela L. Robinson from University College London. They gave their specimens to the Natural History Museum in London and the Geological collections of the University of Bristol.”
Abstract

During the Late Triassic and Early Jurassic, the area around Bristol and South Wales was an archipelago of islands occupied by diverse small-sized tetrapods. The largest of these palaeo-islands was Mendip Island, now forming the Mendip Hills, and the location of some famous fossiliferous sites. These sites have not been described in detail before, and we present new data on three of them. Highcroft has yielded only sparse remains of rhynchocephalians, and Batscombe famously the gliding reptile Kuehneosuchus latissimus. Emborough yielded the richest fauna of the three, abundant pseudosuchians including crocodylomorphs as well as the gliding reptile Kuehneosaurus latus, rare trilophosaurs, a probable thalattosaur, rhynchocephalians, and the mammal Kuehneotherium. These include some of the last known taxa of clades that died out in the end-Triassic mass extinction. We report a new taxon of sphenosuchid crocodylomorph similar to Saltoposuchus and a find of Pachystropheus, an aquatic reptile shared with Holwell and the bedded Rhaetian at Blue Anchor Point, Aust and Westbury Garden Cliff. The discovery of a fish vertebra strengthens the model of Emborough fissure filling in a marginal marine location. The Emborough fauna differs from coeval assemblages from Cromhall, Tytherington and Ruthin in the scarcity of sphenodontians and the absence or great rarity of procolophonids as well as the abundance of kuehneosaurids and crocodylomorphs.

1. Introduction

The Triassic (252–201 Ma) was a crucial time in the recovery, restructuring and diversification of vertebrate life (Benton and Wu, 2022). Many modern groups including lissamphibians, turtles, lizards, crocodiles, and mammals originated or diversified in the Late Triassic, part of the process of the recovery of life from the end-Permian mass extinction, but stimulated by the Carnian Pluvial Episode 233–232 Ma, following which climates became more arid, and the new groups, including dinosaurs, had opportunities to diversify (Brusatte et al., 2010; Chen and Benton, 2012; Benton et al., 2014; Bernardi et al., 2018; Dal Corso et al., 2020; Benton 2021; Benton and Wu, 2022).

The end-Triassic mass extinction (ETME), 201 Ma, was probably caused by sharp warming from greenhouse gases erupted by the Central Atlantic Magmatic Province (CAMP), associated with the beginning of rifting and opening of the North Atlantic (Blackburn et al., 2013). The environmental crisis led to widespread extinctions of many tetrapod clades including procolophonids, placodonts, kuehneosaurids, thalattosaurs, allokotosaurians and phytosaurs. Many pseudosuchians such as the rauisuchids also became extinct but the Crocodylomorpha survived leading to the modern living crocodilians. Whether the ETME was a single crisis at the end of the Triassic or began minimally 100 ka before the earliest known eruptions (Davies et al., 2017) is debated. Indeed, there is good evidence for several earlier events, one at the Norian–Rhaetian boundary (Rigo et al., 2020.1) and one equivalent to the middle of the Cotham Member in the British Rhaetian succession (Wignall and Atkinson, 2020.2), both marked by carbon isotope excursions and evidence for substantial loss of marine species. The spacing of these events is entirely dependent on estimates of the duration of the Rhaetian, with its beginning variously dated at 205.7 Ma and 201.7 Ma, making the stage either 4.2 or 0.2 Myr in duration (Maron et al., 2015; Ruhl et al., 2020.3).

These considerations around the importance of the Triassic as a whole, and the Late Triassic in particular, in documenting the origin of modern ecosystems on land and in the sea, as well as the evidence for phased bursts of extinction through the Rhaetian, place fresh importance on understanding the Late Triassic and Early Jurassic fossil faunas found bordering the Bristol Channel, around Bristol and in South Wales. These faunas are preserved across a sub-tropical archipelago (Fig. 1) in fissure fillings, deposits of soil and other debris accumulated in karstic cave systems (Whiteside et al., 2016; Lovegrove et al., 2021.1). First finds were isolated bones of the sauropodomorph dinosaur Thecodontosaurus in the Worrall Road Quarries in Bristol (Riley and Stutchbury, 1836, Riley and Stutchbury, 1840; Ballell et al., 2020.4) and then mammal remains at Holwell Quarry (Moore, 1859), and later recognition by Charles Moore that these were Mesozoic-aged fissures eroded into Carboniferous limestone. The study of the fissures began again in the late 1930s and the 1940s with the work of Walter Kühne and his discoveries of mammal remains at Holwell and elsewhere (Kühne, 1949; Savage, 1993; Whiteside and Duffin, 2017.1; Benton et al., 2024).
Fig. 1. The Bristol palaeo-archipelago, showing island locations in the latest Triassic (early Rhaetian). Overview of the whole area, showing the Mendip Palaeoisland. The blue shallow seas between the islands are areas with deposition of the Westbury beds. Fissure fill localities are marked in red, bone beds in orange. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)
Map from Lovegrove et al. (2021.1).
The fissure faunas have been reviewed several times (Robinson, 1957a; Fraser, 1994; Whiteside et al., 2016), and one of the key land masses was the Mendip Palaeoisland (Lovegrove et al., 2021.1), the site of five fossiliferous fissure sites, namely Emborough, Batscombe, Highcroft, Holwell, and Windsor Hill (Fig. 1). These sites have been reported before (Robinson, 1957a; Fraser, 1994) although not extensively, but Emborough has been featured in several publications (Robinson, 1957a, Robinson, 1957.1b, Robinson, 1962) because of the remarkable specimens of kuehneosaurids, also abundantly represented at Batscombe. These unique finds, however, are not replicated at other fossiliferous fissure sites on the Mendip Island, even at Highcroft and Holwell (Fig. 1). Likewise, although Emborough has produced abundant remains of archosauromorphs, these are very rare at Holwell.

Our aim is to document three of the five Mendip Island fissure localities, Emborough, Batscombe, and Highcroft, whose terrestrial assemblages have not been published in detail before, and to present data on geology and taphonomy as well, to allow comparison with the other Late Triassic fissure faunas around Bristol and in South Wales.
Anatomical abbreviations. a, anterior; ac, anterior condyle; ace, acetabulum; amafe, anterior margin of antorbital fenestra; amp, amphicoelous; ampl, amphyplatyan; an, angular; ap, anterior projection; ar, articulation(s); artf, facet for the articular bone; at, attachment; bic, bicapitate; bs, basipterygoid; c capitulum; ca, capitelum; ce, centrum; cfo, coracoid foramen; cn, canal; co, condyle; cx, convex (surface); di, diapophysis; dis, distal; desf, surface contacting dentary; dpc, deltopectoral crest; dor, dorsal; ec, ectopterygoid; ect, ectepicondyle; ent, entepicondyle; er, erupting; fc, fibular contact; fcp, facial process; fct, facet; fl, flat surface; fla, flange; fo, foramen; fos, fossa; gl, glenoid; gr, groove; hd, head; itfe, inferior temporal fenestra; l, lateral; ls, ligament scar; mc, medial condyle; mk, meckelian; ml, midline; ms, muscle scar; ne, neural; palf, facet for the palatine; pc, pleuracrodont; pco, posterior condyle; pozy, postzygapophysis; pr, process; prz, prezygapophysis; pm, prominance; po, posterior; pp, parapophysis; prx, proximal; rid, ridge(s); saf, surangular facet; sar, sacral rib; sc, supinator crest; ser, serrations; sf, surface; sh, shallow; slf, shelf; sp, spine; spl, splenial; stfe, superior temporal fenestra; sut, suture; t tuberculum; th, tooth (teeth); tb, tubercle; tc, trochlear groove; tcn, tibia contact; tr, trochanter; tv, transverse; ven, ventral; vmaf, ventral margin for adductor fossa; wr, wear; zy, zygapophysis.

Institutional acronyms. AMNH, American Museum of Natural History, New York, USA; BRSMG, Bristol Museum and Art Gallery, Bristol; BRSUG, University of Bristol, Geology Collection; NHMUK, Natural History Museum, London; SMNS, State Museum of Natural History Stuttgart, Germany; TTU, Museum of Texas Tech University, Lubbock; UCMP, University of California Museum of Palaeontology; UNC, Department of Geological Sciences, University of North Carolina at Chapel Hill.


Cawthorne, Michael; Whiteside, David I.; Benton, Michael J.
Latest Triassic terrestrial microvertebrate assemblages from caves on the Mendip palaeoisland, S.W. England, at Emborough, Batscombe and Highcroft Quarries
Proceedings of the Geologists' Association (2024) S0016787823000998. DOI:10.1016/j.pgeola.2023.12.003

Copyright: © 2024 The authors.
Published by Elsevier B.V., Open access.
Reprinted under a Creative Commons Attribution 4.0 International license (CC BY 4.0)
But then what did the authors of Genesis know about the climate in, and location of, what is now south-east England 200 million years earlier, when they didn't even know about Europe and thought Earth was small, flat and just a few thousand years old? This is why so much of it is now having to be reclassified as 'allegorical' or 'metaphorical' by mainstream Christians, leaving only a dwindling cult of fruitloop fanatics still believe it is the inerrant word of an omniscient creator god, laughable though that demonstrably absurd, childish notion is.

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