Unintelligent Design - Why Evolution is not an Intelligent Design Process

Unintelligent Design

Why Evolution is not an Intelligent Design Process

The Unintelligent Designer:
Refuting the Intelligent Design Hoax

Perfection: The Enemy of Evolution | Duke Pratt School of Engineering

In my book, The Unintelligent Designer: Refuting the Intelligent Design Hoax, I pointed out that evolution differs from intelligent design in three major ways:

1. Prolific waste. Clever design is economical to make and use.
2. Unnecessary complexity. Clever design is minimally complex.
3. Lack of a clear purpose beyond producing more copies of itself.

The first two of these stems directly from the fact that evolution is utilitarian - whatever is better than that which went before it will be retained. 'Better' in this context means whatever produces more offspring that survive to reproduce.

The analogy is shooting arrows at a target and going with whatever method gets you closest to the bullseye, instead of discarding anything that doesn't hit the bullseye dead center. Only evolution doesn't even have a bullseye to aim at because there is no direction or required outcome.

But not so of a design process, of course, even a design process based on trial and error, because an intelligent design process will have a bullseye to aim at, and a preconceived idea of the ideal or optimal solution to the problem the design is intended to solve.

Creationism's putative divine designer, whom most creationists equate to the god of the Bible, Torah and Qur'an, being reputedly both omniscient and omnipotent, would not need trial and error, and would hit the bullseye, dead centre every time, so anything designed by it would never be sub-optimal, inefficient, or utilitarian. To a perfect designer, near enough is never good enough.
One of the many examples of unintelligent design I cited in my book is that of the enzyme known as RuBisCo (Ribulose-1,5-bisphosphate carboxylase/oxygenase), an essential component in photosynthesis. RuBisCo is so sub-optimal that it is the reason there is so much greenery around - plants need tons of the stuff to make enough sugar. Instead of the thousands of reactions per second that most protein enzymes are capable of, RuBisCo manages about four per second and frequently 'mistakes' a molecule of oxygen for a molecule of carbon dioxide, producing a toxic byproduct, wrecking the process, and costing the plant considerable lost energy and slowing the entire process down even further. But, because evolution can only work with what it already has, plants, and everything dependent on plants (i.e., almost all living things on Earth) are stuck with RuBisCo - probably the most abundant organic molecule on Earth and taking an appreciable proportion of the energy it produces in the form of glucose, to make.

Now, in an interesting paper published in the journal Biosystems, Adrian Bejan, the J.A. Jones Distinguished Professor of Mechanical Engineering at Duke University, Duke University, Durham, NC, USA, explains why a 'genetic algorithm', in other words, copying the evolutionary process, may be a better approach than the traditional aiming for perfection approach. A slightly less than perfect solution to a problem is easier to achieve and allows the design process to build on that solution and move on to the next step.

In it, Professor Bejan argues that chasing perfection is a constraint on design while accepting suboptimal solutions frees up more opportunities to explore possible improvements - just like the iterative process of evolution does.

Creationism in Crisis - Not a Single Founder Couple, Not Even a Single Founder African Species

Slideshow code developed in collaboration with ChatGPT3 at https://chat.openai.com/

View of the village of Kuboes, on the border of South Africa and Namibia. DNA samples were collected from Nama individuals who have historically lived in the region.

New UC Davis Research Using DNA Changes Origin of Human Species, Researchers Suggest | UC Davis

New research confirms what had long been suspected - that early Homo sapiens interbreeding with Neanderthals and Denisovans in Eurasia was not the only place and time that hominins had interbred with other related species.

The research co-led by Professor Brennan Henn, professor of anthropology and the Genome Center at the University of California Davis and Simon Gravel of McGill University, has now shown that early hominins interbreed with other hominins in Africa before spreading to Eurasia and then to the rest of the world, so the world population of H. sapiens does not have a single ancestor but is the result of hybridization and remixing of diverged populations.

As the UC Davis news release explains:

Artificial Intelligence - How Appearances can be Deceptive if we Think Like Creationists

Artificial Intelligence

How Appearances can be Deceptive if we Think Like Creationists>

According to a McKinsey report, depending on the adoption scenario, automation will displace between 400 and 800 million jobs by 2030, requiring up to 375 million people to change job categories entirely.

Evolution is making us treat AI like a human, and we need to kick the habit

Readers may have noticed how I've been using the AI chatGPT3 engine recently. I find it incredibly useful for quickly generating information about a topic. The one drawback seems to be that its references don't always check out and it's sometimes impossible to find the paper of book referenced, even. This seems to be a major deficit in its training.

I found it invaluable in developing the coding needed to run the slideshows I'm now frequently including in these posts, although I often needed to remind it of the objective because its solutions were overly complex and sometimes didn't work as I wanted. It also tends to misunderstand the specification and solve a problem that doesn't exist.

But, as the following article by Neil Saunders, Senior Lecturer in Mathematics at the University of Greenwich, points out, there is a natural tendency to treat it like a real human being. I have to admit, I often say please and thank you, and sometimes hesitate before asking it yet again for help, half expecting it to become impatient. This is, of course, a mistake as an algorithm doesn't have emotions and isn't even conscious of its own existence, let alone being 'human' in its interactions with us. It simply responds to our input by pattern-matching and generating output in intelligible English.

And this is what makes it so human; it talks to us like a very polite and infinitely patient human being would. This tendency to assume agency is deeply embedded in our evolved psychology in the form of teleological thinking and explain why credulous creationists assume whatever they don't understand or what isn't immediately obvious, must be the work of an agency of some sort. I have even had creationists argue that atoms can't combine with other atoms, or photons don't know where to go, unless directed to do so by a sentient being - which of course assumes that atoms and elementary particles are sentient and can obey instructions too. Teleological thinking is the basic notion behind 'intelligent design' and arguments from design, such as the refuted Palley's Watch analogy.

It is a simple step then to assume that the 'designer' or directing agent must be the locally popular god, despite the fact that there is no definitive evidence that any god(s) exists or mechanism that could explain the origins of any. The argument is childishly circular - there must be a designer because things look designed; the designer must be God because only God can design things; the 'fact' of design proves the existence of a designer - And of course mummy and daddy believe in the only true god.
But there are dangers in using AI combined with teleological thinking and ignorant credulity because people who think teleologically can be manipulated and those who believe absurdities can be persuaded to commit atrocities.

Here then is what Neil Saunders has to say on the subject. His article is reprinted from The Conversation under a Creative Commons Licence, reformatted for stylistics consistency:

Creationism in Crisis - Researchers Have Worked Out How Butterflies Evolved

Slideshow code developed in collaboration with ChatGPT3 at https://chat.openai.com/

Blue morpho butterfly, Morpho peleides

Kristen Grace/Florida Museum

Butterfly tree of life reveals an origin in North America – Research News

Butterflies first began to diverge from moths about 100 million years ago. It had been assumed that this was to avoid nocturnal bats by flying during the day, but a group of geneticists led by Akito Y. Kawahara, of the McGuire Center for Lepidoptera and Biodiversity in the Florida Museum of Natural History, FL, USA, have now shown that a diurnal existence was made possible by the evolving relationship between flowering plants and bees, which provided an energy-rich source of nectar.

By analysising the DNA from more than 2,000 species representing all butterfly families and 92% of genera, the world-wide team of scientists have traced the movements and feeding habits of butterflies through time in a four-dimensional puzzle that led back to North and Central America. Their results were published, open access, a couple of days ago, in the journal Nature, Ecology & Evolution.

As the Florida Museum news release explains:

Creationism in Crisis - Researchers Observe Multicellularity Evolving in Only 3,000 Generations

Creationism in Crisis

Researchers Observe Multicellularity Evolving in Only 3,000 Generations

Macroscopic snowflake yeast with elongated cells fracture into modules, retaining the same underlying branched growth form of their microscopic ancestor.

A Journey to the Origins of Multicellular Life: Long-Term Experimental Evolution in the Lab | Research

Creationist frauds will often be seen recruiting new fools for their cult by feeding them disinformation about biology and what science, particularly, evolutionary biology supposedly can't explain.

The fact that bearing false witness, in this case against science, is forbidden in the Bible they purport to be defending and by the god they claim wrote it, betrays the fact that their objective if not to promote and defend the Christian religion but to recruit members for a money-making/political cult in order to manipulate and exploit them.

Some of the more infantile creationists may be trying to swell their ranks in the childish belief that the more people they can trick into believing their superstition, the more right it becomes. Those nagging self-doubts are such an existential threat to creationists that cognitive dissonance can give rise to absurd thinking.

One of the false claims you will often see being made is that biologists can't exolain how multicellularity evolved.

That claim can now be easily refuted by reference to an ongoing experiment in a aboratory in Georgia Tech, in which researchers have observed a single-celled yeast evolve into a multi-cellular organism in just 3,000 generations. The researchers have reported their findings in Nature.

In fact, this is only the latest in several lines of research about which creationists will have remained stoically ignorant:

Creationism in Crisis - How a Single-Celled Phytoplankton Evolved

Slideshow code developed in collaboration with ChatGPT3 at https://chat.openai.com/

Like ancient mariners, ancestors of Prochlorococcus microbes rode out to sea on exoskeleton particles | MIT News | Massachusetts Institute of Technology

New research suggests the Prochlorococcus microbe’s ancient coastal ancestors colonized the ocean by rafting out on chitin particles.

Image: Jose-Luis Olivares/MIT

The thing about the Theory of Evolution (TOE), is that it is the basic framework in biology for finding answers to questions.

For example, it was not obvious how an abundant member of the oceanic phytoplankton, Prochlorococcus came to exist as a free-living organism, when they probably started out as organisms that lived close to the shore as biofilms on the seabed.

Prochlorococcus, a prokaryote picocyanobacterium, is the most abundant of the billions of organisms that make up what has been described as a floating forest that soaks up almost as much CO₂ as the world's terrestrial forests and pumps out almost as much oxygen.

It is also the base of the food chain in the oceans.

Prochlorococcus marinus

Creationism in Crisis - Chimpanzee Vocalization Shows Common Ancestry With Humans

Slideshow code developed in collaboration with ChatGPT3 at https://chat.openai.com/

Chimpanzees form complex vocalisations

© Adrian Soldati

Chimpanzees Combine Calls to Communicate New Meaning | UZH News

Creationists insist that humans were specially created separate from the other mammals as a special type of 'life’ and point to unique characteristics as evidence of this claim, not realising that having unique characteristics is what defines any given species. Elephants, for example, could claim to be a special form of life because they have unique characteristics that distinguish them from, say, giraffes or hyenas.

A unique characteristic of humans often cited by creationists is language - in other words, our ability to combine simple sounds into complex words and words into meaningful sentences. So, it will come as something of a shock to creationists to learn that this ability is not a uniquely human ability and that chimpanzees also have that ability, so it was very probably an ability of the last common ancestor of human and chimpanzees that lives some 6 million years ago.

The discovery was made by a team of researchers led by Maël Leroux of the Department of Comparative Language Science, University of Zürich, Zürich, Switzerland, and including researchers from Utrecht University, Utrecht, Netherlands, the Budongo Conservation Field Station, Masindi, Uganda, the Center for the Interdisciplinary Study of Language Evolution (ISLE), University of Zürich, Zürich, Switzerland, and the Department of Psychology, University of York, York, UK.

Their findings were published open access a few days ago in the journal Nature Communications.

The University of Zurich news release, explains the research and its significance:

Creationism in Crisis - Rhino Retroviruses Provide Evidence of Evolution

Slideshow code developed in collaboration with ChatGPT3 at https://chat.openai.com/

Female black rhinoceros, Diceros bicornis bicornis.

Wikipedia
User: Bernard DUPONT

African rhinos share retroviruses not found in Asian rhinos or other related species - Leibniz Institute for Zoo and Wildlife Research

Endogenous retroviruses have long been a bugbear for creationists in that they show convincing evidence of evolutionary phylogeny and common ancestry, so this paper which reveals the recent entry into the genome of the African rhinoceroses but not the Asian rhinoceroses, shows that the African rhinos share a common ancestor more recently than they share a common ancestor with the Asian species. That African ancestor became infected after it split from the common ancestor of the African and Asian rhinos.
The research team was led by Alex D. Greenwood of the Department of Wildlife Diseases, Leibniz Institute for Zoo and Wildlife Research (IZW), Berlin, Germany.

First, a little about ERV's:

Endogenous retroviruses (ERVs) Endogenous retroviruses (ERVs) are remnants of ancient retroviral infections that have become permanently integrated into the genome of the host organism. They are found in the genomes of most vertebrates, including humans. ERVs are considered "endogenous" because they are passed from generation to generation and are inherited in a Mendelian fashion, just like other genes. The life cycle of a retrovirus involves the reverse transcription of its RNA genome into DNA, which is then integrated into the host genome. Occasionally, retroviruses infect germ cells (cells that give rise to eggs or sperm) and their DNA is inserted into the genome of the offspring. Over time, these integrated viral sequences can become fixed in the population and passed on to future generations.

ERVs provide evidence for evolution in several ways:

1. Shared ERVs among species: ERVs are found in the genomes of different species, and the presence of the same ERV at the same genomic location in different species suggests a common ancestor. For example, scientists have identified a specific retroviral sequence called "HERV-K" that is present in the genomes of humans, chimpanzees, and other primates. The shared presence of this ERV provides strong evidence for a common evolutionary history.
2. ERV distribution and phylogenetic relationships: The distribution of ERVs across different species can be used to construct phylogenetic trees, which illustrate the evolutionary relationships between species. By comparing the presence or absence of specific ERVs in different genomes, scientists can infer the evolutionary history and relatedness of species. This approach has been used to study the evolutionary relationships between primates and other mammals.
3. ERVs as "molecular fossils": ERVs can act as "molecular fossils" that provide insights into ancient viral infections and evolutionary events. By studying the DNA sequences of ERVs, scientists can gain information about the timing of viral integration events and the evolutionary relationships between different ERVs. This information helps reconstruct the evolutionary history of the host species.
4. Functional remnants of ERVs: Although most ERVs have accumulated mutations over time and lost their ability to produce functional viral particles, some ERVs retain functional elements. These functional remnants can have important roles in the regulation of gene expression and embryonic development. For example, certain ERVs have been co-opted by the host organism to play a role in placenta formation in mammals. This co-option of ERV sequences for new functions illustrates the process of exaptation, where existing genetic material is repurposed for novel functions during evolution.

References:

1. Mager, D. L., & Stoye, J. P. (2015). Mammalian endogenous retroviruses. Microbiology spectrum, 3(1), MDNA3-0009-2014. doi: 10.1128/microbiolspec.MDNA3-0009-2014
2. Griffiths, D. J. (2001). Endogenous retroviruses in the human genome sequence. Genome biology, 2(6), reviews1017.1. doi: 10.1186/gb-2001-2-6-reviews1017

chatGPT3, "Tell me all about endogenous retroviruses (ERV's), how they enter the genome and why they are evidence for evolution, with references, please. [Response to user question]
Retrieved from https://chat.openai.com

The press release from the Leibniz Institute for Zoo and Wildlife Research explains the research and its significance:

Rhinoceros belong to a mammalian order called odd-toed ungulates that also include horses and tapirs. They are found in Africa and Asia. Until recently, evidence suggested that throughout their evolutionary history, gammaretroviruses such as Murine leukemia virus had not colonised their genomes, unlike most other mammalian orders. The colonisation process is called retroviral endogenisation and has resulted in most mammalian genomes being comprised of up to ten percent retroviral like sequences. An analysis of modern and extinct rhino genomes headed by the German Leibniz Institute for Zoo and Wildlife Research (Leibniz-IZW) now found that African rhinos have dozens of gammaretroviruses in their genomes absent from the genomes of Asian rhino species, such as the Sumatran and Javan rhino, and that the African black rhino has two related groups, one missing from the white rhinos. The restriction of gammaretroviruses to African rhinos and the close relatedness of the viruses to rodent viruses, particularly those of African rodents, suggests that African rhinos were infected by an exogenous viral variant and their genomes colonised in Africa. The work is published in the scientific “Journal of Virology”.

We had data from several rhino species where we kept finding large portions of gammaretroviruses. When we used much newer and more complete reference genomes from modern and extinct rhinos we found that only African rhinos had been colonised

Dr Kyriakos Tsangaras, lead author
Department of Life and Health Sciences
University of Nicosia, Nicosia, Cyprus

This ultimately comes down to lack of high-quality reference sequences of wildlife. While things have improved a lot since the first human genome was sequenced, you miss things such as viral history when the databases lack so many species or high-quality reference genomes from many species. It is really another example of why we need more genome reference sequences from wildlife because we don’t know what other things we are missing and which conclusions we draw about presence and absence of sequences that may turn out to be a consequence of too little information.

Professor Alex Greenwood, Senior author
Head of the Wildlife Disease Department. Leibniz Institute for Zoo and Wildlife Research
Berlin, Germany

Retroviruses such as the causal agent of aids, HIV-1, are unique among viruses in that they have to integrate into the DNA of the host as part of their replication cycle. If this happens in the germline in spermatocytes or oocytes, they can become a part of the host genome that is inherited by the following generation and then are present in every cell of offspring bodies. This evolutionary process has happened so often that on average up to ten per cent of the mammalian genome is made up of retroviruses or their remnants. A previous study of available genomes from horses and their relatives suggested that they, along with rhinos and tapirs, had not been invaded by gammaretroviruses, a group of viruses related to mouse and bird viruses that have successfully colonised most mammalian genomes.

Together with colleagues from Australia and Germany the scientific team found that in fact two different viral groups had colonised African rhinos. One of them had only colonised the black rhino (Diceros bicornis) and not the white rhino (Ceratotherium simum) and was evolutionarily younger than the one shared by both. As both groups are restricted to African rhinos the study suggests that the African rhino lineage was infected and their genomes colonised in Africa, and that is why the respective gammaretroviruses are not found in Asian rhinoceros and other rhino relatives.

More detail is given in the team's paper in the Journal of Virology, which sadly lies behind a paywall. However, the abstract is freely available:

ABSTRACT

High-throughput sequences were generated from DNA and cDNA from four Southern white rhinoceros (Ceratotherium simum simum) located in the Taronga Western Plain Zoo in Australia. Virome analysis identified reads that were similar to Mus caroli endogenous gammaretrovirus (McERV). Previous analysis of perissodactyl genomes did not recover gammaretroviruses. Our analysis, including the screening of the updated white rhinoceros (Ceratotherium simum) and black rhinoceros (Diceros bicornis) draft genomes identified high-copy orthologous gammaretroviral ERVs. Screening of Asian rhinoceros, extinct rhinoceros, domestic horse, and tapir genomes did not identify related gammaretroviral sequences in these species. The newly identified proviral sequences were designated SimumERV and DicerosERV for the white and black rhinoceros retroviruses, respectively. Two long terminal repeat (LTR) variants (LTR-A and LTR-B) were identified in the black rhinoceros, with different copy numbers associated with each (n = 101 and 373, respectively). Only the LTR-A lineage (n = 467) was found in the white rhinoceros. The African and Asian rhinoceros lineages diverged approximately 16 million years ago. Divergence age estimation of the identified proviruses suggests that the exogenous retroviral ancestor of the African rhinoceros ERVs colonized their genomes within the last 8 million years, a result consistent with the absence of these gammaretroviruses from Asian rhinoceros and other perissodactyls. The black rhinoceros germ line was colonized by two lineages of closely related retroviruses and white rhinoceros by one. Phylogenetic analysis indicates a close evolutionary relationship with ERVs of rodents including sympatric African rats, suggesting a possible African origin of the identified rhinoceros gammaretroviruses.

IMPORTANCE:Rhinoceros genomes were thought to be devoid of gammaretroviruses, as has been determined for other perissodactyls (horses, tapirs, and rhinoceros). While this may be true of most rhinoceros, the African white and black rhinoceros genomes have been colonized by evolutionarily young gammaretroviruses (SimumERV and DicerosERV for the white and black rhinoceros, respectively). These high-copy endogenous retroviruses (ERVs) may have expanded in multiple waves. The closest relative of SimumERV and DicerosERV is found in rodents, including African endemic species. Restriction of the ERVs to African rhinoceros suggests an African origin for the rhinoceros gammaretroviruses.

Tsangaras K, Mayer J, Mirza O, Dayaram A, Higgins DP, Bryant B, Campbell-Ward M, Sangster C, Casteriano A, Höper D, Beer M, Greenwood AD (2023)
Evolutionarily young African rhinoceros gammaretroviruses.
J VIROL 97, e0193222. https://doi.org/10.1128/jvi.01932-22.

© 2023 American Society for Microbiology.
Reprinted under the terms of s60 of the Copyright, Designs and Patents Act 1988.

To any normal person, evidence like this would confirm evolutionary divergence, firstly between the African and Asian rhinoceroses, then, later between the African rhinoceroses.

It would also show that the scientists are in no doubt that evolution is the fundamental explanation for their findings, with no hint that they believe magic and supernatural magicians were involved, like creationist frauds fool their dupes into believing they increasingly are. Indeed, why would they? What rational, educated adult, with a mental age greater than about 9, believes in magic or supernatural magicians and thinks they should play any part in scientific explanations of real-world evidence?

Creationism in Crisis - How African Mammals Evolved

Slideshow code developed in collaboration with ChatGPT3 at https://chat.openai.com/

Bull African bush elephant, Loxodonta africana

From enormous elephants to tiny shrews: how mammals shape and are shaped by Africa's landscapes

The thing about evolution is that it explains how and why an ecosystem shapes and changes the evolution of the species within it and why the evolution of the species within it shapes and changes the ecosystem, all driven in the longer term by changing climate and geology and migration of new species into it.

The key to understanding that is understanding how environmental selectors favour certain variants over others, whether those variants are size, color, ability to find food and mates, or avoid being the prey of predators.

Given that then, we can us the Theory of evolution to predict that the reason Africa's fauna is the way it is today will be found in African geological and geological history and the history of migration into Africa from, mostly, Eurasia.

In his new book, African Ark: Mammals, landscape and the ecology of a continent, Professor Ara Monadjem of the Department of Biological Sciences, University of Eswatini, describes where the African megafauna came from and how they have shaped the African ecosystems, even influencing the evolution of humans, and in so doing have created an environment on which many plants and small animals depend.

His article in The Conversation explains the background to his book. His article is reprinted here under a Creative Commons license, reformatted for stylistic consistency.

Published: May 2, 2023 3.05pm BST
Updated: May 8, 2023 1.09pm BST

From enormous elephants to tiny shrews: how mammals shape and are shaped by Africa’s landscapes

The African elephant is the world’s largest terrestrial mammal.

Ara Monadjem, Author provided

Ara Monadjem, University of Eswatini

Africa is the world’s most diverse continent for large mammals such as antelopes, zebras and elephants. The heaviest of these large mammals top the scales at over one ton, and are referred to as megafauna. In fact, it’s the only continent that has not seen a mass extinction of these megafauna.

The continent’s megafauna community includes the world’s largest terrestrial mammal, the African elephant. Adult African bush elephants can weigh as much as 6 tons. Other giants across African continent include hippopotamuses, rhinoceroses and giraffes.

So, it is only in Africa that ecological interactions and dynamics can be studied as they would have been before the sudden and profound flourishing of Homo sapiens over the past 12 000 years; before then, megafauna would have dominated all terrestrial landscapes on all continents. A visit to Africa is, in other words, a visit to our planet’s past.

In my latest book, African Ark: Mammals, Landscape and the Ecology of a Continent, I tell the story of how Africa’s mammal fauna arose.

It’s not just a tale of megafauna and other well-known large mammals. I pay particular attention to small mammals, such as mice, bats and shrews. That’s partly because I have been studying these creatures for the past three decades.

These animals are also generally overlooked by both scientists and the public. But without them, and the ways in which they’ve interacted with each other and with their larger cousins over tens of thousands years, Africa wouldn’t have the richly varied landscapes it does today.

Africa’s mammals are a global treasure that must be protected. However, the lives of local communities are inextricably linked with these mammals and the remaining natural landscapes that harbour their dwindling populations; conservation solutions will require these communities’ active participation and blessing.

In some areas, nature-based tourism may be a viable solution. However, much of the rest of the continent – where no tourists go – will require other, perhaps novel, approaches. What we cannot afford is the extinction of any of these beautiful creatures or the continued loss and reduction of the ecosystem services that they freely provide.

Early mammal history

The history of African mammals begins with an apparently unrelated group of creatures. They’re so dissimilar from each other today that taxonomists didn’t work out their true relationships until about two decades ago. These are the elephants, manatees, elephant shrews, African golden moles, hyraxes and tenrecs. Collectively they make up the super-order Afrotheria.

Today, this group accounts for only a small fraction of the mammal species on the continent. But that is only because Africa – which formed part of the prehistoric southern supercontinent of Gondwana – was colonised, in stages and over millions of years, by ‘invaders’ from the northern supercontinent of Laurasia.

Large mammals shaped the evolution of humans: here’s why it happened in Africa

These colonists include nearly all the mammals that we normally associate with Africa, including rhinoceroses, zebras, antelopes, primates, bats and even rodents. In return, some Afrotherians, including elephants, roamed out of Africa to colonise other lands further north.

Other mammals, including monkeys and caviomorph rodents (such as guinea pigs and capybaras), used Africa as a stepping stone to colonise South America, as did lemurs to colonise Madagascar.

Shaped by geography

The variables of physical geography have worked hand in hand with the tectonic forces of prehistory.

Africa is not a uniform landscape that enjoys the same climate and habitat throughout. Some parts, such as Madagascar, are not even connected to the mainland but appear as offshore islands. Terrestrial mammals typically reach islands in two ways: they either raft across the intervening sea, or cross by foot during periods of drier weather or lower sea levels that connect the islands to the mainland.

Kenyan fossil shows chameleons may have 'rafted' from mainland Africa to Madagascar

In the continent’s interior, other formidable barriers restrict and determine mammal movement. Long, deep, fast-flowing rivers, such as the Congo in central Africa, can be almost as effective a barrier as open oceans. Mountain ranges can form inland ‘islands’ that are as ecologically isolated as their ocean equivalents.

By providing barriers, geographical features limit the movement of animals across the landscape, thereby affecting the composition of mammal communities in different parts of the continent.

Population shifts

Another element that’s crucial to telling the story of Africa’s mammals is an understanding of how species and population groups are formed and fluctuate over time.

For example, megafauna play important roles in shaping the landscape and its plant communities. This in turn shapes many smaller animals’ habitats. Hippopotamuses in the Okavango Delta create and maintain open water channels, which serve as critical habitat for fishes. And, by defecating in water, hippos also introduce vast amounts of organic fertiliser into this aquatic ecosystem, helping to enrich it.

Smaller animals, too, shape landscapes.

Some species of rats and mice, such as pouched mice in the genus Saccostomus, are granivores that feed on seeds, including those of trees responsible for bush encroachment in savannas such as the sicklebush. Colleagues and I have shown experimentally that various species of mice in Eswatini actually prefer the seeds of this encroaching plant and hence can assist in controlling its spread. But these rodents require good grass cover for persistence, and hence can’t provide this ecological service in over-grazed, degraded landscapes.

The numbers of animals naturally fluctuate over time, typically reflecting fluctuations in food supply brought about by, for example, droughts or floods. A key determinant of these population fluctuations is also the inherent life history characteristics of a species: short-lived, fast reproducing species such as rats and mice will, by definition, experience greater fluctuations in their numbers than long-lived, slow reproducing species like elephants.

Conservation

My book concludes by looking at human interactions with African mammals and the need to conserve these mammals, both for their own sake and for ours. The ecosystem services provided by many mammals are crucial to a healthy environment for all species. Humans evolved in Africa and have interacted with other African mammals for millions of years here.

This is not true on other continents, where humans are – in geological timescales – a recent addition. It may well be that this long relationship between humans and other African mammals is the reason why, despite the losses wrought by humankind, so many large mammals persist on the continent: they have ‘learnt’ through natural selection how to survive with us.

The book was written in conjunction with wildlife journalist Mike Unwin and is published by Wits University Press.
Ara Monadjem, Full Professor in the Department of Biological Sciences, University of Eswatini

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Published by The Conversation.
Open access. (CC BY 4.0)

It happens with such monotonous regularity, with practically every biology paper ever published, that the fact that this article refutes creationist claims is hardly worth mentioning. One day, maybe, someone will tell the cult that they are living in a counter-factual wonderland, completely disconnected from the real world.

Creationism in Crisis - Australian Megafauna From 15 Million Years Before God Created the Universe!

Slideshow code developed in collaboration with ChatGPT3 at https://chat.openai.com/

Reconstruction of Nimbadon lavarackorum mother and juvenile (detail)

Peter Schouten.
Source: PLOS ONE

These giant 'drop bears' with opposable thumbs once scaled trees in Australia. But how did they grow so huge?

The thing about having a counter-factual superstition like creationism is that you need to concoct increasingly unlikely explanation for your rejection of the sort of real-world evidence that normal people base their opinions on.

For example, we have in the following example, evidence that 15 million years ago, there were large marsupials living in Australia, one of which, known to science as Nimbadon, weighed about 70Kg and climbed about in trees. The evidence is in the form of fossils, 24 of which were found in a few square metres of each other at one site within the Riversleigh World Heritage site, Gregory, Queensland, Australia.

These fossils show that Nimbadon belongs to an extinct group of marsupials called diprotodontoids, whose closest living relatives are wombats and Koalas.

Australian diprotodontoids
Australian diprotodontoids refer to a diverse group of marsupials that belong to the superfamily Diprotodontoidae. These unique animals are endemic to Australia and have a rich fossil record spanning several million years. They exhibit a wide range of body sizes, from small, rat-like forms to massive, herbivorous giants.

One prominent member of the Australian diprotodontoids is the extinct genus Diprotodon. Diprotodon was the largest known marsupial to have ever lived, reaching the size of a rhinoceros. It lived during the Pleistocene epoch and is often referred to as the "giant wombat" due to its resemblance to modern wombats. Diprotodon had a robust build, powerful limbs, and a specialized skull adapted for herbivorous feeding.

Another notable diprotodontoid is Zygomaturus, which lived during the late Miocene to the late Pleistocene. Zygomaturus was a large, herbivorous marsupial characterized by its elongated snout and peculiar cheek teeth. It is believed to have inhabited wetland and riparian environments.

Other diprotodontoids include Nototherium, Palorchestes, and Procoptodon. Nototherium was a medium-sized herbivore with an elongated skull, while Palorchestes was a peculiar genus with long arms and a unique grasping hand. Procoptodon, also known as the "short-faced kangaroo," had a short, robust face and incredibly long hind limbs.

References:

1. Archer, M., Hand, S. J., & Godthelp, H. (1991). Riversleigh: The Story of Animals in Ancient Rainforests of Inland Australia. Reed Books.
2. Long, J. A., Archer, M., Flannery, T. F., & Hand, S. J. (2002). Prehistoric Mammals of Australia and New Guinea: One Hundred Million Years of Evolution. University of New South Wales Press.
3. Mackness, B. (2008). Australian Megafauna: Diprotodontoidae. In Janis, C., Gunn, A., & Uhen, M. (Eds.), Evolution of Tertiary Mammals of North America (Volume 2: Small Mammals, Xenarthrans, and Marine Mammals) (pp. 425-436). Cambridge University Press.

ChatGPT3. (2023). "Tell me about the Australian diprotodontoids."
[Retrieved from https://chat.openai.com/]

Now all that, of course, is entirely inconsistent with creationist belief in an Earth that is just a few thousand years old and on which all living and extinct creatures, including dinosaurs and extinct Australian megafauna such as Nimbadon, were created in the first week and lived contemporaneously until a genocidal global flood killed them all bar a few selected ones from whom all modern species are descended, and all fossils are of animals drowned in that flood just 4000 years ago.

So, how do creationists cope with the resulting cognitive dissonance between the real-world evidence and what they need to believe because not believing it would be a terrifying existential threat? They claim:

• All the dating methods palaeontologists and geologists use are wrong (by many orders of magnitude), even, bizarrely citing the fact that carbon dating has an accepted limitation to the age at which it can date objects accurately, when in fact, carbon dating isn't used to date fossils (because of that very limitation and also because any carbon in the fossil will be due to minerlisation and not derived from the body of the animal).
• The scientists are part of a conspiracy, often a Satanic or even Zionist conspiracy, of which all the scientists' assistants and all the staff of the publishing houses that publish the scientific journals are part, and none of whom has ever broken ranks and blown the whistle on the deception.
• The facts must be wrong because they are at odds with what the Bible says and the Bible is the inerrant word of God, so the Bible says.
• Scientists all hate God and want to turn people away from 'him'.

That bizarre and highly unlikely 'explanation' for the evidence is so much more convoluted and involving so many more entities, than the simple explanation - the scientists are telling the truth and the Bible is not literal truth - that any rational person would go with the most vicarious explanation as being the one most likely to be correct, especially since scientists keep producing more and more evidence for the latter alternative while creationists can find no evidence for the former.

What creationists can never admit is what is obvious to most normal people: that when their religion disagrees with science, their religion is wrong; science is a tool for discovering the truth.

and that was by way of introduction to a recent article in The Conversation in which four palaeontologists describe Nimbadon and discuss why they grew so large. The palaeontologists are:

• Anusuya Chinsamy-Turan, Professor, Biological Sciences Department, University of Cape Town
• Karen Black, Leading Education Professional, UNSW Sydney
• Mike Archer, Professor, Pangea Research Centre, UNSW Sydney
• Sue Hand, Professor emeritus, UNSW Sydney

Their article is reprinted here under a Creative Commons Licence, reformatted for stylistic consistency:

These giant ‘drop bears’ with opposable thumbs once scaled trees in Australia. But how did they grow so huge?

Peter Schouten, Author provided

Anusuya Chinsamy-Turan, University of Cape Town; Karen Black, UNSW Sydney; Mike Archer, UNSW Sydney, and Sue Hand, UNSW Sydney

Although long dead, fossil skeletons provide an incredible window into the lifestyle and environment of an extinct animal.

By analysing the various features of fossil bones we can reveal not only the overall size and shape of the animal, but also what kind of movement the animal was capable of, its lifestyle, and the environment in which it lived.

But what if we looked inside fossil bones? What secrets would it reveal about the growth and development of an extinct animal? In a newly published paper in the Journal of Paleontology, we have done just that, using 15 million-year-old skeletons of a giant bear-like marsupial from the world-famous Riversleigh World Heritage Area (Boodjamulla) in Waanyi country of northwest Queensland.

Tree-dwelling wombat relatives

Reconstruction of a mother and baby Nimbadon. They had powerful arms, large hands and feet and huge claws to assist climbing through the rainforest tree tops.

Peter Schouten, Author provided

The huge tree-dwelling herbivorous marsupials, known as Nimbadon, weighed about 70kg, making them the largest arboreal (tree dwelling) mammals known from Australia.

Nimbadon belongs to a diverse group of long extinct, large-bodied marsupials known as diprotodontoids, the likes of which include the largest marsupial to have ever lived, the 2.5 tonne megafaunal Diprotodon, and bizarre trunked marsupials reminiscent of modern-day tapirs.

Among living animals, Nimbadon is most closely related to wombats. Yet surprisingly, in terms of body size and lifestyle, they are more comparable to sun bears, which today can be found scaling the rainforest canopies of Southeast Asia.

When we first uncovered jawbones of Nimbadon at Riversleigh in 1993, we thought we were looking at very large leaf-eating marsupials who foraged for food on the forest floor.

Modern-day sun bears climb trees and lounge there much like sloths do.

Shutterstock

But like many of the species we’ve unearthed from Riversleigh, the closer we look at these animals, the more bizarre and fascinating they become.

Nimbadon is now known from its complete skeleton, including material representing developmental ages ranging from tiny pouch-young to mature adults. It had strong arms with very mobile shoulder and elbow joints. Its hands and feet had specially adapted opposable thumbs with huge curved claws for climbing, penetrating bark and grasping branches.

These animals were highly specialised climbers and lived vastly different lifestyles compared to their closest living relatives – the land-dwelling, burrowing wombats.

Our initial research showed that Nimbadon was not only a “tree-hugger”, but also a “tree-hanger”, spending some of its time suspended from tree branches like a sloth.

Fossil skeleton of a mature adult Nimbadon.

Karen Black, Author provided

Nimbadon lived 15 million years ago in the canopy of lowland Australian rainforests. These biodiverse, lush forests were home to some equally strange animals: flesh-eating kangaroos, tree-climbing crocodiles, ancestral thylacines, cat- to leopard-sized marsupial lions, huge anaconda-like snakes, giant toothed platypuses and mysterious marsupials so strange they have been called “Thingodonta”. It was a very different Australia than the one we see today.

Sectioning the bones

Despite the wealth of information we have gleaned from Nimbadon skeletons, until now we hadn’t fully understood the growth patterns of these ancient marsupials.

Were they affected by seasonality? How long did they take to grow to adult body size in the canopies of the ancient forest? Clues to these questions lay in the bones’ microscopic structure.

To look inside the fossil bones, we needed to select the right material. Long bones, such as the bones of the leg, are known to preserve a good record of growth, so we analysed ten long bones of several different-sized individuals.

Articulated fossilised Nimbadon skeletons in a large slab of limestone recovered from a 15 million year old fossil cave deposit in the Riversleigh World Heritage Area, northwestern Queensland.

Anna Gillespie, Author provided

We began by removing a section from the shaft of the bone, and embedded it in resin. Using a diamond-edged blade, we cut our samples into thin sections and polished them further until light could pass through them. These thinned sections were mounted on glass microscope slides to be studied.

Remarkably, even after millions of years of fossilisation, the microscopic structure of the fossil bones had remained intact. We were amazed to discover that Nimbadon grew in periodic spurts. Individuals had fast growth periods, each followed by a slow growth period, often associated with a band of arrested growth.

Seasonal growers

Cyclical growth patterns have previously been documented for marsupials such as in the living western grey kangaroo. However, our results indicate that, overall, the limbs of Nimbadon had a much slower, more extenuated growth than kangaroo limbs.

One individual recorded at least seven to eight growth cycles, which suggests this arboreal giant needed at least this amount of time – and probably more – to become a fully-grown, sexually mature adult.

Based on these alternating cycles of fast and slow growth, Nimbadon may have been affected by seasonal conditions such as food availability. However, exactly how long it took for eight growth cycles to develop remains a mystery. If indeed they represent annual cycles, it would be at least eight years until sexual maturity, which is unusual in the modern marsupial world.

For example, kangaroos are sexually mature at one to two years. That being said, Nimbadon is an unusual beast and a very large one at that, so an extended developmental period (and lifespan) is not unlikely.

Real-life drop bears

We have come to think about these strange arboreal marsupials as real versions of the legendary “drop bears” of Australian folklore – mysterious tree-dwelling creatures that would drop down on unsuspecting animals below.

Reconstruction of Nimbadon’s palaeoenvironment of lush rainforest with underground caves.

Karen Black, Author provided

While moving in herds through the rainforest canopy, both young and adult Nimbadon would have occasionally lost their grip before dropping down from the treetops. Sometimes they would end up in forest floor caves, which is where we have been finding their still-articulated skeletons.

Given the constant surprises that research into this extraordinary, extinct Riversleigh mammal has already produced, we are eager and prepared for still more.

Currently we are looking into wear in the enamel microstructure of Nimbadon’s teeth to determine this legendary drop bear’s diet. We expect that what we find down the track will continue to upend our naïve first presumptions about the lifestyles of this and many of the other strange inhabitants of the ancient inland rainforests of Riversleigh.
Anusuya Chinsamy-Turan, Professor, Biological Sciences Department, University of Cape Town; Karen Black, Leading Education Professional, UNSW Sydney; Mike Archer, Professor, Pangea Research Centre, UNSW Sydney, and Sue Hand, Professor emeritus, UNSW Sydney

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Published by The Conversation.
Open access. (CC BY 4.0)

Copyright: © 2023 The authors.
Published by Cambridge University Press on behalf of The Paleontological Society. Open access. (CC BY 4.0)

The authors of that article have recently published their findings, open access, in the Journal of Paleontology:

Abstract

Despite the recognition that bone histology provides much information about the life history and biology of extinct animals, osteohistology of extinct marsupials is sorely lacking. We studied the bone histology of the ca. 15-million-year-old Nimbadon lavarackorum from Australia to obtain insight into its biology. The histology of thin sections of five femora and five tibiae of juveniles, subadult, and adult Nimbadon lavarackorum was studied. Growth marks in the bones suggest that N. lavarackorum took at least 7–8 years (and likely longer) to reach skeletal maturity. The predominant bone tissue during early ontogeny is parallel-fibered bone, whereas an even slower rate of bone formation is indicated by the presence of lamellar bone tissue in the periosteal parts of the compacta in older individuals. Deposition of bone was interrupted periodically by lines of arrested growth or annuli. This cyclical growth strategy indicates that growth in N. lavarackorum was affected by the prevailing environmental conditions and available resources, as well as seasonal physiological factors such as decreasing body temperatures and metabolic rates.

Chinsamy, A., Black, K., Hand, S., & Archer, M. (2023).
Paleobiological implications of the bone histology of the extinct Australian marsupial Nimbadon lavarackorum.
Journal of Paleontology, 1-13. doi:10.1017/jpa.2023.22

Copyright: © 2023 The authors.
Published by Cambridge University Press on behalf of The Paleontological Society. Open access
Reprinted under a Creative Commons Attribution 4.0 International license (CC BY 4.0)

Figure 2.
Specimen AR21803. (1) AR21803a, thin section BII; section of partial tibia; arrows indicate growth marks in the compacta; (2) AR21803b, thin section AI; section of partial femur showing a low-magnification overview of the compacta; arrows indicate growth marks in the compacta (note the resorptive endosteal margin of the bone wall); (3) AR21803b, thin section AI showing radial tract of compacted coarse cancellous bone (indicated by the white arrows). Images taken under polarized light with a one-quarter-λ compensator.

Chinsamy, A., Black, K., Hand, S., & Archer, M. (2023).

Not only convincing evidence of the existence of these giant wombat-like marsupials, 15 million years ago, but, as usual, not a hint that the scientists believe the Theory of Evolution is inadequate for explaining the observations, or that magic by an invisible supernatural magician is a better explanation.

In other words, yet another casual and incidental refutation of creationism and the claims made by the scientifically illiterate authors of the Bible.