Joe Felsenstein wins the 2026 Mendel Medal

The Genetics Society has awarded the 2026 Mendel Medal to Joe Felsenstein. Some of you may know Joe because he sometimes posts comments on Sandwalk in order to "clarify" some of my more egregious errors. But I bet you didn't know all of the things he has done over the past few decades. Here's the full press release: [Mendel Medal 2026 – Professor Joe Felsenstein].

Professor Joe Felsenstein was born in 1942, grew up in Philadelphia and studied as an undergraduate at the University of Wisconsin, with James F. Crow as his undergraduate mentor. He got his Ph.D. from the University of Chicago with Richard Lewontin, and was a postdoctoral fellow at the University of Edinburgh with Alan Robertson. Since 1968 he has been at the University of Washington in the Department of Genetics, and then in the Department of Genome Sciences and also in the Department of Biology. He has worked on the population genetics theory of the effects of recombination, of geographic differentiation, and of speciation. From the late 1970s on, his main focus was on methods for inferring phylogenies.

His accomplishments in that field include showing that with certain shapes of the true evolutionary tree, parsimony methods will be inconsistent, tending to infer the wrong phylogeny. He developed dynamic programming methods for fast evaluation of likelihoods for DNA sequence phylogenies. He adapted the bootstrap method of statistical inference to phylogenies, which enables assessment of the statistical support for different groups. He wrote the central paper introducing phylogenetic comparative methods to investigate whether multiple characters have evolved in a correlated way.

He has also made these and other methods widely available by organising the development and distribution of the PHYLIP package of programs for inferring phylogenies, starting in 1980 and still continuing. In 2004, he published “Inferring Phylogenies”, which reviews and explains the major methods of statistical phylogenetics. He assisted his colleagues Mary Kuhner and Jon Yamato, in applying the likelihood methods for DNA sequence phylogenies to trees of gene copies within populations (coalescent trees), to infer population parameters such as population size, mutation rate, migration rates and recombination rates. They developed the LAMARC program for coalescent inferences.

He has received a number of honors, including membership in the U.S. National Academy of Sciences, the Weldon Prize and Medal for biometry, and the Darwin-Wallace medal from the Linnean Society. He was awarded an honorary doctorate from the University of Edinburgh, and the International Prize for Biology from the Japan Society for the Promotion of Science. Since his retirement in 2017, he has been active in critiquing mathematical arguments by advocates of Intelligent Design and creationism.

They forgot to mention that Joe has also written about sex [What did Joe Felsenstein say about sex?].

I hope he won't mind if I tell you about something else that isn't in the press release ... he likes BeaverTails [BeaverTails].

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Three kinds of adaptationism

Arlin Stoltfus wrote an excellent book where he makes the case for mutationism—the idea that the course of evolution is determined by the occurrence of particular mutations and not by adaptation based on an infinite supply of random mutations.

Part of his argument relies on refuting adaptationism, or the idea that much of the history of life is due to adaptation (natural selection). He describes three different kinds of adaptationism in his book (p. 39) and I think it's useful to know them.

Evolution explains the differences between the human and chimpanzee genomes

If you align similar regions of the human and chimpanzee genomes they turn out to be about 98.6% identical in nucleotide sequence. The total number of differences amount to 44 million base pairs (bp). If the differences are due to mutations that have occurred since divergence from a common ancestor, then there would be 22 million mutations in each lineage.

The mutation rate is approximately 100 new mutations per generation. Most of these will be neutral mutations that have no effect on the survival of the individual and almost all of them will be lost within a few generations. A small number of these neutral mutations will become fixed in the population and it's these fixed mutations that produce most of the changes in the genome of evolving populations. According to the neutral theory of population genetics, the number of fixed neutral mutations corresponds to the mutation rate. Thus, in every evolving population there will be 100 new fixed mutations per generation.

A new higher mutation rate in humans includes indels in repetitive DNA regions

Theme

Mutation

-definition
-mutation types
-mutation rates
-phylogeny
-controversies

There are three ways of estimating the human mutation rate. The Biochemical Method is based on the known error rate of DNA replication and the average number of cell divisions between generations. It gives a rate of about 130 mutations per generation.

The Phylogenetic Method assumes that a large fraction of mammalian genomes is evolving at the neutral rate because it is junk DNA. Since we know that the rate of fixation of neutral alleles is equal to the mutation rate, we can estimate the mutation rate if we know the total number of nucleotide difference between two species (e.g. humans and chimpanzees) and the approximate time of divergence from a common ancestor. This gives an estimate of about 112 mutations per generation.

Steven Pinker talks at Richard Dawkins

This is a lengthy conversation between Richard Dawkins and Steven Pinker. It took place in Boston at the Chevalier Theatre in September 2024. The video appeared on YouTube last month.

In my opinion, the important point is how deeply Pinker buys into the adaptationist perspective of Dawkins. He asks no challenging questions and he seems to be of the opinion that the Dawkins' view of evolution is the dominant view of evolutionary biologists. I'm an admirer of Richard Dawkins but I have not drunk the Kool-Aid.

Pinker has drunk the Kool-Aid and most of the video is him pontificating about his incorrect views of evolution.

The gene's-eye view of evolution

I'm reveiwing some of the contributions to Evolutionary Biology: Contemporary and Historical Reflections Upon Core Theory. In this post I want to cover Arvid Ågren's contribution on the gene's-eye view of evolution.

Ågren starts out by reminding us that Richard Dawkins' book The Selfish Gene was voted the most influential science book of all time in a 2017 Royal Society poll. He goes on to say,

Regardless of one's views on the poll results—or the book's argument—the far reaching sway of The Selfish Gene means that anyone interested in the history and future of evolutionary theory has no choice but to grapple with its ideas. Chief among these is the so-called gene's-eye view of evolution. This is the approach to biology originally introduced by George Williams in Adaptation and Natural Selection and elaborated and popularized by Dawkins, that it is the genes, and not organisms as Darwin originally envisaged, that deserve the status as the unit of selection in evolution. Emerging in the decades succeeding the Modern Synthesis, the gene's-eye view of evolution has become an emblem of orthodoxy in biology.

Guess what happens when Nature asks EES proponents to write reviews of books by other EES proponents?

There are a bunch of people who think that evolutionary theory needs to be extensively revised. They focus their attacks on a particular (incorrect) version of the Modern Synthesis and they promote a new version called the Extended Evolutionary Synthesis (EES).

Most EES proponents have very little in common except that they see themselves as revolutionaries. They each have their own little hobbyhorse that is presumably being suppressed by classical evolutionary biologists. Some of them belong to a cult called The Third Way (of Evolution). They are very good at promoting their point of view through whatever means it takes to get attention. The media loves them.

New Scientist promotes misinformation about evolution

The December 7th issue of New Scientist features a cover promoting an article by Kevin Lala, an evolutionary biologist at the University of St. Andrews in Scotland (formerly Kevin Laland). The title of the article in the journal is DIY evolution but the online version is The extraordinary ways species control their own evolutionary fate.

It's interesting that the blurbs for the two version also differ ...

Natural selection of random genetic mutation isn't the only way to adapt, argues evolutionary biologist Kevin Lala.

(print version)

Natural selection isn't just something that happens to organisms, their activities also play a role, giving some species – including humans – a supercharged ability to evolve. (online version)

Kevin Lala is a proponent of the "Extended Evolutionary Synthesis" (EES). His particular schtick is niche construction meaning that evolution is promoted by organisms that help create their own environment. This behaviorial characteristic of animals is supposed to call into question the fundamentals of modern evolutionary theory based on population genetics.

Recall that evolution is defined as a change in the frequency of alleles in a population and the main mechanisms of change are natural selection and random genetic drift. Variation (creation of alleles) is caused by mutation.

Zack Hancock explains why Denis Noble and James Shapiro are wrong about evolution

Zack Hancock has posted a lengthy (2 hours) video explaining why Denis Noble, James Shapiro, and the rest of The Third Way of Evolution crowd are wrong about evolution. You may not agree with everything Zack says but if you are really interested in following this debate then you should watch the entire video.

If you want to get to the juicy parts first then watch the section on "Chapter VII: Crusade against genetic reductionism" beginning with a short introduction at 1:35. In the last few minutes Zack gets into motive by asking why Denis Noble and James Shaprio seem to be so comfortable with supporters like Intelligent Design Creationists.

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Biological evolution is dead in the water (not!)

You will be surprised to hear that biological evolution is dead in the water according to the authors of a paper published in Progress in Biophysics and Molecular Biology.

The authors are Olen Brown, an Emeritus Professor of Biomedical Sciences at the University of Missouri and David Hullender, a Professor in the Department of Mechanical and Aerospace Engineering at the University of Texas at Arlington. These are the same two authors who published two ridiculous papers in the same journal in 2022 and 2023. Up until last December (2023), Denis Noble was one of the editors of the journal [Editorial Board] but he is not longer listed on the journal's website. We can assume that Noble is responsible, in part, for allowing these papers to be published since he has defended the publication of creationist papers in the past. [How the Krebs cycle disproves Darwinism (not!)]

Brown, O.R. and Hullender, D.A. (2024) Biological evolution is dead in the water of Darwin’s warm little pond. Progress in Biophysics and Molecular Biology. 193: 1-6. [doi: 10.1016/j.pbiomolbio.2024.08.003]

Abstract

The origin of life and its evolution are generally taught as occurring by abiogenesis and gene-centric neo-Darwinism. Significant biological evolutionary changes are preserved and given direction (descent with modification) by Darwin's (Spencer's) natural selection by survival of the fittest. Only survival of the fittest (adapted/broadened) is available to provide a ‘naturalistic’ direction to prefer one outcome/reaction over another for abiogenesis. Thus, assembly of first life must reach some threshold (the first minimal cell) before ‘survival of the fittest’ (the only naturalistic explanation available) can function as Darwin proposed for biological change. We propose the novel concept that the requirement for co-origination of vitamins with enzymes is a fundamental, but overlooked, problem that survival of the fittest (even broadly redefined beyond Darwin) cannot reasonably overcome. We support this conclusion with probability calculations. We focus on the stage of evolution involving the transition from non-life to the first, minimal living cell. We show that co-origination of required biochemical processes makes the origin of life probabilistically absurdly improbable even when all assumptions are chosen to unreasonably favor evolutionary theories.

There's something seriously wrong with peer review if a paper like this can be published in a (formerly) reputable journal.

For more information, watch this video of Brown and Hullender explaining their views. The video is sponsored by "Video Lessons to Raise Up Confident Christians."

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Darwin Mythology

How can you possibly be against a book devoted to refuting misinformation about Charles Darwin and his views on evolution? This is an anthology edited by Kostas Kampourakis whose main interest is "the public understanding of evolution and genetics." He currently teaches at the University of Geneva (Geneva, Switzerland).

Kampourakis has assembled a bunch of authors who present their 24 most important myths about Darwin in 24 chapters. It appears that this book was motivated, in part, by Kampoourakis' view that Charles Darwin needs to knocked down a peg or two because it corrupts the general public's view of how science really works. He begins his book by quoting Richard Dawkins, Michael Ghiselin and Jerry Coyne as examples of scientists who see Darwin as a scientific hero.

Darwin was without question a brilliant naturalist, observer and experimentalist and scholar. But this kind of hero-worshipping should be avoided because it is misleading—science is not done, and does not advance, by individuals who make big breakthroughs in one go. Science is done by communities, which consist of individuals many of whom have something important to contribute to the overall achievement. Even when some individuals happen to see something that others do not, the validation of a novel perspective or findings by the community is absolutely necessary. Most importantly, coming up with anything novel takes time and effort—it took Darwin twenty years of painstaking work—while one works in a particular context and with particular resources to hand—and Darwin had experiences and resources that most other lacked. This kind of hero-worshiping is also better avoided because it dehumanizes science; in the last chapter of the present book, I explain how the stories in its twenty-four chapters can help us better understand science as a human activity. My aim is to humanize Darwin and to emphasize a number of points about how science is done.

Zach Hancock's 10 most influential papers on evolution

Zach Hancock is a postdoc in the Dept. of Ecology and Evolutionary Biology at the University of Michigan. He has a popular YouTube channel where he has recently posted a video describing his top ten evolutionary biology papers of all time. I've added links to all of the papers below.

Zach emphasizes that this is a personal list and others might disagree with his choices. He is much more interested than I am in explaining the history of life with an emphasis on animals. I'm much more interested in molecular evolution so I would choose a slightly different list as I explain below. Please add your own choices in the comments.

1. Force, A., Lynch, M., Pickett, F. B., Amores, A., Yan, Y. L., and Postlethwait, J. (1999) Preservation of duplicate genes by complementary, degenerative mutations. Genetics, 151(4), 1531-1545. [doi: 10.1093/genetics/151.4.1531]
2. Coyne, J. A., and Orr, H. A. (1989) Patterns of speciation in Drosophila. Evolution, 43(2), 362-381. [doi: 10.1111/j.1558-5646.1989.tb04233.x]
3. Lande, R., and Arnold, S. J. (1983) The measurement of selection on correlated characters. Evolution, 1210-1226. [doi: 10.2307/2408842]
4. Lederberg, J., and Lederberg, E. M. (1952) Replica plating and indirect selection of bacterial mutants. Journal of bacteriology, 63(3), 399-406. [PDF]
5. Gould, S.J. and Lewontin, R.C. (1979) The spandrels of San Marco and the Panglossian paradigm: a critique of the adaptationist programme. Proceedings of the Royal Society of London. Series B. Biological Sciences 205:581-598. [doi: 10.1098/rspb.1979.0086]
6. Maynard Smith, J. M. (1974) The theory of games and the evolution of animal conflicts. Journal of theoretical biology, 47(1), 209-221. [doi: 10.1016/0022-5193(74)90110-6"]
7. Fisher, R.A. (1918) The correlation between relatives on the supposition of Mendelian Inheritance. Proceedings of the Royal Society of Edingurgh [PDF]
8. Hamilton, W. D. (1964) The genetical evolution of social behaviour. II. Journal of theoretical biology, 7(1), 17-52. [doi: 10.1016/0022-5193(64)90039-6]
9. Kimura, M. (1968) Evolutionary rate at the molecular level. Nature, 217(5129), 624-626. [PDF]
10. Wright, S. (1931) Evolution in Mendelian populations. Genetics, 16(2), 97. [doi: 10.1093/genetics/16.2.97]

I disagree with Hamilton (1964). I realize that there are many evolutionary biologists who think that kin selection and the evolution of altruistic behavior is extremely important¹ but I think it's restricted to a tiny perecentage of characteristics in a tiny percentage of all living things on the planet. I would delete the Hamilton paper and replace it with ...

Margoliash, E. (1963) Primary structure and evolution of cytochrome c. Proceedings of the National Academy of Sciences, 50(4), 672-679. [PDF]

This is the first accessible paper on using the animo acid seqences of proteins to obtain information on evolution. It's the beginning of the field of molecular evolution and the idea of a molecular clock. Surely that deserves to be one of the most important advances in the field of evolution. (Linus Pauling and Emile Zuckerkandl published similar work on globins at about the same time but their original papers were not as accessible as the Margoliash paper. See Emile Zuckerkandl and the 50th anniversary of the birth of molecular evolution.)

I'm not a big fan of John Maynard Smith and game theory. I think it only applies to a small part of the field of evolution. I would delete the Maynard Smith (1974) paper and replace it with ...

Ohta, T. (1973) Slightly deleterious mutant substitutions in evolution. Nature 246:96-98. [doi:10.1038/246096a0]

This is the beginning of the nearly neutral theory. I agree that putting the Kimura paper on the neutral theory at #2 is a good choice but it's the Ohta paper that really drives home the idea that deleterious mutations can also be fixed under some circumstances and made (some) evolutionary biologists understand that natural selection was not the only game in town.

Finally, I'd like to see one of David Raup's papers in the top ten list but I don't know enough about the other papers to pick one to delete. (I'm skeptical of Lande and Arnold (1983) but I know they have fierce defenders.) Here's a candidate Raup paper that includes Sepkoski.

Raup, David M.; Sepkoski, J. John Jr. (1982) Mass extinctions in the marine fossil record. Science. 215 (4539). [doi:10.1126/science.215.4539.1501]

I'm waiting for the list of the top nine books on evolution—we all know what #1 is going to be.

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Image credit: The photo is from Zach's personal website.

1. Richard Dawkins thinks Hamilton is "the greatist Darwinina of my lifetime" [quoted in W.D. Hamilton]

Philip Ball strikes back

Philip Ball believes that we are in the middle of a revolution in our way of thinking about how life works. His ideas are complex but part of his case involves molecular biology and how things work at the molecular level. Ball believes that the old view of molecular biology placed far too much emphasis on coding DNA and ignored all the other functional regions of genomes. He also says that most of our genes specify non-coding RNA instead of mRNA and implies to his readers that a very large fraction of our genome is functional (i.e. not junk).¹

In order to build the case for revolution, he tries to demonstrate a paradigm shift in our view of molecular biology by showing a huge gap between the understanding of previous generations of molecular biologists and the post-genomic view. I believe he is wrong about this for two reasons: first, he misrepresents the views of older molecular biologists and, second he misrepresents the discoveries of the past twenty years. I tried to explain why he was wrong about these two claims in a previous post where I discussed an article he published in Scientific American in May 2024: Philip Ball says RNA may rule our genome.

Philip Ball responded to my criticism in a comment under that article.

Older molecular biologists were really stupid

I said ...

Ball begins with the same old myth that writers like him have been repeating for many years. He claims that before ENCODE most molecular biologists were really stupid. According to Philip Ball, most of us thought that coding DNA was the only functional part of the genome and most of the rest was junk DNA.

In the comment section of my earlier post, Philip Ball says,

I’m sorry to say that Larry’s commentary here is dismayingly inaccurate.

Let’s get this one out of the way first:

“He claims that before ENCODE most molecular biologists were really stupid.”

I have never made this claim and never would – it is a pure fabrication on Larry’s part. I guess this is what John Horgan meant in his comment to Larry: credible writers don’t just make up stuff.

I admit that Philip Ball never said those exact words. I'll leave it to the readers to decide whether my characterization of his position is accurate.

I stand by the statements I made although I admit to a bit of hyperbole. Ball has said repeatedly that the molecular biologists of my generation were wedded to the idea that coding regions were the only important part of the genome and he often connects that to the Central Dogma of Molecular Biology. He also claims that the experts in molecular biology dismissed all non-coding DNA as junk. Here's how he puts it in another article that he published recently in Aeon: We are not machines.

Only around 1-2 per cent of the entire human genome actually consists of protein-coding genes. The remainder was long thought to be mostly junk: meaningless sequences accumulated over the course of evolution. But at least some of that non-coding genome is now known to be involved in regulating genes: altering, activating or suppressing their transcription in RNA and translation into proteins.

I interpret that to mean that older molecular biologists, like me, didn't know about functional non-coding DNAs such as centromeres, telomeres, origins of replication, non-coding genes, SARs, and regulatory sequences in spite of the fact that thousands of papers on these sequences were published in the 30 years that preceded the publication of the first draft of the human genome sequence. This is not true, we did know about those things. I don't think it's too much of an exaggeration to say that Philip Ball thinks we were really stupid.

Here's what he says in his book, "How Life Works" (p. 85) when he's talking about the beginning of the human genome project.

Even at its outset, it faced the somewhat troubling issue that just 2 percent or so of our genome actually accounts for protein-coding genes. The conventional narrative was that our biology was all about proteins, for each of which the genome held the template. ... But we had all this other DNA too! What was it for? The common view was that it was mostly just junk, like the stuff in our attics: meaningless material accumulated during evolution, which our cells had no motivation to clear out.

Again, his claim is that in 1990 at the beginning of the human genome project the experts in molecular biology thought that non-coding DNA was mostly junk (98% of the genome). I have repeatedly refuted this myth and challenged anyone to come up with a single scientific paper arguing that all non-coding DNA is junk. I challenge Philip Ball to find a single molecular biology textbook written before 1990 that fails to discuss regulation, non-coding genes, and other non-coding functional elements in the human genome.

The truth is that the molecular biology experts concluded in the 1970s that we had about 30,000 genes and that 90% of our genome is junk and 10% is functional. That 10% consisted of about 2% coding DNA (now thought to be only 1%) and 8% functional non-coding DNA. So the "conventional narrative" was that there was a lot more functional non-coding DNA than coding DNA.

The human genome is full of genes for regulatory RNAs.

"Ball is one of the most meticulous, precise science writers out there. He is the antithesis of hypey, "dumb-it-down" reporting. He is MUCH more credible than you are, Laurence."

John Horgan July, 2024The title of the article I was discussing is "Revolutionary Genetics Research Shows RNA May Rule Our Genome." In that article Ball says that ENCODE was basically right and there are many more non-coding genes than protein-coding genes. I pointed out that Ball mentions some criticism of this idea but only to dismiss it. I said that "[Ball] wants you to believe that almost of all of those transcripts are functional—that's the revolution that he's promoting." Philip Ball objects to this statement ...

This too is sheer fabrication. I don’t say this in my article, nor in my book. Instead, I say pretty much what Larry seems to want me to say, but for some reason he will not admit it – which is that there is controversy about how many of the transcripts are functional."

Ball states that "ENCODE was basically right" when they claimed that 75% of our genome was transcribed and he goes on to say that ...

Dozens of other research groups, scoping out activity along the human genome, also have found that much of our DNA is churning out 'noncoding' RNA.

He says that ENCODE has identified 37,000 noncoding genes but there may be as many as 96,000. After making these definitive statements, he mentions that there are "still doubters" but then discuss why these discoveries are revolutionary. Later on he quotes John Mattick suspecting that there may be more that 500,000 non-coding genes.

Toward the end of the article, after discussing all kinds of functional RNAs, he brings up the Ponting and Haerty review where they say that most lncRNAs are just noise. He also mentions that the low copy number of non-coding RNAs raises questions about whether they are functional but immediately counters with the standard excuses from his allies.

Ball closes the article with ...

Gingeras says he is perplexed by ongoing claims that ncRNAs are merely noise or junk, as evidence is mounting that they do many things. "It is puzzling why there is such an effort to persuade colleagues to move from a sense of interest and curiosity in the ncRNA field to a more dubious and critical one," he says.

Perhaps the arguments are so intense because they undercut the way we think our biology works. Ever since the epochal discovery about DNA's double helix and how it encodes information, the bedrock idea of molecular biology has been that there are precisely encoded instructions that program specific molecules for particular tasks. But ncRNAs seem to point to a fuzzier, more collective, logic to life. It is a logic that is harder to discern and harder to understand. ut if scientists can learn to live with the fuzziness, this view of life may turn out to be more complete.

What's remarkable about the quote from a leading ENCODE worker (Gingeras) is that he is "puzzled" by scientists who are dubious and critical about claims in the ncRNA field. Isn't that what good scientists are supposed to do? Isn't that exactly what we did when we successfully challenged the dubious claims about junk DNA made in 2012?

There is no doubt in my mind that Philip Ball has fallen hook-line-and-sinker for the ENCODE claims that our genome is buzzing with non-coding genes. He only brings up the counter-arguments to dismiss them and pretend that he is being fair. Nobody who was truly skeptical about the function of transcripts would write an article with the title, "Revolutionary Genetics Research Shows RNA May Rule Our Genome."

However, as Ball points out in other comments, he does have a sentence in his book where he mentions that perhaps only 30% of the genome is functional. He says in the comment that what he believes is that the amount of functional DNA lies somewhere between 10% and 30%. That's not something that he mentions in the Scientific American article but, if he's being honest, it does mean that I was unfair when I said he believes that "almost of all of those transcripts are functional" but I only know that from what he now says, not from the published article.

If I were to take Philip Ball at his word—as expressed in the comment—then he must believe that most of the ENCODE transcripts are junk RNA. That's not a belief that you get from reading his published work.² Furthermore, if I were to take him at his word, then he must believe that there are some reasonable criteria that must be applied to a transcript in order to decide whether it has a biologically relevant function. So, when he says that ENCODE identified 37,600 non-coding genes he must have these criteria in mind but he doesn't express any serious skepticism about that number. We all know that there's no solid evidence that such a large number of transcripts are functional but that doesn't bother Philip Ball. He thinks we are in the middle of an RNA revolution.

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1. In commenting to my previous post, Ball says he believes that somewhere between 70% and 90% of our genome is junk but he doesn't say this in the Scientific American article. Instead, he says that scientists were surprised to learn that 75% of the human genome is transcribed implying that there's a lot of function. He goes on the say that "ENCODE was basically right." But what the ENCODE publicity campaign actually said was that junk DNA is dead and there's practically no junk DNA. If Ball really believes that up to 90% of the genome is junk then to me this means that ENCODE was spectacularly wrong not "basically right."

2. Ball says that 75% of the genome is transcribed. If Ball believes that as little as 10% may be functional then he must believe that less than 10% is transcribed to produce functional RNAs since he has to allow for regulatory sequences and other functional DNA elements. Let's say that 8% is a reasonable number. Ball seems to be willing to admit that 67% of the genome might be transcribed to produce junk RNA.

Intelligent Design Creationists made up a fake march of progress illustration

Everyone is familiar with the typical March of Progress figures that are often used to illustrate evolution. However, most people don't know that evolutionary biologists object to that depiction of evolution because it seriously misrepresents the reality of human evolution.

Stephen Jay Gould has been one of the most vocal opponents of such icons because they imply a sense of direct linear progress from some primitive ancestor to a modern species when, in fact, the actual evolution involves branching trees with multiple lineages, most of which have gone extinct. In one of his most famous essays, Life's Little Joke (Gould, 1987, 1991), Gould explains why the evolution of horses is falsely depicted as a march of progress.

On the evolution of the glycolytic pathway (glycolysis)

Jonathan McLatchie has a PhD in Evolutionary Biology from Newcastle University (UK) and he is currently "resident biologist" and a fellow at the Center for Science and Culture at the Discovery Institute. He is an intelligent design creationist who attacks evolution by questioning standard explanations in the fields of biochemistry and molecular biology.

I've debated him frequently over the years since those are my areas of interest as well. The last time we met was at an evolution conference in London (UK) in 2016 (see photo).

I've always found Jonathan to be more honest and more willing to learn than most of his creationist colleagues so that's why I'm addressing his latest post on Evolution News (sic) where he challenges the evolutionary origins of the glycolytic pathway. As you might expect, his argument is largely based on the idea that since the glycolytic pathway is very complicated, there's no way it could have arisen all at once. He then goes on to reject the idea that the pathway could have evolved incrementally, one step at a time.

Is the Teacher Institute for Evolutionary Science spreading misinformation?

The Teacher Institute for Evolutonary Science (TIES) is an organization dedicated to helping teachers explain evolution.

A good teacher can teach any subject as long as they have high-quality resources. TIES provides middle school and elementary teachers the tools they need to effectively teach evolution and answer its critics based on new Next Generation Science Standards.

The Teacher Institute for Evolutionary Science began as a program of the Richard Dawkins Foundation for Reason & Science and it's now part of the Center for Inquiry.

TIES recently posted a video with an interesting title on their YouTube channel: "Beyond DNA: How Epigenetics is Transforming our Understanding of Evolution." This is a presentation by Ben Oldroyd who wrote a book titled "Beyond DNA."

Watch the video and decide for yourself whether you think this is what teachers of evolutionary biology should be telling their students. What part of understanding evolution do you think needs to be transformed by epigenetics?

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Science misinformation is being spread in the lecture halls of top universities

Should universities remove online courses that contain incorrect or misleading information?

There are lots of scientific controversies where different scientists have conflicting views. Eventually these controversies will be solved by normal scientific means involving evidence and logic but for the time being there isn't enough data to settle a genuine scientific controversy. Many of us are interested in these controversies and some of us have chosen to invest time and effort into defending one side or the other.

But there's a dark side of science that infects these debates—false or misleading information used to support one side of a legitimate controversy. To give just one example, I'm frustrated at the constant reference to junk DNA being defined as non-coding DNA. Many scientists believe that this was the way junk DNA was defined by its earliest proponents and then they go on to say that the recent discovery of functional non-coding DNA refutes junk.

I don't know where this idea came from because there's nothing in the scientific literature from 50 years ago to support such a ridiculous claim. It must be coming from somewhere since the idea is so widespread.

Where does misinformation come from and how is it spread?

Philip Ball's new book: "How Life Works"

Philip Ball has just published a new book "How Life Works." The subtitle is "A User’s Guide to the New Biology" and that should tell you all you need to know. This is going to be a book about how human genomics has changed everything.

What is the Modern Synthesis?

Serious criticisms of evolutionary theory have been floating around for half a century. The main focus is over the Modern Synthesis and whether it's the best explanation of evolution. That requires a throrough understanding of what the Modern Synthesis actually means and how it's understood by most evolutionary biologists.

One view is that the Modern Synthesis is almost exclusively about natural selection. If that's true, then Stephen Jay Gould makes a good case when he argues that the Modern Synthesis is effectively dead—it was killed off by the neutral theory and the recognition that random genetic drift is a major player in evolution [Is the Modern Synthesis effectively dead?].

Help fix the Wikipedia article on evolution

The Wikipedia article on evolution [Evolution] is a "Featured article," which means two things: (1) it is one of the best articles Wikipedia has to offer, and (2) it was voted a featured article by Wikipedia editors and that means they will resist any changes.

You will be shocked to learn that the article isn't perfect. It could use some serious updating and revision but my first attempt was reverted by an editor named Efbrazil who has vowed to revert any edits I make unless I can get his approval. So I thought I'd give it a try and you can see the result on the Talk:Evolution pages. My intitial objective is to edit the introductory paragraphs in the lead to eliminate the reference to expression of genes and to introduce the term "allele," which is covered in the main part of the article. Here's the current opening paragraphs of the lead,

In biology, evolution is the change in heritable characteristics of biological populations over successive generations.[1][2] These characteristics are the expressions of genes, which are passed on from parent to offspring during reproduction. Genetic variation tends to exist within any given population as a result of genetic mutation and recombination.[3] Evolution occurs when evolutionary processes such as natural selection (including sexual selection) and genetic drift act on this variation, resulting in certain characteristics becoming more or less common within a population over successive generations.[4] It is this process of evolution that has given rise to biodiversity at every level of biological organisation.[5][6]

The theory of evolution by natural selection was conceived independently by Charles Darwin and Alfred Russel Wallace in the mid-19th century and was set out in detail in Darwin's book On the Origin of Species.[7] Evolution by natural selection is established by observable facts about living organisms: (1) more offspring are often produced than can possibly survive; (2) traits vary among individuals with respect to their morphology, physiology, and behaviour; (3) different traits confer different rates of survival and reproduction (differential fitness); and (4) traits can be passed from generation to generation (heritability of fitness).[8] In successive generations, members of a population are therefore more likely to be replaced by the offspring of parents with favourable characteristics for that environment. In the early 20th century, other competing ideas of evolution were refuted as the modern synthesis concluded Darwinian evolution acts on Mendelian genetic variation.[9]

I'm also thinking that we should modify the following sentences that don't seem to be appropriate in a "Featured article,"

According to the now largely abandoned neutral theory of molecular evolution most evolutionary changes are the result of the fixation of neutral mutations by genetic drift.[101] In this model, most genetic changes in a population are thus the result of constant mutation pressure and genetic drift.[102] This form of the neutral theory is now largely abandoned since it does not seem to fit the genetic variation seen in nature.[103][104]

Editor Efbrazil seems to be he only editor willing to discuss these problems and he is hard to convince. If anyone else is interested in improving this Wikipedia article, I invite you to participate in the discussion on the Talk pages.

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