Daniel Harrell on Nature's Witness

You may recall that I gave a very strong recommendation to a recent book (Nature's Witness: How Evolution Can Inspire Faith) by my friend and former pastor, Dr. Daniel Harrell of Park Street Church in Boston.

David Opderbeck, at his blog Through a Glass Darkly, has been conversing with Daniel about the book and his ideas. The series has three parts so far (links below). And the rest of David's blog is worth some time as well.
Part 1: motivation and reception
Part 2: biblical inspiration and authority
Part 3: Adam and original sin

Weekly sampler 22

It was a week of celebration and remembrance. There was a major birthday. And celebrations of that day of the first fruits of bigger things, in unlikely places like Florida and Arizona. It's all very exciting.

1. So... you're tired of reading about why Darwin is [God/Satan/Abe Lincoln/Howard Stern] or whether Darwinism is [Nazism/Atheism/True religion/ID codeword]. You'd rather read about what evolutionary biologists are doing today, and what real scientists think of Darwin and his ideas, but you don't have access to most academic journals. Take heart! There are some very good free resources that have been posted in celebration of Jason Varitek's signing, and here are some that I think are worth a visit:

• An entire issue of Heredity devoted to the topic of speciation
• A section of Current Biology devoted to reflections of various scientists upon reading (or perhaps re-reading) the Origin
• A series of very nice posts on evolutionary biology at Not Exactly Rocket Science, one of the best science blogs out there
• A new issue of Evolution: Education and Outreach, with excellent articles by Ryan Gregory (on artificial selection and domestication) and Michael Majerus (on the peppered moth story), among others. (Professor Majerus died last month; you can read a lot more about him at a tribute page at the University of Cambridge.)
• A special issue of Science devoted to Darwin and speciation, with some features freely available
• A special section at Nature devoted to all things Darwin
• A superb article at National Geographic by David Quammen on Darwin's first fossil clues to common descent

2. Randy Isaac (executive director of the ASA) has been providing reports from the AAAS annual meeting in Chicago, focused on topics of interest to ASA folks. He attended a symposium on human origins and posted comments on the ASA email list.

3. The Vatican will be holding a conference on evolution next month, and reports indicate that ID will get a very critical eye. Via John Farrell.

4. At the end of the month I'll be in Dayton, Tennessee to participate in an interesting Darwin-themed event at Bryan College and to hang with my friend Todd Wood. (Ted Davis is another speaker.) I hope to have a Scopes trial-centered tour as well. And in June I'll be giving a talk in a symposium at the North American Paleontological Convention in Cincinnati. I'll post the abstract here once it's accepted.

5. Siris on why Jerry Coyne should either stick to genetics or take a high school-level philosophy course.

6. More amazing illusions, again at Scientific American and again via Very Short List, but this time we have sculpted illusions of "impossible figures."

7. Gordon Glover has posted some lectures by Dennis Venema at Beyond the Firmament. Dennis is a professor at Trinity Western University in British Columbia and a fellow evolutionary creationist and ID skeptic.

Kill Darwin?

Today's Science Times, oddly enough, is devoted to articles on evolution and Darwin. Included is an essay by Carl Safina, "Darwinism Must Die So That Evolution May Live." Safina's basic point is that Darwinism as an -ism is a hindrance to scientific thought and – worse – a source of strength for intelligent design creationism.


I think he's right about that. But I think he's wrong about a lot more, and so does PZ, who documents a set of errors in a post on the Panda's Thumb that expresses what I disliked about the essay. I'd like to zoom in on one particular thing I really didn't like about Safina's essay: the suggestion that scientists are "propounding Darwinism":

By propounding “Darwinism,” even scientists and science writers perpetuate an impression that evolution is about one man, one book, one “theory.”

Science writers, I'll readily grant, "propound Darwinism," though I suspect that the most abundant and profligate users of the term are the purveyors of intelligent design creationism. But to what extent to scientists do this?

Well, let's have a look. I searched PubMed (articles in English only) for the use of terms that would refer to Darwin's concept of natural selection. In one search, I found entries that include the string "natural selection" and in another search I found entries that include "evolution" and "selection" but not "natural selection." The number of hits (20,109) would have been bigger if I had looked for entries including "positive selection," "purifying selection," "evolutionary adaptation," and so on. But there it is: more than 20,000 articles in the scientific literature that make reference to natural selection in some way. Then I searched for "darwinian" (1143 hits) and "darwinism" (204 hits). I put them together, because I'm a generous guy. Here's a nice little graph of the results:

  The "cult of Darwinism" is an invention of propagandists who are smart enough to know that a frontal assault on evolutionary science is a suicide mission. I concur with the multiple commenters on the essay at the Times' site when they refer to this aspect of the essay as a strawman. Safina made some good points about the equating of Darwin and evolution. But he's addressing the wrong audience. Scientists know that's a mistake, and creationists know it's not true. Scientists don't say it. Creationists do.

Mendel's Garden, 28th Edition

Hello and welcome to the 28th edition of the genetics blog carnival known as Mendel's Garden, where we celebrate blogging on topics related to anything touching on what Mendel discovered (or thought he discovered).

While reading these interesting and informative pieces, please think about work that should be featured in a future edition and/or blogs (like yours) that would serve well as future hosts.

So do tomato seeds get you excited? No? Oh. Well, they should, if you're at all interested in evolutionary genetics. Michael White at Adaptive Complexity explores some new findings in which evolutionary changes in seed size in tomatoes are explained to a large extent by variation in a single gene, pinpointed through the use of standard genetic crosses. He summarizes the work as "a clear case of natural genetic variation controlling the size of seeds, variation for evolution (or plant breeders) to work on when larger or smaller seed sizes are needed to adapt to a new environment." Not peas, but close. Mendel would be proud.

"Mendel would be proud" happens to be the title of a post by Michael at Ricochet Science, pointing to a new educational site which he hopes will help students and laypersons learn genetics.

Ouroboros describes experiments on an interesting DNA repair enzyme called Ercc1. One might think that deletion of the gene encoding this protein (it controls nucleotide excision repair) would be a Bad Thing, but in fact mice that have been so altered are strikingly cancer-resistant. And there's more, but you'll have to check out the excellent Ouroboros blog (focused on aging and related biology) yourself.

At the Spittoon, Erin introduces her post entitled "Miss Con-GENE-iality" with this teaser: "If Facebook is starting to take over your life, maybe your genes are partly to blame." The subject is heritability of various aspects of social connectedness, and instead of whining "I could quit Facebook anytime I want" just go read about these new genetic analyses of our social behavior.

On a more serious note, Razib at Gene Expression explores the genetics that might underlie the interesting case of Sandra Laing, a woman born to apparently white parents but who appeared to be "of a different race." And in South Africa. For more on the genetics of human appearance, see the Eye on DNA interview with Dr. Tzung-Fu Hsieh, developer of a test for the red hair gene.

Oh, and before you give your credit card number to a personal genomics outfit, spend some time at Genetic Future – Daniel notes when a company is charging too much, and comments on some recent remarks by Francis Collins on the future of "consumer genetics."

Organic transgenic food might sound like an oxymoron, but Anastasia at Genetic Maize explains why it's not and introduces the new word for such methods: orgenic.

Jonathan Eisen at The Tree of Life is recruiting people to help with analysis of metagenomic data. Go there to learn more. I forgot to inquire about salary and benefits.

Back to evolutionary genetics: Todd at Evolutionary Novelties reports on an extraordinary example of evolutionary convergence, involving proteins called opsins which are best known for their roles in vision.

Need more evolution (with genetics)? Go read about pink iguanas at Nothing's Shocking. This should get you thinking about speciation, and that means it's time to read about "speciation genes" at Evolving Thoughts. John's not crazy about the term. What a grouch.

And here's a new twist on the whole "species boundary" concept: Ed at Not Exactly Rocket Science writes about a single gene in glowing bacteria that accounts for the ability of the same bacterial species to colonize (in a mutualistic relationship) two completely different organisms (pinecone fish with glowing "headlights" and squid with a luminous "cloaking device"). Now that's cool.

Let's give the Digital Cuttlefish the last word, at least because the blogosphere recently treated us to intensely disturbing images of cuttlefish meeting violent ends. At that little piece of blogospheric heaven, the Digital Cuttlefish reports on the cuttlefish genome project. It's not what you think – it's better.

Thanks for reading, and look for the next edition of Mendel's Garden the first Sunday in March at Biofortified.

Mendel's Garden here this weekend

The 28th edition of Mendel's Garden, a genetics blog carnival, will appear here at Quintessence of Dust on Sunday. Please send submissions, whether you wrote them or not.

Christianity & the Scottish Enlightenment

That's the name of our January term course, a trip to London and Edinburgh to learn about the Scottish Enlightenment and its relationship(s) to Christian belief. We'll be keeping a blog with pictures and reflections. So nothing on QoD till the end of the month.

In the meantime, share Mike Beidler's several minutes of fame. Then maybe read up on experimentally-induced out-of-body experiences. And don't miss Ken Miller's three-part series on the latest crap from the ID movement. And if you live in London or Edinburgh, think about dropping by to say hi. See you in three weeks!

Mendel's Garden #27

Mendel's Garden is a genetics blog carnival overseen by Rich over at evolgen. The new edition is up at Another Blasted Weblog and there's some excellent stuff in there, including some very Mendelian tidbits. Next month's edition will be right here at Quintessence of Dust.

Quintessence of Dust anthologized again

Well, wow, for the second year now one of my posts has been selected for inclusion in the science blogging anthology, The Open Laboratory. Last year it was the teosinte review; this year the honor goes to the post on Darwin's tomatoes. This year's anthology includes 50 blog posts on various scientific topics, and it looks like an excellent collection.

Thanks to Bora for his hard work as editor of the series and to Jennifer Rohn who is editing this year's edition. And thanks to Elsevier, which has granted free permission to reproduce part of a figure from the Current Biology article that I discuss in the post.

Clone wars, or how evolution got a speed limit

The standard simplified narrative of evolutionary adaptation goes something like this. A population of organisms is exposed to a challenge of some kind. Perhaps a new predator has appeared on the scene, or the temperature of the environment has ticked up a degree or two, or the warm little pond is slowly accumulating a toxic chemical. Some of the organisms in the population harbor (or acquire) mutations – so-called beneficial mutations – and these individuals are more successful in the face of the challenge. The population evolves, then, as these beneficial mutations become more common until they are the new status quo. The change is brought about by selection, and the process is called adaptation.

These beneficial mutations, as one might suppose, are quite rare. Most mutations are either harmful to some degree or have little or no effect. Since the good stuff is so hard to come by, it follows that huge populations will be better able to adapt, and will do it faster, because they contain more of the good stuff.

It's a straightforward conclusion, and it's the basis of some recent challenges to evolutionary theory coming from the Intelligent Design movement. But it's mostly wrong. Here's the problem with the simple story.

In a very large population, many beneficial mutations will be present at the same time, in different individuals. When the challenge is presented, these beneficial mutants will compete against each other, and typically one will win. This means that most beneficial mutations – specifically those with small effects – will be erased from the population as it adapts. So, seemingly paradoxically, a very large population doesn't benefit from its bounty of beneficial mutations when it is subjected to an evolutionary challenge. It's as though adaptation has a built-in speed limit in large populations, and the effect has been clearly demonstrated experimentally. It's called clonal interference.

As geneticists examined this phenomenon, it became clear that any attempt to measure beneficial mutation rates would have been influenced, perhaps dramatically, by clonal interference. Such experiments were often done in bacteria, in the huge populations that can be so easily generated in the lab. Analyses in bacteria, published 6 or 7 years ago, had estimated the beneficial mutation rate to be about 10^-8 per organism per generation. (That's 1 per 100 million genomes per generation.) Since the overall mutation rate is estimated to be about 10^-3 per organism (a few per thousand genomes per generation), it was concluded that beneficial mutations are fantastically rare compared to harmful or irrelevant mutations.

Creationists have long emphasized the rarity of beneficial mutations, for obvious reasons. For their part, geneticists knew that clonal interference was obscuring the true rate, but no one knew just what that rate might be. That changed in the summer of 2007, when a group in Portugal (Lília Perfeito and colleagues) published the results of a study [abstract/full-text DOI] designed to directly address the effect of clonal interference on estimates of the beneficial mutation rate. Their cool bacterial system (based on good old E. coli) enabled them to genetically analyze the results of an evolutionary experiment, using techniques similar to those made famous by Richard Lenski and his colleagues at Michigan State University.

In short, Perfeito et al. took populations of bacteria and allowed them to adapt to a new environment for 1000 generations. Then they looked for evidence of a "selective sweep" in which one particular genetic variant (i.e., mutant) has taken over the population (their system was set up to facilitate the identification of these adaptive phenomena). The same system had been used before to estimate the beneficial mutation rate, and had arrived at the minuscule number I mentioned before.

The Portuguese group introduced one simple novelty: they studied adaptation in the typical large populations, but also in moderately-sized populations, and then compared the results. The difference was profound: the beneficial mutation rate in the smaller populations was 1000-fold greater than that in the very large populations. This means that clonal interference in the large populations led to the loss of 99.9% of the beneficial mutations that arose during experimental evolution. And that means that the actual beneficial mutation rate, at least in bacteria, is 1000 times greater than the typically-cited estimates.

Perfeito et al. further exploited their system to measure the fitness of all of the mutant clones that they recovered. They found that evolution in very large populations generally resulted in beneficial mutations with larger beneficial effects. This makes sense: the slightly-beneficial clones were eliminated by competition, so at the end of the process of adaptation, we're mostly left with the more-beneficial mutations.

Now some comments.

1. It might seem at first that the large populations are still better off during adaptation, since they do generate beneficial mutations, and selectively retain the more-beneficial ones. But the claim is not that large populations don't adapt; the point is that the vast majority of possible adaptive trajectories are lost due to competition, such that only the trajectories that begin with a relatively large first step are explored. That's a significant limitation, and quite the opposite of the simplistic models of design proponents like Michael Behe and Hugh Ross. Genetic models have shown that the only way for an asexual population to get around the barrier is to do what Michael Behe claims is almost impossible: to generate multiple mutations in the same organism. And recent experimental results show that this does indeed occur.

2. Since the early days of evolutionary genetics, the genetic benefits of sex have been postulated to include the bringing together of beneficial mutations to create more-fit genetic combinations expeditiously. In 2002, an experimental study validated this conjecture, showing that sexual reproduction circumvents the "speed limit" imposed by clonal interference in large populations, and in 2005 another experimental analysis showed that sex speeds up adaptation in yeast but confers no other obvious advantage. Perfeito et al. identified this connection as a major implication of their own work:

...if there is a chance for recombination, clonal interference will be much lower and organisms will adapt faster. [...] Given our results, we anticipate that clonal interference is important in maintaining sexual reproduction in eukaryotes.

(One of the hallmarks of sexual reproduction, besides fun, is recombination – the active shuffling of genetic material that generates offspring with wholly unique mixtures of genes from mom and dad.) In other words, one of the most important benefits of sexual reproduction – and especially of genetic recombination – is negation of the evolutionary drag of clonal interference.

3. All of the examples I've mentioned here are bacterial or viral. If clonal interference arises merely as a result of large population sizes, then it should be an issue for other populations too. And it is: in last month's issue of Nature Genetics, Kao and Sherlock present a tour de force of experimental evolution in a eukaryote, demonstrating the importance of clonal interference and multiple mutations in yeast cells growing asexually. In their study, they identified each beneficial mutation by sequencing the affected gene. Wow.

Why does all of this matter? Well, because it's cool, that's why. And it does mean that our biological enemies have a lot more adaptive resources than we used to think. Here are the closing comments of Perfeito and colleagues:

...our estimate of U_a implies that 1 in 150 newly arising mutations is beneficial and that 1 in 10 fitness-affecting mutations increases the fitness of the individual carrying it. Hence, an enterobacterium has an enormous potential for adaptation and [this] may help explain how antibiotic resistance and virulence evolve so quickly.

But also: keep clonal interference in mind when you encounter any simple story about evolution and genetics. Evolution isn't impossibly difficult to comprehend, but getting it straight requires just a little more effort (and a whole lot more integrity) than has been demonstrated in recent work by those who just can't believe that it could be true.

Article(s) discussed in this post:
L. Perfeito, L. Fernandes, C. Mota, I. Gordo (2007). Adaptive Mutations in Bacteria: High Rate and Small Effects. Science, 317 (5839), 813-815 DOI: 10.1126/science.1142284
K.C. Kao and G. Sherlock (2008). Molecular characterization of clonal interference during adaptive evolution in asexual populations of Saccharomyces cerevisiae. Nature Genetics, 40(12), 1499-1504. DOI: 10.1038/ng.280

Weekly sampler 21

Well, it's the first sampler since June, but I won't try to make up for lost time.

1. Todd Wood has started a blog, and it's excellent. His slant is unique -- he's a young-earth creationist -- but his writing is superb and his expertise in genetics and genomics is world-class. My favorite entry so far: a commentary on a recent report describing genetic variation among humans. The most recent post deals with the principle of accommodation and one of its Enlightenment defenders, one John Wilkins. Todd hasn't activated comments, so expect a journal and not a conversation. But have a look, and consider the gigantic difference between Todd's work and Mike Behe's. There's just no comparison, and Todd is an example of why one should not grant respect based solely on someone's willingness to accept an ancient universe or universal common descent.

2. Okay, best segue ever. Speaking of John Wilkins, Evolving Thoughts (a blog at ScienceBlogs run by a philosopher of biology) has some very interesting recent posts defending "theistic evolutionists" like me. Back in September, he discussed "Darwin, God and chance" and concluded:

Why does this matter beyond a bit of mental gymnastics, especially since I am not a theist? Well it has one rather significant implication: it means that those who criticise theistic evolutionists (like Asa Gray) for being inconsistent or incoherent are wrong: it is entirely possible to hold that God is not interventionist, and yet hold that God desired the outcomes, or some outcomes, of the world as created. In simpler terms, there's nothing formally wrong with believing the two following things: 1, that God made the world according to a design or desired goal or set of goals; and 2, that everything that occurs, occurs according to the laws of nature (secondary causes). In other words, it suggests that natural selection is quite consistent with theism, solving a problem I discussed earlier.

Read the whole post to see how he arrived at this conclusion, and don't miss the work of his collaborator, one Phil Dowe. More recently, Wilkins has summarized the "theistic evolution" position as he sees it, and reiterated his contention that the position is not incoherent. (Well, duh, but there are plenty of axe-grinding nitwits who assert just that.) I'll discuss these ideas in a separate post soon; in the meantime, pay Wilkins a visit.

3. Steve Martin's blog An Evangelical Dialogue on Evolution has become the blogospheric world headquarters for multilateral discussion of evangelical approaches to the theological understanding of evolution. The most recent series tackled questions of evolution and original sin, centered on an article by George Murphy and featuring responses by Terry Gray, Denis Lamoureux and David Congdon. Congdon's blog, The Fire and the Rose, is one of my favorites.

Left, the human eye as sketched by Descartes. Right, the eye of a fruit fly as revealed by scanning electron microscopy. Courtesy of Wellcome Images, Creative Commons license.

4. The most recent issue of Evolution: Education and Outreach is devoted to the evolution of eyes. And it's all free. Includes an introduction by Ryan Gregory, who also points us to an issue of The Lancet that focuses on evolution. Sheesh, is there some kind of anniversary coming up? :-)

5. Illusions of various kinds are something of a hobby of mine. Hence my interest in an online collection of kinetic optical illusions at Scientific American (meaning that the images produce an illusion of movement). Something else that's cool about the collection: some of the illusions were created (or discovered) by Donald MacKay, a Christian neuroscientist who has influenced me and many of my colleagues through his vigorous and uncompromising approach to the relationship between science and Christian faith. (We read part of his Science, Chance and Providence in our randomness reading group.) Make sure you look at the third image -- it's the infamous Enigma illusion.

6. Here's another kind of illusion that is interesting and informative: synesthesia, in which a perception (such as smell or color) becomes associated with a seemingly unrelated experience (a number or a different sensation). V.S. Ramachandran devoted one of his Reith Lectures to this phenomenon, which he described as "mingling of the senses." A new report describes a new version: touch-emotion synesthesia, in which certain textures evoke particular emotions. The proposed explanation for how these peculiarities is worth a look, too.

7. Using bumps in the road to make music. It'll be a clue in National Treasure 3, you just wait. Note that this link comes courtesy of Very Short List, which is a delight.

8. Deb and Loran Haarsma's excellent book Origins got a nice review at the Reports of the NCSE. I'll write one of my own sometime this spring. When the next issue of RNCSE goes online, I hope it will include my review of Gordon Glover's Beyond the Firmament.

9. The most recent (January 2009) issue of Scientific American is all about evolution. Larry Moran has some typically excellent comments over at Sandwalk, addressing pop evolutionary psychology [gag], testing natural selection, and why everyone should learn evolution.

10. Now off to enjoy one of our family's holiday traditions, this time with a mix of Scotch and rum.