At the gates of lilliput.

Does Intelligent Design Deserve Academic Freedom?

Casey Luskin June 19, 2015 4:37 AM

Over at The Conversation, Peter Ellerton rightly points out that "How a debate is framed can change the point at issue." Ellerton, who is Lecturer in Critical Thinking at the University of Queensland, uses intelligent design as an example of how framing can affect the outcome of an argument:

Realise, for example, that the point of not teaching Intelligent Design in science classes is one of quality control, not of academic freedom.

Now Professor Ellerton is himself an expert in framing issues so he can win a debate. Thus, he has tried to frame the intelligent design issue in a way that makes it look like ID proponents don't care about establishing the "quality" of our arguments, and that we argue that ID may be taught only on the basis of "academic freedom." This makes us unreasonable and unconcerned about academic concerns. But he created this framing so he could win the debate; his framing is not accurate at all.

Before going further, let's note that leading groups like Discovery Institute aren't trying to push ID into public schools, and in fact we oppose attempts to do so. That isn't because we think ID lacks "quality" but rather because critics are so intolerant of ID that when it gets promoted in public schools, it results in politicization that impedes ID proponents from making their case in the academy. It's that scientific dialogue that takes priority.

That brings us to Ellerton's argument. When you're trying to decide whether to teach a concept, both academic freedom and quality control come into play. Despite Ellerton's simplistic and self-serving framing, it's not just one or the other.

Now there's always freedom to teach views that everyone agrees with. Thus, academic freedom basically means freedom to teach unpopular or controversial viewpoints that are also academically rigorous. Here's how the American Association of University Professors (AAUP) puts it:

Teachers are entitled to freedom in the classroom in discussing their subject, but they should be careful not to introduce into their teaching controversial matter which has no relation to their subject. ...

The intent of this statement is not to discourage what is "controversial." Controversy is at the heart of the free academic inquiry which the entire statement is designed to foster. The passage serves to underscore the need for teachers to avoid persistently intruding material which has no relation to their subject. [Emphasis added.]

Further elaborating on the meaning of academic freedom, the AAUP has stated:

It is not indoctrination when, as a result of their research and study, instructors assert to their students that in their view particular propositions are true, even if these propositions are controversial within a discipline. It is not indoctrination for an economist to say to his students that in his view the creation of markets is the most effective means for promoting growth in underdeveloped nations, or for a biologist to assert her belief that evolution occurs through punctuated equilibriums rather than through continuous processes. ...

Indoctrination occurs only when instructors dogmatically insist on the truth of such propositions by refusing to accord their students the opportunity to contest them. Vigorously to assert a proposition or a viewpoint, however controversial, is to engage in argumentation and discussion-an engagement that lies at the core of academic freedom. Such engagement is essential if students are to acquire skills of critical independence. The essence of higher education does not lie in the passive transmission of knowledge but in the inculcation of a mature independence of mind.

"Freedom in the classroom" is ultimately connected to freedom of research and publication. Freedom of research and publication is grounded in the exercise of professional expertise. Investigators are held to professional standards so that the modern university can serve as "an intellectual experiment station, where new ideas may germinate and where their fruit, though still distasteful to the community as a whole, may be allowed to ripen until finally, perchance, it may become part of the accepted intellectual food of the nation or of the world." Academic freedom therefore includes the freedom to publish research results on controversial questions of public policy. A faculty committee at the University of Montana put it well in 1918:

If professors of economics and politics can discuss none of these questions, their departments should not be permitted to continue in the University, for the very fact that we have men employed in these subjects implies that they must make a study of them and give the result of their investigations to the people of the state. It does not follow that their conclusions must be accepted, for the opinions of members of the faculty are worthy of consideration only so far as they are supported by indisputable facts and sound logic. In case their arguments are weak, the weakness can be detected and exposed.

It follows that if an instructor has formed an opinion on a controversial question in adherence to scholarly standards of professional care, it is as much an exercise of academic freedom to test those opinions before students as it is to present them to the public at large. [Emphasis added; internal citations omitted.]

The last sentence is a crucial example of balancing the issues of academic freedom and quality control. It's not appropriate to insert just any old idea into the classroom. But when an idea meets scholarly standards of professional care, it's acceptable to discuss even if it is controversial. That's academic freedom.

So what happens when a professor wants to discuss a highly controversial scientific idea that:

• Uses the scientific method to make its claims,
• Is backed by credible scientists,
• Is supported by credible peer-reviewed scientific publications,
• And uses arguments that stand up to scrutiny, and are backed by evidence?

Such an idea meets scholarly standards of professional care, and deserves academic freedom. Then what about ID? The theory of intelligent design:

• Uses the scientific method to make its claims,
• Is backed by credible scientists,
• Is supported by credible peer-reviewed scientific publications,
• And uses arguments that stand up to scrutiny, and are backed by evidence.

Though controversial, ID meets scholarly standards of professional care and thus deserves academic freedom. It's really quite simple.

Yet we have scholars like Dr. Ellerton asserting that ID fails the test of "quality control" and does not deserve academic freedom. Where exactly is the refutation of ID or the demonstration that it doesn't use the scientific method, that it isn't backed by credible scientists, that it isn't supported in peer-reviewed publications, or that its arguments don't stand up to scrutiny? Ellerton doesn't tell us.

He's not alone. On the contrary, some of the most prominent critics of intelligent design in the scientific and academic community take the same approach: they declare ID devoid of evidential backing without any serious examination of the evidence.

For example, in 2008, the U.S. National Academy of Sciences (NAS) issued a statement declaring that ID "is not supported by scientific evidence" and "[t]here is no scientific controversy about the basic facts of evolution," because evolution is "so well established that no new evidence is likely to alter" it. But the NAS's critique misrepresented the meaning of ID, and included a highly inaccurate discussion of the scientific evidence.

In 2002, the American Association for the Advancement of Science (AAAS) adopted a resolution and issued a press release declaring that the "ID movement has failed to offer credible scientific evidence to support their claim." But they offered no discussion of the actual evidence for ID and why it supposedly isn't "credible." John West found that AAAS "board members voted to brand intelligent design as unscientific without actually reading for themselves the academic books and articles by scientists proposing the theory."

Opponents of ID like Ellerton may rely on blanket statements like this as if they demonstrate that ID has been rejected by the scientific community. However, what these statements actually document is that much opposition to ID is not scientific in nature but political, and is based upon fundamental misunderstandings and misrepresentations of ID. After all, since when do leading scientific organizations issue press releases and edicts against an idea?

Additionally, consider the NAS's statement that ID "is not supported by scientific evidence" and "[t]here is no scientific controversy about the basic facts of evolution." Or consider the AAAS's statement that its members should "understand the inappropriateness of 'intelligent design theory.'" Now imagine you are a biologist who supports ID and holds fundamental doubts about Darwinism, but you see the two most influential science organizations in the U.S. asserting that your views are not only wrong, but beyond consideration. Does that make you feel you have the freedom to express your views in the laboratory, the classroom, or in scientific journals, even if those views meet scholarly standards of professional care? Certainly not.

Indeed, even groups like the AAUP -- which are supposed to defend academic freedom -- go on witch hunts against ID proponents, wrongly implying that particular ID proponents are teaching ID in the classroom and preemptively declaring that ID doesn't deserve academic freedom.

Given that ID does meet scholarly standards of professional care, the issuereally is about academic freedom. Why do elite intellectual guardians of academic freedom and scientific truth declare the debate about ID to be over, when they haven't even engaged what ID proponents actually say? We still await serious critics who will successfully tell us in detail how our arguments and evidence go wrong. Instead, we typically see critics who just declare ID is wrong, and tell us to be silent.

The halo slips

Unprecedented Rash of Retractions in Science Journals Is Excellent News

David Klinghoffer June 18, 2015 3:27 AM

If I'm right that "science abuse" is the correct metaphor for what you see across a spectrum of areas of controversy -- that is, the unjustified use of science as a shortcut to advance a favored non-scientific agenda -- then the encouraging flip side of the phenomenon is the unprecedented rash of retractions in science journals.

Science is in the process of being stripped of an illusion that once clothed it. It turns out to be a normal field of human intellectual endeavor, rather than a source of private revelation to an elite professional guild and their media worshippers.

A New York Times story summarizes:

The crimes and misdemeanors of science used to be handled mostly in-house, with a private word at the faculty club, barbed questions at a conference, maybe a quiet dismissal. On the rare occasion when a journal publicly retracted a study, it typically did so in a cryptic footnote. Few were the wiser; many retracted studies have been cited as legitimate evidence by others years after the fact.

But that gentlemen's world has all but evaporated, as a remarkable series of events last month demonstrated. In mid-May, after two graduate students raised questions about a widely reported study on how political canvassing affects opinions ofsame-sex marriage, editors at the journal Science, where the study was published, began to investigate. What followed was a frenzy of second-guessing, accusations and commentary from all corners of the Internet: "Retraction" as serial drama, rather than footnote. Science officially pulled the paper, by Michael LaCour of the University of California, Los Angeles, and Donald Green of Columbia, on May 28, because of concerns about Mr. LaCour's data.

"Until recently it was unusual for us to report on studies that were not yet retracted," said Dr. Ivan Oransky, an editor of the blogRetraction Watch, the first news media outlet to report that the study had been challenged. But new technology and a push for transparency from younger scientists have changed that, he said. "We have more tips than we can handle."

The case has played out against an increase in retractions that has alarmed many journal editors and authors. Scientists in fields as diverse as neurobiology, anesthesia and economics are debating how to reduce misconduct, without creating a police-state mentality that undermines creativity and collaboration.

Scientists used to be regarded in the same awed, somewhat precious light that physicians and clergy also once were. What happened with doctors is the Internet, so that everyone now feels entitled verging obliged to second guess your medical treatment -- the patient as perpetual backseat driver. What happened with clergy is, of course, the plague of sexual abuse and other leadership scandals across the spectrum of faiths and denominations.

Much the same is happening with science, encouraging the skepticism (on evolution and climate, notably) that predated the drumbeat of retractions. Scientists, it turns out, are not reverend priests in a secular church. Or no, strike that, they are very much like priests, pastors, and rabbis, and doctors, lawyers, accountants, and engineers -- bright men and women with a gift that's of value in their field, but otherwise subject to all the temptations that the rest of us are. In other words, not special.

It's been our goal to see neo-Darwinian theory treated as a normal scientific idea, which is to say a normal human idea, subject to doubt, criticism, and question, not walled off from it. The seething agitation in science journals is helping to advance that aim. It's excellent news!

A line in the sand XII

Southern Baptists: Supreme Court is not final authority on gay marriage

The president of the Southern Baptist Convention has a message regarding the looming Supreme Court decision on same-sex marriage: We will not obey.

“The Supreme Court of the United States is not the final authority nor is the culture itself,” declared Ronnie Floyd, the elected leader of the nation’s largest Protestant denomination. “The Bible is God’s final authority about marriage and on this book we stand.”

Dr. Floyd’s powerful and provocative comments were met with thunderous applause and standing ovations from thousands of Southern Baptist messengers meeting in Columbus, Ohio.

While some evangelicals may be bowing down to the deception of the inclusiveness of same-sex marriage, we will not bow down nor will we be silent,” Floyd declared in a fiery speech on Tuesday. “We do not need to redefine what God Himself has defined already.”

And from there Dr. Floyd went to where few prominent pastors have gone before – a Supreme Court showdown.

The issue facing Southern Baptists is one that will face every person of faith in the United States – do you follow God or the government?

“America – we stand believing that marriage is the uniting of one man and one woman in covenant commitment for a lifetime,” he said in a thundering speech. “We have believed this and do believe this and will continue to believe this as a convention of churches. We stand for biblical and traditional marriage.”

Dr. Floyd reminded the gathering of something German theologian Dietrich Bonhoeffer once said: “Silence in the face of evil is itself evil: God will not hold us guiltless. Not to speak is to speak. Not to act is to act.”

“This is a Bonhoeffer moment for every pastor in the United States,” Floyd said, warning ministers that the time has come for every minister to stand strongly and clearly – regardless of the cost.

“That’s what Bonhoeffer did,” he said.

The pending decision over gay marriage weighed heavily on the minds of many Southern Baptists and messengers will consider a resolution calling on all Christians to stand firm on the biblical definition of marriage.

“Resolved, that Southern Baptists recognize that no governing institution has the authority to negate or usurp God’s definition of marriage; and be it further resolved no matter how the Supreme Court rules, the Southern Baptist Convention reaffirms its unwavering commitment to its doctrinal and public beliefs concerning marriage,” the resolution reads in part.

Evangelical Christians across America fear that a decision legalizing same-sex marriage will have a devastating impact on religious liberty.

A growing number of Christians have already faced persecution because of their objections to gay marriage. Public workers have lost their jobs, private business owners have been slapped with lawsuits and complaints and private citizens have been bullied and harassed for signing pro-traditional marriage petitions.

It’s not exactly clear how the Southern Baptist Convention’s defiance will manifest itself --- but Floyd revealed his personal plan.

“I declare to everyone today as a minister of the Gospel – I will not officiate over any same-sex unions or same-sex marriage ceremonies,” he said. “I completely refuse.”

Dr. Floyd stood resolute – ready to face of what I am sure will be national attacks from intolerant bullies and the radical speech police. There is no doubt he will be called a homophobic bigot. I’m sure some will label his remarks as hate speech.

I urge you to ignore them and truly listen to this brave man of God’s words – his call to “love and respect those who do not agree with us.”

“And while we affirm our love for all people, including those struggling with same-sex attraction, we cannot and will not affirm any behavior that deviates from God’s design for marriage,” he said.

The issue facing Southern Baptists is one that will face every person of faith in the United States – do you follow God or the government?

“Our first commitment is to God and His Word – nothing else and no one else,” Dr. Floyd said matter-of-factly.

Amen, sir. Amen.

Todd Starnes is host of Fox News & Commentary, heard on hundreds of radio stations. His latest book is "God Less America: Real Stories From the Front Lines of the Attack on Traditional Values." Follow Todd on Twitter@ToddStarnes and find him on Facebook. 

Darwinism vs. the real world.

Cardiovascular Function: Sodium's Real Life Consequences

Howard Glicksman June 16, 2015 12:51 PM

Editor's note: Physicians have a special place among the thinkers who have elaborated the argument for intelligent design. Perhaps that's because, more than evolutionary biologists, they are familiar with the challenges of maintaining a functioning complex system, the human body. With that in mind, Evolution News & Views is delighted to present this series, "The Designed Body." Dr. Glicksman practices palliative medicine for a hospice organization.

My last two articles in this series showed that when it comes to sodium and the laws of nature, the body has to take control to follow the rules. It uses sensors to detect wall motion in the blood vessels of the kidneys and the atria of the heart, which reflect the blood volume and sodium content of the body. In response to what they detect, these sensory cells send out hormones called renin and ANP (Atrial Natriuretic Peptide) respectively. The more wall motion, indicating more blood volume, the less renin and the more ANP is released. This, in turn, decreases wall motion, indicating less blood volume, releasing more renin and less ANP.

Renin eventually causes the formation of angiotensin II, which tells the body to take in salt and, through an adrenal hormone called aldosterone, tells the kidneys to hold onto more sodium. In contrast, ANP reduces the desire for salt, blocks the release of renin and aldosterone, and tells the kidneys to release more sodium into the urine. The effects of renin and ANP counter each other to help the body control its sodium content. How does all of this work in real life?

Evolutionary biologists hypothesize about how such irreducibly complex systems could have come about. But anyone who deals with keeping people alive must consider in very practical terms how the laws of nature affect the functional capacity of these systems. It's like trying to imagine how the Saturn V rocket may have come into being without accounting for the energy its propellants would have needed to generate to overcome the gravitational pull of the earth and launch Apollo 11 into space. When it comes to a functional capacity that allows for life, real numbers have real consequences.

Since the body is always losing sodium through the gastrointestinal system, perspiration, and urine formation, one way for it to try to control its sodium content is to take in sodium (table salt). The gastrointestinal system readily absorbs all of the sodium it receives independent of the body's actual needs. But how much sodium is enough and what happens if you don't take in enough or you take in too much? Do you think our earliest ancestors were able to make these determinations and do what was needed to stay alive? Did they perhaps read the sodium content off the nutrition facts label of their favorite packaged foods?

The minimum daily amount of sodium needed is about 500 mg but most people take in about 3,000 to 4,000 mg per day. So how the does the body deal with the excess?

In reality, it is the kidneys that control the body's sodium content. Every hour, they filter 7.5 liters of fluid out of the bloodstream, which represents about one-sixth of the body's total water content. But because the plasma has such a high Na⁺ ion concentration, in that hour it also filters out about one-half of the body's total sodium content. I noted in a previous article that if the kidneys couldn't take back any of the water they filter, the body would die in about 90 minutes. But if they couldn't take back any of the sodium they filter, it would die in just 30 minutes.

The tubules in the kidneys automatically take back about 85 percent of the sodium they filter. But that still leaves the remaining 15 percent to deal with. Without aldosterone to tell them to bring most of it back into the body, it would only take four hours for sodium to reach critical levels.

In fact, clinical experience shows that the total absence of aldosterone is incompatible with life. The combined effects of aldosterone and ANP tell the kidneys to bring back about 99.5 percent of the sodium they filter so life can continue. The kidneys' control of the water and sodium content of the body results in a normal Na⁺ ion level in the blood of about 135-145 units. It appears that the system in the body that uses sensors and hormones with their specific receptors to control its sodium really knows what it's doing.

Na⁺ ion level in the blood above 170 units or below 100 units is fatal. However, it's important to keep in mind that, since water follows Na⁺ ions in the body, the Na⁺ ion concentration is directly related to the total water content. Independent of the body's total sodium, if the total water content drops too much, then the Na⁺ ion concentration will rise. If the total water content rises too much, the Na⁺ ion concentration will fall.

This means that the body could have too much sodium, but if it also has too much water, the Na⁺ ion concentration will often drop. Likewise, the body could have too little sodium, but if the body has also lost too much water, the Na⁺ ion concentration can actually rise. Although rare conditions of too little or too much aldosterone can lead to life-threatening chemical imbalances, the more common causes of serious changes in the Na⁺ ion concentration are usually related to the total water content of the body, not the sodium content.

Life-threateningly high Na⁺ ion levels, usually above 170 units, are often due to dehydration. When dehydration occurs, the body has lost too much water and the cells don't have enough to maintain their proper chemical concentration and volume. There is usually a serious drop in blood volume and blood pressure which leads to poor blood flow to the tissues and cell death.

Conversely, life-threateningly low Na⁺ ion levels, usually below 100 units, are due to the body having too much water. As I have noted before, this not uncommon condition is usually due to excessive ADH activity, which makes the body hold on to too much water. In this setting, the excess water will naturally move, by osmosis, from the extracellular fluid into the cells. If this takes place too rapidly in the brain, it causes confusion, coma, and even death.

When it comes to explaining how human life came into being, it's important to remember that it would have been impossible without the presence of all of the parts needed to control sodium. As Michael Behe would say, the system the body uses to control its sodium is irreducibly complex. So, to begin with, evolutionary biology first needs to explain how all of these parts came together as a functioning system.

However, as we've seen, when it comes to life and death, real numbers have real consequences. The mere presence of sensory receptors in the kidneys and atria, and the production of hormones like angiotensin II, aldosterone, and ADH, with their specific receptors, is not enough to explain how the body controls its sodium. Each component has to do the right thing well enough to keep the Na⁺ ion concentration in the blood within the right range.

Irreducible complexity is a good indicator of intelligent design, but when it comes to life and death and the laws of nature, there must also be natural survival capacity. By this I mean that the system must know what is needed to survive, given the laws of nature, and then do it naturally. Any theory that tries to explain how life came into being must address not only how it looks, which is all that evolutionary biology tries to do, but also how it works to stay alive.

Now that you understand how the body controls its water and sodium content, it's time to look at another very important chemical for cardiovascular function. When the blood level of potassium rises too high or drops too low it can cause serious neuromuscular and heart problems. That's what we'll discuss next time.

Darwinism,uniformitarianism's fair weather friend.

Is Evolution True? Laying Out the Logic

Ann Gauger December 5, 2014 3:32 AM |

Monday we published a paper in the journal BIO-Complexity demonstrating that enzymes can't evolve genuinely new functions by unguided means. We argue that design by a very sophisticated intelligent agent is the best explanation for their origin. I want to take some time to lay out our argument against Darwinian evolution and for intelligent design. It's important, because it reveals the logical fallacy in most evolutionary thinking.

Just to give an example of the thinking of ID critics, here is a passage from one of the references in our paper (Kherhonsky et al. (2006) Enzyme promiscuity: Evolutionary and mechanistic aspects. Current Opinion in Chemical Biology 10:498-508):

An oft-forgotten essence of Darwinian processes is that they occur gradually, while maintaining organism fitness throughout. Consequently, a reasonable assumption is that, ever since the emergence of the primordial living forms, very little novelty has evolved at the molecular level. Rather, existing genes were modified, or tinkered with', to generate new protein structures and functions that are related to those of their ancestors. Unlike 'out of the blue' scenarios advocated by the 'intelligent design' school, 'tinkering' scenaoirios depend on the availability of evolutionary starting points. The hypothesis that the broad specificity, or promiscuous functions, of existing enzymes provide these starting points was first formalized by Jensen in a review that has inspired many. Jensen proposed that, in contrast to modern enzymes, primitive enzymes possessed very broad specificities. This catalytic versatility enabled fewer enzymes to perform the multitude of functions that was necessary to maintain ancestral organisms. Duplication of genes and divergence led to specialized genes and increased metabolic efficiency. Since Jensen, the structures of >30,000 proteins, and the sequences of hundreds of thousands, have taught us that these processes led to the creation of enzyme families and superfamilies. The vestiges of these divergence processes are the scaffold and active site architecture shared by all family members [6].

To summarize, the key points of that evolutionary argument are:

1. Evolution is true. That is, enzymes have evolved new functions by a process of random mutation and natural selection.
2. Modern enzymes can't evolve genuinely new functions by random mutation and natural selection but can only tinker with existing functions.
3. Therefore, ancient enzymes must have been different, capable of carrying out a broad range of enzyme activities.
4. Those enzymes underwent duplication and diverged from one another, becoming specialized.
5. How do we know this happened? Because we now see a broad array of specialized enzymes. Evolution is the explanation.

This begs the question of whether evolution is true. It is a circular argument unsubstantiated by the evidence and unfalsifiable. No one can know what ancient enzymes actually looked like, and whether they really had such broad catalytic specificities.

In contrast, our argument is as follows:

1. Is evolution true? Test case: Do enzymes evolve by a process of natural selection and random mutation?
2. Modern enzymes are the only thing we can test.
3. No one knows if ancient enzymes were different. They are lost in the deep past, so claims with regard to their promiscuity or ability to evolve are hypothetical and unfalsifiable.
4. Modern enzymes can't evolve new functions, based on our own experiments. 
5. We haven't tested the universe of modern enzymes, so our result is qualified, but the nine most similar enzymes did not change function.
6. Our estimate for the likely waiting time for an enzyme to evolve a new function is at least 10¹⁵ years.
7. Therefore evolution of enzymes is likely to be impossible.
8. Given the sophistication of enzymes and the way they work together, intelligent design is the best explanation for the origin and current diversity of modern enzymes.

You can read the argument in more detail in our paper.

Notice both arguments agree that modern enzymes can't evolve genuinely new functions. The difference is in the conclusion reached. The evolutionary argument assumes what it concludes -- it's a snake swallowing its tail, and goes nowhere.

In contrast, our argument relies on the uniformitarian principle that underlies all science. What is true for modern enzymes was true for ancient ones as well.

From Wikipedia:

Uniformitarianism is the assumption that the same natural laws and processes that operate in the universe now have always operated in the universe in the past and apply everywhere in the universe. It has included the gradualistic concept that "the present is the key to the past" and is functioning at the same rates. Uniformitarianism has been a key principle of geology and virtually all fields of science.

Gradualism has since been discarded in geology and paleontology, and it is not part of our argument. But the part about processes having always operated in the same way does apply: the evolutionary mechanism has always functioned in the same way, with the same limits, and enzymes have always functioned in the same way, with specific, not promiscuous, catalytic activities.

Now here's the point: anyone who wants to make a special case for the non-uniformitarian origin of enzymes (or animal groups) has created a special category to protect the idea that evolution is true. That idea is apparently untouchable. Any hypothesis about the deep past is accepted if it allows an evolutionary explanation for current diversity, and avoids problems with difficult facts. As a consequence, papers on the origin of life, protein evolution, the origin of animal form, and human origins are full of speculation masked as supporting argument, or even as statements of fact.

But the problem remains. If you start with the assumption that evolution is true, and view all evidence through those glasses, you won't even notice that your argument chases its tail.

File under 'well said'

"The best revenge is to be unlike him who 

performed the injury."

Marcus Aurelius, Meditations

Justice trampled underfoot in Azerbaijan

Jehovah’s Witnesses Call for End to Unjust Detention in Azerbaijan

Jehovah’s Witnesses are calling on international authorities to speak out against the unjust detention of Irina Zakharchenko and Valida Jabrayilova. The two women have been in jail since February 17, 2015, when the Sabail District Court sentenced them to three months of pretrial detention for alleged unauthorized distribution of religious literature. The court recently extended their detention by two more months.

Irina Zakharchenko and Valida Jabrayilova

Peaceable Women Treated as Dangerous Criminals

On December 5, 2014, Ms. Zakharchenko and Ms. Jabrayilova were talking to the residents of an apartment complex in Baku about their Bible-based beliefs when police stopped them. The police released the women after a few hours, but investigators repeatedly summoned them for interrogation. On February 17, 2015, agents of the Ministry of National Security (MNS) unexpectedly brought the women to a closed hearing to be criminally charged. The judge characterized them as a “threat to the public” in order to justify their pretrial detention. Immediately, the MNS jailed the women at its headquarters, pictured above.

Since then, agents of the MNS conducted an extensive search of their homes, confiscating religious literature, personal notebooks, a laptop, and a mobile phone. The court has dismissed every appeal on behalf of the women and refuses to grant house arrest as a replacement for pretrial detention.

Great Concern for Health and Well-Being

Lawyers, family, and friends are concerned for the state of health and well-being of the two women, which they believe is worsening. Ms. Zakharchenko is 55 years old. Doctors classify her as being 80 percent disabled because of severe arthritis and a previous injury to her right leg.

There is particular concern about the women’s emotional health. The MNS allows only their attorneys to visit them. Relatives can forward necessary items such as clothes, medicines, and soap only once a month. In an effort to offer comfort, family members have tried to provide them with a Bible, but the MNS has refused permission.

Will Azerbaijan Move to Show Religious Tolerance?

As part of the investigation of Ms. Zakharchenko and Ms. Jabrayilova, the MNS has summoned and interrogated at least 20 other Witnesses and searched at least ten homes. Additionally, officials representing the MNS, agents of the State Committee for Work with Religious Associations, and the police searched the Kingdom Hall where the women worship.

Since Azerbaijan’s authorities have offered them no alternative, Jehovah’s Witnesses have applied to the Office of the High Commissioner for Human Rights and contacted a number of international organizations to call attention to Azerbaijan’s unjust detention and treatment of Ms. Zakharchenko and Ms. Jabrayilova. Azerbaijan has made international commitments to promote human rights and fundamental freedoms and prides itself in its claim of being a country of religious tolerance.

Jehovah’s Witnesses respectfully request that the government of Azerbaijan honor its human rights obligations and permit the Witnesses to worship in peace. They appeal to the government of Azerbaijan to release these innocent women immediately.

Yet more on the tree of life

Do All Life Forms Fall into a Nested Hierarchy?

 

 

Casey Luskin June 11, 2015 4:57 AM |

 

A biology graduate student and alumnus of our Summer Seminar on Intelligent Design recently contacted me to ask where ID comes down on common descent. I explained to him that in the ID camp, some folks accept common descent while others are skeptical. ID proponents can respectfully disagree on that question (and others too), while agreeing on the powerful evidence for design in nature. But my correspondent asked about an argument in favor of common ancestry he had heard that basically went like this:

All life forms fall within a nested hierarchy. Of the hundreds of thousands of specimens that have been tested, every single one falls within a nested hierarchy, or their evolutionary phylogenetic tree is still unknown and not sequenced yet.

This claim (which he wasn't making, by the way) is far from true. We constantly find organisms that don't fit neatly into a phylogenetic tree. Or, what happens is evolutionary biologists attempt to force-fit organisms into the tree only by invoking processes like convergent evolution and loss of traits. In other words, evolutionary biologists are forced to propose that an organism's traits did not arise through common ancestry, because common ancestry fails to explain the data. Does this mean that evolutionary biologists reject common ancestry when they find data that doesn't fit a tree? No, because they assume common ancestry; they aren't interested in testing it. So when they find data that doesn't fit a tree, they just find ways to force-fit the data into the tree. Here's what's going on:
The first and primary assumption of all evolutionary phylogenetic classification methodologies is that common ancestry is true. This assumption nearly always goes unquestioned, even when the data doesn't support it. As Elliott Sober and Michael Steele explain, "It is a central tenet of modern evolutionary theory that all living things now on earth trace back to a single common ancestor," and "This proposition is central because it is presupposed so widely in evolutionary research." They acknowledge that cladistics assumes that a tree exists, and common ancestry is correct:

Whether one uses cladistic parsimony, distance measures, or maximum likelihood methods, the typical question is which tree is the best one, not whether there is a tree in the first place. (Elliott Sober and Michael Steele, "Testing the Hypothesis of Common Ancestry," Journal of Theoretical Biology 218 (2002): 395-408 (emphasis added).)

Likewise, the assumption is made explicit, and primary, in the UC Berkeley Museum of Paleontology's introductory page on cladistics:

What assumptions do cladists make? There are three basic assumptions in cladistics:
1.Any group of organisms are related by descent from a common ancestor.

One textbook cited by Stephen Meyer in Darwin's Doubt concurs about this assumption:

The key assumption made when constructing a phylogenetic tree from a set of sequences is that they are all derived from a single ancestral sequence, i.e., they are homologous. (Marketa Zvelebil and Jeremy O. Baum, Understanding Bioinformatics (New York: Garland Science, 2008), p. 239.)

Together, these authorities make a crucial point: cladistics and other phylogenetics methods do not demonstrate common ancestry; they assume it. In other words, these methods don't test whether all organisms fit into a nested hierarchy (i.e., phylogenetic tree). Rather, evolutionary systematics assumes that common ancestry is true and therefore all organisms belong within a nested hierarchy, and then it uses methods to force-fit any organism into the tree, even if that organisms has traits that don't fit neatly within the tree. Thus, Michael Syvanen -- a rare evolutionary biologist who is open to the possibility that universal common ancestry is false -- laments the pro-tree biases of treebuilding algorithms:

Because tree analysis tools are used so widely, they tend to introduce a bias into the interpretation of results. Hence, one needs to be continually reminded that submitting multiple sequences (DNA, protein, or other character states) to phylogenetic analysis produces trees because that is the nature of the algorithms used. (Michael Syvanen, "Evolutionary Implications of Horizontal Gene Transfer," Annual Review of Genetics, 46:339-356 (2012) (emphases added).)

Common ancestry, therefore, is a starting assumption about the data -- not a conclusion from it. Another key lesson is this: just because you see evolutionary biologists creating an impressive-looking phylogenetic tree doesn't mean that all of the organisms or their traits shown within that tree fit neatly into a nested hierarchy (i.e., a tree structure). One could cite many examples of organisms that don't fit cleanly into a tree. Here are a few: Sahelanthropus tchadensis is widely touted as a human ancestor that lived about 6-7 million years ago, sometime very soon after the supposed split between the human line and the chimp line. But it's rarely mentioned that this specimen doesn't fit into the standard hominin tree at all. Why? Because it has a flat face, a humanlike quality, which shouldn't exist that far back:

If we accept these as sufficient evidence to classify S. tchadensis as a hominid at the base, or stem, of the modern human clade, then it plays havoc with the tidy model of human origins. Quite simply, a hominid of this age should only just be beginning to show signs of being a hominid. It certainly should not have the face of a hominid less than one-third of its geological age. Also, if it is accepted as a stem hominid, under the tidy model the principle of parsimony dictates that all creatures with more primitive faces (and that is a very long list) would, perforce, have to be excluded from the ancestry of modern humans." (Bernard Wood, "Hominid revelations from Chad," Nature, 418 (July 11, 2002):133-35.)

Because of this, some are skeptical that S. tchadensis belongs on the human line. If that's the case then its flat face represents convergent evolution. And if it is on the human line, then you are forced to propose that later species on the human line lost this trait. Either way, S. tchadensis creates major problems for a nice, neat, nested hierarchy of hominins that is consistent with the chronology of the fossil record. Much further back, there are organisms like Diania, thought to be an early arthropod ancestor from the Cambrian period, but which actually cause huge problems for the arthropod tree:

[W]e should caution that dinocaridids, Diania and other potential stem-arthropods typically express mosaics of arthropod-like characters, which makes resolving a single, simple tree of arthropod origins problematic. Indeed, the position recovered here for Diania between Radiodonta and the ostensibly similar-looking Schinderhannes is surprising. Diania, Schinderhannes and the remaining Arthropoda all share the putative apomorphy of jointed trunk appendages, and yet the trunk limbs of Diania resemble the frontal appendages of Anomalocaris and other radiodontans, which themselves lack trunk limbs entirely. If this is a secondary reduction in fossils like Anomalocaris, then Diania may in fact occupy a more basal position with respect to Radiodonta, Schinderhannes and Arthropoda; a scenario that would be more consistent with their fairly simple body morphology. (Liu et al., "An armoured Cambrian lobopodian from China with arthropod-like appendages," Nature, 470 (February 24, 2011): 526-530 (internal citations omitted).)

The reason the authors talk about "mosaics of arthropod-like characters" is that these organisms don't fit into an orderly, sequential, hierarchical, treelike pattern as predicted by common descent. They present a mishmash of traits, not distributed in a treelike pattern that shows some sequential, hierarchy ordering arthropod traits. This is a famous problem in arthropod evolution, rightly described as a mess. As one paper observes: "Arthropod phylogeny is sometimes presented as an almost hopeless puzzle wherein all possible competing hypotheses have support." That's the opposite of a nested hierarchy. Nor is it just within the Cambrian phyla that we find such an array of phylogenetic misfits. Among the animal phyla more generally, we see traits that make it difficult to create a treelike representation of relationships.
The argument cited by the grad student noted that one reason an organism's classification isn't understood is that "their evolutionary phylogenetic tree is still unknown and not sequenced yet." That's a bit of a rudimentary argument, but it probably means that until we sequence an organism's genome, we don't know where it belongs in the tree of life. But sometimes after we sequence an organism's genome we find that its place in the tree of life is even less clear than it was before.
This is exactly what happened after the comb jelly genome was sequenced. As I wrote last year, comb jellies (phylum ctenophora) have muscles and complex nervous systems, but molecular studies suggest they branch off very close to the base of the animal tree. However, sponges -- which branch off later according to molecular data -- lack such structures. This means that either complex muscle and nervous cells were lost in sponges (even though these are complex, useful traits you'd probably want to keep around) or muscles and brains evolved convergently in later animals. Either way, you're left with a situation where comb jellies don't fit neatly into the animal tree. They show a mosaic of traits that shouldn't be the case under common descent.
Here's one more classic example from the animal phyla: symmetry. Animals can be divided up in many different ways. Some display bilateral symmetry, basically meaning they have a right half and a left half. Such "bilaterian" phyla include vertebrates, arthropods, and mollusks. Others have radial symmetry, where their symmetry is distributed in an essentially circular fashion around a central axis. Phyla with radial symmetry include cnidarians (e.g., jellyfish), ctenophores (comb jellies), and echinoderms (e.g., star fish and sea urchins).
From an evolutionary perspective, you might expect an animal tree to divide up neatly according to whether organisms display bilateral or radial symmetry. Not so. Echinoderms are placed much closer to vertebrates than they are to cnidarians and other phyla with radial symmetry. In fact, in another weird twist, vertebrates (with bilateral symmetry) are thought to be much closer to echinoderms (with radial symmetry) than they are to other bilaterian phyla like the arthropods, mollusks, or annelids. This grouping is made on the basis of early developmental processes. Echinoderms and vertebrates are both deuterostomes, meaning that early in development the first opening in the blastopore becomes the anus rather than the mouth. The upshot is this: animal symmetry is not distributed in a treelike pattern.
Yes, a critic might object that larval stages of echinoderms can have bilateral symmetry. But exactly the same can be said of some cnidarians, which are very far from echinoderms in the animal tree -- showing, again, that symmetry is not distributed in a treelike pattern.
In any case, an evolutionary biologist could decide to group phyla according to early developmental processes, or according to symmetry, and that's fine. If you weight one trait heavily, you'll get one tree. But switch that weight to another trait and you'll get another, conflicting tree. Either way, when you use one character set to create your tree, then the other character set is no longer distributed in a treelike fashion, and vice versa. That's a major problem.
Another good example of an organism whose genome posed problems for phylogenetic classification after it was sequenced is birds. As we reported last December, the sequencing of various bird genomes led to the unexpected conclusion that many types of birds that were previously thought to be closely related -- water birds, birds of prey, and songbirds -- evolved their groups' defining traits convergently. As Nature put it, "the tree of life for birds has been redrawn" by this study. The problem was, once genomic data was sequenced and understood, many basic habits and lifestyles of birds no longer fit into a nested hierarchy.
Again, there are innumerable examples of organismal traits that don't fit into a treelike pattern. But here are two more that came out recently.
In April, Science Daily reported a study that looked at how different marine organisms swim ("Convergent evolution: Diverse sea creatures evolved to reach same swimming solution"). The scientists found that organisms as diverse as cuttlefish (a mollusk), the black ghost knifefish (a vertebrate), and the Persian carpet flatworm (phylum platyhelminthes) all use the same method of swimming:

The ability to move one's body rapidly through water is a key to existence for many species on this blue planet of ours. The Persian carpet flatworm, the cuttlefish and the black ghost knifefish look nothing like each other -- their last common ancestor lived 550 million years ago, before the Cambrian period -- but a new study uses a combination of computer simulations, a robotic fish and video footage of real fish to show that all three aquatic creatures have evolved to swim with elongated fins using the same mechanical motion that optimizes their speed, helping to ensure their survival. These three animals are part of a very diverse group of aquatic animals -- both vertebrate and invertebrate -- that independently arrived at the same solution of how to use their fins to maximize speed. And, remarkably, this so-called "convergent" evolution happened at least eight times across three different phyla, or animal groups, supporting the belief that necessity played a larger role than chance in developing this trait.

Now they are welcome to invoke convergent evolution if they like, but it's striking how each of these widely diverse organisms has a very similar mode of swimming, where the length of one undulation of the animal's fins divided by the average amplitude of the corresponding sideways movement gives you a ratio of about 20. You can see how distantly related (according to the usual evolutionary paradigm) these similar-swimming organisms are by looking at a tree diagram from the original paper. Also in April there were striking reports of a new vegetarian theropod dinosaur that had traits that made it very difficult to classify within the standard dinosaur tree:

Although closely related to the notorious carnivore Tyrannosaurus rex, a new lineage of dinosaur discovered in Chile is proving to be an evolutionary jigsaw puzzle, as it preferred to graze upon plants. Chilesaurus boasted a proportionally small skull, hands with two fingers like Tyrannosaurus rex and feet more akin to primitive long-neck dinosaurs.

Theropods, of course, include the meat eaters Velociraptor and T. rex, yet this species was a vegetarian. It thus poses a severe puzzle for evolutionary classification, as an article in The Guardian acknowledged:

Fossil hunters in Chile have unearthed the remains of a bizarre Jurassic dinosaur that combined a curious mixture of features from different prehistoric animals. The evolutionary muddle of a beast grew to the size of a small horse and was the most abundant animal to be found 145 million years ago, in what is now the Aysén region of Patagonia.

The discovery ranks as one of the most remarkable dinosaur finds of the past 20 years, and promises to cause plenty of headaches for paleontologists hoping to place the animal in the dinosaur family tree.

"I don't know how the evolution of dinosaurs produced this kind of animal, what kind of ecological pressures must have been at work," said Fernando Novas at the Bernardino Rivadavia Natural Sciences Museum in Buenos Aires.

The technical paper in Nature puts it this way:

For a basal tetanuran, Chilesaurus possesses a number of surprisingly plesiomorphic traits on the hindlimbs, especially in the ankle and foot, which resemble basal sauropodomorphs. These features are here considered as secondary reversals that might be related to a less-cursorial mode of locomotion. Furthermore, derived features of the dentary and teeth shared by Chilesaurus, sauropodomorphs and therizinosaurs are interpreted as homoplasies related to herbivorous habits. ... Chilesaurus represents an extreme case of mosaic evolution among dinosaurs, owing to the presence of dental, cranial and postcranial features that are homoplastic with multiple disparate groups. Using quantitative morphospace analysis, we explored morphospace occupation of different skeletal regions in Chilesaurus with respect to a variety of avian and non-avian theropods. This shows that Chilesaurus has a ceratosaur-like axial skeleton, a 'basal tetanuran' forelimb and scapular girdle, a coelurosaur-like pelvis, and a tetanuran-like hindlimb. General ankle and foot construction does not group with any theropod clade, probably as a result of the characters shared by Chilesaurus, sauropodomorphs and herrerasaurids.

Science Daily explained in less technical terms why this species, with its set of traits resembling many different types of dinosaurs, is difficult to classify:

Other features present in very different groups of dinosaurs Chilesaurus adopted were robust forelimbs similar to Jurassic theropods such as Allosaurus, although its hands were provided with two blunt fingers, unlike the sharp claws of fellow theropod Velociraptor. Chilesaurus' pelvic girdle resembles that of the ornithischian dinosaurs, whereas it is actually classified in the other basic dinosaur division -- Saurischia. The different parts of the body of Chilesaurus were adapted to a particular diet and way of life, which was similar to other groups of dinosaurs. As a result of these similar habits, different regions of the body of Chilesaurus evolved resembling those present in other, unrelated groups of dinosaurs, which is a phenomenon called evolutionary convergence.
Chilesaurus represents one of the most extreme cases of mosaic convergent evolution recorded in the history of life. For example, the teeth of Chilesaurus are very similar to those of primitive long-neck dinosaurs because they were selected over millions of years as a result of a similar diet between these two lineages of dinosaurs.
Martín Ezcurra, Researcher, School of Geography, Earth and Environmental Sciences, University of Birmingham said: 'Chilesaurus can be considered a 'platypus' dinosaur because different parts of its body resemble those of other dinosaur groups due to mosaic convergent evolution. In this process, a region or regions of an organism resemble others of unrelated species because of a similar mode of life and evolutionary pressures. Chilesaurus provides a good example of how evolution works in deep time and it is one of the most interesting cases of convergent evolution documented in the history of life.

What we see here is a dino that doesn't fit with the dino tree not just because it's a herbivorous theropod, but also because different parts of its body appear similar to different types of dinosaurs. Through convergent evolution and loss of traits, you can always find a way accommodate such quirky data. However the bottom line is that organisms like these are the opposite of finding "All life forms fall within nested hierarchy." We explain further in our curriculum Discovering Intelligent Design:

You may recall the "main assumption," mentioned at the beginning of the chapter, that Darwinian evolutionists use when constructing trees: similarity implies inheritance from a common ancestor. But what about situations where that assumption is clearly untrue -- i.e., when two organisms share a trait that their supposed common ancestor could not have possessed? A striking example is the [skull] similarity between marsupial and placental "saber-toothed cats," which are classified as very different types of mammals due to their two distinctly different ways of bearing young.
According to current evolutionary theory, the common ancestor of these two cats was a small rodent-like mammal with a very different body plan. Thus, their highly similar skull structures had to develop independently and could not have been inherited from a common ancestor.
Common descent does not explain these similarities. Evolutionists try to explain this evidence by claiming these distinctly different cats evolved the same traits independently through convergent evolution.

Does this sort of data absolutely refute universal common descent? Taken on a case-by-case basis, no of course not, and we're not claiming it does. What it shows, collectively, is that the evolutionary case is a lot weaker than is routinely claimed. We commonly -- if not constantly -- find organisms whose traits don't fit into a hierarchical tree.
I like how we conclude on this topic in Discovering Intelligent Design:

Perhaps the main assumption of phylogenetic trees should be rewritten as: "similarity implies inheritance from a common ancestor, except when it does not." Rather than being a helpful solution for neo-Darwinists, convergent evolution undermines the reasoning used to construct phylogenetic trees.

In fact, maintaining that "All life forms fall within a nested hierarchy" requires you to ignore huge amounts of data. ID proponents who doubt common descent have, I would say, ample reason for doing so.