Researching Creation

January 15, 2010

General / BSG 2010 Conference


The BSG (Creation Biology Study Group) just announced this summer's conference, and opened up for abstract submissions.  Here is the announcement and instructions for abstract submissions.  Abstracts are due April 2.

January 08, 2010

General / Creation Research Society Conference This Summer


The planning for the next Creation Research Society conference is underway.  The current plan is the following:

  • Location: University of South Carolina Lancaster
  • Cook-out planned for evening of July 22nd
  • Main conference July 23-24
  • Optional field trip July 25 to Wood's Bay, with possible aerial viewing option in a small plane
  • Transportation can be arranged from the Charlotte, NC airport
  • Price has not been finalized, but will probably be around $60 for pre-registered attendees

The request for papers has not yet been announced.  I will share it when it happens.


January 07, 2010

Biological Change / Tiktaalik - a journey from evolutionary to creationary points of view


Tiktaalik has dominated a lot of the media discussion about evolution in the last few years.  For those who don't know, Tiktaalik is a fossil "fish-o-pod" found in Canada, that is claimed to be an "intermediate form" between fish and early tetrapods (tetrapods are four-limbed creatures).  In addition, it was claimed that it was in the evolutionary-correct position in the fossil record for the fish-tetrapod transition (late Devonian). 

Now, the basic problem in Tiktaalik is that it isn't "transitional" so much as mosaic - that is, it has features of "earlier" and "later" creatures, but no features that might be considered "in transition".  Each feature that it has, it has fully. This indicates that, if it did "evolve", it did so non-Darwinistically - that is, the information seems to have already been in the gene pool, and was merely activated.  On the other hand, in absense of a mechanism of macroevolution, there is no reason to think that it evolved at all.  And from a flood geology perspective it gets even more interesting, but I'll leave that for the moment.

In addition to all this, there is a certain kind of criticism that emerges from lay people that you don't tend to find among experts.  That criticism is of the form of "is this really all the information there is?  Does it really add up the way you say it does?  Is it not possible that there is other evidence out there that you just haven't found yet - perhaps because you weren't looking for it?"

Now, this kind of criticism is usually just ignored by experts, but I personally think that it is epistemologically valid, and an important part of public discourse.  The fact is, every discipline needs to be confident in its own ability to find truth.  However, equally important, is that the public should not grant each discipline the same amount of credulity that it grants for itself.  A discipline can't go anywhere if it has to spend all its days proving its assumptions.  On the other hand, if you can't prove your assumptions fully, then your findings are not binding on others.  If someone has a larger worldview, then different aspects may be in competition.  Why should a person give up belief X which is important to them and which they believe they hold validly, when they don't agree with the assumptions of contradictory belief Y, especially if it is relatively unimportant to their daily lives?

The reason I say all of this is that, in the case of Tiktaalik, it is the lay criticism that wound up being correct.  Let's look at a new article that came out in Nature.  For those of you who are not nature subscribers, here is a short news article on the subject.

What they found is, according to evolutionary timescales, a full-fledged tetrapod existed about 20 MILLION years prior to Tiktaalik.  While Tiktaalik was a transitional, this thing was fully-tetrapod. So, this blows any story about Tiktaalik and evolution completely out of the water.  Tiktaalik has nothing to do with the evolution of tetrapods, because, if evolution is correct, full-blown tetrapods predated the transitional species by about 20 million years.

It's dangerous to put your faith in circumstantial evidence, because the facts can change that quickly.  Yesterday it was an open-and-shut case for Tiktaalik being found right where it was supposed to be in evolutionary transition.  Today, it is more than 20 million years out-of-date.  I say "more than" because, according to evolutionary theory, the tetrapods would have still required time to evolve before this creature existed.

So here's where it gets really interesting - the new find is footprints.  Here's a few things that don't usually get a large mention in introductory textbooks:

  1. There are large gaps (sometimes a hundred million years) in the fossil record where a given species must have existed but did not leave any fossils.  Two examples are the Wollemi pine and the Coelacanth.  These were last seen in the fossil record 150 and 65 million years ago, respectively, yet they still live today.
  2. Many measures of the fossil record show that it is relatively complete
  3. Most creatures are first known from trace fossils (i.e. footprints or other types of trackways) long before we ever see their body fossils.

The interesting implication of #1 is that there is NO WAY AT ALL to infer from the fossil record how long something has been in existence.  If we can verify that the fossil record can be off 100 million years in one direction, if we assume that the same thing can happen in the other direction, then that means that you have a possible margin of error of about half of the phanerozoic era (the phanerozoic is the complete fossil-bearing section of the fossil record).  How can you possibly have a detailed evolutionary progression when you can have this kind of discrepancy between fossil evidence and reality?  If the best you can do is establish which half of the geologic column they existed in, how good is your data, and how are you going to derive evolutionary expectations from it?

Let's look at the second idea - that the fossil record actually seems complete.  There are many ways of measuring completeness.  The interesting thing is that most of them point to the fossil record being essentially complete, at least to the biological "family" level.  That doesn't mean that we won't find anything new, just that we've probably found more than we haven't.  So, this makes an interesting corrective to the preceding paragraph.  Maybe the completeness of the fossil record gives us confidence that most of the extents of organisms are well-represented in the fossil record, and these two (and some others) are merely anomalies.  That could almost work, except...

Why on earth do trace fossils precede body fossils?  As the Nature article on Tiktaalik points out:

Trace fossils — footprints, trackways or trails — are fascinating but often frustrating sources of information. Body fossils of the track makers almost never occur in the same rock beds, so complicating interpretation.

It is much harder to preserve a trackway than a bone.  So why do we know most organisms by trace fossils before we know them as body fossils, and why are the two rarely found in the same rock beds?

The answer, perhaps, is contained in an old Creation-oriented paper titled Stratigraphic Distribution of Vertebrate Fossil Footprints Compared with Body Fossils

In this paper, Brand and Florence argue that the reason for this is that it evidences fleeing behavior.  The flood didn't happen all at once.  It waxed and waned until it covered the earth, which didn't happen until day 150.  Until then, the increasing floods would still have had tides from the moon, and gone in and out over increasing landmasses.  Therefore, if there is a footprint, it is probably of a living creature, not a drowning one.  If there is a body fossil, it is probably a drowned creature.  So if the waters had temporarily receded, new trackways could be lain.  When the waters come back and deposit a new layer, they are killing off organisms into a different rock bed.

Also, as Kurt Wise has pointed out recently, if the fossil record is of a global flood, we should expect much more completeness than the evolutionists.

In any case, this is getting to be rambling.  My main point is that this new fossil find has very interesting implications for both creationists and evolutionists, and tends to validate thought-patterns of lay critics of evolution.


I wrote this last night but forgot to publish it.   In the meantime, several other people have chimed in on the new tracks:

  • Todd Wood points to another recent article by Kurt Wise in Answers Magazine which visits the ground as Brand and Florence.
  • David Coppedge gives nice pull-quotes from several news sources, and points out that the researchers noted that many tracks in even older sediments may have been misinterpreted, and may be tetrapods as well. One thing that is interesting to note is that these older tracks have been with us the whole time, and the reason they were not interpreted as tetrapods is that tetrapods weren't expected to have been alive at that time.  It is always fascinating the ways that our minds work - in many cases only by believing in the credibility of something beforehand are we able to find the evidence that supports that.
  • Finally, Casey Luskin points out that Neil Shubin has made a whole lot of hoopla about Tiktaalik being in just the right place at just the right time.  This blows Neil's whole theory out of the water, completely.  This whole incident reminds me of a line out of Ocean's 11.  Right after Rusty reveals that Benedict's video surveillance of his own vault is rigged, and he is actually in the middle of being robbed, he says "In this town, your luck can change just that quickly."







January 06, 2010

Geology / Archaeology of Sodom and Gomorrah and Other Videos from Recent Conference Available


The Northwest Creation Network recently published the videos from their 2009 conference on their home page.  There are many good videos in there.  One in particular was Steven Austin's discussion of the archaeology of what he believes to be Sodom and Gomorrah.  I'm going to have to rewatch the video, since I missed a lot while cooking breakfast this morning, but it was fascinating.  Steve has done a lot of work with archaeology of Biblical events, and we reported here on an earlier paper he did on the archaeology/geology of Amos's earthquake. Anyway, all the videos are great and worth watching.

January 06, 2010

Biological Change / ID in Scientific Literature


A recent development has been that some science journals are now publishing papers that deal with Intelligent Design.  Unfortunately, at least so far, they are only looking at the perspectives of the anti-IDists.  Most journals, when someone's idea is specifically being attacked, take the courtesy to alllow that person to respond, but so far that courtesy has not extended to IDists.

Nonetheless, it is interesting that ID has actually moved up the scale to the point where the journals realize that they have to grapple with these subjects at least a little bit.

One example is the Journal of Eukaryotic Microbiology which recently published the paper, "Using Protistan Examples to Dispel the Myths of Intelligent Design".  The paper basically argues against Meyer's use of the Cambrian explosion as a launchpad for ID-based criticism of Darwinian evolution, and Behe's use of chloroquine-resistance for setting the limits of Darwinian evolution.

While the paper brings out several good points, the fact that the problems pointed out were so few and much to the side of the issue is contrasted with the name-calling they engage in, saying that Behe "demonstrates extraordinarily bad scholarship".  

Let me make this clear - NO MATTER WHAT YOUR POSITION IS, BEING WRONG IS NOT EQUIVALENT WITH BAD SCHOLARSHIP.  And there is NOWHERE in the paper where they level any charge against Behe which would be considered bad scholarship.  They showed that there was a paper contraindicative of his findings that was published two years before his book.  So what?  People miss papers all the time, some of theme intentionally so because they are bad.  Sometimes accidentally, considering the massive numbers of papers published every day.  Simply leaving out a paper and disagreeing with people is not bad scholarship.  Nor is publishing in books when a journal won't give you a fair hearing.  In addition, they characterized Behe's detailed responses to criticism as "brushing them off".  There is such a thing as a brush-off response.  Behe's "Waiting Longer for Two Mutations" is no such thing.

It's pretty sad that, rather than arguing over the general thesis of Behe's work - that transformations which require multiple simultaneous amino acid changes are nearly impossible by Darwinian mechanisms - they instead argue over whether chloroquine requires multiple simultaneous mutations.  This is missing the forrest because of the trees.  If their point was to criticize chloroquine-resistance as a base reference for the limits of evolvability, it was a decent paper.  If their point was, instead, to show that the ID project itself is misguided, they showed nothing of the sort.  The fact that they engaged in such namecalling throughout the paper simply made the paper a sad reflection on the state of science today.

The paper deals with other ideas as well, and possibly I will have time later to get into them.
















January 01, 2010

General / The Creation Research Society's Microscopy Laboratory


The Creation Research Society just put out a YouTube video with a bunch of images that they have taken in their microscopy laboratory.  Cool stuff!  I wish the video had a little more explanation attached, but nonetheless it is great-looking stuff.

Creation Research Society Microscopy laboratory video


December 11, 2009

General / DNA and Protein - Quite a Match!


I thought I should alert readers to this essay by Mike Gene about the makeup and interaction of proteins and DNA.  From the essay:

Thus, as a consequence of amino acid structure, proteins will not only form folded structures using the same rules that form the double helix of DNA, , but they will form a cylindrical structure whose appendage (side chains) seem to be well-matched for scanning and binding to the winding major groove along the double helix. That is, the pattern of outreaching side chains can reach into the major groove and interact with the pattern of base-pairs inside the wide crevice of the major groove. But how well matched is the alpha helix and major groove?.... [quoting another source] "the structural coincidence of the alpha helix diameter of 12Å being the same as the width of the major groove in B-form DNA".  Why think it is merely a coincidence that the alpha helix diameter and the width of the major groove are the same? On the contrary, it simply enhances and extends the inherent rationality and complementarity that lies behind these two crucial biological molecules

December 03, 2009

Biological Change / Putting Mutations in Context

Using Creation Theory to Explore Biology


I thought I would direct your attention to my latest paper, Towards a Creationary Classification of Mutations.  The goal of this paper is to get beyond defining whether or not a mutation is beneficial or not, and looking into whether or not the mutation is part of a larger genomic architecture.  I include the outline of an experimental methodology which could be used to evaluate this.  I would love any feedback you have on the paper, especially if you can think of additional criteria to consider, and/or additional experimental methods that could be used to evaluate these criteria.

My hope is to help make Creation a help to biologists doing experimental work, rather than just a claim to be justified.  I believe truly that God is the foundation of knowledge, and that we can put the concepts of creation to work in exploring biology.  So, my hope is to outline ways in which creation can aid in this exploration.

Let me know what you think!

December 02, 2009

Geology / YEC Research at the Geological Society of America


It looks like young-earth creationism made a decent splash at this year's Geological Society of America meeting.  ICR's Steve Austin led a field trip of Mt St Helens (Also, if you're interested, Steve also has a book on Mt. St. Helens).  This is one of many official premeeting field trips, but one of the few which completely filled up.

Here are the presentations that were given by known YEC'ers at the GSA:

Steve Austin wrote up an article at ICR's website which discusses a lot of the events at GSA.  Keep up the good work, guys!

HT to Paul Garner

December 01, 2009

General / Creation and the Fossils, Pt 1

Diversity and Disparity in the Geologic Column


A lot of people have questions regarding the fossil record and how it squares up with creation and evolution.  Terms like "transitional forms" can cause a lot of confusion, primarily because they are used in different ways by different people.  Anyway, I wanted to take this post to look at the fossil record from a high-level view, and point out how this relates to creation and evolution.  This is the first post in a series on this topic.  They will probably build on each other, so it will be a good idea to take them in sequence.

In evolutionary theory, at least with natural selection, the way in which organisms diverge from each other is by gradually accumulating differences. (ref 3)  As more and more differences accumulate between species, they become more different, eventually becoming different genera, then different families, then orders, then classes, then phylums, then kingdoms. (ref 4)

One way of phrasing this is to say "diversity precedes disparity".  That is, as minor differences accumulate (diversity), this will eventually lead to large-scale differences (disparity).  Also, because the evolution is unguided, long periods of time are required to accomplish any major change.

In creation theory, organisms are created according to a basic "kind" (known technically as baramins).  These organisms, being created by God, have built-in mechanisms for adaptation.  Organisms can change rapidly, because the change is directed by internal response mechanisms.

A corresponding way to phrase this is "disparity precedes diversity".  That is, God creates the basic kinds (disparity), which then branch out over time based on specific adaptive needs (diversity).

In evolutionary theory, the geologic column records great ages of time.  In creation theory, the Paleozoic and Mesozoic represent Noah's flood, and the Cenozoic represents historical times after the flood.  In evolutionary theory, only the last bit of the cenozoic represents historical time.

So, with these concepts in mind, let's take a look at the "Cambrian explosion".  The "Cambrian explosion" is a period of time in evolutionary theory where most of the phyla came into the rock record.  In the Cambrian, most phyla are represented.  What does that mean?  Well, whether or not evolutionists can identify supposed ancestors to the Cambrian phyla, the fact is that in the fossil record, diversity did not precede disparity, but rather the opposite - disparity came first.

Compare this to the last few million years of evolutionary time.  How many phyla have come into existence in the last few million years?  None.  How many classes?  None.  How many orders?  None.  How many families?  None.  In the modern period, however, you have an amazing amount of diversity among organisms. (ref 1, ref 2)

So, it seems that there are two problems we can recognize.  The first is that diversity DID NOT precede disparity.  The second is that diversity does not produce disparity!  Take a minute and let that last one soak in.  As I mentioned, we have an incredibly diverse biosphere compared to what the fossil record shows.  Yet, we have no major evolutionary changes occurring within 4 orders of classification in about the same time period as the cambrian explosion.  So, not only does diversity not precede disparity, there is no evidence that diversity could produce disparity if it was there at all.


1) Davison, John A.  An Evolutionary Manifesto.

2) Wilson, E. O.  The Diversity of Life (chapter: Biodiversity Reaches the Peak)

3) Berkeley's Evolution 101:

4) Darwin's Origin of the Species, pgs 90-96.