Tag Archives: Evolutionary Biology

Dawkins…. On Purpose

Dawkins gave a talk that could be criticized as not particularly new, in that his main idea is that human brains are too powerful and adaptable to continue to function primarily within an adaptive program serving as a proper adaptive organ. Instead, human brains think up all sorts of other, rather non-Darwinian things to do. This idea has been explored and talked about in many ways by many people. Kurt Vonegut Jr.’s character in Galapagos repeatedly, in a state of lament, quips “Thanks, Big Brain…” as evidence accumulates that our inevitable march towards extinction is primarily a function of that particular organ’s activities. People have talked about the brain as the outcome of runaway sexual selection. Evolutionary psychologists have talked about the evolution of strong preferences and desires, which in turn play out i a rather Frankensteinian fashion in a world where those desires can be met with ease instead of hard work and much time. Thus, we have evolved a yearning for rare nutrients such as salt and fat, and then we invented the ability to have unlimited access to salt and fat. So now, in a ‘civilized world’, it is the salt and fat that kills us incited of the predator or the con-specific competitor over access to some food or some sexual opportunity. (Thanks, Big Brain….)
Continue reading Dawkins…. On Purpose

Why didn’t Darwin discover Mendel’s laws?

ResearchBlogging.orgPerhaps we are all subject to falling into the trap of what I call the Hydraulic Theory of Everything. If you eat more you will be bigger, if you eat less you will be smaller. Emotional states are the continuously varying outcome of different levels of a set of hormones, forming “happy” or “stressy” or “angry” cocktails. Your brain is a vessel into which life pours various elixirs. Too much of one thing, and there will not be enough room for something else. Even political arguments are hydraulic. The ‘balanced’ middle view between two arguments is like the mixture of contrasting primary colors on a pallet.
Continue reading Why didn’t Darwin discover Mendel’s laws?

Topi or not Topi …

i-e1003b13638050040bea14fa3d3fabe0-repost.jpgGo to any bar and you’ll see a lot of males standing and sitting around not mating. I’ll bet you would have guessed that the reason they are not mating is that no females will mate with them for one reason or another. But there is the distinct possibility that they are very inconspicuously resisting mating opportunities. It turns out that males can do this …. avoid mating without conspicuous resistance … more easily than females. For obvious reasons.

This could be why what has become (inappropriately) known as “reversed sexual aggression” often goes unnoticed, and a recent study of the African antelope Damaliscus lunatus (a.k.a. “topi”) explores this possibility.

Continue reading Topi or not Topi …

Marta’s (good) questions, … continued


Why did the evolution of a large brain happen only once (among mammals, and in particular, primates?)

Larger brains have evolved a number of times. It seems that there has been a trend over several tens of millions of years of evolution of larger brains in various clades, such as carnivores and primates. There is probably a kind of arms race going on among various species in which a larger brain is an asset.

However, as you imply, a really large brain (like the extraordinarily large human brain) seems to be very rare. One of the reasons for this is that there are at least two major kinds of costs of a large brain that outweigh the benefits. One kind of cost is the energetic expense of having this large brain. Over 10% of the day to day energy demands of an adult human go to the brain. The total energy requirement of an infant can be over 60% while the brain is both a relatively large proportion of the infant’s body, and is undergoing a great deal of growth. The brain tissue is very picky about things like the temperature it requires for normal function and the kind of nutrient it needs.

Continue reading Marta’s (good) questions, … continued

Diatoms Large and Small

ResearchBlogging.orgDiatoms are algae with hard parts. They make up a major part of the plankton found in fresh and salt water environments. Usually, diatoms exist as single celled free floating organisms, but they can also be colonies of several single cells. Their tiny little ‘shells’ are made up of silica (these shells are called “fustules”).
Continue reading Diatoms Large and Small

Larry Moran Reread The Origin

It’s been a great pleasure to read the Origin of Specie … I had forgotten how clever Darwin was and how he carefully weighs his arguments for evolution.

I had also fallen prey to several myths about the book. For example, I didn’t realize that Origin of Species is all about speciation and the difference between species and varieties.

Go read all about it. Very much worth a look.

Innate Immune Response Defines Pathology and death in Those Infected by Highly Pathogenic Influenza

ResearchBlogging.orgFor the last couple of decades, perhaps beginning around the time of the publication of Laurie Garret’s excellent thesis (The Coming Plague: Newly Emerging Diseases in a World Out of Balance) on disease and politics and continuting through Gina Kolata’s “Flu: The Story Of The Great Influenza Pandemic” there has been increased attention on the 1918 flu virus and pandemic, as well as subsequent outbreaks. This interest has probably been fueled by increased knowledge of (or incidence of?) tragic and highly newsworthy outbreaks of Ebola, SARS, and so on. More recently, the perception has grown that the Bird Flu is a’comin’ any time now to ultimately replace the Great Pandemic of 1918 as well as the mud shark in our mythology.

If you read the better done public-oriented literature of this period, you will learn that the nature, cause or origin, and pattern of the 1918 epidemic has been very mysterious. The same level of mystery (but with only a few victims) arose in connection with the Swine Flu threat of the 1970s (see expecially Garret’s book for how this event links to current attitudes as well as public policy regarding vaccines).

This brings us to some time last year or so, when key papers were published (and I presume presented at conferences) regarding what may ultimately be seen as the most important single step in the history of understanding the way the flu vaccine works, and thus, how to combat it. (See this to explore one of those key moments in research history.)

The new knowledge is essentially an improved evolutionarily and developmental understanding of how influenza virus strains change over time. To put it very simply, these viruses are made of chunks that come apart in the host and then recombine. If there are multiple ‘strains’ (think species, more or less) of influenza in an individual, these genetic chinks, each representing a huge percentage of the influenza genome, can and do re-combine to form entirely new strains.

That is in a sense macro-evolution of a pathogen in situ, in the host. What is an immune system to do!?!!?!?? Not much, really. This can be very fatal.

It is now understood that these epidemic or pandemic influenza outbreaks arise from these recombination events. If you now look back at the quirky data, the odd logic influenza seemed to be patterned by, the epidemiological dead ends that seemed to confound everyone through the lens of knowledge of these genetic chunks, called “reassortants,” things suddenly become much much clearer.

A paper has just come out in PNAS reporting research using a primate model to explore immune response and associated pathology under the influence of a recombinant influenza virus, and this research is a direct outcome of this new way of looking at the flu. I offer it here without comment largely because you can get the article yourself, since this one is an OpenAccess piece from the normally not OpenAccess PNAS. Here.

Continue reading Innate Immune Response Defines Pathology and death in Those Infected by Highly Pathogenic Influenza

Darwin Year Panel Discussion, Sunday in the Twin Cities

Feb 15 – Darwin Year Panel Discussion Featuring Myers, Laden, Moore, Cotner and Phillips

2009 marks the 200th anniversary of the birth of Charles Darwin and the 150th anniversary of the publication of On the Origins of Species. In honor of this, we have assembled a distinguished panel of scientists to give us their thoughts on evolution, creationism, and Darwin. The panelists are: PZ Myers, Randy Moore, Greg Laden, Sehoya Cotner, and Jane Phillips.

The discussion will be moderated by Lynn Fellman. Lynn is a frequent science interviewer on our Atheists Talk radio program. She is also an independent artist and designer (FellmanStudio.com) who incorporates science into her work.

This event is free and open to the public.

Location:
Rondo Community Outreach Library
461 N Dale St
Saint Paul, MN 55103
651-266-7400

Minnesota Atheists Feburary Membership Meeting

February 15, 2009

1:00-1:15 p.m. – Social time.
1:15-1:45 p.m. – MNA business meeting, including annual elections.
1:45-2:00 p.m. – Social time.
2:00-3:00 p.m. – Panel discussion.
3:00-3:30 p.m. – Social time.
4:00 p.m. – Dinner at a nearby restaurant.


Mn Atheist Web Site

Darwin’s Birthday Gallup Poll on “Belief in Evolution”

The Gallup Poll is not surprising in any of its results but it is, of course, alarming and interesting. Here’s a summary.

On the eve of the 200th anniversary of Charles Darwin’s birth, a new Gallup Poll shows that only 39% of Americans say they “believe in the theory of evolution,” while a quarter say they do not believe in the theory, and another 36% don’t have an opinion either way. These attitudes are strongly related to education and, to an even greater degree, religiosity.

The data:
Believe in evolution 39%
Do not believe in evolutoin 25%
No opinon either way 36%

Not surprisingly, education level has a strong effect on tresponse. Have a look at this graph:

i-835944ec36697efa9db24a9ca89bdff6-lvtmmfl19eqfl0cpgxojzw.gif

The good news:

Younger Americans, who are less likely to be religious than those who are older, are also more likely to believe in evolution. Still, just about half of those aged 18 to 34 say they believe in evolution.

Well, not great news, but good news.

In answer to the question “Can you tell me with which scientific theory Charles Darwin is associated?” only a little over half knew. That was asked before all the other questions. And, knowing or not knowing the answer to that question went way way up with higher education levels, not surprisingly.

The poll reporters conclude:

As Darwin is being lauded as one of the most important scientists in history on the 200th anniversary of his birth (on Feb. 12, 1809), it is perhaps dismaying to scientists who study and respect his work to see that well less than half of Americans today say they believe in the theory of evolution, and that just 55% can associate the man with his theory.

… Americans who have lower levels of formal education are significantly less likely than others to be able to identity Darwin with his theory, and to have an opinion on it either way. Still, the evidence is clear that even to this day, Americans’ religious beliefs are a significant predictor of their attitudes toward Darwin’s theory….

h/t: Stranger Fruit

Two chimps walked into a bar …

… and made a real mess of the place when one of them spotted the jar of pickles on the counter. They fought over it until one of them had almost all the pickles and the other one had a number of bruises and a tiny fragment of one pickle that the other chimp dropped by accident.

That would be the way it would happen if two chimps walked into a bar. Or imagine two chimps, and each finds a nice juicy bit of fruit out in the forest. And instead of eating the fruit, because they are not hungry, they carry it around for a while (this would never happen, but pretend) and then accidentally run into each other. What would happen? Same thing. Event though neither chimp actually needed the fruit and each chimp had its own fruit, the dominant chimp (between the two) would end up with both pieces of fruit.

This is why chimps could not possibly cooperate in any effort to scour the forest for various edible items, bring them all back to a central place, share and then cooperatively process the food items, and ultimately produce a meal that is eaten by all of the chimps on an as needed basis. Humans do that but chimps can’t. Explain this and you explain one of the major features of human evolution…
Continue reading Two chimps walked into a bar …

Pagel on Darwin

ResearchBlogging.orgMark Pagel, evolutionary theorist extraordinaire, has published an Insight piece in Nature on Natural selection 150 years on. Pagel, well known for myriad projects in natural selecition theory and adaptation, and for developing with Harvey the widely used statistical phylogenetic method (and for being a reader of my thesis) wishes Charles Darwin a happy 200th birthday, and assesses this question:

How has Darwin’s theory of Natural Selection fared over the last 150 years, and what needs to be done to bring this theoretical approach to bear as we increasingly examine complex systems, including human society?
Continue reading Pagel on Darwin

How diverse were early hominoids?

And hominids.

We know the fossil record underestimates diversity at least a little, and we know that forested environments in Africa tend to be underrepresented. Given this, the diversity of Miocene apes may have been rather impressive, because there is a fairly high diversity in what we can assume is a biased record.

But I’d like to make the argument from another angle, that of modern ecological analogues. Let us assume that the greater apparent diversity of apes in the middle and late Miocene compared today can be accurately translated as a modern reduction in ape diversity. Not counting the relatively diverse lesser apes, there are five species (2 chimps, gorilla, human, orang) which can be further divided into 10 subspecies, across the entire old world.

Now look at the size range of all of the living apes. Gibbons are the smallest and gorillas the largest. When a family or subfamily of land mammal is diverse in a particular region (a biome or something larger than a biome) we tend to see that diversity played out along a spectrum of size, and against size we can find additional diversity derived from dietary or subhabitat differences and geography. It seems to me that there is room in the size spectrum between gibbons and chimps, and orangs and gorillas, and there is certainly room above the gorilla size as indicated by the existence in the fossil record of very large Asian forms.

We know that some of the later Miocene apes were bipedal, and it is starting to look like bipedalism or something like bipedalism is showing up among other apes in the Miocene as well. So perhaps there is a spectrum of locomotory pattern along which diversity may be spread.

This gives us a the following size classes: gibbon, siamang, [something in between], chimp, orang, [something in between], goriilla, [something bigger], or at total (a minimum?) of eight size classes across which apes might exist in a world in which apes are divers. Like the Miocene. If we add to this a more arboral form and a more bipedal form, perhaps we double the number, or perhaps we add about five new classes (I’m guessing that a Mighty Joe Young size ape would not have been bipedal!). This gives us about a dozen, conservatively estimated, niches when we divvy up size and so-called positional behavior.

To this we can add geography. It is probably reasonable to assume that a wetter, more forested middle and late Miocene Africa could be divided into at least four or regions, between the West/Central divide that modern biogeogrpahy tells us was effective at least in the Late Miocene, the Congo River divide, North/Central Africa, East Africa and Southern Africa. Let’s conservatively assume four, and let’s assume that only half (six) of the hypothesized ape species are divided among these areas. That means that 24 species are endemic to varoius regions, and six additional species are more widely spread for a conservative estimate of 30 species.

Among these species there may have been several bipedal forms, but only one of them (plus or minus a little hybridization hanky panky here and there) would have been the human ancestor. Of course, no one at the time suspected that …. (Or they probably would have done something about it.)

This is not an outrageous suggestion. The idea that if you went back in time to a more ape-rich time (and we know it was more ape-rich) and got a current copy of the Guide to the Mammals of Africa, the ape section would have a few dozen species, just like the monkey section or the antelope section today has a few dozen species.

Go apes!