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• Your life and health are your own responsibility.
• Your decisions to act (or not act) based on information or advice anyone provides you—including me—are your own responsibility.

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Efficiency vs. Intelligence = Specialist vs. Generalist, or How Glaciers Might Have Made Us Human

From an email discussion:

> I was attempting to posit that energy efficiency may be an easier rule to widely apply
> than intelligence.

Efficiency is a good metric, but it encompasses a lot more than just intelligence. Aphids might be extremely efficient in obtaining food, but that doesn’t mean they are extremely intelligent.

In fact, intelligence is remarkably inefficient, because it devotes metabolic energy to the ability to solve all sorts of problems, of which the overwhelming majority will never arise. This is the specialist/generalist dichotomy. Specialists do best in times of no change or slow change, where they can be absolutely efficient at exploiting a specific ecological niche, and generalists do best in times of disruption and rapid change.

Unlike the long and consistently warm eons of the Jurassic and Cretaceous (and the Paleocene/Eocene), the Pleistocene was defined by massive climactic fluctuations, with repeated cyclic “ice ages” that pushed glaciers all the way into southern Illinois and caused sea level to rise and fall by over 100 meters, exposing and hiding several important bridges between major land masses.

It is likely that these were conditions that favored the spread of generally intelligent species, and most likely helped select for what eventually became humans. It may not be a coincidence that the major ice sheets first began to expand ~2.6 million years ago—which is also the earliest verified date for the use of stone tools by hominids.

Estimated average surface temperature on Planet Earth. Note logarithmic time scale. Source: Wikipedia

Physical Fitness: Who Cares? Answer: Because Being Fat Makes You Depressed, and Being Depressed Makes You Fat

Obesity and depression are strongly linked. (The quoted study can be found here.)

“Obesity, Luppino and colleagues found, increases the risk of depression in initially non-depressed individuals by 55 percent and depression increases the risk of obesity in initially normal-weight individuals by 58 percent.”
[…]
“Nearly one out of four cases of obesity is associated with a mood or anxiety disorder.”
[…]
Being obese, Luppino told Reuters Health, not only increases the risk of depression, but is more likely to fuel the onset of clinical depression, rather than merely depressive symptoms.

Executive summary: being fat makes you depressed, and being depressed makes you fat.

Now we tackle the interesting question: why?

Luppino (who is Dutch) makes a weak, tentative speculation about body image ideals and how Americans are more shallow than Europeans—but even if that were true, it still begs the question. Why are our body image ideals of athletic people, not obese people?

An important clue can be found here:

Being overweight [but not obese -JS] increased the risk of depression in initially non-depressed individuals somewhat, but depression did not increase the risk of being overweight over time.

In other words:
1) The fatter you get, the more likely you are to become depressed.
2) Being depressed doesn’t cause you to become merely overweight…either you stay thin, or you blast right through to obesity.

The explanation, of course, is evolutionary.

If humans had been selected to sit in an office chair and fill out TPS reports or play video games all day, we would be sessile brains with little nubs to type and move the mouse, and obesity would be a non-factor. But we have only worked office jobs for perhaps sixty years, even in industrialized America, which is not enough time to assert significant selection pressure.

In reality, humans have been selected over millions of years—since long before we were technically even human—for our ability to run down big animals and kill them with spears we made ourselves. When you have a body capable of doing that (even if you’ve never hunted so much as a squirrel), you feel good about yourself, because that’s what you are for, and you know that at a very deep, cellular level. And when you let yourself become fat and lazy, there is a dissatisfaction with yourself that you will never overcome, because your body knows that it’s no longer capable of providing for itself, let alone your family, in the Pleistocene environment to which we are adapted.

Personally, I can’t stand gyms or “working out”. I need to go outside and do things. Ride my bike, run, ski, climb…there’s a reason people pay big, big bucks to live someplace they can be active in nature right out their door. It’s because that’s what we have been selected to do.

Live in freedom, live in beauty.

JS

When The Conclusions Don't Match The Headlines (Or The Data): Michael Benton Is Wrong, and Darwin Is Still Right

This article trumpets a startling lead: “Charles Darwin may have been wrong when he argued that competition was the major driving force of evolution.”
“Space is the final frontier for evolution, study claims” -BBC News

Professor Michael Benton of Bristol University makes his pot-stirring mission abundantly clear by stating outright “Competition did not play a big role in the overall pattern of evolution.”

This conclusion is not supported by the original paper (written by his grad students) or its data, and I feel comfortable saying that Professor Benton is deliberately misrepresenting modern evolutionary theory in order to create fake controversy and gain publicity for himself.

This is a bold statement, so I will back it up.

The abstract of the original paper can be found here:
Biol Lett. 2010 Aug 23;6(4):544-7. Links between global taxonomic diversity, ecological diversity and the expansion of vertebrates on land. Sahney S, Benton MJ, Ferry PA.

Sahney et. al. conclude: “These groups [amphibians, reptiles, and mammals] have driven ecological diversity by expansion and contraction of occupied ecospace, rather than by direct competition within existing ecospace and each group has used ecospace at a greater rate than their predecessors.”

That is a much less startling piece of information than “Darwin may have been wrong!” To quote the BBC article, “The new study proposes that really big evolutionary changes happen when animals move into empty areas of living space, not occupied by other animals.”

But what happens after the animals arrive? And why are they moving into new empty areas in the first place?

The answer: competition.

First, competition is why animals move into empty niches (“ecospaces” is apparently the trendy new term) in the first place. If animals weren’t competing for scarce resources, they wouldn’t move into new niches when they became available: they’d simply stay where they are. As Professor Stearns put it so eloquently when tasked with the token skeptical quote, “What is the impetus to occupy new portions of ecological space if not to avoid competition with the species in the space already occupied?”

Second, when plants or animals expand into a new niche, the short-term effect is indeed that the level of competition drops, and many individuals survive who would not have survived before. (Example: It’s not useful to be a lion in a world with T. Rex and Utahraptor, so mammals remained small—but once the dinosaurs died, mammals could become larger and more predatory without immediate penalty.) However, this is a temporary situation, and soon the new ecospace fills with animals—albeit with more variations than before. Then, as the new ecospace fills up, selection pressure becomes greater again, the unfit variations perish, and the fit variations survive.

If there were no competition, there would be no speciation at all, because there would be no differential survival…just a slowly diffusing cloud of randomly varying animals. Furthermore, since there are far more unsuccessful variations than successful variations, the selection pressure of competition directs variation into useful phenotypes—actually increasing the rate of evolutionary change as each generation is selected for more successful adaptation to their new ecospace.

Finally, let us examine the notion of “ecospace”. (A word synonymous with “niche” in the existing literature.) What is an “ecospace”, anyway, and what defines it? Part of it is inanimate geological features: rivers, oceans, mountains, rocks. But most of an ecospace is…other creatures. On land, an ecospace contains soil microbes, fungi, flora, worms, and nematodes. It contains grasses, bushes, trees, fungi, ferns, vines, mosses, and lichens. It contains insects, snakes, rodents, birds, cats, dogs, apes, and all manner of crawling, digging, hopping, tunneling, and flying creatures.

As Richard Dawkins explains very clearly in his masterwork “The Extended Phenotype“, the expression of an animal’s genes go beyond its physical body. A termite nest is just as much an expression of termite genes as the termite’s legs or head. A beaver’s dam is an expression of beaver genes, herding and grazing behavior is an expression of antelope genes, forests are an expression of tree genes, and roads and cities are expressions of human genes. In short, an “ecospace” is, in large part, an expression of the genes of the organisms that live in it.

Therefore, it is meaningless to speak of “expansion and contraction of ecospace” in the passive voice, as if this has nothing to do with the actions and consequent differential survival (i.e. competition) of the creatures within it. Yes, change can be imposed from without by asteroids or glaciers…but it can also be imposed by a change in the other living things that make up the ecospace. To pick the most obvious example, humans have dramatically changed the ecospace of the Earth, most particularly over the last 10,000 years since the advent of agriculture.

In conclusion, we can easily see that diversity is indeed increased by changes in ecospace—but only as long as the underlying mechanism of Darwinian competition remains.

Furthermore, we can easily see that Professor Benton’s claim that “Competition did not play a big role in the overall pattern of evolution” is nonsense.