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The Human Wave
Science News Magazine ^ | 8-11-2005 | Bruce Bower

Posted on 08/11/2005 6:12:55 PM PDT by blam

The Human Wave

People may have evolved fluidly, with lots of interbreeding

Bruce Bower

Release a drop of red food coloring into a glass filled with water. Watch the drop slowly spread until it imbues the water with a rosy tint. Then, add a drop of blue coloring and observe the boundaries of purple expand. According to Vinayak Eswaran, this process, known as diffusion, reflects how, over the past 200,000 years, people evolved to have the relatively thin bones, small jaws, and other distinctive aspects of their current physical form.

A mechanical engineer at the Indian Institute of Technology in Kanpur, Eswaran is an unlikely emissary of insights into human evolution. He primarily studies how chemicals and heat move through fluids. In his field, diffusion refers to a process in which molecules of a chemical in a fluid randomly bump into other molecules. These jostled particles follow erratic paths, taking what researchers call random walks. As a result, a chemical initially concentrated in one part of an apparently still fluid moves to other areas.

Eswaran says that in 1997, he was "powerfully struck" by the notion that diffusion provides a way to explain a major anthropological mystery—the rise of anatomically modern humans. After testing a number of mathematical models of diffusion's role in human evolution, Eswaran identified a promising one.

He dubbed his hypothesis "the diffusion wave out of Africa." This model melds diffusion to an idea proposed by University of Chicago geneticist Sewall Wright more than 70 years ago. Wright held that, in a population of species composed of many small groups that rarely interact, individuals in some groups evolve combinations of genes that boost their survival rates. Sets of these advantageous genes slowly spread throughout the population as individuals from different groups occasionally mate.

In Eswaran's scenario, an advantageous combination of genes spread among ancient hunter-gatherer groups that inhabited overlapping regions of eastern Africa. It's likely that this genetic package fostered body features such as a relatively small face, thin skull bones, and, in females, a wide pelvis—all being traits that improved the chance that mothers and babies survive childbirth, Eswaran asserts.

For the most part, Eswaran emphasizes, people evolved through the spread of that critical gene combination that eased childbirth, not by amassing a patchwork of individually beneficial genes, as researchers have typically assumed. "This explains the unique and rapid evolution of humans, compared with our closest evolutionary cousins, the apes," he says.

The beneficial suite of genes flowed from one group to the next as if a wave. Around 100,000 years ago, the genetic diffusion wave of modern Homo sapiens with the critical gene mix edged into Asia, advancing no more than a few miles each generation. As tens of thousands of years passed, modern humans washed over Asia and Europe as well as into the far reaches of Africa, occasionally interbreeding with Homo erectus and perhaps other now-extinct Homo species. Our genetic evolution occurred through a process that was closer to a random walk across the Old World than to a series of planned migrations, Eswaran says. If the diffusion-wave model holds up, it goes a long way toward ironing out apparent conflicts in different aspects of current human genetic makeup, he proposes.

One vein of research—typically cited in support of relatively recent human origins solely in Africa—examines mitochondrial DNA. This material is inherited solely from one's mother and exhibits far more mutations in modern Africans than it does in Asians and Europeans. Accounting for the estimated rate at which mitochondrial-DNA mutations accumulate, the patterns are consistent with a diffusion wave of H. sapiens moving out of Africa at least 130,000 years ago.

On the other hand, analyses of DNA from the cell's nucleus indicate that human genetic heritage in Asia is far older than it is in Africa, making it appear that modern humans originated in Asia.

Eswaran's solution: Evidence of ancient nuclear DNA sequences in Asian populations, much of it dating to between 1 million and 500,000 years ago, reflects the genetic contributions of species such as H. erectus to modern humanity as populations diffused across the Old World. Since mutations accumulate much more slowly in nuclear DNA than they do in mitochondrial DNA, nuclear DNA lineages go back further in time.

"While modern humans first emerged in Africa, we now carry a substantial genetic inheritance that had its origins in non-African Homo species," Eswaran says.

The Indian researcher's model is one of several new attempts to understand people today as genetic products of two or more ancient humanlike populations that interbred at least occasionally. These approaches put a new spin on the long-standing debate over the nature of human evolution.

Diffusion profusion

Until a few years ago, anthropologist Henry Harpending of the University of Utah in Salt Lake City championed the recent-African-origin theory of modern humans. In that influential scenario, a single population evolved in Africa roughly 200,000 years ago and eventually migrated throughout the world, replacing H. erectus, European and Middle Eastern Neandertals, and any other Homo species encountered.

Harpending changed his mind upon seeing Eswaran's explanation of the diffusion-wave theory in 2002. That model "explains available genetic and fossil data better than anything we have had until now," Harpending said at that time.

Eswaran and Harpending, with Utah's Alan R. Rogers, have now conducted computer simulations of how humanity's diffusion wave advanced from Africa across Asia. Their findings appear in the July Journal of Human Evolution.

A simulated diffusion wave of beneficial genes that begins in Africa requires substantial interbreeding with native Asian Homo populations to yield the patterns of genetic variation on those continents observed today, the scientists conclude.

Their findings indicate that it would take roughly 80,000 years for a highly advantageous combination of genes in 100 fertile adults living in eastern Africa to spread to eastern Asia through diffusion, if there were 100 comparably sized H. erectus groups spaced evenly across that geographic expanse. As this simulated slice of evolution plays out, interbreeding incorporates pieces of H. erectus nuclear DNA into that of modern humans, the researchers suggest.

The diffusion wave that the team modeled hit some geographic roadblocks, Eswaran notes. It stopped upon reaching the Indian Ocean. Instead of succumbing to the genetic wave of modern humans, Australia, for example, was settled by seafaring H. erectus groups around 60,000 years ago, followed by migrations of early humans from Asia as late as 15,000 years ago, in his view. A brief period of interbreeding then preceded the ascendance of modern humans down under, possibly explaining why fossils of Australian H. sapiens and Asian H. erectus look so much alike.

Evolutionary subdivisions

Eswaran's approach has received the warmest welcome from researchers who already suspected that interbreeding contributed to human evolution. Most such scientists advocate multiregional evolution, in which African, Asian, and European Homo populations migrated among continents and interbred enough to foster the simultaneous evolution of modern H. sapiens in each region.

Some multiregional theorists, such as anthropologist Milford Wolpoff of the University of Michigan in Ann Arbor, propose that the fossil record over the past 2 million years consists only of various forms of ancient H. sapiens that intermingled enough to produce people today. In Wolpoff's view, genetic diffusion could have occurred solely within a single, anatomically diverse species. He calls the diffusion-wave model a "particularly insightful description of how multiregional evolution might be expected to work."

Anthropologist John H. Relethford of the State University of New York in Oneonta says that Eswaran's approach has much in common with a "mostly-out-of-Africa" scenario that Relethford proposed in 2001. He hypothesized that close to 200,000 years ago, large African populations of H. sapiens began to interbreed with small numbers of H. erectus in Asia and Neandertals in Europe.

Populations outside Africa gradually assumed the basic genetic characteristics of the African immigrants, in Relethford's opinion. Survival-enhancing genes in the immigrants would have hastened that process but wouldn't have been essential, he adds.

Eswaran's diffusion model looks promising, even as other candidates for explaining human evolution are emerging, notes geneticist Michael F. Hammer of the University of Arizona in Tucson.

As described in a report slated to appear in Genetics, he and his colleagues analyzed patterns of mutations along extensive, comparable chunks of X chromosomes in 42 men from different parts of the world. Two of 10 Africans carried a distinctive DNA sequence with numerous mutations that apparently took more than 1 million years to evolve. Other Africans in the sample carried a different signature DNA sequence that was nearly as old. Distinctive Asian and European sequences with smaller numbers of mutations also appeared, some overlapping with others.

According to Hammer, the X chromosome data best fit a scenario in which African H. sapiens split into two major populations, possibly close to 1 million years ago. The two populations then evolved in isolation for hundreds of thousands of years before interbreeding, perhaps in Africa, with other Homo species.

It's hard to know whether genes critical for modern humans then spread through diffusion as one group interbred with the next or via migrations of various groups back and forth across the landscape, Hammer says.

Another new scenario of human evolution emphasizes the latter possibility. Separate groups of ancient H. sapiens, not yet exhibiting all the anatomical traits of people today, constantly moved through overlapping home territories for much of the past 1 million years, sometimes mating with each other and forming new groups and at other times dying out, suggests anthropologist Rosalind M. Harding of the University of Oxford in England. Her proposal is based on a model developed by Harvard University geneticist John Wakeley.

Back to Africa

Even if a previously unsuspected number of ancient populations contributed to modern human evolution, as Eswaran and some others now propose, people may still have relatively recent African roots, says geneticist Laurent Excoffier of the University of Bern in Switzerland.

Excoffier suspects that modern humans evolved from one of several ancient H. sapiens populations in Africa around 200,000 years ago. A small number of those fledgling people then migrated to Asia. As the population expanded, separate groups formed in different areas. Colonization of Europe by a group from western Asia occurred toward the end of the Stone Age.

This model requires no diffusion, and sporadic interbreeding between species was irrelevant on an evolutionary scale. Some ancestral genes could have been carried out of Africa, while being lost within Africa. That would explain why Asians carry much older stretches of DNA than Africans do.

Interbreeding between the African emigrants and the Homo species that they encountered was so rare that it had no lingering impact on modern DNA, Excoffier argues. One new analysis indicates that, at most, only 120 successful matings between Neandertal mothers and H. sapiens fathers contributed to the current makeup of mitochondrial DNA, which includes no gene found in ancient samples of Neandertal mitochondrial DNA.

That rate of interbreeding is so low that it "strongly suggests almost complete sterility between Neandertal females and modern human males," Excoffier and his Swiss colleague Mathias Currat concluded in the December 2004 PLoS Biology. So far, there's no way to estimate the extent of interbreeding between H. sapiens mothers and Neandertal fathers.

Anthropologist Christopher Stringer of the British Museum in London agrees with Excoffier and Currat. From Stringer's perspective, the fossil record supports an African origin between 200,000 and 100,000 years ago, "although there must have been very many human expansions and contractions."

Anthropologist Jeffrey Schwartz of the University of Pittsburgh, also a supporter of recent African origins, takes a dim view of evolutionary reconstructions based on DNA. From Eswaran to Excoffier, researchers make assumptions about how DNA works that are implausible in light of discoveries in developmental genetics, Schwartz says.

DNA differences offer a hazy view of evolution, at best, in his opinion. Individual DNA sequences can play many different roles in developmental pathways. Evolutionary processes may primarily influence species-specific growth processes that unfold once gene activity is completed, Schwartz argues.

"Until we rethink basic assumptions about DNA, the prospects for understanding human evolution with genetics look pretty bleak," he says.

Eswaran, however, remains upbeat about the prospects for his model of our genetic origins. It's attracted a lot of interest in a short time, and he's ready to ride the diffusion wave as far as it goes.


TOPICS: News/Current Events
KEYWORDS: godsgravesglyphs; history; human; the; wave
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To: onewhowatches

I meant PEDERASTY... LoL... The drain bamage is getting much better.... really..


21 posted on 08/11/2005 7:21:19 PM PDT by hosepipe (This Propaganda has been edited to include not a small amount of Hyperbole..)
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To: King Prout

It's the female version of the Thomas Jefferson-Sally Hemmings controversy.


22 posted on 08/11/2005 7:22:00 PM PDT by PatrickHenry (Felix, qui potuit rerum cognoscere causas. The List-O-Links is at my homepage.)
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To: blam
I more inclined to believe Excoffer's theory than the others. I just don't buy the idea of widespread miscegenation with Homo Erectus. Why would sane person mate with something that has a brain less than 3/4 the size of a human's?

I am much more inclined to believe miscegenation with Neaderthals, but even there the evidence is that there was very little, if any.

23 posted on 08/11/2005 7:25:04 PM PDT by curiosity
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To: curiosity
Why would sane person mate with something that has a brain less than 3/4 the size of a human's?

Never spent much time in singles bars, did you?

24 posted on 08/11/2005 7:35:16 PM PDT by PatrickHenry (Felix, qui potuit rerum cognoscere causas. The List-O-Links is at my homepage.)
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To: blam
I just finished reading Oppenheimer's The Real Eve and this article seems to contradict it on several points. Oppenh seems to think modern humans started about 200kya and spent the first 150k almost strictly as beachcombers who came out of Africa 85kya and started turning inland into Asia and Europe about 60-50kya. Reading between the lines, advanced toolmaking came not from advanced intelligence but from necessity to adapt to the new inland terrain. IOW, they didn't need intricate tools to gig flounder and pry open oysters, etc; even though they had the intelligence to adjust when necessary

Oppenheimer says no way to cross breeding with earlier erectus/neanderthal etc. This article seems to strongly suggest that the crossbreeding did go on which seems more likely to me.

Another problem I have with Oppenh is that all his routes seem to go one way with little or no backtracking except when forced by ice ages. Humans had all ready evolved as perpetual long distance runners and quite capable swimmers well before 200kya and living on the shores gave them practically unlimited opportunity to run & swim both ways.

25 posted on 08/11/2005 7:40:11 PM PDT by shuckmaster
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To: curiosity
I more inclined to believe Excoffer's theory than the others. I just don't buy the idea of widespread miscegenation with Homo Erectus. Why would sane person mate with something that has a brain less than 3/4 the size of a human's?

How do you account for the line traits (shovel-shaped incisors, etc.) in Peking Man which persisted through to modern Mongoloids? I have never seen a good explanation for that, spanning some 500,000 years.

When I went to school, modern man was some 40,000 years or so old, and my professor, a brilliant but older researcher, couldn't accept the 200,000 year old fossils as fully modern. Now we all accept modern humans at some 200,000 years ago, and can even trace their progress. This new theory fills in the question that has always bothered me about shovel-shaped incisors in Peking Man. Your thoughts?

26 posted on 08/11/2005 7:41:18 PM PDT by Coyoteman (Is this a good tagline?)
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To: PatrickHenry
I'm serious. Preference for large-brained mates was one of the factors that caused us to evolve large brains. Now suddenly, when humans meet H. Erecti, their mating preferences change and they decide to go slumming? Does't make any sense.

Besides, why would there be widespread micegenation with Erectuses but not Neanderthals? That also makes no sense.

Sorry, I just don't buy it.

27 posted on 08/11/2005 8:07:07 PM PDT by curiosity
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To: Coyoteman
How do you account for the line traits (shovel-shaped incisors, etc.) in Peking Man which persisted through to modern Mongoloids?

From the article (Excoffier's hypothesis):

"A small number of those fledgling people then migrated to Asia. As the population expanded, separate groups formed in different areas...Some ancestral genes could have been carried out of Africa, while being lost within Africa. That would explain why Asians carry much older stretches of DNA than Africans do."

That would seem it would also explain the shovel-shaped incisors. They were present in the ancestoral population in Africa, but later lost.

28 posted on 08/11/2005 8:10:42 PM PDT by curiosity
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To: curiosity
That would seem it would also explain the shovel-shaped incisors. They were present in the ancestoral population in Africa, but later lost.

I have never heard of any sizeable (>2-3%) numbers of shovel-shaped incisors in Africa. I am still confused. I understand the Lapps or some group in that area had a slightly higher percentage, but the real mother-lode is in the Mongolian group, and in Peking Man. Help?!?

29 posted on 08/11/2005 8:13:35 PM PDT by Coyoteman (Is this a good tagline?)
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To: Coyoteman
I'm not a paleantologist, but here is the hypothesis as I understand it. Only a small subset of the African ancestral population, maybe as low as 2-3%, had these Mongoloid traits. The group that migrated to Asia was from this subset. The descendent population surived in Asia but the ancestral population in Africa died out.

Fire away if you see any holes.

I'm also curious how you deal with my serious objection to the erectus micegenation hypothesis in post 27.

30 posted on 08/11/2005 8:24:09 PM PDT by curiosity
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To: curiosity
I did this field, bones mainly, in grad school lo these many years ago. Things have changed a lot since then.

erectus micegenation hypothesis in post 27

Have to study that one. Don't have any idea at present.

Only a small subset of the African ancestral population, maybe as low as 2-3%, had these Mongoloid traits. The group that migrated to Asia was from this subset.

That would place these traits in somewhat the same ratio in Asia. You would need extreme founder's effect to (1) get this in large percentages throughout Asia, and even more radical measures to (2) get it into Peking Man, some 500,000 years ago. That's my problem. If modern man is 200,000 thousand or so coming our of Africa, without a significant percentage of shovel-shaped incisors, and current Mongoloids have a high percentage of shovel-shaped incisors, and Peking Man has shovel-shaped incisors along with modern traits--how do it all work?

I'm serious here. This has always confused me. Any help would be appreciated. (But now to bed; responses tomorrow.)

31 posted on 08/11/2005 8:47:49 PM PDT by Coyoteman (Is this a good tagline?)
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To: blam
Good article, can be related to with Milford H.Wolpoff and Rachel Caspari's Race and Human Evolution in some aspects.
32 posted on 08/11/2005 8:49:30 PM PDT by JimSEA
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To: Coyoteman
That would place these traits in somewhat the same ratio in Asia.

Sorry, I was unclear. The number of modern humans in Africa with the traits was small, perhaps concentrated in a few tribes. ONLY individuals from these tribes migrated to Asia. That's why the ratios are so much higher in Asia.

In addition, the starting ratios in Africa don't have to be as small as today. It could be that the original ratio was higher, but then the Mogoloid-trait Africans that stayed behind declined, leaving the very small ratio we have today.

You would need extreme founder's effect to (1) get this in large percentages throughout Asia, and even more radical measures to

You would obviously need a founder effect, but I don't see why it has to be extreme.

That's my problem. If modern man is 200,000 thousand or so coming our of Africa, without a significant percentage of shovel-shaped incisors, and current Mongoloids have a high percentage of shovel-shaped incisors, and Peking Man has shovel-shaped incisors along with modern traits--how do it all work?

You would have to have mongoloid traits existing in the ancestral African H. Erectus too. The Peking Man was then simply a decendent of migrants from the Afrrican erectus population.

Is there any evidence that the mongoloid traits were significantly more common in the Asian erectus populations than in African erectus populations? I thought Peking man was just one specimen.

33 posted on 08/11/2005 9:03:52 PM PDT by curiosity
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To: PatrickHenry

Oh, so you didn't have any luck there either. Glad I'm not the only one :)


34 posted on 08/11/2005 9:06:13 PM PDT by RightWingAtheist (Creationism is not conservative!)
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To: Coyoteman; curiosity
"That's my problem. If modern man is 200,000 thousand or so coming our of Africa, without a significant percentage of shovel-shaped incisors, and current Mongoloids have a high percentage of shovel-shaped incisors, and Peking Man has shovel-shaped incisors along with modern traits--how do it all work?"

There are two types of 'shovel-teeth'. They are: Sundadonty and Sinodonty, the South East Asians have sundadonty teeth (named for Sundaland) and the North Asian have Sindodonty teeth. Oppenheimer said his DNA studies showed that sinodonty, flatter faces, lighter skin and the peculiar eye lid evolved (around Lake Bailal)from the folks in the south with the Sundadonty teeth.

IIRC, Kennewick Man had Sundadonty teeth while today's American Indians have sindodonty teet.

35 posted on 08/11/2005 9:17:06 PM PDT by blam
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To: curiosity
"Why would sane person mate with something that has a brain less than 3/4 the size of a human's? "

You mate with what's available, huh?

Also, brain sizes have been on the decline for quite a while. Neanderthals and Cro-Magnons (and, maybe Homo-Erectus) had larger brains that humans today. There is a close link between IQ and brain size, so...

36 posted on 08/11/2005 9:20:57 PM PDT by blam
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To: blam
Erectus had larger brains? Really? That's the first I heard. I remember being taught their brains were only about 70% of ours on average, with perhaps some of their outliers overlapping with some of ours. Am I wrong?
37 posted on 08/11/2005 9:35:54 PM PDT by curiosity
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To: blam
So do any African erectus specimens have Sundadonty teeth?
38 posted on 08/11/2005 9:37:55 PM PDT by curiosity
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To: curiosity
"Erectus had larger brains? Really? That's the first I heard. I remember being taught their brains were only about 70% of ours on average, with perhaps some of their outliers overlapping with some of ours. Am I wrong?"

Nope, you're correct. Ironically, I'm watching 'Apes To Man' on the History Channel and they just said that Homo-Erectus's brain was two-thirds the size of modern Humans.

The 'Hobbits' (on Flores Island) have a small brain and the shape most closely resembles the Homo-Erectus brain however, they have a Broca's Area that is four times larger than our Broca's Area.

39 posted on 08/11/2005 9:43:46 PM PDT by blam
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To: curiosity
"So do any African erectus specimens have Sundadonty teeth?"

I've wondered the same thing, I don't know. Christy Turner did some studies on teeth but I don't think he covered that area. Try a search on Christy Turner + teeth, that may get you an answer.

40 posted on 08/11/2005 9:46:51 PM PDT by blam
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