This article shows that admixture between Pygmies and non-Pygmies is the major contributor of height variation in Pygmy groups. Note that this is a clear case where group differences in randomly chosen loci are correlated with a phenotypic trait. It was once hoped that the notion of group differences was superfluous: we would learn everything there was to know about individual-level phenotypic variation by examining individual-level genetic and environmental variation directly. According to this paper, the correlation between admixture estimates and height for the entire sample of males/females was 0.44/0.52 respectively, so about a quarter of variance in the trait can be explained by admixture.
And, here's the interesting point: this was all done with 28 microsatellites. Why do 28 microsatellites trump hundreds of thousands of SNPs? Because different groups of mankind are not the same in their genotypic propensity to manifest specific phenotypes, and admixture proportions (the pretty colors in structure runs) do correlate with measurable physical properties.
American Journal of Physical Anthropology
DOI: 10.1002/ajpa.21512
Indirect evidence for the genetic determination of short stature in African Pygmies
Noémie S.A. Becker
Abstract
Central African Pygmy populations are known to be the shortest human populations worldwide. Many evolutionary hypotheses have been proposed to explain this short stature: adaptation to food limitations, climate, forest density, or high mortality rates. However, such hypotheses are difficult to test given the lack of long-term surveys and demographic data. Whether the short stature observed nowadays in African Pygmy populations as compared to their Non-Pygmy neighbors is determined by genetic factors remains widely unknown. Here, we study a uniquely large new anthropometrical dataset comprising more than 1,000 individuals from 10 Central African Pygmy and neighboring Non-Pygmy populations, categorized as such based on cultural criteria rather than height. We show that climate, or forest density may not play a major role in the difference in adult stature between existing Pygmies and Non-Pygmies, without ruling out the hypothesis that such factors played an important evolutionary role in the past. Furthermore, we analyzed the relationship between stature and neutral genetic variation in a subset of 213 individuals and found that the Pygmy individuals' stature was significantly positively correlated with levels of genetic similarity with the Non-Pygmy gene-pool for both men and women. Overall, we show that a Pygmy individual exhibiting a high level of genetic admixture with the neighboring Non-Pygmies is likely to be taller. These results show for the first time that the major morphological difference in stature found between Central African Pygmy and Non-Pygmy populations is likely determined by genetic factors.
Link
American Journal of Physical Anthropology
DOI: 10.1002/ajpa.21512
Indirect evidence for the genetic determination of short stature in African Pygmies
Noémie S.A. Becker
Abstract
Central African Pygmy populations are known to be the shortest human populations worldwide. Many evolutionary hypotheses have been proposed to explain this short stature: adaptation to food limitations, climate, forest density, or high mortality rates. However, such hypotheses are difficult to test given the lack of long-term surveys and demographic data. Whether the short stature observed nowadays in African Pygmy populations as compared to their Non-Pygmy neighbors is determined by genetic factors remains widely unknown. Here, we study a uniquely large new anthropometrical dataset comprising more than 1,000 individuals from 10 Central African Pygmy and neighboring Non-Pygmy populations, categorized as such based on cultural criteria rather than height. We show that climate, or forest density may not play a major role in the difference in adult stature between existing Pygmies and Non-Pygmies, without ruling out the hypothesis that such factors played an important evolutionary role in the past. Furthermore, we analyzed the relationship between stature and neutral genetic variation in a subset of 213 individuals and found that the Pygmy individuals' stature was significantly positively correlated with levels of genetic similarity with the Non-Pygmy gene-pool for both men and women. Overall, we show that a Pygmy individual exhibiting a high level of genetic admixture with the neighboring Non-Pygmies is likely to be taller. These results show for the first time that the major morphological difference in stature found between Central African Pygmy and Non-Pygmy populations is likely determined by genetic factors.
Link
14 comments:
We show that climate, or forest density may not play a major role in the difference in adult stature between existing Pygmies and Non-Pygmies, without ruling out the hypothesis that such factors played an important evolutionary role in the past... These results show for the first time that the major morphological difference in stature found between Central African Pygmy and Non-Pygmy populations is likely determined by genetic factors.
These results indeed show that the Pygmy shortness is genetic (which is something entirely expected), but that doesn't tell us anything about why genes for shortness came into prominenece in Pygmies in the first place. Was it a coincidence? Or were they selected by nature (presumably due to climate and/or forest density) or by sexual selection? Or a combination of these factors?
We are all eternally indebted to Edwards for debunking Lewontin. Unfortunately, the definition of a heritable particle has not been correspondingly updated in Price's equations.
"These results indeed show that the Pygmy shortness is genetic (which is something entirely expected), but that doesn't tell us anything about why genes for shortness came into prominenece in Pygmies in the first place."
Excellent point. But you are making an assumption. I'm wondering whether anyone here can tell what it is.
????
" but that doesn't tell us anything about why genes for shortness came into prominenece in Pygmies in the first place. Was it a coincidence?"
Generally people who have lived in dense forest for many generations, especially in tropical regions, are short. This is probably a product of both temperature regulation and ease of passage through dense undergrowth.
Generally people who have lived in dense forest for many generations, especially in tropical regions, are short.
Tropical rainforest-induced shortness is my favorite scenario. Negritos are another case in point.
"Generally people who have lived in dense forest for many generations, especially in tropical regions, are short."
As are people who have lived in the Kalahari desert for many generations. Or the Andes for many generations.
this was all done with 28 microsatellites. Why do 28 microsatellites trump hundreds of thousands of SNPs? Because different groups of mankind are not the same in their genotypic propensity to manifest specific phenotypes, and admixture proportions (the pretty colors in structure runs) do correlate with measurable physical properties.
The study is a quite clever way of showing a genetic as opposed to environmental source for variation without actually knowning the precise mechanism for the genetic variation. But, I am left confused about why ancestry informative markers show up more often in genome wide association studies?
"Overall, we show that a Pygmy individual exhibiting a high level of genetic admixture with the neighboring Non-Pygmies is likely to be taller."
I wonder if non-Pygmies admixed with Pygmies tend to be shorter. And what's the magnitude of height fluctuations in mutually and equally admixed Pygmy and non-Pygmy groups?
I wonder if non-Pygmies admixed with Pygmies tend to be shorter.
I haven't read the full paper as it is not free. But according to Razib Khan's assessment of the full paper, admixture works in both ways, thus Pygmy admixed non-Pygmies tend to be shorter (which is something entirely expected).
And what's the magnitude of height fluctuations in mutually and equally admixed Pygmy and non-Pygmy groups?
That is indeed an interesting question.
To answer your question, German, I think it was Colin Turnbull who observed that the Bantu farmers who interact so closely with the Pygmies he studied have been getting progressivly shorter from generation to generation.
This would be consistent with the fact that it's not unusual for Bantu men to take Pygmy wives, whose children then become integrated into the Bantu community.
Guess I have no choice but to answer my own question. The assumption made by Onur in the first comment is that shortness must necessarily be a derived characteristic. I see no evidence that it couldn't in fact represent the original state, if not of AMH, then MRCA.
It's much more easy to see tallness as an adaptation rather than shortness. I see nothing about the tropical forest environment that would give a short person any significant advantage over a tall person, but I do see a great many advantages tall people would have over short ones.
A tall person can always crouch or crawl if necessary, but a short one can't make his arms and legs longer to make him a more effective runner, hunter or fighter.
We find very short people living in a variety of different environments, from deserts to high mountains. What they have in common is that they are ALL indigenous peoples living in refuge areas, and in many cases hunter-gatherers, which makes it even more likely that their shortness could be inherited from their (our) common ancestor.
DocG, modern human hunter-gatherers (including the ones nearest in time to the MRCA) were in general taller and robuster than agriculturalists who succeeded them. So your theory lacks empirical support.
"And what's the magnitude of height fluctuations in mutually and equally admixed Pygmy and non-Pygmy groups?"
In most domestic animals the first cross are all much the same. It is this fact that commercial breeders use to advantage. However if the first cross individuals are then allowed to breed together the resulting progeny are all over the place. Individuals can have a surprising array of combinations from the original two breeds. I'd guess the same would be so of any two different-looking human groups.
"I see nothing about the tropical forest environment that would give a short person any significant advantage over a tall person"
You've obviously never set foot in anything remotely like 'the tropical forest environment'.
"A tall person can always crouch or crawl if necessary"
It may come as a surprise, but that is much slower than running.
"I do see a great many advantages tall people would have over short ones".
Not in tropical rainforest however.
"I see no evidence that it couldn't in fact represent the original state, if not of AMH, then MRCA".
Quite possibly so. But isn't Homo erectus as tall as the average human is today?
DocG, modern human hunter-gatherers (including the ones nearest in time to the MRCA) were in general taller and robuster than agriculturalists who succeeded them. So your theory lacks empirical support.
Note: This comment of mine was deleted by Blogger, so I am reposting it.
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