The predictions below focus specifically on issues of relative maturation rates with an emphasis on autism and related conditions.
1) Autistic males, from families of left-handers, will have lower testosterone than the norm, and autistic females will have higher testosterone. The mothers will have high testosterone (Baron-Cohen, Lutchmaya & Knickmeyer, 2004) and quite possibly high estrogen. If we evolved primarily from high F TE, M te, then autistic males will have low estrogen, and autistic females will have high estrogen. (In any study of autism, those with familial male maturation delay tendencies, or families of left-handers, need to be evaluated separately from those possibly traumatized by an environmental effect.)
2) Larger penis and testicle size will be associated with autistic, ambidextrous males and the familial left-handed. Left-handed males and autistics will produce more sperm. (This is based on the large testicle matrifocal bonobo sexual egalitarian paradigm vs. the small testicles patrifocal gorilla harem paradigm.) If larger testicles and increased sperm production are associated with low-testosterone, promiscuous social-structure males, then the two variables will be related in the sense that higher-testosterone males will have smaller testicles or lower sperm production.
3) Autistic males will exhibit more neotenous characteristics, while autistic females should show less neoteny than their contemporaries.
4) The children of parents of widely different ethnicities, separated by tens of thousands of years from common ancestry, will reveal characteristics of their last common progenitor and increased incidence of autism and left-handedness. (Maturational delay progenitor feature emergences will be far more common in matrifocal social structure families.)
5) Neoteny has dental correlations, with smaller teeth being characteristic of the neotenous smaller jaw. Learning that teeth have grown smaller over millions of years, researchers will find that they have actually grown larger in males over the last few tens of thousands of years as patrifocal social structure has taken hold. Ontologically, the teeth of males from older mothers should be smaller than the teeth of males of first-born, young mothers. The reverse should be true for females. In a large family, the male’s teeth will erupt later and later, the female’s earlier and earlier.
6) Because a mother’s testosterone level rises with her age and because she has children across the whole arc of her reproductive years, we might observe a display of personality and physiological features in her children that would roughly reproduce human evolution over a span of eons. An older mother should more frequently have male children with maturational delay, female children with accelerated maturation and increased prevalence of autism in both sexes. Autistic children born to young mothers will more likely come with less frequency from families of left-handers, trauma being a likely cause.
7) Obese mothers (overweight women exhibit increased testosterone and estrogen levels), particularly those who are older, should show high incidence of autism in their children, particularly in migrating populations moving from equatorial regions to northern climates. Equatorial peoples transplanted to northern climates will display higher percentages of maturational-delayed male children, and maturational-accelerated females, including autistics, with the births congregating in certain seasons.
8) If the low-testosterone males and high-testosterone females are late born, and high-testosterone males and low-testosterone females are the oldest children in a family or the first born, then first-borns will mate with first-borns and late-borns will mate with late-borns a higher percentage of the time than would occur by chance.
9) Hypothesizing that social structure has political correlates, it would be likely that in a politically conservative family, if liberals were to emerge, it would be among the youngest sons and daughters. One would also expect a higher incidence of divorce or serial monogamy with youngest children (reflecting matrifocal values).
10) Conditions that display maturational delay, such as autism, Asperger’s and stuttering, will appear more often in males with longer limbs and smaller teeth than in others in their family of origin. This would suggest that the youngest males would also be the tallest. (Longer limbs and smaller teeth are neotenous features.)
11) Eating healthfully (the caveman diet) brings puberty later and provides a longer time for the brain to grow. Putting autistic children on such a late-puberty-enhancing diet may enhance their ability to connect. When puberty or progenesis in humans is dropped to a younger age by several years, it has neurological and cognitive repercussions. In addition to a possible increase in depression and bi-polar disorder, there is the potential for a general curtailment of the final stages of cognitive development.
12) Societal periods of innovation will be preceded by periods of romance, revealing changes in the selection criteria by which females pick their mates or by a widening of the selection criteria for the ideal male. Shifts toward increases in the variety of acceptable features in the procreation population will result in increases in cultural and technical variation. For example, if female infanticide is a tool used for patrifocal cultural stability, decreases in female infanticide over time within a culture will correlate with increases in societal and economic variation. These changes will result in matrifocal societal surges, increases in left-handedness and increases in autism.
13) If rhythm and dance were the aesthetics driving human evolution through rituals of sexual selection, then the sound and feeling of nonstop rhythm may be necessary to encourage the development of an autistic child. Rhythmic environmental triggers may be essential to the healthy growth of maturational-delayed children. By implication, comparing congenitally deaf left and right-handers may reveal an unusually high number of autistics in the left-handed group.
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I am hypothesizing that evolution is driven by this hormonal ebbing and flowing, or waxing and waning. Mother’s testosterone levels > progeny maturation rate > social structure proclivity > evolutionary trajectory. Mother’s estrogen levels > progeny ability to exercise aesthetic discrimination and caring behavior > social structure proclivity > evolutionary trajectory. These two currents are inextricably intertwined, yet they follow established patterns, not unlike the double helix. Changes in hormone levels, influenced by the environment, impact ontogeny while we are in the womb, when we are children and after we’ve become grown-ups.
I call this the Theory of Waves to suggest the surge of features that travel ontogenetically back and forth from conception to adulthood and adulthood to conception over generations, with the direction of features often opposite between the sexes. Darwin proposed three different theories of evolution. This model in some ways integrates his three models (natural selection, sexual selection and Lamarckian selection, or pangenesis) and seeks to show patterns common to evolutionary biology (heterochronic theory), anthropology (social structure) and neuropsychology (sexual hormone endocrinology and Annett’s balanced polymorphism), all three of which describe ways that human beings may have evolved and may still be evolving.
Clearly, an adjustment (Matsuda, 1987) of Watson and Crick’s (1953) Central Dogma is occurring in several places in this thesis. Let me urge the reader to approach this work playfully while still rummaging for something useful in these conjectures. Most of all, perhaps, this thesis is suggesting that neoteny is central to being human. I believe that by playing with evolution we may discover who we are.
