What Makes You Who You Are - Nature or Nurture?

by teejay 3 Replies latest jw friends

  • teejay
    teejay

    I apologize in advance for the length of this post. I tried to shorten it as much as possible, but if I had cut too much of it out, what was left wouldn't have made much sense. Besides, it was too friggin' good. Hope y'all enjoy it half as much as I did...


    Which is stronger—nature or nurture? The latest science says genes and your experience interact for your whole life By Matt Ridley

    Posted Sunday, March 25, 2003; 2:31 p.m. EST

    One perennial debate about nature and nurture—which is the more potent shaper of the human essence? It flared up again in the London Observer of Feb. 11, 2001. Revealed: the secret of human behavior, read the banner headline. Environment, not genes, key to our acts. The article was written by Craig Venter who had built a private company to read the full sequence of the human genome. That sequence was to be published the very next day.

    Details had already been circulated to journalists under embargo. But Venter, by speaking to a reporter at a biotechnology conference in France on Feb. 9, had effectively broken the embargo. Not for the first time in the increasingly bitter rivalry over the genome project, Venter's version of the story would hit the headlines before his rivals'. "We simply do not have enough genes for this idea of biological determinism to be right," Venter told the Observer. "The wonderful diversity of the human species is not hard-wired in our genetic code. Our environments are critical."

    The human genome project—and the decades of research that preceded it—forced a much more nuanced understanding of how genes work. In the early days, scientists detailed how genes encode the various proteins that make up the cells in our bodies. Their more sophisticated and ultimately more satisfying discovery—that gene expression can be modified by experience—has been gradually emerging since the 1980s. Only now is it dawning on scientists what a big and general idea it implies: that learning itself consists of nothing more than switching genes on and off. The more we lift the lid on the genome, the more vulnerable to experience genes appear to be.

    This is not some namby-pamby, middle-of-the-road compromise. This is a new understanding of the fundamental building blocks of life based on the discovery that genes are not immutable things handed down from our parents like Moses' stone tablets but are active participants in our lives, designed to take their cues from everything that happens to us from the moment of our conception.

    For the time being, this new awareness has taken its strongest hold among scientists, changing how they think about everything from the way bodies develop in the womb to how new species emerge to the inevitability of homosexuality in some people. Eventually, as the general population becomes more attuned to this interdependent view, changes may well occur in areas as diverse as education, medicine, law and religion. Dieters may learn precisely which combination of fats, carbohydrates and proteins has the greatest effect on their individual waistlines. Theologians may develop a whole new theory of free will based on the observation that learning expands our capacity to choose our own path. As was true of Copernicus's observation 500 years ago that the earth orbits the sun, there is no telling how far the repercussions of this new scientific paradigm may extend.

    To appreciate what has happened, you will have to abandon cherished notions and open your mind. You will have to enter a world in which your genes are not puppet masters pulling the strings of your behavior but puppets at the mercy of your behavior, in which instinct is not the opposite of learning, environmental influences are often less reversible than genetic ones, and nature is designed for nurture.

    Fear of snakes, for instance, is the most common human phobia, and it makes good evolutionary sense for it to be instinctive. Learning to fear snakes the hard way would be dangerous. Yet experiments with monkeys reveal that their fear of snakes (and probably ours) must still be acquired by watching another individual react with fear to a snake. It turns out that it is easy to teach monkeys to fear snakes but very difficult to teach them to fear flowers. What we inherit is not a fear of snakes but a predisposition to learn a fear of snakes—a nature for a certain kind of nurture.

    Whether human nature is born or made is an ancient conundrum discussed by Plato and Aristotle. Empiricist philosophers such as John Locke and David Hume argued that the human mind was formed by experience; nativists like Jean-Jacques Rousseau and Immanuel Kant held that there was such a thing as immutable human nature.

    In 1874, Francis Galton ignited the nature-nurture controversy in its present form and coined the very phrase. Galton asserted that human personalities were born, not made by experience. At the same time, the philosopher William James argued that human beings have more instincts than animals, not fewer.

    In the first decades of the 20th century, nature held sway over nurture in most fields. In the wake of World War I, however, three men recaptured the social sciences for nurture: John B. Watson, who set out to show how the conditioned reflex, discovered by Ivan Pavlov, could explain human learning; Sigmund Freud, who sought to explain the influence of parents and early experiences on young minds; and Franz Boas, who argued that the origin of ethnic differences lay with history, experience and circumstance, not physiology and psychology.

    Galton's insistence on innate explanations of human abilities led him to espouse eugenics, a term he coined, an idea the Nazis adopted to justify their campaign of mass murder against the disabled and the Jews. Tainted by this association, the idea of innate behavior waned. In 1958, however, two men began the counterattack on behalf of nature. Noam Chomsky, in his review of a book by the behaviorist B.F. Skinner, argued that it was impossible to learn human language by trial and error alone; human beings must come already equipped with an innate grammatical skill. Harry Harlow did a simple experiment that showed that a baby monkey prefers a soft, cloth model of a mother to a hard, wire-frame mother, even if the wire-frame mother provides it with all its milk; some preferences are innate.

    Fast-forward to the 1980s and one of the most stunning surprises to greet scientists when they first opened up animal genomes: fly geneticists found a small group of genes called the hox genes that seemed to set out the body plan of the fly during its early development—telling it roughly where to put the head, legs, wings and so on. But then colleagues studying mice found the same hox genes, in the same order, doing the same job—telling the mouse where to put its various parts. And when scientists looked in our genome, they found hox genes there too.

    Hox genes, like all genes, are switched on and off in different parts of the body at different times. In this way, genes can have subtly different effects, depending on where, when and how they are switched on. The switches that control this process—stretches of DNA upstream of genes—are known as promoters. Small changes in the promoter can have profound effects on the expression of a hox gene.

    To make grand changes in the body plan of animals, there is no need to invent new genes, just as there's no need to invent new words to write an original novel. All you need do is switch the same ones on and off in different patterns. Suddenly, here is a mechanism for creating large and small evolutionary changes from small genetic differences. Merely by adjusting the sequence of a promoter or adding a new one, you could alter the expression of a gene.

    In one sense, this is a bit depressing. It means that until scientists know how to find gene promoters in the vast text of the genome, they will not learn how the recipe for a chimpanzee differs from that for a person. But in another sense, it is also uplifting, for it reminds us more forcefully than ever of a simple truth that is all too often forgotten: bodies are not made, they grow. The genome is not a blueprint for constructing a body. It is a recipe for baking a body. The development of a certain human behavior takes a certain time and occurs in a certain order, just as the cooking of a perfect soufflé requires not just the right ingredients but also the right amount of cooking and the right order of events.

    How does this new view of genes alter our understanding of human nature? Take a look at four examples.

    Language
    Human beings differ from chimpanzees in having complex, grammatical language. But language does not spring fully formed from the brain; it must be learned from other language-speaking human beings. This capacity to learn is written into the human brain by genes that open and close a critical window during which learning takes place. If a child is not exposed to a lot of spoken language during the critical learning period, he or she will always struggle with speech.

    Love
    Some species of rodents form long pair bonds with their mates, as human beings do. Others have only transitory liaisons, as do chimpanzees. The difference lies in the promoter upstream of [certain] genes. The insertion of an extra chunk of DNA text into the promoter makes the animal more likely to bond with its mate. The extra text does not create love, but perhaps it creates the possibility of falling in love after the right experience.

    Antisocial behavior
    It has often been suggested that childhood maltreatment can create an antisocial adult. New research on a group of 442 New Zealand men who have been followed since birth suggests that this is true only for a genetic minority. Again, the difference lies in a promoter that alters the activity of a gene. Those with high-active monoamine oxidase A genes were virtually immune to the effects of mistreatment. Those with low-active genes were much more antisocial if maltreated, yet—if anything—slightly less antisocial if not maltreated. The low-active, mistreated men were responsible for four times their share of rapes, robberies and assaults. In other words, maltreatment is not enough; you must also have the low-active gene. And it is not enough to have the low-active gene; you must also be maltreated.

    Homosexuality
    Ray Blanchard at the University of Toronto has found that gay men are more likely than either lesbians or heterosexual men to have older brothers (but not older sisters). He has since confirmed this observation in 14 samples from many places. Something about occupying a womb that has held other boys occasionally results in reduced birth weight, a larger placenta and a greater probability of homosexuality. That something, Blanchard suspects, is an immune reaction in the mother, primed by the first male fetus, that grows stronger with each male pregnancy. Perhaps the immune response affects the expression of key genes during brain development in a way that boosts a boy's attraction to his own sex. Such an explanation would not hold true for all gay men, but it might provide important clues into the origins of both homosexuality and heterosexuality.

    To be sure, earlier scientific discoveries had hinted at the importance of this kind of interplay between heredity and environment. But now we know how the brain changes: by the real-time expression of 17 genes, known as the creb genes. They must be switched on and off to alter connections among nerve cells in the brain and thus lay down a new long-term memory. These genes are at the mercy of our behavior, not the other way around. Memory is in the genes in the sense that it uses genes, not in the sense that you inherit memories.

    In this new view, genes allow the human mind to learn, remember, imitate, imprint language, absorb culture and express instincts. Genes are not puppet masters or blueprints, nor are they just the carriers of heredity. They are active during life; they switch one another on and off; they respond to the environment. They may direct the construction of the body and brain in the womb, but then almost at once, in response to experience, they set about dismantling and rebuilding what they have made. They are both the cause and the consequence of our actions.

    Matt Ridley is an Oxford-trained zoologist and science writer whose latest book is Nature via Nurture (HarperCollins)

  • Undecided
    Undecided

    Hi Tejay,

    That was interesting. I have often wondered what makes us what we are. Is it our ancestry, culture, experience, brain chemistry or a combination of all these things. This seems to be a complex subject and no one knows the complete picture. Do we have any spirit direction from within that no one can understand, or are there other influences we don't understand?

    Thanks for the infomation.

    Ken P.

  • wannaexit
    wannaexit

    Teejay,

    I jus finished reading this article in TIME (canadian edition June, 2003). I also found it fascinating. Thanks for thinking of sharing it with everybody.

  • more2C
    more2C

    Both nature and nurture make up who I am. My environment and my great parents (even though my dad is a JW) have made me who I am today and what I want to accomplish in the future.

    more2C

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