by Susan Cain
But there’s another kind of flexibility that we all hope applies to the question of who we are and what we become. We want the freedom to map our own destinies. We want to preserve the advantageous aspects of our temperaments and improve, or even discard, the ones we dislike—such as a horror of public speaking. In addition to our inborn temperaments, beyond the luck of the draw of our childhood experience, we want to believe that we—as adults—can shape our selves and make what we will of our lives.
Can we?
5
BEYOND TEMPERAMENT
The Role of Free Will (and the Secret of Public Speaking for Introverts)
Enjoyment appears at the boundary between boredom and anxiety, when the challenges are just balanced with the person’s capacity to act.
—MIHALY CSIKSZENTMIHALYI
Deep inside the bowels of the Athinoula A. Martinos Center for Biomedical Imaging at Massachusetts General Hospital, the hallways are nondescript, dingy even. I’m standing outside the locked door of a windowless room with Dr. Carl Schwartz, the director of the Developmental Neuroimaging and Psychopathology Research Lab. Schwartz has bright, inquisitive eyes, graying brown hair, and a quietly enthusiastic manner. Despite our unprepossessing surroundings, he prepares with some fanfare to unlock the door.
The room houses a multimillion-dollar fMRI (functional magnetic resonance imaging) machine, which has made possible some of the greatest breakthroughs in modern neuroscience. An fMRI machine can measure which parts of the brain are active when you’re thinking a particular thought or performing a specific task, allowing scientists to perform the once unimaginable task of mapping the functions of the human brain. A principal inventor of the fMRI technique, says Dr. Schwartz, was a brilliant but unassuming scientist named Kenneth Kwong, who works inside this very building. This whole place is full of quiet and modest people doing extraordinary things, Schwartz adds, waving his hand appreciatively at the empty hallway.
Before Schwartz opens the door, he asks me to take off my gold hoop earrings and set aside the metal tape recorder I’ve been using to record our conversation. The magnetic field of the fMRI machine is 100,000 times stronger than the earth’s gravitational pull—so strong, Schwartz says, that it could rip the earrings right out of my ears if they were magnetic and send them flying across the room. I worry about the metal fasteners of my bra, but I’m too embarrassed to ask. I point instead to my shoe buckle, which I figure has the same amount of metal as the bra strap. Schwartz says it’s all right, and we enter the room.
We gaze reverently at the fMRI scanner, which looks like a gleaming rocketship lying on its side. Schwartz explains that he asks his subjects—who are in their late teens—to lie down with their heads in the scanner while they look at photographs of faces and the machine tracks how their brains respond. He’s especially interested in activity in the amygdala—the same powerful organ inside the brain that Kagan found played such an important role in shaping some introverts’ and extroverts’ personalities.
Schwartz is Kagan’s colleague and protégé, and his work picks up just where Kagan’s longitudinal studies of personality left off. The infants Kagan once categorized as high- and low-reactive have now grown up, and Schwartz is using the fMRI machine to peer inside their brains. Kagan followed his subjects from infancy into adolescence, but Schwartz wanted to see what happened to them after that. Would the footprint of temperament be detectable, all those years later, in the adult brains of Kagan’s high- and low-reactive infants? Or would it have been erased by some combination of environment and conscious effort?
Interestingly, Kagan cautioned Schwartz against doing the study. In the competitive field of science research, you don’t want to waste time conducting studies that may not yield significant findings. And Kagan worried that there were no results to be found—that the link between temperament and destiny would be severed by the time an infant reached adulthood.
“He was trying to take care of me,” Schwartz tells me. “It was an interesting paradox. Because here Jerry was doing all these early observations of infants, and seeing that it wasn’t just their social behavior that was different in the extremes—everything about these kids was different. Their eyes dilated more widely when they were solving problems, their vocal cords became more tense while uttering words, their heart rate patterns were unique: there were all these channels that suggested there was something different physiologically about these kids. And I think, in spite of this, because of his intellectual heritage, he had the feeling that environmental factors are so complex that it would be really hard to pick up that footprint of temperament later in life.”
But Schwartz, who believes that he’s a high-reactive himself and was drawing partly on his own experience, had a hunch that he’d find that footprint even farther along the longitudinal timeline than Kagan had.
He demonstrates his research by allowing me to act as if I were one of his subjects, albeit not inside the fMRI scanner. As I sit at a desk, a computer monitor flashes photos at me, one after another, each showing an unfamiliar face: disembodied black-and-white heads floating against a dark background. I think I can feel my pulse quicken as the photos start coming at me faster and faster. I also notice that Schwartz has slipped in some repeats and that I feel more relaxed as the faces start to look familiar. I describe my reactions to Schwartz, who nods. The slide show is designed, he says, to mimic an environment that corresponds to the sense that high-reactive people get when they walk into a crowded room of strangers and feel “Geez! Who are these people?”
I wonder if I’m imagining my reactions, or exaggerating them, but Schwartz tells me that he’s gotten back the first set of data on a group of high-reactive children Kagan studied from four months of age—and sure enough, the amygdalae of those children, now grown up, had turned out to be more sensitive to the pictures of unfamiliar faces than did the amygdalae of those who’d been bold toddlers. Both groups reacted to the pictures, but the formerly shy kids reacted more. In other words, the footprint of a high- or low-reactive temperament never disappeared in adulthood. Some high-reactives grew into socially fluid teenagers who were not outwardly rattled by novelty, but they never shed their genetic inheritance.
Schwartz’s research suggests something important: we can stretch our personalities, but only up to a point. Our inborn temperaments influence us, regardless of the lives we lead. A sizable part of who we are is ordained by our genes, by our brains, by our nervous systems. And yet the elasticity that Schwartz found in some of the high-reactive teens also suggests the converse: we have free will and can use it to shape our personalities.
These seem like contradictory principles, but they are not. Free will can take us far, suggests Dr. Schwartz’s research, but it cannot carry us infinitely beyond our genetic limits. Bill Gates is never going to be Bill Clinton, no matter how he polishes his social skills, and Bill Clinton can never be Bill Gates, no matter how much time he spends alone with a computer.
We might call this the “rubber band theory” of personality. We are like rubber bands at rest. We are elastic and can stretch ourselves, but only so much.
To understand why this might be so for high-reactives, it helps to look at what happens in the brain when we greet a stranger at a cocktail party. Remember that the amygdala, and the limbic system of which it’s a key part, is an ancient part of the brain—so old that primitive mammals have their own versions of this system. But as mammals became more complex, an area of the brain called the neocortex developed around the limbic system. The neocortex, and particularly the frontal cortex in humans, performs an astonishing array of functions, from deciding which brand of toothpaste to buy, to planning a meeting, to pondering the nature of reality. One of these functions is to soothe unwarranted fears.
If you were a high-reactive baby, then your amygdala may, for the rest of your life, go a bit wild every time you introduce yourself to a stranger at a cocktail party. But if you feel relatively skilled in company, that’s partly bec
ause your frontal cortex is there to tell you to calm down, extend a handshake, and smile. In fact, a recent fMRI study shows that when people use self-talk to reassess upsetting situations, activity in their prefrontal cortex increases in an amount correlated with a decrease of activity in their amygdala.
But the frontal cortex isn’t all-powerful; it doesn’t switch the amygdala off altogether. In one study, scientists conditioned a rat to associate a certain sound with an electrical shock. Then they played that sound over and over again without administering the shock, until the rats lost their fear.
But it turned out that this “unlearning” was not as complete as the scientists first thought. When they severed the neural connections between the rats’ cortex and amygdala, the rats became afraid of the sound again. This was because the fear conditioning had been suppressed by the activity of the cortex, but was still present in the amygdala. In humans with unwarranted fears, like batophobia, or fear of heights, the same thing happens. Repeated trips to the top of the Empire State Building seem to extinguish the fear, but it may come roaring back during times of stress—when the cortex has other things to do than soothe an excitable amygdala.
This helps explain why many high-reactive kids retain some of the fearful aspects of their temperament all the way into adulthood, no matter how much social experience they acquire or free will they exercise. My colleague Sally is a good example of this phenomenon. Sally is a thoughtful and talented book editor, a self-described shy introvert, and one of the most charming and articulate people I know. If you invite her to a party, and later ask your other guests whom they most enjoyed meeting, chances are they’ll mention Sally. She’s so sparkly, they’ll tell you. So witty! So adorable!
Sally is conscious of how well she comes across—you can’t be as appealing as she is without being aware of it. But that doesn’t mean her amygdala knows it. When she arrives at a party, Sally often wishes she could hide behind the nearest couch—until her prefrontal cortex takes over and she remembers what a good conversationalist she is. Even so, her amygdala, with its lifetime of stored associations between strangers and anxiety, sometimes prevails. Sally admits that sometimes she drives an hour to a party and then leaves five minutes after arriving.
When I think of my own experiences in light of Schwartz’s findings, I realize it’s not true that I’m no longer shy; I’ve just learned to talk myself down from the ledge (thank you, prefrontal cortex!). By now I do it so automatically that I’m hardly aware it’s happening. When I talk with a stranger or a group of people, my smile is bright and my manner direct, but there’s a split second that feels like I’m stepping onto a high wire. By now I’ve had so many thousands of social experiences that I’ve learned that the high wire is a figment of my imagination, or that I won’t die if I fall. I reassure myself so instantaneously that I’m barely aware I’m doing it. But the reassurance process is still happening—and occasionally it doesn’t work. The word that Kagan first used to describe high-reactive people was inhibited, and that’s exactly how I still feel at some dinner parties.
This ability to stretch ourselves—within limits—applies to extroverts, too. One of my clients, Alison, is a business consultant, mother, and wife with the kind of extroverted personality—friendly, forthright, perpetually on the go—that makes people describe her as a “force of nature.” She has a happy marriage, two daughters she adores, and her own consulting firm that she built from scratch. She’s rightly proud of what she’s accomplished in life.
But she hasn’t always felt so satisfied. The year she graduated from high school, she took a good look at herself and didn’t like what she saw. Alison is extremely bright, but you couldn’t see that from her high school transcript. She’d had her heart set on attending an Ivy League school, and had thrown that chance away.
And she knew why. She’d spent high school socializing—Alison was involved in practically every extracurricular activity her school had to offer—and that didn’t leave much time for academics. Partly she blamed her parents, who were so proud of their daughter’s social gifts that they hadn’t insisted she study more. But mostly she blamed herself.
As an adult, Alison is determined not to make similar mistakes. She knows how easy it would be to lose herself in a whirl of PTA meetings and business networking. So Alison’s solution is to look to her family for adaptive strategies. She happens to be the only child of two introverted parents, to be married to an introvert, and to have a younger daughter who is a strong introvert herself.
Alison has found ways to tap into the wavelength of the quiet types around her. When she visits her parents, she finds herself meditating and writing in her journal, just the way her mother does. At home she relishes peaceful evenings with her homebody husband. And her younger daughter, who enjoys intimate backyard talks with her mother, has Alison spending her afternoons engaged in thoughtful conversation.
Alison has even created a network of quiet, reflective friends. Although her best friend in the world, Amy, is a highly charged extrovert just like her, most of her other friends are introverts. “I so appreciate people who listen well,” says Alison. “They are the friends I go have coffee with. They give me the most spot-on observations. Sometimes I haven’t even realized I was doing something counterproductive, and my introverted friends will say, ‘Here’s what you’re doing, and here are fifteen examples of when you did that same thing,’ whereas my friend Amy wouldn’t even notice. But my introverted friends are sitting back and observing, and we can really connect over that.”
Alison remains her boisterous self, but she has also discovered how to be, and to benefit from, quiet.
Even though we can reach for the outer limits of our temperaments, it can often be better to situate ourselves squarely inside our comfort zones.
Consider the story of my client Esther, a tax lawyer at a large corporate law firm. A tiny brunette with a springy step and blue eyes as bright as headlamps, Esther was not shy and never had been. But she was decidedly introverted. Her favorite part of the day was the quiet ten minutes when she walked to the bus along the tree-lined streets of her neighborhood. Her second favorite part was when she got to close the door to her office and dig into her work.
Esther had chosen her career well. A mathematician’s daughter, she loved to think about intimidatingly complex tax problems, and could discuss them with ease. (In chapter 7, I examine why introverts are so good at complex, focused problem-solving.) She was the youngest member of a close-knit working group operating inside a much larger law firm. This group comprised five other tax lawyers, all of whom supported one another’s careers. Esther’s work consisted of thinking deeply about questions that fascinated her and working closely with trusted colleagues.
But it happened that Esther’s small group of tax lawyers periodically had to give presentations to the rest of the law firm. These talks were a source of misery for Esther, not because she was afraid of public speaking, but because she wasn’t comfortable speaking extemporaneously. Esther’s colleagues, in contrast—all of whom happened to be extroverts—were spontaneous talkers who decided what they’d say on their way to the presentation and were somehow able to convey their thoughts intelligibly and engagingly by the time they arrived.
Esther was fine if given a chance to prepare, but sometimes her colleagues failed to mention that they’d be delivering a talk until she arrived at work that morning. She assumed that their ability to speak improvisationally was a function of their superior understanding of tax law and that, as she gained more experience, she too would be able to “wing it.” But as Esther became more senior and more knowledgeable, she still couldn’t do it.
To solve Esther’s problem, let’s focus on another difference between introverts and extroverts: their preference for stimulation.
For several decades, beginning in the late 1960s, an influential research psychologist named Hans Eysenck hypothesized that human beings seek “just right” levels of stimulation—not too much and not too
little. Stimulation is the amount of input we have coming in from the outside world. It can take any number of forms, from noise to social life to flashing lights. Eysenck believed that extroverts prefer more stimulation than introverts do, and that this explained many of their differences: introverts enjoy shutting the doors to their offices and plunging into their work, because for them this sort of quiet intellectual activity is optimally stimulating, while extroverts function best when engaged in higher-wattage activities like organizing team-building workshops or chairing meetings.
Eysenck also thought that the basis of these differences might be found in a brain structure called the ascending reticular activating system (ARAS). The ARAS is a part of the brain stem that has connections leading up to the cerebral cortex and other parts of the brain. The brain has excitatory mechanisms that cause us to feel awake, alert, and energetic—“aroused,” in the parlance of psychologists. It also has calming mechanisms that do the opposite. Eysenck speculated that the ARAS regulates the balance between over- and under-arousal by controlling the amount of sensory stimulation that flows into the brain; sometimes the channels are wide open, so a lot of stimulation can get in, and sometimes they’re constricted, so the brain is less stimulated. Eysenck thought that the ARAS functioned differently in introverts and extroverts: introverts have wide-open information channels, causing them to be flooded with stimulation and over-aroused, while extroverts have tighter channels, making them prone to under-arousal. Over-arousal doesn’t produce anxiety so much as the sense that you can’t think straight—that you’ve had enough and would like to go home now. Under-arousal is something like cabin fever. Not enough is happening: you feel itchy, restless, and sluggish, like you need to get out of the house already.