Future Shock

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Future Shock Page 32

by Alvin Toffler


  Under certain circumstances, we may do all of this – and more – in a very obvious fashion, exhibiting what has been called the "startle reaction." But even when we are unaware of what is going on, these changes take place every time we perceive novelty in our environment.

  The reason for this is that we have, apparently built into our brains, a special noveltydetection apparatus that has only recently come to the attention of neurologists. The Soviet scientist E. N. Sokolov, who has put forward the most comprehensive explanation of how the orientation response works, suggests that neural cells in the brain store information about the intensity, duration, quality, and sequence of incoming stimuli. When new stimuli arrive, these are matched against the "neural models" in the cortex. If the stimuli are novel, they do not match any existing neural model, and the OR takes place. If, however, the matching process reveals their similarity to previously stored models, the cortex shoots signals to the reticular activating system, instructing it, in effect, to hold its fire.

  In this way, the level of novelty in our environment has direct physical consequences. Moreover, it is vital to recognize that the OR is not an unusual affair. It takes place in most of us literally thousands of times in the course of a single day as various changes occur in the environment around us. Again and again the OR fires off, even during sleep.

  "The OR is big!" says research psychologist Ardie Lubin, an expert on sleep mechanisms. "The whole body is involved. And when you increase novelty in the environment – which is what a lot of change means – you get continual ORs with it. This is probably very stressful for the body. It's a helluva load to put on the body.

  "If you overload an environment with novelty, you get the equivalent of anxiety neurotics – people who have their systems continually flooded with adrenalin, continual heart pumping, cold hands, increased muscle tone and tremors – all the usual OR characteristics."

  The orientation response is no accident. It is nature's gift to man, one of his key adaptive mechanisms. The OR has the effect of sensitizing him to take in more information – to see or hear better, for instance. It readies his muscles for sudden exertion, if necessary. In short, it prepares him for fight or flight. Yet each OR, as Lubin underscores, takes its toll in wear and tear on the body, for it requires energy to sustain it.

  Thus one result of the OR is to send a surge of anticipatory energy through the body. Stored energy exists in such sites as the muscles and the sweat glands. As the neural system pulses in response to novelty, its synaptic vesicles discharge small amounts of adrenalin and nor-adrenalin. These, in turn, trigger a partial release of the stored energy. In short, each OR draws not only upon the body's limited supply of quick energy, but on its even more limited supply of energy-releasers.

  It needs to be emphasized, moreover, that the OR occurs not merely in response to simple sensory inputs. It happens when we come across novel ideas or information as well as novel sights or sounds. A fresh bit of office gossip, a unifying concept, even a new joke or an original turn of phrase can trigger it.

  The OR is particularly stressing when a novel event or fact challenges one's whole preconceived world view. Given an elaborate ideology, Catholicism, Marxism or whatever, we quickly recognize (or think we recognize) familiar elements in otherwise novel stimuli, and this puts us at ease. Indeed, ideologies may be regarded as large mental filing cabinets with vacant drawers or slots waiting to accept new data. For this reason, ideologies serve to reduce the intensity and frequency of the OR.

  It is only when a new fact fails to fit, when it resists filing, that the OR occurs. A classical example is that of the religious person who is brought up to believe in the goodness of God and who is suddenly faced by what strikes him as a case of overwhelming, senseless evil. Until the new fact can be reconciled or his world view altered, he suffers acute agitation and anxiety.

  The OR is so inherently stressing that we enjoy a vast sense of relief when it is over. At the level of ideas or cognition, this is the "a-hah!" reaction we experience at a moment of revelation, when we finally understand something that has been puzzling us. We may be aware of the "a-hah" reaction on rare occasions only, but OR's and "a-hah's" are continually occurring just below the level of consciousness.

  Novelty, therefore – any perceptible novelty – touches off explosive activity within the body, and especially the nervous system. OR's fire off like flashbulbs within us, at a rate determined by what is happening outside us. Man and environment are in constant, quivering interplay.

  THE ADAPTIVE REACTION

  While novelty in the environment raises or lowers the rate at which OR's occur, some novel conditions call forth even more powerful responses. We are driving along a monotonous turnpike, listening to the radio and beginning to daydream. Suddenly, a car speeds by, forcing us to swerve out of our lane. We react automatically, almost instantaneously, and the OR is very pronounced. We can feel our heart pumping and our hands shaking. It takes a while before the tension subsides.

  But what if it does not subside? What happens when we are placed in a situation that demands a complex set of physical and psychological reactions and in which the pressure is sustained? What happens if, for example, the boss breathes hotly down our collar day after day? What happens when one of our children is seriously ill? Or when, on the other hand, we look forward eagerly to a "big date" or to closing an important business deal?

  Such situations cannot be handled by the quick spurt of energy provided by the OR, and for these we have what might be termed the "adaptive reaction." This is closely related to the OR. Indeed, the two processes are so intertwined that the OR can be regarded as part of, or the initial phase of, the larger, more encompassing adaptive reaction. But while the OR is primarily based on the nervous system, the adaptive reaction is heavily dependent upon the endocrine glands and the hormones they shoot into the bloodstream. The first line of defense is neural; the second is hormonal.

  When individuals are forced to make repeated adaptations to novelty, and especially when they are compelled to adapt to certain situations involving conflict and uncertainty, a pea-sized gland called the pituitary pumps out a number of substances. One of these, ACTH, goes to the adrenals. This causes them, in turn, to manufacture certain chemicals termed corticosteroids. When these are released, they speed up body metabolism. They raise blood pressure. They send anti-inflammatory substances through the blood to fight infection at wound sites, if any. And they begin turning fat and protein into dispersible energy, thus tapping into the body's reserve tank of energy. The adaptive reaction provides a much more potent and sustained flush of energy than the OR.

  Like the orientation response, the adaptive reaction is no rarity. It takes longer to arouse and it lasts longer, but it happens countless times even within the course of a single day, responding to changes in our physical and social environment. The adaptive reaction, sometimes known by the more dramatic term "stress," can be touched off by shifts and changes in the psychological climate around us. Worry, upset, conflict, uncertainty, even happy anticipation, hilarity and joy, all set the ACTH factory working. The very anticipation of change can trigger the adaptive reaction. The need to alter one's way of life, to trade an old job for a new one, social pressures, status shifts, life style modifications, in fact, anything that forces us to confront the unknown, can switch on the adaptive reaction.

  Dr. Lennart Levi, director of the Clinical Stress Laboratory at the Karolinska Hospital in Stockholm, has shown, for example, that even quite small changes in the emotional climate or in interpersonal relationships can produce marked changes in body chemistry. Stress is frequently measured by the amount of corticosteroids and catecholamines (adrenalin and nor adrenalin, for example) found in the blood and urine. In one series of experiments Levi used films to generate emotions and plotted the resultant chemical changes.

  A group of Swedish male medical students were shown film clips depicting murders, fights, torture, execution and cruelty to animals. The adre
nalin component of their urine rose an average 70 percent as measured before and after. Nor-adrenalin rose an average 35 percent. Next a group of young female office workers were shown four different films on successive nights. The first was a bland travelog. They reported feelings of calmness and equanimity, and their output of catecholamines fell. The second night they watched Stanley Kubrick's Paths of Glory and reported feeling intense excitement and anger. Adrenalin output shot upward. The third night they viewed Charley's Aunt, and roared with laughter at the comedy. Despite the pleasant feelings and the absence of any scenes of aggression or violence, their catecholamines rose significantly again. The fourth night they saw The Devil's Mask, a thriller during which they actually screamed with fright. Not unexpectedly, catecholamine output soared. In short, emotional response, almost without regard for its character, is accompanied by (or, indeed, reflects) adrenal activity.

  Similar findings have been demonstrated again and again in the case of men and women – not to speak of rats, dogs, deer and other experimental animals – involved in "real" as distinct from "vicarious" experiences. Sailors in underwater demolition training, men stationed in lonely outposts in Antarctica, astronauts, factory workers, executives have all shown similar chemical responsiveness to change in the external environment.

  The implications of this have hardly begun to register, yet there is increasing evidence that repeated stimulation of the adaptive reaction can be seriously damaging, that excessive activation of the endocrine system leads to irreversible "wear and tear." Thus, we are warned by Dr. Rene Dubos, author of Man Adapting, that such changeful circumstances as "competitive situations, operation within a crowded environment, change in a very profound manner the secretion of hormones. One can type-read that in the blood or the urine. Just a mere contact with the complex human situation almost automatically brings this about, this stimulation of the whole endocrine system."

  What of it?

  "There is," Dubos declares, "absolutely no question that one can overshoot the stimulation of the endocrine system and that this has physiological consequences that last throughout the whole lifetime of the organs."

  Years ago, Dr. Hans Selye, a pioneer investigator of the body's adaptive responses, reported that "animals in which intense and prolonged stress is produced by any means suffer from sexual derangements ... Clinical studies have confirmed the fact that people exposed to stress react very much like experimental animals in all these respects. In women the monthly cycles become irregular or stop altogether, and during lactation milk secretion may become insufficient for the baby. In men both the sexual urge and sperm-cell formation are diminished."

  Since then population experts and ecologists have compiled impressive evidence that heavily stressed populations of rats, deer – and people – show lower fertility levels than less stressed control groups. Crowding, for example, a condition that involves a constant high level of interpersonal interaction and compels the individual to make extremely frequent adaptive reactions has been shown, at least in animals, to enlarge the adrenals and cause a noticeable drop in fertility.

  The repeated firing of the OR and the adaptive reaction, by overloading the neural and endocrine systems, is linked to other diseases and physical problems as well. Rapid change in the environment makes repeated calls on the energy supply of the body. This leads to a speedup of fat metabolism. In turn, this creates grave difficulties for certain diabetics. Even the common cold has been shown to be affected by the rate of change in the environment. In studies reported by Dr. Hinkle it was found that the frequency of colds in a sample of New York working women correlated with "changes in the mood and pattern of activity of the woman, in response to changing relationships to the people around her and the events that she encountered."

  In short, if we understand the chain of biological events touched off by our efforts to adapt to change and novelty, we can begin to understand why health and change seem to be inextricably linked to one another. The findings of Holmes, Rahe, Arthur and others now engaged in life change research are entirely compatible with on-going research in endocrinology and experimental psychology. It is quite clearly impossible to accelerate the rate of change in society, or to raise the novelty ratio in society, without triggering significant changes in the body chemistry of the population. By stepping up the pace of scientific, technological and social change, we are tampering with the chemistry and biological stability of the human race.

  This, one must immediately add, is not necessarily bad. "There are worse things than illness," Dr. Holmes wryly reminds us. "No one can live without experiencing some degree of stress all the time," Dr. Selye has written. To eliminate ORs and adaptive reactions would be to eliminate all change, including growth, self-development, maturation. It presupposes complete stasis. Change is not merely necessary to life; it is life. By the same token, life is adaptation.

  There are, however, limits on adaptability. When we alter our life style, when we make and break relationships with things, places or people, when we move restlessly through the organizational geography of society, when we learn new information and ideas, we adapt; we live. Yet there are finite boundaries; we are not infinitely resilient. Each orientation response, each adaptive reaction exacts a price, wearing down the body's machinery bit by minute bit, until perceptible tissue damage results.

  Thus man remains in the end what he started as in the beginning: a biosystem with a limited capacity for change. When this capacity is overwhelmed, the consequence is future shock.

  Chapter 16

  FUTURE SHOCK: THE PSYCHOLOGICAL DIMENSION

  If future shock were a matter of physical illness alone, it might be easier to prevent and to treat. But future shock attacks the psyche as well. Just as the body cracks under the strain of environmental overstimulation, the "mind" and its decision processes behave erratically when overloaded. By indiscriminately racing the engines of change, we may be undermining not merely the health of those least able to adapt, but their very ability to act rationally on their own behalf.

  The striking signs of confusional breakdown we see around us – the spreading use of drugs, the rise of mysticism, the recurrent outbreaks of vandalism and undirected violence, the politics of nihilism and nostalgia, the sick apathy of millions – can all be understood better by recognizing their relationship to future shock. These forms of social irrationality may well reflect the deterioration of individual decision-making under conditions of environmental overstimulation.

  Psychophysiologists studying the impact of change on various organisms have shown that successful adaptation can occur only when the level of stimulation – the amount of change and novelty in the environment – is neither too low nor too high. "The central nervous system of a higher animal," says Professor D. E. Berlyne of the University of Toronto, "is designed to cope with environments that produce a certain rate of ... stimulation ... It will naturally not perform at its best in an environment that overstresses or overloads it." He makes the same point about environments that understimulate it. Indeed, experiments with deer, dogs, mice and men all point unequivocally to the existence of what might be called an "adaptive range" below which and above which the individual's ability to cope simply falls apart.

  Future shock is the response to overstimulation. It occurs when the individual is forced to operate above his adaptive range. Considerable research has been devoted to studying the impact of inadequate change and novelty on human performance. Studies of men in isolated Antarctic outposts, experiments in sensory deprivation, investigations into on-the-job performance in factories, all show a falling off of mental and physical abilities in response to understimulation. We have less direct data on the impact of overstimulation, but such evidence as does exist is dramatic and unsettling.

  THE OVERSTIMULATED INDIVIDUAL

  Soldiers in battle often find themselves trapped in environments that are rapidly changing, unfamiliar, and unpredictable. The soldier is torn this way and that. Shells burst on eve
ry side. Bullets whiz past erratically. Flares light the sky. Shouts, groans and explosions fill his ears. Circumstances change from instant to instant. To survive in such overstimulatiog environments, the soldier is driven to operate in the upper reaches of his adaptive range. Sometimes, he is pushed beyond his limits.

  During World War II a bearded Chindit soldier, fighting with General Wingate's forces behind the Japanese lines in Burma, actually fell asleep while a storm of machine gun bullets splattered around him. Subsequent investigation revealed that this soldier was not merely reacting to physical fatigue or lack of sleep, but surrendering to a sense of overpowering apathy.

  Death-inviting lassitude was so common, in fact, among guerrilla troops who had penetrated behind enemy lines that British military physicians gave it a name. They termed it Long Range Penetration Strain. A soldier who suffered from it became, in their words, "incapable of doing the simplest thing for himself and seemed to have the mind of a child." This deadly lethargy, moreover, was not confined to guerrilla troops. One year after the Chindit incident, similar symptoms cropped up en masse among the allied troops who invaded Normandy, and British researchers, after studying 5000 American and English combat casualties, concluded that this strange apathy was merely the final stage in a complex process of psychological collapse.

 

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