C H A P T E R
9 Personality and Self in Motivation Fierce eagles do not produce timorous doves.
—Horace, 13 B.C.
With a good heredity, nature deals you a fine hand at cards; and with a good environment, you learn to play the hand well.
—Walter C. Alvarez, M.D.
■ Different things motivate different people. The last chapter showed that different motivators could be organized according to various psychological needs. This chapter examines whether different motivators can be grouped according to people’s personalities. Is it possible that peo- ple with similar personality traits are alike in their motives and in their preferred incentives? This chapter presents possible answers to this and the following questions:
1. What is the difference between temperament and personality?
2. Are personality traits real?
3. How do personality traits affect a person’s reaction, selection, and manipulation of a situation?
4. Do personality traits influence the manner in which psychological needs are satisfied?
5. Can a person’s concept of herself serve as a source of motivation?
Personality Associated with Motivation After being separated since infancy for 39 years, identical twins Jim Springer and Jim Lewis were reunited. Even though they were adopted and reared by different families, there were some uncanny similarities between the twins. Each had been married twice, had a son named James, and had a dog named Toy during childhood. In regards to personal habits, both smoked and drank lite beer, bit their fingernails, and vacationed in the same beach area in Florida. Both twins had worked part time as sheriffs, owned light blue Chevrolets, and wrote love notes to their wives (Segal, 1999, pp. 116–118). How can two individuals reared in different environments be so similar? Is it due to chance or due to their similar tempera- ments and personalities, which were shaped by their genes?
The purpose of this section is to show that temperament and personality traits are real and that they are a source of motivation. These sources motivate people to react differently to the same situations and also to seek out or avoid different situations.
Motivation: Biological, Psychological, and Environmental, Third Edition, by Lambert Deckers. Published by Allyn & Bacon. Copyright © 2010 by Pearson Education, Inc.
C H A P T E R N I N E / Personality and Self in Motivation 211
Temperament, Personality, and Behavior People differ in both temperament and personality, and these differences have an impact on what motivates them. Were you active and outgoing as a child, or were you quiet and shy? To what extent are you the same or different today? Temperament refers to consistent individual differences in emotionality and is a result of genetically inherited characteris- tics. Personality is a consistent way of behaving as a result of the interaction between tem- perament characteristics and social experience. Although both imply long-term behavior dispositions, there are distinctions between them (Strelau, 1985, 1987). First, hereditary and biological factors play more of a role in determining temperament, whereas social fac- tors are involved in determining personality. Temperament manifests itself earlier in child- hood, while personality develops later. Temperament can refer to behavior differences, for example, among different breeds of dogs, as Gosling and John (1999) suggest. These researchers also noted differences in personality within the same breed. Finally, tempera- ment is more or less fixed, while personality is modifiable by experience. Insight into tem- perament can be gained by considering different breeds of dogs. For example, a basset hound is slow and easygoing, whereas a poodle is more active. A collie is timid, while a Scottish terrier tends to be feisty (Mahut, 1958). Although a trainer may be able to alter the temperament of an individual dog by varying its experience, that dog will still behave much like its breed. Perhaps a trainer can enliven the temperament of a basset hound to be more like a poodle. Yet a basset hound will still retain most of the behavioral characteris- tics of its breed.
Fearfulness and sociability are two frequently studied temperament traits in dogs (Jones & Gosling, 2005). Fearfulness characterizes a dog’s approach or withdrawal behav- ior to novel stimuli or strangers. It is also reflected in general activity, wariness, startle re- actions to loud sounds, and heart rate changes. Fearful dogs have also been labeled as shy. Sociability can be contrasted with aloofness. Sociable dogs tend to show an interest in peo- ple and other dogs as opposed to a lack of interest. It is associated with initiating friendly interactions, affection, attention seeking, and being more amenable to obedience training. Sociability may be parallel to extraversion in humans.
Personality Traits as Categories or Causes of Behavior Do people show consistency in their behavior from one time to the next or from one situa- tion to the other? Personality traits refer to the consistency in a specific set of behaviors across time and across relevant situations. A trait is also defined by the relationship among different behavioral habits. The trait of sociability, for example, consists of such behaviors as going to parties, liking to talk, preferring listening to reading, and being bored when alone (Eysenck, 1990). Sociability indicates that a person shows these behavioral charac- teristics from one time to the next and from one social situation to the other.
Personality traits help answer two important questions. First, why do people react dif- ferently to the same situation? Second, why do people differ in the situations they approach or avoid? Consider the physical trait of being left-handed versus right-handed. Left-handed individuals find it more awkward to take notes sitting in classroom desk chairs designed for right-handed people, to swing golf clubs designed for right-handers, and to shift a manual transmission. They are also more likely to be bumped by the right-handed individual when seated in the middle of a crowded dinner table. In all of these situations, left-handed
Motivation: Biological, Psychological, and Environmental, Third Edition, by Lambert Deckers. Published by Allyn & Bacon. Copyright © 2010 by Pearson Education, Inc.
212 P A R T T H R E E / Psychological Properties of Motivation
TABLE 9.1 Dimension Descriptors of Personality
Openness Shallow, simple, unintelligent——————————Artistic, clever, curious
Conscientiousness Careless, disorderly, forgetful——————————Cautious, deliberate, dependable
Extraversion Quiet, reserved, shy——————————Active, assertive, dominant
Agreeableness Cold, cruel, unfriendly——————————Affectionate, cooperative, friendly
Neuroticism Calm, contented, unemotional——————————Anxious, emotional, moody
Source: Adapted from “Towards a Taxonomy of Personality Descriptors” by O. P. John, 1989, in D. M. Buss & N. Cantor (Eds.), Personality Psychology: Recent Trends and Emerging Directions, table 19.2, p. 265. New York: Springer Verlag.
individuals might feel less comfortable and efficient than right-handed persons. And if given a choice, a left-handed person might prefer a left-handed desk chair or golf clubs, shifting a gearshift with his left hand, and sitting on the far left of the dinner table.
Being left- or right-handed illustrates that differences between people are associated with differences in their reaction to and preferences for different situations. Similarly, people with different personality traits also react to situations differently and prefer to be in differ- ent situations. For example, the extravert may look forward to a large party, while anticipa- tion of a party may make the introvert anxious. The high-sensation seeker may explore a new restaurant in town, while the low-sensation seeker will stay with her familiar eating place. However, to use personality traits as an explanation of why people differ in what motivates them, some assumptions are necessary.Are traits categories of behavior only, or can they also serve as causes of behavior? Revelle (1987), and John and Robins (1993) describe traits as categories of behavior and also as causes of behavior. People can be categorized as left- or right-handed, but handedness also “causes” people to prefer different situations.
Personality Traits for Motivation Five-Factor Model. This chapter examines several personality dimensions for their ca- pacity to motivate behavior. One set of critical dimensions comes from the five-factor model of personality: openness, conscientiousness, extraversion, agreeableness, and neuroticism (John, 1989, 1990a, 1990b; McCrae, 1989; McCrae & Costa, 1985, 1987). These five factors spell the acronym OCEAN, which helps to remember the factors. Each factor can be considered a dimension, which ranges from low to high. Table 9.1 lists some trait descriptors that help define each end of the five personality dimensions (John, 1989). Extraversion and neuroticism have been studied the most extensively in their relationship to motivation. They also comprise two of three major factors in Eysenck’s theory of per- sonality (Eysenck, 1967, 1990). Personality dimensions are important for motivation
Motivation: Biological, Psychological, and Environmental, Third Edition, by Lambert Deckers. Published by Allyn & Bacon. Copyright © 2010 by Pearson Education, Inc.
C H A P T E R N I N E / Personality and Self in Motivation 213
because they help explain why people are motivated by different incentives, situations, and activities. Individuals at one end of a dimension may be motivated differently than individ- uals at the other end. For example, an extravert is motivated to attend a large party, while an introvert is motivated to stay home. An individual high in neuroticism may be easier to in- duce into a bad mood, while an individual low in neuroticism is not.
➣ More information about the five-factor model is available at http://www.uoregon.edu/ ~sanjay/bigfive.html
Sensation Seeking. This is another personality trait that is linked to differences in mo- tivation. It is usually considered separately from the five-factor model. Sensation seeking “is a trait defined by the seeking of varied, novel, complex, and intense sensations and ex- periences, and the willingness to take physical, social, legal, and financial risks for the sake of such experience” (Zuckerman, 1994, p. 27). Risk taking is an accompaniment of sensa- tion seeking, since it is the consequence of the rewarding sensation or experience. For ex- ample, people may experiment with drugs to obtain a certain sensation or experience. The consequence, however, is that the drug may kill them (physical risk) or may cause them to get arrested (legal risk) or fined (financial risk). In addition, they may have their names published in the local paper for all to read (social risk). Yet, high-sensation seekers are will- ing to take greater risks only because of the rewards provided by the sensation-seeking ac- tivities and experiences. Low-sensation seekers, however, are not willing to take such risks because those same sensation-seeking activities are not rewarding to them. Zuckerman (1994) has provided a rich source of evidence indicating that, in comparison to low- sensation seekers, high-sensation seekers have engaged in a wide variety of behaviors that provide these intense sensations and experiences. For example, high-sensation seekers are more likely to engage in high-risk sports (sky diving, mountain climbing); to have had a greater variety of sexual experiences; and to have used tobacco, alcohol, and other drugs.
Sensation seeking is not one large trait, however, but instead consists of four factors. Thrill and adventure seeking is the desire for sensations induced by participating in risky activities, such as sky diving and fast driving. Although people may not have participated in these activities, they express a desire to do so. Experience seeking is the desire for men- tal and sensory stimulation from art, travel, drugs, and music. These individuals are char- acterized by desiring a more unconventional lifestyle. Disinhibition reflects the desire for variety attained by drinking, partying, gambling, sexual activity, and other hedonic pursuits. These people can be characterized as extraverted sensation seekers in that they seek other individuals as a source of stimulation. Finally, boredom susceptibility is an aversion to bore- dom resulting from repetitive experiences and the absence of stimulation from activities and other people. Individuals with this factor have a low tolerance for boredom and become restless in such situations (Zuckerman, 1979).
Biological Reality of Traits Are personality traits real? Imagine people who have large feet versus those who have small feet. One could almost say that having large feet causes a person to buy large shoes and that having small feet causes a person to buy small shoes.These individuals are doing nothing more than buying shoes that fit. After all, good-fitting shoes allow the wearer to walk comfortably and efficiently, while poor-fitting shoes make this difficult. The point is that the foot is a realIS
214 P A R T T H R E E / Psychological Properties of Motivation
biological entity and not some hypothetical construct postulated to account for differences in shoe size among people. Applying this reasoning to personality traits, it is assumed that per- sonality traits are real entities that account for differences in behavior among people.
The reality of personality traits is verified in several ways. First, operational defini- tions of personality traits refer to the procedures by which the traits are measured. This usually involves a valid psychological paper-and-pencil scale. Second, other people’s ap- praisal externally validates the existence of a personality trait. For example, if you rate yourself as an extravert and a sensation seeker, then another person, such as a good friend, will agree with your assessment. Third, personality traits have biological correlates. Neural activity in the brain and physiological reactivity correlate with operational measures of personality traits. Finally, the biological correlates of personality traits are genetically transmitted—that is, traits run in families. The following subsections examine some trait- verification procedures.
Operational Definitions. It is important to separate measures of a personality trait from the behavior the trait is supposed to explain. To reason that a person frequently attends par- ties because she is an extravert and then use frequent party attendance as evidence for ex- traversion provides little understanding about the motivation for party attendance. Frequent party attendance cannot serve both as evidence for the trait of extraversion and as the be- havior to be explained by extraverison. Instead, it is necessary to measure a personality trait independently of the behavior that is to be explained. The existence of a personality trait is validated by how it is measured—that is, its operational definition. The NEO Personality Inventory is used to measure the five personality factors presented in Table 9.1 (Costa & McCrae, 1985, 2001). The inventory consists of 243 items that a person rates on a five-point scale, which ranges from Strongly disagree to Strongly agree. The Mini-Marker Set is a much briefer scale, which involves a list of 40 adjective markers that are descriptive of the big five personality factors (see Table 9.2; Saucier, 1994, 2003). A person endorses each adjective in the set according to how accurately it reflects his personality. The more accurate an adjective is rated, the more indicative it is of a person’s personality trait.
The Sensation Seeking Scale was developed to measure the four factors of the sensation- seeking trait (Zuckerman, 1978, 1979, 1994).A person receives one score for each factor rang- ing from zero to 10 and a total score equal to the sum of the four factors. The Sensation Seeking Scale assesses the thrill-and-adventure-seeking component with preferences for activities like sky diving, mountain climbing, or motorcycle riding and assesses the experience-seeking com- ponent with whether a person would like to be hypnotized, try new foods, or experiment with drugs.The disinhibition component is measured by one’s preference for emotionally expressive individuals, liking to get high, or observing sex scenes in movies. Finally, the boredom- susceptibility component is measured by whether or not one gets bored seeing the same old faces, watching the same movie again, and preferring unpredictable friends.
➣ A complete version of the Sensation Seeking Scale developed by Zuckerman (1979, 1994) can be found at http://www.bbc.co.uk/science/humanbody/mind/surveys/sensation/ index.shtml
Psychophysiology and Neuropsychology. Another method by which to validate per- sonality traits is to examine their correlation with physiological responses. Carl Jung (1924),
C H A P T E R N I N E / Personality and Self in Motivation 215
a one-time collaborator with Freud, was one of the first to propose that a personality trait was real in the sense that it had a biological basis. In regard to the particular disposition of a person, “It may well be that physiological causes, inaccessible to our knowledge, play a part in this” (p. 416). Gordon Allport (1937b, 1966), one of the originators of the trait the- ory of personality, also believed that traits are real, meaning that they have direct counter- parts in the brain. Accordingly, a personality trait refers to behavioral consistencies and to neurological structures or processes in the brain. Psychophysiology is a field that relates changes in psychological variables with changes in physiological variables. Examples of physiological variables are heart rate, electrodermal activity, and changes in muscle activ- ity, which are measured by electrical signals. Differences in personality traits correspond to differences in physiological responding (Andreassi, 1989). Using sense of humor as an ex- ample, electrical changes in facial muscles from smiling at cartoons may be greater for in- dividuals with a good sense of humor compared to those with little sense of humor. Another method that attempts to demonstrate the reality of traits relates differences in personality to differences in brain characteristics. In the study of neuropsychology, an investigator would attempt to relate differences in brain activity and neurotransmitters with differences in per- sonality (Zuckerman, 1991).
TABLE 9.2 The 40-Item Mini-Marker Set: How Accurately Can You Describe Yourself?
Please use this list of common human traits to describe yourself as accurately as possible. Describe yourself as you see yourself at the present time, not as you wish to be in the future. Describe yourself as you are generally or typically, as compared with other persons you know of the same sex and of roughly your same age. Before each trait, please write a number indicating how accurately that trait describes you, using the following rating scale:
1 2 3 4 Extremely Very Moderately Slightly Inaccurate Inaccurate Inaccurate Inaccurate
Inaccurate nor Accurate
6 7 8 9 Slightly Moderately Very Extremely
Accurate Accurate Accurate Accurate
The eight words underneath each of the big five personality traits are descriptive markers of that trait.
OPENNESS CONSCIENTIOUSNESS EXTRAVERSION AGREEABLENESS NEUROTICISM Uncreative– Careless– Bashful– Cold– Relaxed– Unintellectual– Disorganized– Quiet– Harsh– Unenvious– Philosophical Inefficient– Shy– Rude– Envious Complex Sloppy– Withdrawn– Unsympathetic– Fretful Creative Efficient Bold Cooperative Jealous Deep Organized Energetic Kind Moody Imaginative Practical Extraverted Sympathetic Temperamental Intellectual Systematic Talkative Warm Touchy
Note: A negative sign after a word indicates reverse scoring: 1 � 9, 2 � 8, 3 � 7, 4 � 6, 5 � 5, etc. Sum the scores for each personality trait. A higher score indicates a greater degree of that personality trait.
Source: Adapted from The 40-Item Mini-Marker Set by G. Saucier available at http://www.uoregon.edu/~gsaucier/gsau41.pdf
216 P A R T T H R E E / Psychological Properties of Motivation
The study of the psychophysiology and neuropsychology of extraversion has been carried out extensively. Differences in the degree of extraversion are associated with central and peripheral nervous system differences (Eysenck, 1990). The cortex of an introvert is chronically more aroused than that of an extravert, due to greater levels of excitation produced by the introvert’s reticular activating system (Eysenck, 1967). To test this hypothesis, Bullock and Gilliland (1993) measured brain stem auditory-evoked responses in reaction to a click sound for both introverts and extraverts. Introverts exhibited faster brain stem auditory responses to these sounds than did extraverts. The results were interpreted as supporting Eysenck’s theory in that the activity level in the auditory pathway in the reticular activating system was greater for introverts. There are also differences between introverts and extraverts in physiological responding. Introverts are more physiologically reactive than extraverts in response to various kinds of intermediate levels of stimulation. Electrodermal and auditory-evoked responses to tones of different loudness or frequency also tend to be greater in introverts than extraverts (Stelmack, 1990). The cortex of an introvert is assumed to be habitually more aroused than that of an extravert (Eysenck, 1967, 1990).
Sensation seeking is based on inherited differences in the central nervous system and in brain chemistry. Zuckerman (1985, 1990, 1994) relies on the brain enzyme monoamine oxidase (MAO) as a reliable marker for sensation seeking in humans. The enzyme MAO correlates negatively with scores on the Sensation Seeking Scale (Zuckerman, 1994). High- sensation seekers are low in MAO, while low-sensation seekers are high in MAO. The apparent function of MAO is to break down brain neurotransmitters such as serotonin, norepinephrine, and dopamine (Zuckerman, 1985, 1990, 1994). Dopamine energizes or activates behavior toward biological rewards and the search for such rewards. (The role of dopamine as a brain reward system was described in Chapter 4.)
MAO and suspected neurotransmitter differences between high- and low-sensation seekers is revealed in their physiological responses to various stimuli (Zuckerman, 1990, 1994). For example, Neary and Zuckerman (1976) presented a simple visual stimulus at ran- dom intervals to extremely low- and high-sensation seekers. Following habituation to this stimulus, the participants were presented with a novel stimulus of a complex colored design. The intensity of electrodermal responses to the initial simple stimulus and to the complex novel stimulus was stronger for high- than for low-sensation seekers. High-sensation seekers also give stronger electrodermal responses than low-sensation seekers to words that have a strong aggressive or sexual connotation (Smith et al., 1989). The effects of high- versus low- sensation seeking, especially the disinhibition factor, are also apparent in orienting responses. These are “What is that?” reactions. High-disinhibition participants show heart rate decelera- tion (orienting response) to visual and auditory stimuli, whereas low-disinhibition participants show heart rate acceleration (defense response) (Zuckerman et al., 1988). High-disinhibition participants also show stronger cortical-evoked potentials (brain wave responses) to a flashing light and loud tones presented at short intervals (Zuckerman et al., 1974).
Behavioral Genetics. Another method of demonstrating the reality of traits is through behavioral genetics, which is the science of the genetic inheritance of biological traits that are relevant to behavior. The use of this method is based on the assumption that the intricate structures and components of the brain and nervous system are genetically trans- mitted. Furthermore, greater genetic similarity between two individuals is associated with greater similarity in their brains and nervous systems, which, in turn, is associated with
C H A P T E R N I N E / Personality and Self in Motivation 217
Openness Extraversion Neuroticism
corresponding resemblances in their personality traits (Plomin et al., 2001). For instance, identical, or monozygotic (MZ), twins come from a single fertilized egg that splits in half, resulting in two genetically identical individuals who have 100% of their genes in common. Fraternal, or dizygotic (DZ), twins and siblings represent two different eggs fertilized by two different sperm, resulting in two individuals who share an average of 50% of their genes. Finally, a parent and his or her biological child have 50% of their genes in common, while a parent with an adopted child has no genes in common. In regards to the similarity of personality traits, identical twins should be more similar than fraternal twins and sib- lings. In addition, fraternal twins, siblings, and parents with biological children should be more similar in personality traits than two unrelated individuals. For example, twins should be more alike in extraversion (sociable, outgoing) and sensation seeking (daring, adven- turesome) than siblings, who should be more alike on those traits than unrelated children.
Evidence for genetic influences on the five personality dimensions comes from Riemann and coworkers (1997) in Germany, who used NEO Personality Inventory scores obtained from identical and fraternal twins. They computed the correlations between the five personality dimension scores for 660 identical twins and for 200 same-sex fraternal twins. The results in Figure 9.1 show higher correlations for identical twins (MZ) than for same-sex fraternal (DZ) twins. In other words, individuals who are 100% alike genetically
FIGURE 9.1 Personality Traits of Identical and Fraternal Twins. The graph shows the correlations for all big five personality factor scores between identical (MZ) twins and same-sex fraternal (DZ) twins. Correlations were higher for MZ twins than for DZ twins on all five personality dimensions.
Source: Adapted from “Genetic and Environmental Influences on Personality: A Study of Twins Reared Together Using the Self- and Peer Report NEO-FFI Scales” by R. Riemann et al., 1997, Journal of Personality, 65, table 2, p. 461.
218 P A R T T H R E E / Psychological Properties of Motivation
are more similar on all five personality dimensions than individuals who are 50% alike genetically (Bouchard & Loehlin, 2001; Loehlin, 1992; Plomin et al., 2001).
One could make the argument, however, that this greater similarity among identical twins is the result of rearing practices. Perhaps identical twins are treated more alike than are fraternal twins, resulting in greater behavioral similarities between identical twins. One an- swer to this criticism is to compare twins who have been reared together with those who have been reared separately. If the environment has an effect, then twins reared together should be more alike than twins reared separately. This comparison is possible when twins are adopted by different families and reunite years later, as was true for the “Jim” twins in the case that opened this chapter. Loehlin (1992) summarizes the similarity in extraversion and neuroticism of twins reared together or separately in Finland, Sweden, the United States, and Great Britain. These analyses show that the correlations for both extraversion and neuroticism are greater for identical twins (MZ) than for fraternal twins (DZ), regardless of whether the twins were reared together or apart. Thus, even when rearing environments differ, greater genetic similarity corresponds to greater similarity in extraversion and neuroticism. Identical twins reared together are also more similar than identical twins reared apart, which implies that rearing conditions have some effect on extraversion and neuroticism.
There is also strong evidence for a genetic contribution to sensation seeking (Zuckerman, 2002). The closer the genetic relationship between individuals, the greater their similarity in sensation seeking. Hur and Bouchard (1997) examined the correlation between separated MZ and DZ twins on the four traits that comprise sensation seeking. The correlations, shown in Figure 9.2, indicate greater similarities between MZ twins than DZ twins on all traits of sensation seeking except thrill and adventure seeking. Even when identical twins were reared separately in different environments, they were still similar on all four sensation-seeking traits.
Other researchers have also contributed evidence for the effects of genes on sensation seeking. In analyzing a large set of sensation-seeking scores obtained from identical and fraternal twins, Fulker and associates (1980) found stronger correlations for identical twins than for fraternal twins. The authors concluded that the similarity in twins for sensation seeking is more the result of heredity than it is of environmental similarities. Tellegen and coresearchers (1988) compared scores of identical and fraternal twins on a constraint factor. High scorers on this factor are similar to low-sensation seekers in that they “describe themselves as being restrained, cautious, avoiding dangerous kinds of excitement and thrills, differential and conventional” (p. 1034). Low scorers on this factor, by contrast, are similar to high-sensation seekers in that they show “impulsiveness, fearless sensation seek- ing, and rejection of conventional strictures on their behavior” (p. 1034). The degree of re- lationship between scores on the constraint factor was strongest and practically identical for MZ twins reared together or apart, much weaker for DZ twins reared together, and nonex- istent for DZ twins reared apart (Tellegen et al., 1988). Thus, the results of this study also indicate that similarity in sensation seeking is more the result of genetic similarity among pairs of twins than it is the result of environmental similarity, such as where the twins were reared. Bear in mind, however, that “personality traits are not inherited as such; only the bi- ological structures coded in the DNA are inherited” (Zuckerman, 1994, p. 295). There is also evidence for genetic influences on sensation seeking and its biological marker MAO. In a summary of twin studies regarding measures of MAO, Zuckerman (1991, table 11.3)
C H A P T E R N I N E / Personality and Self in Motivation 219
shows that there is a positive correlation in MAO levels between sets of twins. This leads to the conclusion that MAO is almost totally under genetic control.
Section Recap To show that personality is a source of motivation, it is first necessary to show the origin of personality traits, how they are studied, and that they are real. Temperament is a consistent individual difference in emotional responding resulting from inherited genetic features. Personality stems from temperament. It is a consistent individual difference in behavior re- sulting from the interaction of temperament and social experience. A personality trait refers to consistency in a specific set of behaviors across relevant situations from one time to the next. A trait can serve as a category for similar behaviors but also as a cause of why people differ in their reactions to, and in their approach and avoidance of, different situations. Traits represented in the five-factor model important for motivation are represented by the acronym OCEAN: openness (shallow–curious), conscientiousness (careless–dependable), extraversion (quiet–active), agreeableness (unfriendly–friendly), and neuroticism (calm–moody). Another trait important for understanding motivation is sensation seeking. This trait is characterized by seeking intense sensations and experiences and the willing- ness to take risks and incur costs for the sake of such experiences.
TAS ES Dis BS
FIGURE 9.2 Sensation Seeking of Separated Identical and Fraternal Twins. Correlations are presented between identical (MZ) and fraternal (DZ) twins for the four traits that comprise sensa- tion seeking: TAS � Thrill and adventure seeking, ES � Experience seeking, Dis � Disinhibition, BS � Boredom susceptibility. Correlations were higher for MZ twins than for DZ twins on all sensation-seeking factors except for thrill and adventure seeking.
Source: Adapted from “The Genetic Correlation between Impulsivity and Sensation-Seeking Traits” by Y-M Hur and T. J. Bouchard, Jr., 1997, Behavior Genetics, 27, table III, p. 460.
220 P A R T T H R E E / Psychological Properties of Motivation
Several procedures help validate the reality of personality traits. First, operational definitions refer to the use of psychological scales to measure the extent of personality traits in a person. The NEO Personality Inventory and the Mini-Marker Set are two ways to mea- sure the big five personality factors. Second, the appraisal of traits by other individuals cor- relates with a person’s self-assessment of those traits. Third, personality traits have biological correlates. Psychophysiology studies the relationship between personality in terms of physiological and psychological variables. Neuropsychology studies differences in brain structure, chemistry, and function to determine how these relate to personality and behavior. For instance, the cortex of the introvert is chronically more aroused than the cortex of the extravert. For sensation seeking, monoamine oxidase (MAO) is an important brain enzyme that breaks down neurotransmitters. A greater amount is present in low- sensation seekers, and a lower amount is present in high-sensation seekers. Fourth, behavioral genetics is the science of the inheritance of behavioral characteristics and helps validate the existence of traits. Identical twins, whether reared together or apart, are more alike than fraternal twins on all big five personality traits and on sensation seeking.
Personality Traits Affect Motivation The previous sections demonstrated that personality traits have a real existence. The purpose of this section is to describe how personality traits affect motivation.
Personality and Environment Two concepts from behavioral genetics, gene-environment interaction and gene-environment correlation (Loehlin, 1992; Plomin et al., 2001), will help us understand the influence of personality traits on motivation. These two concepts will be translated with an emphasis on personality traits: trait-environment interaction and trait-environment correlation. Trait- environment interaction means that how a person reacts to the environment depends on the amount of a particular trait she possesses. Individuals with different levels of a person- ality trait react differently to environmental situations. For example, an extravert enjoys a large party while an introvert does not. An individual high in neuroticism may be more up- set by unfavorable weather than an individual who is low in neuroticism. Finally, a high- sensation seeker enjoys the latest scary movie, while the low-sensation seeker thinks of leaving in the middle of it.
A trait-environment correlation means that traits and environments are associated in their effects on behavior, because personality traits determine the situations a person chooses. Individuals with different personality traits select different situations, while those with similar personality traits seek out similar situations. Snyder (1983) suggests that people “may choose to enter and spend time in situations that facilitate behavior expressions of their characteristic dispositions” (p. 502). These situations allow for the satisfaction of motives that are characteristic of those personality traits. In addition, people manipulate the situations in which they find themselves (Buss, 1987, 1992; Buss et al., 1987). For example, extraverts seek out large parties, while introverts seek out small gatherings. Or, when given a choice of videos, a high-sensation seeker may select a scary movie, while a low-sensation seeker may choose a comedy. In other words, when traits are different, choices are different. But when traits are similar, choices are similar. The Jim twins, presumably having similar personality traits, selected the same vacation spots, cars, cigarettes, and part-time law enforcement work.
C H A P T E R N I N E / Personality and Self in Motivation 221
Effects of Extraversion on Motivation The following questions illustrate the relationship between extraversion and motivation. (1) Trait-environment interaction: How would you react at a party where you did not know most of the guests? Would you dominate a group’s conversation at a party, or would you speak individually to only one other person? (2) Trait-environment correlation: On Satur- day night would you prefer to attend a large party or watch a video with a few friends? The answer to each question depends on a person’s degree of extraversion. As described next, extraverts would do one thing, and introverts another.
Extraversion-Environment Interaction. The differences between introverts and extraverts account for the variation in their reactions to the same situation. To illustrate, extraverts are easier to put into a good mood than introverts. Larsen and Ketelaar (1989, 1991) had ex- traverts and introverts imagine as vividly as possible either a pleasant or unpleasant experi- ence happening to them. The pleasant experience consisted of imagining that they had won a $50,000 lottery and were taking a vacation in Hawaii. The unpleasant experience con- sisted of imagining being expelled from school in an embarrassing manner and also having a close friend die. A control group of introverts and extraverts were asked to imagine visit- ing a supermarket and taking a car trip on the highway. Following this, participants were asked to rate their level of positive mood and their level of negative mood. Extraverts de- veloped a greater positive mood than did introverts as a result of imagining the pleasant ex- perience. The result of imagining the unpleasant experience, however, did not necessarily put introverts in a more negative mood than it did extraverts. Other research has shown that extraverts, compared to introverts, seem to be in a better mood consistently. For instance, Ruch and Köhler (1998) have found that extraverts tend to be consistently more cheerful and less often in a serious or a bad mood.
How individuals react to the opportunities and confines of a relationship depends on their level of extraversion. Watson and colleagues (2000) measured the degree of relation- ship satisfaction of married couples and of heterosexual-dating couples and correlated these measures with each member’s level of the big five personality factors. Extraversion corre- lated positively with relationship satisfaction. Extraverted wives and husbands were more satisfied with their relationship than were introverted wives and husbands. For dating cou- ples, extraverted men were more satisfied than introverted ones. However, there was no dif- ference between extraverted and introverted women.
Extraversion is also a factor in work success. Seibert and Kraimer (2001) adminis- tered the Mini-Marker Set (Table 9.2) to a sample of employees in a variety of organizations and occupations. Employees identified as high in extraversion had received a greater num- ber of promotions and higher salaries than employees identified as low in extraversion. In addition, extraverted employees also enjoyed greater intrinsic career satisfaction, such as feeling that they made progress toward their goals.
Extraversion-Environment Correlation. Extraverts and introverts voluntarily choose to participate in different activities. Extraverts participate in social activities such as noisy parties, debates, dancing, and meeting new people. Introverts, however, are more likely to avoid these activities (Argyle & Lu, 1990). When seeking recreation, extraverts, rather than introverts, are more likely to seek out social situations involving other people (Diener et al., 1984). In an extension of these latter findings, Emmons and associates (1986) tried to assess
222 P A R T T H R E E / Psychological Properties of Motivation
whether personality traits determined which situation people selected. At the end of each day, participants were asked to indicate how much time they spent in a particular situa- tion that ranged from 15 minutes to over 2 hours. The situations were of the participants’ own choosing, such as being alone, semisocial (studying in library), or social (interacting with others in recreation, family, or work). In addition, participants were asked if the situa- tion was imposed (you had to be there—e.g., go to class) or chosen (you decided to have lunch with a friend). Their results indicated that extraversion was positively related to the percentage of time spent in chosen social situations and negatively related to time spent in imposed social situations. Extraversion also correlated with the time spent in recreation that was freely chosen but was uncorrelated with imposed recreation. Thus, extraverts, more than introverts, are motivated to seek social stimulation.
Differences between introverts and extraverts are exhibited in a variety of other situations and activities. In the library, extraverts prefer areas containing easy chairs and large tables, where the opportunity for socialization is greater. Introverts prefer small tables or individual study desks, with limited opportunities for socialization. In addition, in the library extraverts prefer a higher noise level than do introverts (Campbell & Hawley, 1982). Extraverts prefer to participate in group-oriented or team sports such as basketball or soccer rather than solitary-type sports such as running or swimming. In addition, extraverts have a greater preference for highly competitive sports than for less competitive ones (Kirkcaldy & Furnham, 1991). Extraverted men and women have different occupa- tional preferences than do introverted men and women (Costa et al., 1984). Extraverted men prefer occupations like advertising executive, manufacturer’s representative, mar- riage counselor, and sales manager. Extraverted women prefer occupations of concert singer, advertising executive, sports promoter, symphony conductor, and freelance writer. As Costa and associates (1984) note, these occupations require the use of the extraverts’ assertive and somewhat exhibitionistic tendencies. Extraversion also plays a role in the choice of dating partners.
Extraversion and the Channeling of Motives. Psychological needs are stable individ- ual differences that have motivational properties. They push individuals into action. Per- sonality traits are also stable individual differences in behavior but have no motivational properties. Traits, however, determine the different values that people place on incentives. Both needs and traits are examples of Darwin’s population thinking. Need differences produce behavior differences. People behave differently because they have different inten- sities of psychological needs to satisfy. Trait differences are also associated with behavior differences. People behave differently because of the differently valued incentives that they hope to attain.
A reason for the motivational distinction between needs and traits is that their studies have separate histories in psychology. However, there are attempts to link the effects of needs and traits for the motivation of behavior. An example is to link extraversion to the need for affiliation and to the need for power. Winter and associates (1998) express this idea in their channeling hypothesis, which states that personality traits channel or convey how psychological motives are represented and satisfied. To support their theory, they used the results of important longitudinal studies to illustrate how extraversion channels the expres- sion of the affiliation motive and the power motive. The use of longitudinal data makes it possible to show how over a long period of time extraversion channels motive expression.
Motivation: Biological, Psychological, and Environmental, Third Edition, by Lambert Deckers. Published by Allyn & Bacon. Copyright ©