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Music and Emotion

2010-12-29 12:59:59

Living apart together: a relationship between music psychology and music

therapy

Annemiek Vink

This article was originally printed in Nordic Journal of Music Therapy, 10(2),

pp. 144-158. The article is republished here with the kind permission from the

author.

Introduction

`Ladies and Gentlemen, my respected and beloved music friends! Musica animae

levamen, music is medicine for our souls.' These are the opening lines of the

book `Die musikalische Hausapotheke/The musical home medicine cabinet' written

by the German musicologist Christopher Rueger (1991). In this work, Rueger

describes a variety of musical recipes to cure an equally impressive variety of

disorders. If we take a closer look into his laboratory, we can read that

listening to Beethoven's Symphony No.2 helps to cope with feelings of

depression and doubt. The popular Goldberg Variations of Bach will decrease

sleeping disorders.

If it could only be so simple. For many lay people, these descriptions are

their idea of what music therapy is all about. Many people have read about the

`Mozart Effect' and a music therapist is often pictured in non-medical journals

as being an equivalent of `a healthcare deejay'. There are, however, many

disciplines involved in the study of the effects of music on the listener. It

is the music psychologist who looks at effects of music in the general

listener, e.g. what emotions can be induced by music in the listener? Cognitive

theory studies how music is perceived and how cognitive schemata are activated

when listening to music. How does our brain react to music? The music therapist

uses music as a therapeutic medium with a variety of different client

populations in yet another discipline.

For a layperson, these fields seem logically intertwined. Music induces

emotions and this works therapeutically as various cognitions and feelings

become activated, of course. In practice, there is still little collaboration

between these fields of expertise. In fact, music researchers studying

cognitive aspects and brain activity even state that it is far too early to be

able to describe precisely how a healthy person reacts to music, both

physically and psychologically. Before this knowledge is gathered, it is far

too early to state that music is therapeutic, let alone to be considered as

`medicine' as Rueger described. How will we ever be able to develop cogent

theories from neurological research if we can't even agree on which halves of

the brain processes various aspects of music experience (Kaufmann & Frisina,

1992)? Music therapists state on the other hand, that music cannot be

considered as medicine as it is not merely the music from which the client

benefits. Other factors contribute to the therapeutic effect as well, such as

the group interaction, the interaction with the music and the therapeutic

alliance. What are current research insights from the field of music psychology

and can they be applied in music therapy, in an arts relationship?

To examine the mutual aspects of these disciplines, the focus in this review

will be on the question how music is related to the experience of emotion.

Everyone recognizes the ancient old idea that music affects man. But how? This

question has turned out be an enormous difficult task to answer scientifically.

Top og page

Theoretical orientations of musical emotions

Music psychology research shows us that non-knowledgeable listeners respond

emotionally to music as do music performers, both during playing and during

listening to music. But how can these experiences be described? Is it accurate

to state that `musical emotions' are experienced? Researchers discuss if it is

legitimate to state that feelings experienced in relation to music are actual

emotional states.

In general psychology, emotions are currently described as specific

process-oriented response behaviours. To clarify the word process-oriented, an

emotion is always directed at something, whether it be a particular

circumstance or a person etc. Specific attributes within the emotion appraisal

process are the personal involvement with the stimulus, the cognitive appraisal

of the stimulus and a behavioural change towards the stimulus (Frijda, 1988).

The presence of these characteristics and the degree to which they are

represented in a person depend on the type of emotion experienced.

The concept of a `musical emotion' is difficult to define according to general

emotion theories. A variety of different emotional responses and experiences

can be found under the header of `emotion'. Although we can often read about

the concept of `musical emotion' in the literature, regretfully how a `music

induced emotion' can be defined is not clarified. Also the term `emotion' in

the context of music listening is open for debate.

Often, emotions can be classified in order of their (biological) functions. A

classical example is the experience of fear in this context. The cognitive

appraisal that a certain situation is threatening leads to a behavioural

change, e.g. fleeing or avoiding the situation. In a musical context there are

no apparent biological functions. Although, everywhere on the world, music is

played and listened to, we cannot state that we cannot live without the

presence of music. As such, the intensity of an emotion experienced is

difficult to explain in a musical context to directly result from music

(Dowling and Harwood, 1986).

In everyday life, emotions are induced by concrete circumstances within a

realistic setting, which we often cannot control, such as being involved in a

car accident. This `real life' influence is often found lacking in a musical

context. Although music can be frightening and threatening, there is always the

sense of control, for instance by turning the music off. The use of the verb

`emotion' is often therefore not acknowledgeable in a musical context. In

recent music psychology literature we can see a clear shift in descriptions

used to refer to musical experiences. In most of the research focussing on

musical emotional responses, the focus has actually been on specific

characteristics of an emotion: such as appraisal and arousal components. In

some cases it is possible, according to Sloboda (1991), that music can induce

intense emotions, but he states it is more accurate to describe `musical

emotions' as mood states, experiences and feelings that are influenced by music

listening. Music functions as a catalyst or stimulus for the experience of

emotions, a characteristic often witnessed and used in music therapy practice.

The concept of `musical emotion' has many conceptual difficulties. Sloboda and

Juslin (2001) describe how emotion theories such as Frijda's (1988) are

beneficial to the study of musical emotions. They state that music

psychologists generally are reluctant to turn to emotion psychology for

theoretical guidance. On the other hand, they hold that it is interesting to

note that psychologists themselves do acknowledge that art may evoke strong

emotional response, but few scientists seem to have considered this problem

worthy of study. Sloboda and Juslin (2001) state it is significant that one of

the most influential analysis of music and emotion to date, namely that of

Meyer (1956) is based on a theory of emotion.

According to Meyer (1956) there are certain elements within the music, such as

a change of melodic line or rhythm, that create expectations about the future

development of the music. The expectation the listener has about the further

course of musical events is a determinant for the experience of `musical

emotions'. Music arouses expectations, which may or not be directly and

immediately satisfied. He states: ...The greater the build-up of suspense of

tension, the greater the emotional release upon resolution...(Meyer, 1956,

p.28). The music arouses tendencies and this fulfils the conditions according

to the arousal of affect. The role of emotion in this process is complex. The

primary dimension on which emotion is experienced is in terms of a build-up of

tension and release of tension, both within the music and in the listener. The

more elaborate the build-up of tension to a certain climax, the more intense

emotions will be experienced. When resolution follows, relaxation follows.

An important implication of Meyer's theory is that any conscious insight in

this process reduces the emotional effect of music. This implicates that a

`naive' listener without much music theoretical knowledge has a predominant

affective response towards music whereas a trained listener reacts mostly

cognitively while listening to music (Jansma& de Vries, 1995).

Within the music psychology research literature, Mandler's (1984) and Berlyne's

(1971) cognitive theories of emotion are occasionally referred to. Mandler

holds arousal as a prerequisite for the experience of emotion, but sees arousal

in essence as of minor importance. Mandler attaches the more value to the

cognitive appraisal of bodily experiences. Emotions, in line with Meyer (1956),

are caused by interruptions of expectations about future events. The

interruption, depending on the personal involvement, causes arousal for which

an explanation is sought. Information processing is important for the

experience of emotions. The experience of arousal is a result of a `mis-match'

between existing knowledge structures and the integration of new information.

This thought `matches' Meyer's idea, who states that as a result of unexpected

musical changes, arousal is experienced. According to Mandler, negative

emotions will be the result of an extreme mismatch between musical information

and existent musical schemata. Accordingly, positive emotions are experienced

when musical information matches existing cognitive schemata.

A comparable emotion theory is from Berlyne (1971). He hypothesized that when

we listen to music, we take into account factors such as the complexity,

familiarity and novelty of the music. The degree to which the music sounds

familiar determines if the music is experienced as pleasurable or

uncomfortable. The hedonic value is low when the music is entirely new to the

listener, and progresses with increasing familiarity and will decrease again

when the music is totally known. This process can be described with a reversed

U-curve. According to Berlyne the experience of arousal is an important factor

in the experience of emotion, equal to Mandler. But he goes further, he states

that it is the listener's intention to experience arousal while listening to

music. Musical preference is based on the preference to maintain the level of

preferred arousal constant. The more complex the music, the more arousal will

be experienced. The listener seeks activation, but to a certain extent. When

the maximum is achieved he will avoid further activation. In a listener with

more elaborate music knowledge structures, arousal will be less when listening

to complex music. As such, a trained listener, will both according to Berlyne

and Mandler, hold a greater preference for complex music than a naive listener

as the threshold for experiencing arousal is higher. Fischer (1981)

demonstrated that subjects who had taken amphetamine, a drug which causes

arousal, preferred the more complex music. There are many experiments that

backup the ideas of Berlyne. Subjects prefer melodies that are intermediate in

the number of different pitches used and which have intermediate levels of

complexity (Weinberger, 1998). Weinberger values Berlyne's theory of importance

to therapy as it may explain why the same music can produce different emotions

in the same person at different times, a known difficulty complicating

research. He also states that the findings may be of help with further direct

investigations of the brain substrates of music and emotion. A basic

understanding of these relationships should also benefit future uses of music

therapeutically.

The theories described above, are often referred to in describing the emotional

impact of music. In general it is stated that Meyer's (1956) theory is

comprehensive but problematic to test empirically and there are no research

studies known which have directly tested Meyer' s assumptions in relation to

musical emotions. Meyer himself acknowledged this problem by doubting the

possibilities to test the existence of `musical emotions' in a scientifically

controlled manner. Sloboda (1985) states in this context, that many researchers

have the tendency to come up with their own theorizing about the effect of

music, with the result that feedback for the development of a general

theoretical framework explaining the effects is lacking. This can also be seen

in music therapy research, many music therapists have studied or described if

their own practice has any effect. The research studies are as such often very

different in therapeutic orientation and difficult to compare related to client

populations.

Top og page

Musical expression of emotion

Are there certain elements in music, which may invoke musical experiences in

the listener? Going back in the literature, we will find the impressive line of

studies that Hevner conducted. Hevner (1935, 1936, 1937) is one of the first

researchers who systematically studied which musical parameters are related to

the experience of emotion. She adapted various short existing piano pieces and

played them for the subjects, both the original version and an adapted version.

In the adapted version, she constantly only manipulated one musical element,

such as the mode (major or minor), the harmony (simple-complex), rhythm

(steady-fluent), tempo (fast-slow) and the melody line (increasing-

decreasing). Other musical parameters were held as constant as possible. After

playing, she asked the subjects to indicate on the `Hevner's adjective circle',

which emotion verb best described the emotional content of the piece. Tempo and

mode had the strongest impact on the listener, when describing the experienced

emotion in the music. Piano music played fast in major was described as

cheerful and in contrast the slow piece in minor as dreamful and sensitive.

After Hevner, it has been repeatedly shown that various musical elements, with

a particular mode and tempo, are expressive of emotion in music. Based on

research studies such as these, it has been easily deduced that music induces

emotion in the listener. This conclusion is however not warranted. The work of

Hevner demonstrates which emotions are experienced in the music and not

necessarily refer to the emotions experienced in the listener. Maybe so, but

often it has not been the focus of research. On the basis of attribution based

research, it can only be stated how musical elements are expressive of emotion

and how the emotional content of the piece is valued.

A continuing problem that occurs in research such as Hevner's, is that she

chose musical parameters that are representative for the music in general.

Music often induces reactions and emotional responses in very specific moments

in the music, such as by sudden changes in tempo or a climax of musical theme,

as we will read later from Sloboda (1991). Statements about the tempo of a

musical piece are merely descriptive of one characteristic of emotional

expression of the music or the musical experience in the listener (Jansma & de

Vries, 1995).

According to Desain and Honing (in Jansma &de Vries; 1995) false is also the

expectation that musical parameters can be manipulated in a totally independent

manner. They mention as an example, the manipulation of tempo. A piece cannot

be simply played twice as fast. Also temporal relations between the notes

accordingly need to be adjusted in order to let the music still sound natural.

Still, with great consistency, it has been shown that musical characteristics,

such as the mode, rhythm and tempo, are perceived by the listener to be

expressive of emotion (for an overview of this topic see Gabrielson &

Lindstrom; 2001).

In most of the music psychology research studies, only classical music is

studied. In the music therapy literature we can read that listener's

preferences range from heavy metal to classical music. Also in the context

where musical emotions with children are studied, mostly classical music has

been used as test material. The generalisability of the results, when only

studying classical music, is therefore small. Still, there are reasons why

researchers prefer classical music, as classical music is mostIy not

accompanied by sung lyrics, which is the case for most of the popular music

repertoire. For the earlier researchers, there were also interesting ethical

reasons. Wing (1968) described that while developing his musical ability test:

"Jazz music was not included, as this would be unlikely to yield examples of

really good harmony, would be likely to prejudice the authorities against the

test, and would waste the children's time if they were listening to poor music"

(Wing, 1968, p.37).

In more contemporary research studies, also popular music, jazz or religious

music has been included. This is an important development for music psychology

findings to be generalised to music therapy practice.

Regardless of the above-mentioned methodological problems, it is the common

research outcome that listeners in general can describe with great accuracy

which emotional expression is communicated. But of interest also for music

therapy is whether these findings can be related to the experience in the

listener. Which emotions or reactions are exactly induced in the listener

through music? Various research studies have tried to answer this question with

a variety of physiological and cognitive listening tests.

Top og page

Physiological studies involving musical emotions.

Both Berlyne (1971), Mandler (1984) as Meyer (1956) see arousal as an important

factor in emotional experiences while listening to music. A typical example of

physical experiences reported when listening to music is the experience of

thrills. Goldstein (1980) illustrated that thrills were experienced by 96% of

the subjects.

Already in the 18th century an effort was made to study the effect of music in

relation to physiological changes. One of the most known researches of that

time is from G try, who published in 1741 about the influence of music on the

frequency of heart rate (in Dainow, 1977).

Often referred to in the music therapy literature, is the relation between

music and physical changes in the clients. Smeijsters (1995) formulated the

analogues process model, in which he described that musical characteristics can

be perceived in the client's pathology and vice versa. In many research

studies, it has been tried to establish if there is a relationship between for

instance musical rhythm and physical rhythm, following Pythagoras idea that

musical vibrations can bring about healing physical changes. The average beat

rate in music equals almost exactly the average heartbeat, with 72 to 80 beats

per minute. The precise relationship between musical rhythm and heartbeat is

still unclear, although support can be found that the heartbeat follows musical

rhythm. Stimulating music increases the heart rate and sedative music reduces

the heart rate. Each type of music increases the heart rate. This increase is

higher when listening to stimulating music than to sedative music.

A problem that occurs when measuring the heart rate is to establ itish that is

also the measurement of the intended emotional change. An illustrative example

was provided by Harrer (1977) who compared the heart rate of the famous

conductor Herbert von Karajan while he was directing Leonora Overture No.3, to

his heart rate while flying a sports aircraft. During flight-time, the heart

rate peaked at 115 beats per minute while during conducting a maximum was

achieved of 150 beats per minute. The maximum increase of pulse frequency,

telemetrically recorded from Herbert von Karajan while conducting the Leonora

Overture No.3, was obtained during those passages with the greatest emotional

impact upon the conductor. These were the same passages that he singled out in

subsequent conversations as being the ones he found most profoundly touching.

At these moments the pulse rate increased for a short while, to twice the level

of the initial value. When the tape was played back to him and a further pulse

measurement was made, the same peaks were found. Changes however were much

greater while he was conducting.

Next to changes in heart rate, changes in breathing can be perceived as a

result of intense emotional experiences. The frequency of breathing and heart

rate are normally to a certain extent co-dependent. An increase of muscle

activity together with active breathing increases the hearth rate, as can be

seen for instance during hyperventilation (Frijda, 1988). Ries (1969) found

clear correlations between the respiration amplitude and the emotional response

towards music. The relationship between the breathing amplitude and the

subject's affective responses were highly correlated indicating that the more a

subject reported liking the selection, the deeper his breathing became.

Research studies involving respiration measurement are often not easy to

interpret (Harrer, 1977). The main reason is that often only one characteristic

of respiration is measured, such as the frequency or the amplitude. In general,

it is stated that the frequency of breathing increases when listening to

preferred music and that the breathing becomes deeper. The foremost problem

however is that there are too many individual differences to be perceived in

respect to irregularities of breathing and the depth of breathing, for instance

as an result of extraneous factors such as smoking.

Many factors can influence physiological measurements. The amount of coffee a

subject has drunken before the registration is for instance an influence in

heart rate measurements. Often the amount of variables for which should be

controlled for is too large to establish a reliable representative conclusion.

Also is it an ancient old idea that each type of emotion is characterized by a

specific pattern in physiological changes (Rim et al., 1990). People/clients

who are for instance fearful do not respond equally on physiological measures

and we cannot estimate from a certain measurement that someone is experiencing

`moderate happiness'. Also it is possible that people may well feel angry or

sad without demonstrating any physiological changes. Stavenga (1979) compares

the difference between mentally handicapped and normal adults in this context.

Both can display the same physiological changes, while experiencing them

entirely differently in a psychological manner. To return to Frijda (1988), the

experience of arousal should not be seen as a key feature of an emotional

experience. Still, it is interesting to see if this is also the case for

musical experiences, as so many hold that arousal is indeed a key feature in

the appraisal of music listening. Bever (1988) states that the perception of

musical structures always arouses in relation to the appraisal of the aesthetic

value of the music.

Physiological measurements are extremely popular though. Often music psychology

and music therapy research outcomes are seen as too abstract, and defined

clinical measurements are seen as a solution to communicate research to other

healthcare professionals. Often we see a combination of approaches in

modern-day research, the qualitative method to assess the individual

experiences combined with physiological measurements. Through qualitative

research these individual differences in experience can be more easily

assessed.

With the arrival of new methods it is hoped that more insight will be gained in

the future how musical structures are perceived and how emotional responses are

related for instance to brain processes. According to Peretz (2001) musical

emotions appear isolable in the human brain. She states that current evidence

is pointing to the existence of a specific neural arrangement for certain

musical emotions. One of the intriguing new findings is that subjects exhibit

greater left frontal activity to music expressing joy and happiness (Schmidt &

Trainor, 2001 in Peretz, 2001) and greater relative right frontal EEG activity

to music expressing fear and sadness. Currently with new measurements such as

functional Magnetic Resonance Imaging (fMRI) is studied in more detail which

brain activity can be perceived when subjects are listening to music. But also

physicians here state that there is a long way to go before accurately music

perception can be measured.

To conclude, music does bring about physiological changes although it is not

yet clear how these changes are related to musical characteristics. Clear

outcomes in this context are of value for music therapy. If music produces

physiological and psychological effects in healthy persons as listeners, then

it may be assumed that people with known diseases respond in specific ways

(Aldridge, 1996). If music is known to influence a physiological parameter such

as the heart rate or blood pressure then Aldridge argues music can be used

therapeutically for patients who have problems with heart disease and

hypertension. These are interrelations from which both disciplines can benefit.

Top og page

Cognitive emotional studies of music appraisal

In line with the popular tradition in psychology, currently cognitive processes

are studied, both in normal healthy adults and in diverse client populations. A

variety of different cognitive tests have been used to gain more insight in the

actual experience of the listener, whether he is a healthy adult, a routine

listener, or a music therapy client. Still, this line of research is in its

infancy. Most of the music psychology research studies make use of validated

instruments from psychology studies. There are many logical arguments for this

choice in terms of the representation of the study, the decrease in costs etc.

But generally, these lists consist of emotion terms that are difficult to

interpret in the context of music. Waterman (1992, in Jansma en de Vries, 1995)

used a well-established list from Ortony, Clore and Collins (1988) to let

subjects score which emotions they had experienced in response to music. This

question is very aspecific, because there are many different ways how one can

respond to music: as a product, admiration for the performance etc. Also it is

unclear what is meant with `experienced in response to music'. There is a clear

distinction between emotions experienced when playing music or listening to

music, which is generally ignored in research. In table 1, the responses can be

seen from some of the first year music therapy students at the Conservatory

Enschede in the Netherlands, to the question how they experience the described

emotions both during listening and playing music.

Table 1: The experience of emotions on the Ortony, Clore and Collins scale

(1988) by music therapy students experienced when listening to music and

performing music. |View table in full size|

As can be seen, most of the subjects experienced joy while listening to music.

It is however difficult to understand whether this outcome was the direct

result of the music listening, e.g. music induced emotion, or invoked through

musical associations and attribution processes. Also, joy experienced during

play has very different origins then joy experienced when listening to music.

Jansma & de Vries (1995) give us another complicated interpretation with this

scale. How should we understand the study outcome that many of the subjects

have experienced hope or disappointment while listening to music? What do these

results mean? Are they directly caused through the music, regardless of the

style? Or are they the result of a lucky or disappointing expenditure in the

cd-store. Emotions such as reproach are typically not experienced in a musical

context.

Waterman (1992) demonstrates that most adult listeners have a variety of

musical responses towards music and that a variety of extrinsic factors

influence these responses. Meyer (1956) states it would be interesting to learn

more how listeners, whether client or healthy adults, experience emotions

directly from musical characteristics or through musical associations, the well

known `Darling, they are playing our song' idea. To repeat Meyer's assumptions,

he held it to be difficult to experimentally relate the effect of music to

induced emotions in the listener. From the few experimentally controlled

research studies it can be stated that some emotions are more easily induced

than others and that effects are mostly found on the dimension of relaxation/

tension and happiness/sadness (Clark & Teasdale, 1985). It remains unclear

however, how musical parameters are related to these effects and open for

debate is whether such outcomes could be of value for music therapy.

Typical for most of the emotion checklists is that fixed categories have been

used. Problematic here is that people have a tendency to polarise their

opinions on certain emotion traits, regardless of the emotion object. A method,

which more freely gives room to the variety of emotional responses, is the free

response technique. This method has been used on few occasions by music

psychology

researchers in the context of music appraisal. Sloboda (1992) asked adults to

recall any memories from the first ten years of their lives that involved music

in any way. It was not asked specifically whether there was an emotional

association with the music, just what musical experiences one recalled from

childhood. From the free descriptions, it was determined that in 39% of the

cases emotion was indeed a classifying characteristic. Also on adult age,

emotion was an important factor in the free descriptions of music experiences.

Sloboda (1992) let 67 regular music listeners describe in their own words, the

nature of their most valued emotional experience to

music. Two dominant themes emerged in the spontaneous descriptions. First,

people tended to use music as a `change agent' to alter their mood state

(n-41). This was reported through statements such as `music relaxes me, when I

am tense and anxious' and `music motivates and inspires me to be a better

person'. Secondly, people reported that music was used as a method of catharsis

to promote the intensification or release of already existent emotions (n-34).

Example statements included `music releases emotions'

and `music helps me discover what I am actually feeling'. Sloboda states that

the common factor to all examples was that music does not create emotion, but

rather it allows a person access to the experience of emotions that are already

`on the agenda'. A statement, all music therapists will recognize.

A positive factor of such open-ended studies is that it can be studied if one

refers to emotion when describing musical experiences and if these emotions are

experienced directly in response to music. A disadvantage of such retrospective

studies is the question of how reliable these descriptions of childhood

experiences are. It can be assumed that regardless of the subject one describes

of ones childhood, emotional descriptions will be given. If someone were to

describe riding a bicycle in childhood years for instance, these terms were

also likely to be found, simply because we evaluate all sorts of stimuli with

affective responses. The question is again if they are actually emotional

experiences directly invoked through music which are measured?

Researching emotional experiences directly related to music is complex, as has

been demonstrated above. In the context of music listening, the effect seems to

be related to earlier associations that are different for us all. In the

studies described above it is clear that association processes are present,

although it has not been the study focus. From many music therapy studies

involving the effects of Guided Imagery and Music, these associational

processes have been well demonstrated and documented.

Also in relation to specific musical characteristics, there are still many more

layers than only structural characteristics with which the emotional response

is associated, such as admiration for the performance. One single music piece

can invoke a large variety of emotional responses: one of the powers of music,

but a headache for the researcher.

Many researchers have tried to identify a single emotion in the listener when

he is listening to music, such as sadness or joy. Emotional experience in the

context of music is an interesting but difficult process to study. Music cannot

simply make someone sad or happy. There are many other responses thinkable,

which may occur at the same time. Exactly for these reasons, Meyer (1956) was

sceptical about the possibility to ever identify clear relations between the

music listened to and the responses invoked in the listener. He held it

impossible that a listener can specify what elements in the music invoke for

instance thrills. Sloboda (1991) studied this claim and argues that trained

professionals can describe what elements and on what time they induce a

response. The subjects all first described which physical changes they had

experienced when listening to music. 90% of the respondents reported to have

experienced thrills, 88% indicated to have laughed and 85% reported to have

cried while listening to music. The listeners turned out to be very capable in

stating which musical selections induced the responses and even more specific

during which moments in the music. The specific fragments were related to the

published scores and classified to the musical features they contained. Twenty

passages related to the response crying which contained features such as

melodic appoggiaturas and melodic or harmonic sequences. Shivers were related

most frequently with new or unprepared harmony. These findings correspond with

Meyer's (1956) and Mandler's (1984) expectations. The specific moments in the

music were all associated with sudden, unexpected musical changes.

From this study we may conclude that there are indeed musical elements that can

be described in association with the emotional experience. Still, the

experiences have been described in retrospect. The physiological changes

reported in this study, may bear no resemblance to the actual emotions

experienced at the time when one was listening to the music, as Rime, Phillipot

and Cisamolo (1990) found when comparing the emotions subjects recalled and

experienced in everyday life.

Only on few occasions, musical responses were studied when subjects were

actually playing or listening to music. Waterman (1996) compared differences in

emotional responding to music between trained and untrained listeners. He

derived 14 fragments from Sloboda's (1991) study, which were found to induce

emotional responding. Fragments selected were jazz, pop and classical music.

When listening to the music, the listener could activate a switch-button, when

something in the music caused something to happen to him.

The outcome measure was the number of responses per bar of music. This was the

task for the naive listener. The professional musicians performed the same

pieces with also an inventive responsemode, which they could press to indicate

reactions experienced. Waterman found that subjects could reliably indicate

that the music moved them and did not find differences between the two groups

in the degree that they were able to indicate events within musical extracts to

be emotionally loaded. This was apparent when the music was known or unknown

and to a lesser degree when the musical genre was found pleasing or

displeasing.

Methodological problems are numerous in these sorts of approaches. Emotions are

often of short duration and when they are studied in an experimental setting it

can be questioned in what way they were influenced by task demands, such as in

Waterman's study, pressing a button. The experimental setting holds an entirely

different atmosphere to the couch at home. The described questionnaires can be

validated to a certain extent by testing them in different populations and in

different circumstances. Still, it is problematic that people have the tendency

to select basic emotions to describe their experiences and they are less

capable to describe the nuances (Frijda, 1988). According to Frijda, these

questionnaires do not help us to gain any insight in how complex emotions can

be understood, such as experienced when listening to music. What does one

exactly experience when indicating that someone is happy or sad? Aldridge

(1996) warns for the quantitative approach in music research. He holds that we

should be careful not to organize nature according to concepts imposed on it

and demonstrates the need for a more phenomenological, holistic understanding

of musical experiences through qualitative research.

Standard questionnaires are difficult to use in a musical setting. Bartel's

(1992) CART-M test (Cognitive-Affective Response Test) has been especially

developed to measure musical responding. In this questionnaire there has also

been made a distinction between different ways of responding: cognitively or

affectively. Sloboda (1985) refers to humour, to clarify the influence of

cognitive and affective stages in musical responding. We can only laugh about a

joke when we have heard all of it. The cognitive stage is a necessary

prerequisite for the affective phase to occur. Affective responses may or may

not occur, someone may equally well have understood the joke but for some

reasons could not laugh about it. With music something similar happens. When

someone listens to music, he always makes a mental representation of the music

and affect may or may not occur. Both within music and in emotion, these

cognitive and affective phases can be distinguished. In the CART-M they are

called a formal-intellectual dimension and an emotional-expressive dimension.

With a semantic differential test it was studied if emotional responses were

different among subjects when listening to different music styles. The

responses to classical music were more cognitive than towards jazz and country

music. This study implicates that more musical repertoires should be included

than only classical music. Also it was demonstrated that the more familiar the

music was, the more affective the response became. Also the amount of musical

training is a determinant in the response. The subjects with music theoretical

knowledge predominantly responded cognitively to the music and untrained

listeners affectively. These findings again correspond to the theories of Meyer

(1956), Mandler (1984 and Berlyne (1971).

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Music psychology meets Music therapy

Although the topic of music and emotion is central to both music psychology and

music therapy, research findings from the respective fields are not commonly

shared. Only some articles written on the topic of music therapy relate to how

music therapy and music psychology could benefit from one and another.

Generally, in music psychology groups of healthy people are compared to each

other, e.g. groups who have received formal music education and groups who have

not. What would be interesting to know next is how do healthy people differ in

this context to certain client populations, to understand more about musical

emotions.

Music psychologists could for one benefit from music therapy studies in this

area. By now it is more or less clear that people respond emotionally to music

but interesting to know next what are the variations between different

subjects. Smith (1989) studied for instance the listening preferences in

subjects ranging from 18 to 89 in preferred loudness levels, a typical music

psychology topic of relevance to music therapy practice.

A task for music therapists could be to study further how musical preferences

are related to a variety of client populations. How do demented elderly for

instance perceive music and emotions from a music psychological view. It would

be an enrichment of the literature to compare these to music therapy findings.

As music psychology generally focuses on healthy adults, it could be beneficial

to music psychology research to study preferences and emotions in a therapeutic

context with client populations such as the elderly and comatose people.

In this last section, some researchers will be highlighted which have

incorporated music psychology findings in their music therapeutic research.

Bunt (1995) is one of the few authors who mentions the common grounds between

music psychology and music therapy in understanding musical development. For

developing therapeutic goals and finding ways to attune to the child, it is

important to know the capacities of children per se in understanding and

perceiving music. When are children able to sing spontaneously? What musical

qualities children adhere to when they have emotional experiences? Terwogt and

Grinsven (1991) demonstrated that young children are able to recognize basic

emotions in classical music. Here the music therapist can also benefit from

general psychological findings. Children at the age of four are better in

expressing these emotions than recognizing them (Field and Walden, 1982). At

later ages children are more able to differentiate between the variety in

positive and negative emotions (Manstead, 1993).

Most of the descriptions resemble the trend to music psychology: how is emotion

perceived/experienced when one listens to music. In practice already in

receptive music therapy, instruments such as derivates of the Hevner's

adjective circle are used, to let the person become adapted to the therapy and

to gather emotional connotations which the person has with the music for

assessment purposes. Regretfully, these instruments are often not described in

the clinical literature nor has their use and effect been documented. Meyer

(2001) describes how often it is not the patterning of the music per se that

evokes emotion, but the connotations that it has for different listeners.

This idea has been described in various music therapy studies. Smeijsters,

Wijzenbeek and van Nieuwenhuijzen (1995) hypothesized that in the life of

depressive patients, several values are very important (e.g., chaos, authority,

death, religion). It was studied in an explorative study if specific musical

excerpts can evoke these connotations. Depressive clients (n-44) listened

during two sessions to 16 selected musical fragments (such as Bach (2 min),

Symphony no. 2 E flat major, Part 1: Allegro di molto). Patients were asked to

select, from a list of 14 values, those values (such as violence, family and

relaxation) that came to mind as they listened to each excerpt. Results showed

that the fragments indeed evoked the values but they found no one-to-one

relationship. The authors underline the complexity of interpreting these

results. In general, most studies are complicated by the fact that there are so

many antecedents and responses that interact, which are difficult to measure.

General emotions terms are thus likely to yield results, but often the nature

of the response is unclear. Research is needed which is more directed at

understanding the process of how emotions develop in music than the end-state

`static' experience.

A method which is typically based on music psychological findings is Guided

Imagery and Music developed by Helen Bonnny. The method is based on the

assumption that the most appropriate music can be selected for healing

purposes. The client listens to the music in a relaxed state and shares the

experiences with the therapist. The music is selected for specific themes such

as `positive affect'. Erdonmez Grocke (1999) has written extensively on the

application of GIM, also in reference to a variety of client populations. Bonny

states (1986) about the assumptions of GIM that research on the music-assisted

imagery process (GIM) demonstrated that personal music preferences were not

usually applicable for healing when used in therapeutic settings. This

statement is one of debate for music therapy for which the music psychological

findings are interesting. Others have demonstrated that music should be

selected carefully in line with personal preferences. Gerdner (2000)

demonstrated in her study the effects between listening to standard relaxation

music compared to individualized music in its effect to reduce agitation in

demented elderly. Both types of interventions were clearly more effective

compared to baseline measurements. In all aspects, carefully selected music

based on the person's preference and personal background was far more effective

than standard relaxation music. Perhaps it could be hypothesized that when

music meets collectively shared connotations such as presented in GIM, emotions

can be invoked although with different associations. This would be interesting

to research further.

In most of the research -both in music therapy and music psychology- is chosen

for the option that people listen to music. Not many researchers have addressed

the topic of the experience of emotions while performing or in music therapy

while improvising. The processes present here are difficult to grasp with

scientific hands. Bunt and Pavlicevic (2001) describe aspects of generating and

receiving of emotions through music in the realms of clinical improvisation.

They studied an outcome of music psychological research in a music therapeutic

context. In the music psychology literature, specific instruments are seen as

being more suitable than others to convey a particular emotion. Gabrielson and

Juslin (1996) instructed nine professional musicians to sing or play -on

violin, flute or electrical guitar- particular emotional expressions such as

happiness, sadness and anger as well as without expression. In general, the

listener easily understood which emotional expression was played or sung. The

researchers concluded that the effect is influenced by the type of musical

instrument or whether one sings an emotional expression.

Bunt and Pavlicevic (2001) studied how therapists judged short improvisations

on emotional intentions such as happiness, sadness, tenderness, anger and fear.

Two groups of music therapists were included. The first group consisted of

music therapy trainees and the second group of music therapy researchers and

teachers. Members of each group were asked to improvise freely on one of the

described emotions, after which the improvisation was rated in terms of the

presence for each emotional state. The listening music therapists were able to

describe more or less accurately the intended emotions. Problematic is the

case, as it is in music psychological research that it is likely that no

singular emotion is solely present but when someone is playing anger, sadness

is also experienced in the music, which contributes to the variety in scores.

This is one of the major topics, which should further future research: what are

the interrelations between the variety of musical parameters related to the

variety present in musical responding.

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Coda

Far-reaching conclusions cannot be made about the relationship and the

direction of the relationship between music and emotion. There are still too

many methodological and theoretical problems to be able to clearly describe

this relation, both in music psychology and music therapy. Ruud (2001)

describes that one should think that the music therapist would be the first to

know why music is so effective in music therapy. How difficult it is to

describe this and to demonstrate this scientifically has been shown in this

paper. As there are so many aspects still unknown, possibly a strong partner

can assist in finding new answers: both for music psychology and for music

therapy.

In this article some findings of music psychology and music therapy research

studies were discussed which share the same topic: music and emotion. The paper

is certainly full of blanks, as this is a topic that deserves a book (series:),

but possibly it stimulates discussion to fill in the blanks.

Still, the fields of music psychology and music therapy are relatively young

and it is only since recent dates that the relation between emotion and music

is researched more thoroughly. Sloboda and Juslin (2001) state that after a

period of neglect, because of the listed methodological problems, the topic of

music and emotion is again at the forefront of music psychology. They

illustrate this with the sudden increase in music and emotion papers at various

conferences.

According to Sloboda (1985) it is important to integrate existing knowledge

from a variety of disciplines to be able to further theoretical development. He

also mentions aptly the tendency that researchers want to come up with a theory

of their own. Mostly this complicates integrating findings. Luckily, more and

more people build their ideas upon already existing knowledge. Ansdell (2001)

sums some of the recent trends in musicology which he sees as of importance for

music therapy such as the study of music as a process as well as a structure.

The latest European Music Therapy conference in Naples in 2001 included

musicology presentations that demonstrated the interrelations between

disciplines. Possibly, on the next music therapy conferences also music

psychologists will be present. It is important to focus on these

interrelations, as current research is so often divided in separate

specializations. Often a musicology approach is to focus on musical elements

and to ignore psychological characteristics and vice versa the therapist often

attaches less value to musicological aspects.

Currently, the impression on conferences and from the literature is that music

therapy and music psychology are two entirely different fields, which they of

course are. But in each relationship, it is their differences that attract and

which should be elaborated more, such as the question how music and emotions

are related. I hold that the two partners in this young relationship can

benefit a great deal from their `living apart together' relationship.

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