The effect of task difficulty and threat of aversive electric shock upon tonic physiological changes

Thirteen subjects volunteered in an experiment which tested the relative effect of task difficulty and threat of aversive electric shock upon tonic changes in skeletal muscle (somatic) tension, respiration, heart rate (HR), and skin conductance level (SCL). They all performed two versions of a continuous perceptual-motor task (which is different from the reaction time task paradigm currently being preferred in related research), one difficult and one easy, under conditions of threat and no-threat. Electromyographic activity increased over the course of a task and, thus, showed clear physiological gradients which were steeper with the difficult task and threat. Initial HR activation was marked for the threat condition, and task difficulty added to this activation. SCL revealed a marked initial peak-response for all treatments, but was unresponsive to experimental manipulations. It was argued that a respiratory-somatic parallelism occurred during performance of both tasks for the no-threat (low effort) condition, and that threat (high effort) acted to dissolve this coupling in favour of a respiratory-cardiac parallelism.

[1]  R. Malmo Physiological gradients and behavior. , 1965, Psychological bulletin.

[2]  Control of respiration as a means of controlling responses to threat. , 1978, Journal of personality and social psychology.

[3]  D. Kahneman,et al.  Attention and Effort , 1973 .

[4]  K. Light,et al.  Young Psychophysiologist Award address, 1980. Cardiovascular responses to effortful active coping: implications for the role of stress in hypertension development. , 1981, Psychophysiology.

[5]  S. Svebak,et al.  The psychological significance of task-induced tonic changes in somatic and autonomic activity. , 1981, Psychophysiology.

[6]  W. Suess,et al.  The effects of psychological stress on respiration: a preliminary study of anxiety and hyperventilation. , 1980, Psychophysiology.

[7]  K. Pribram,et al.  Arousal, activation, and effort in the control of attention. , 1975, Psychological review.

[8]  S. Svebak,et al.  High arousal can be pleasant and exciting: The theory of psychological reversals , 1980, Biofeedback and self-regulation.

[9]  S. Svebak,et al.  Respiratory patterns as predictors of laughter. , 1975, Psychophysiology.

[10]  R. Barry Physiological changes in a reaction time task: Further problems with Sokolov's dimension of stimulus "significance" , 1978 .

[11]  R. Malmo,et al.  On emotions, needs, and our archaic brain. , 1975 .

[12]  P. Obrist,et al.  Presidential Address, 1975. The cardiovascular-behavioral interaction--as it appears today. , 1976, Psychophysiology.

[13]  Trygve Braatøy,et al.  Fundamentals of psychoanalytic technique , 1954 .

[14]  G. Brandenberger,et al.  Plasma catecholamines and pituitary adrenal hormones related to mental task demand under quiet and noise conditions , 1980, Biological Psychology.

[15]  L. Lum Hyperventilation: the tip and the iceberg. , 1975, Journal of psychosomatic research.

[16]  Russek Hi Behavior patterns, stress and coronary heart disease. , 1974 .

[17]  V. A. Harris,et al.  Paced respiration as a technique for the modification of autonomic response to stress. , 1976, Psychophysiology.

[18]  L. Lum Hyperventilation and Anxiety State 1 , 1981, Journal of the Royal Society of Medicine.

[19]  Stephen W. Porges,et al.  Respiratory influences on cardiac responses during attention , 1977 .

[20]  R. Elliott Tonic heart rate: experiments on the effects of collative variables lead to a hypothesis about its motivational significance. , 1969, Journal of personality and social psychology.