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Toward a general psychobiological theory of emotions

  • Jaak Panksepp (a1)
  • DOI:
  • Published online: 01 February 2010

Emotions seem to arise ultimately from hard-wired neural circuits in the visceral-limbic brain that facilitate diverse and adaptive behavioral and physiological responses to major classes of environmental challenges. Presumably these circuits developed early in mammalian brain evolution, and the underlying control mechanisms remain similar in humans and “lower” mammals. This would suggest that theoretically guided studies of the animal brain can reveal how primitive emotions are organized in the human brain. Conversely, granted this cross-species heritage, it is arguable that human introspective access to emotional states may provide direct information concerning operations of emotive circuits and thus be a primary source of hypotheses for animal brain research. In this article the possibility that emotions are elaborated by transhypothalamic executive (command) circuits that concurrently activate related behavior patterns is assessed. Current neurobehavioral evidence indicates that there are at least four executive circuits of this type – those which elaborate central states of expectancy, rage, fear, and panic. The manner in which learning and psychiatric disorders may arise from activities of such circuits is also discussed.

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H. M. Adelman & J. L. Maatsch (1956). Learning and extinction based upon frustration, food reward, and exploratory tendency. Journal of Experimental Psychology 52:311–15. [JAG]

G. L. Ahern , M. L. Landin , & G. Wolf (1978) Escape from deficits in sodium intake after thalamic lesions as a function of preoperative experience. Journal of Comparative and Physiological Psychology 92:544–54. [taJP]

M. Alexander & A. A. Perachio (1973) The influence of target sex and dominance on evoked attack in rhesus monkeys. American Journal of Physical Anthropology 38:543–47. [taJP]

A. Amsel (1962) Frustrative nonreward in partial reinforcement and discrimination learning: Some recent history and a theoretical extension. Psychological Review 69:306–28. [JAG]

H. Anisman (1975) Task complexity as a factor in eliciting heterosis in mice: Aversively motivated behaviors. Journal of Comparative and Physiological Psychology 89:976–84. [HA]

H. Anisman , L. Grimmer , J. Irwin , G. Remington , & L. S. Sklar (1979) Escape performance after inescapable shock in selectively bred lines of mice. Journal of Comparative and Physiological Psychology 93:229–41. [HA]

M. B. Arnold & J. Gasson (1970) Perennial problems in the field of emotion. In: Feelings and emotions: The Loyola symposium, ed. M. B. Arnold . New York: Academic Press. [JRR]

J. R. Averill (1974) An analysis of psychophysiological symbolism and its influence on theories of emotion. Journal for the Theory of Social Behavior 4:147–90. [JRA]

J. R. Averill (1980a) A constructivist view of emotion. In: Theories of emotion, ed. R. Plutchik & H. Kellerman , pp. 305–39. New York: Academic Press. [JRA]

J. R. Averill (1980b) On the paucity of positive emotions. In: Assessment and modification of emotional behaviors, ed. K. R. Blankstein , P. Pliner , & J. Pliner , pp. 745. New York: Plenum Press. [JRA]

A. F. Ax (1953) The physiological differentiation of fear and anger in humans. Psychosomatic Medicine 15:433–42. [taJP]

G. Baccclli , R. Albertini , G. Mancia , & A. Zanchetti (1976) Interactions between sino-aortic reflexes and cardiovascular effects on sleep and emotional behavior in cat. Circulation Research 38, Suppl. 2:3034. [taJP]

S. E. Bachus & E. S. Valenstein (1979) Individual behavioral responses to hypothalamic stimulation persist despite destruction of tissue surrounding electrode tip. Physiology and Behavior 23:421–26. [taJP]

S. Balagura , R. H. Wilcox , & D. V. Coscina (1969) The effect of diencephalic lesions on food intake and motor activity. Physiology and Behavior 4:629–33. [taJP]

() . :. [taJP]P. Bard 1934 On emotional expression after decortication with some remarks on certain theoretical views Psychological Reviews 41 309

S. G. Barta , E. D. Kemble , & E. Klinger (1975) Abolution of cyclic activity changes following amygdaloid lesions in rats. Bulletin of the Psychonomic Society 5:236–38. [EK]

B. L. Baxter (1968) Elicitation of emotional behavior by electrical stimulation applied at the same loci in cat mesencephalon. Experimental Neurology 21:120. [taJP]

W. K. Beagley & T. L. Holley (1977) Hypothalamic stimulation facilitates contralateral visual control of a learned response. Science 196:321–22. [taJP]

W. W. Beatty & P. A. Beatty (1970). Hormonal determinants of sex differences in avoidance behaviour and reactivity to electric shock in the rat. Journal of Comparative and Physiological Psychology 73:446–55. [JAG]

G. G. Berntson (1972) Blockade and release of hypothalamically and naturally elicited aggressive behaviors in cats following midbrain lesions. Journal of Comparative and Physiological Psychology 81:541–54. [taJP]

G. G. Berntson , S. J. Potolicchio , & N. E. Miller (1973) Evidence for higher functions of the cerebellum: Eating and grooming elicited by cerebellar stimulation in cats. Proceedings of the National Academy of Sciences of the United States of America 70:2497–499. [rJP]

R. C. Bolles (1970) Species-specific defense reactions and avoidance learning. Psychological Review 77:3248. [HA, FMT]

R. C. Bolles (1972) Reinforcement, expectancy and learning. Psychological Review 79:394409. [HU]

G. H. Bower (1981) Mood and memory. American Psychologist 36:129–48. [taJP]

G. H. Bower & N. E. Miller (1958) Rewarding and punishing effects from stimulating the same place in the rat's brain. Journal of Comparative and Physiological Psychology 51:669–78. [taJP]

C. Braestrup & R. F. Squires (1977) Specific benzodiazepine receptors in rat brain characterized by high-affinity 3H-diazepam binding. Proceedings of the National Academy of Sciences, United States of America 74:3805–9. [taJP]

B. B. Brodie & P. A. Shore (1957) A concept for a role of serotonin and norepinephrine as chemical mediators in the brain. Annals of the New York Academy of Sciences 66:631–42. [taJP]

A. Brown & C. Barclay (1976) The effects of training specific mnemonics on the meta-mnemonic efficiency of retarded children. Child Development 47:7080. [CL]

M. Cabanac (1971) Physiological role of pleasure. Science 173:1103–7. [taJP]

A. R. Caggiula (1969) Stability of behavior produced by electrical stimulation of the rat hypothalamus. Brain, Behavior and Evolution 2:343–58. [rJP]

B. A. Campbell & L. A. Baez (1974) Dissociation of arousal and regulatory behaviors following lesions of the lateral hypothalamus. Journal of Comparative and Physiological Psychology 87:142–49. [taJP]

W. B. Cannon (1927) The James-Lange theory of emotions. American Journal of Psychology 39:106. [taJP]

W. B. Cannon (1931) Again the James-Lange and the thalamic theories of emotion. Psychological Review 38:281–95. [taJP]

C. C. Chi , R. Handler , & J. P. Flynn (1976), Neuroanatomic projections related to biting attack elicited from the ventral midbrain in cats. Brain, Behavior and Evolution 13:91110. [AS]

M. Christopher & C. M. Butter (1968) Consummatory behaviors and locomotor exploration evoked from self-stimulation sites in rats. Journal of Comparative and Physiological Psychology 66:335–39. [taJP]

S. Clarke (1971) Sniffing and fixed-ratio behavior in sucrose and brain stimulation reward in the rat. Physiology and Behavior 7:695–99. [taJP]

S. Clarke , J. Panksepp , & J. A. Trowill (1970) A method of recording sniffing in the free-moving rat. Physiology and Behavior 5:125–26. [taJP]

S. Clarke & J. A. Trowill (1971) Sniffing and motivated behavior in the rat. Physiology and Behavior 6:4952. [taJP]

R. M. Clavier , H. C. Fibiger , & A. G. Phillips (1976) Evidence that self-stimulation of the region of the locus coeruleus in rats does not depend upon noradrenergic projections to telencephalon: Brain Research 113:7181. [taJP]

M. Clynes (1969) Toward a theory of man: Precision of essentic form in living communication. In: Information processing in the nervous system, ed. K. N. Leibovie & J. C. Eccles . New York: Springer. [MC]

M. Clynes (1973) Sentics - Biocybernetics of emotion communication. Annals of the New York Academy of Sciences 220:55131. [MC]

M. Clynes (1980) The communication of emotion: Theory of sentics. In: Theories of emotion, ed. R. Plutchik & H. Kellerman , pp. 271301. New York: Academic Press. [MC]

M. Clynes & N. Nettheim (1982) The living qualities of music: Neurobiologic basis of communicating qualities of feeling. In: Music, mind, and brain: The neuropsychology of music, ed. M. Clynes , pp. 4782. New York: Plenum Press. [MC]

D. Corbett & R. A. Wise (1979) Intracranial self-stimulation in relation to the ascending noradrenergic fiber systems of the pontine tegmentum and caudal midbrain: A moveable electrode mapping study. Brain Research 177:423–36. [taJP]

D. V. Coscina , J. Seggie , D. D. Godse , & H. C. Stancer (1973) Induction of rage in rats by central injection of 6-hydroxydopamine. Pharmacology Biochemistry and Behavior 1:16. [taJP]

R. D'Andrade (1974) Memory and the assessment of behavior. In: Measurement in the social sciences, ed. T. Blalock , pp. 159–86. Chicago: Aldine. [CL]

C. Darwin (1872/1965) The expression of the emotions in man and animals. Reprint ed. Chicago: University of Chicago Press. Orig. ed. London: John Murray. [CEI, taJP, RP]

M. Davis (1979) Diazepam and flurazepam: Effects on conditioned fear as measured with the potentiated startle paradigm. Psychophannacology 62:17. [taJP]

J. M. R. Delgado (1964) Free behavior and brain stimulation. In: International review of neurobiology, vol. 6, ed. C. C. Pfeiffer & J. R. Smythies , pp. 349449. New York: Academic Press. [JMRD]

J. M. R. Delgado (1979) Inhibitory functions in the neostriatum. In: The neostriatum, ed. I. Divac , R. Gunilla , & E. Oberg , pp. 241–61. New York: Pergamon Press. [JMRD]

A. F. de Molina & R. W. Hunsperger (1962) Organization of the subcortical system governing defence and flight reactions in the cat. Journal of Physiology 160:200–13. [taJP]

E. Duffy (1941) The concept of energy mobilization. Psychological Review 58:3040. [taJP]

J. C. Eccles (1976) Brain and free will. In: Consciousness and the brain: A scientific and philosophical inquiry, ed. G. Globus , C. Maxwell , & I. Savodnik . New York: Plenum Press. [GGG]

B. Eichelman , N. B. Thoa , & K. Y. Ng (1972) Facilitated aggression in the rat following 6-hydroxydopamine administration. Physiology and Behavior 8:13. [taJP]

L. J. Enloe (1975) Extralimbic mediation of emotionality and social cohesiveness effects. Physiology and Behavior 15:271–76. [taJP]

B. Fass , H. Jordan , A. Rubman , S. Seibel , & D. Stein (1975) Recovery of function after serial or one-stage lesions of the lateral hypothalamic area. Behavioral Biology 14:283–94. [JdeR]

J. Feldon , A. Guillamon , J. A. Gray , H. de Wit , & N. McNaughton (1979). Sodium amylobarbitone and responses to nonrcward. Quarterly Journal of Experimental Psychology 31:1950. [JAG]

J. P. Flynn , H. Vanegas , W. Foote , & S. Edwards (1970). Neural mechanisms involved in a cat's attack on a rat. In: The neural control of behavior, ed. R. E. Whalen , R. F. Thompson , M. Verzeano , & N. M. Weinberger , pp. 135–73. New York: Academic Press. [AS]

E. Fonberg (1968) The role of the amygdaloid nucleus in animal behaviour. Progress in Brain Research 22:273–81. [EF]

T. L. Frigyesi , A. Ige , A. Iulo , & R. Schwartz (1971) Denigration and sensorimotor disability induced by ventral tegmental injections of 6 hydroxydopamine in cats. Experimental Neurology 33:7887. [taJP]

S. Fuchs , M. Dalsass , H. E. Siegel , & A. Siegel (1981). The neural pathways mediating quiet biting attack behavior from the hypothalamus in the cat: A functional autoradiographic study. Aggressive Behavior 7:5167. [AS]

C. R. Gallistel , G. A. Karreman , & M. Reivich (1977) (14C) 2-deoxy-glucose uptake marks systems activated by rewarding brain stimulation. Brain Research Bulletin 2:149–52. [taJP]

G. G. Gallup (1965). Aggression in rats as a function of frustrative nonreward in a straight alley. Psychonomic Science 3:99100. [JAG]

I. Geller & J. Seifter (1960). The effects of meprobamate, barbiturates, D-amphetamine and promazine on experimentally induced conflict in the rat. Psychophannacologia 1:482–92. [JAG]

E. Gellhorn , W. P. Koella , & H. M. Ballin (1955) The influence of hypothalamic stimulation on evoked cortical potentials. Journal of Psychology 39:7778. [taJP]

D. C. German & D. M. Bowden (1974) Catecholamine systems as the neural substrate for intracranial self-stimulation: A hypothesis. Brain Research 73:381419. [taJP]

G. L. Gessa & A. Tagliamonte (1974) Role of brain monoamines in male sexual behavior. Life Sciences 14:425–36. [MZ]

S. E. Glickman & B. B. Schiff (1967) A biological theory of reinforcement. Psychological Review 74:81109. [taJP]

F. Goltz (1892) Der Hund ohne Grosshirn. Pflugers Archiv-European Journal of Physiology 51:570614. [taJP]

M. A. Goodale (1981) Vision as a sensorimotor system. In: Behavioral contributions to brain research, ed. T. E. Robinson . New York: Oxford University Press. [CHV]

J. A. Gray (1979b). Emotionality in male and female rodents: A reply to Archer. British Journal of Psychology 70:425–40. [JAG]

H. J. Grill & R. Norgren (1978) The taste reactivity test. 2. Mimetic responses to gustatory stimuli in chronic thalamic and chronic decerebrate rats. Brain Research 143:281–97. [taJP]

W. W. Grings & M. E. Dawson (1978) Emotions and bodily responses: A psychophysiological approach. New York: Academic Press. [taJP]

P. M. Groves , C. J. Wilson , S. J. Young , & G. V. Rebec (1975) Self-inhibition by dopaminergic neurons. Science 190:522–29. [taJP]

H. Harlow (1971) Learning to love. San Francisco: Albion. [JJ]

R. G. Heath (1975) Brain function and behavior: 1. Emotion and sensory phenomena in psychotic patients and in experimental animals. Journal of Nervous and Mental Disease 160:159–75. [RGH]

R. G. Heath (1977) Modulation of emotion with a brain pacemaker: Treatment for intractable psychiatric illness. Journal of Nervous and Mental Disease 165:300–17. [RGH]

R. G. Heath , D. E. Franklin & D. Shraberg (1979) Gross pathology of the cerebellum in patients diagnosed and treated as functional psychiatric disorders. Journal of Nervous and Mental Disease 167:585–92. [RGH]

L. J. Herberg , D. N. Stephens , & K. B. J. Franklin (1976) Catecholamines and self-stimulation: Evidence suggesting a reinforcing role for noradrenaline and a motivating role for dopamine. Pharmacology Biochemistry and Behavior 4:575–82. [taJP]

B. H. Herman & J. Panksepp (1981) Ascending endorphin inhibition of distress vocalization. Science 211:1060–62. [tarJP]

D. A. Hopkins and G. Holstege (1978) Amygdaloid projections to the mesencephalon, pons and medulla oblongata in the rat. Experimental Brain Research 32:529–47. [rJP]

R. W. Hunsperger , J. L. Brown , & H. E. Rosvold (1964) Combined stimulation in areas governing threat and flight behaviour in the brain stem of the cat. In: Topics in basic neurology, vol. 6, Progress in brain research, ed. W. Bargmann & J. P. Schade . pp. 191–97. Amsterdam: Elsevier. [taJP]

J. P. Huston & A. A. Borbely (1974) The thalamic rat: General behavior, operant learning with rewarding hypothalamic stimulation, and effects of amphetamine. Physiology and Behavior 12:433–48. [taJP]

R. R. Hutchinson & J. W. Renfrew (1966) Stalking attack and eating behavior elicited from the same sites in the hypothalamus. Journal of Comparative and Physiological Psychology 61:360–67. [rJP]

R. R. Hutchinson & J. W. Renfrew (1978) Functional parallels between the neural and environmental antecedents of aggression. Neuroscience and Biobehavioral Review 2:3358. [taJP]

C. E. Izard (1972) Patterns of emotions: A new analysis of anxiety and depression. New York: Academic Press. [taJP]

W. James (1892) Psychology: The briefer course. New York: Harper & Row. [taJP]

M. Jouvet (1979) What does a cat dream about? Trends in Neurosciences 2:280–82. [rJP]

U. Jürgens & D. Ploog (1970) Cerebral representation of vocalization in the squirrel monkey. Experimental Brain Research 10:532–54. [taJP]

H. Kabat (1936) Electrical stimulation of points in the forebrain and midbrain: The resultant alterations in respiration. Journal of Comparative Neurology 64:187208. [taJP]

A. C. Kamil (1978) Systematic foraging by a nectar-feeding bird, the Amakihi (Loxops virens). Journal of Comparative and Physiological Psychology 92:388–96. [FMT]

J. P. Karplus & A. Kreidl (1909) Gehirn und Sympathicus. 1. Zwischenhirnbasis und Halssympathicus. Pflugers Archiv—European Journal of Physiology 129:138–44. [taJP]

E. Klinger (1975) Consequences of commitment to and disengagement from incentives. Psychological Review 82:125. [EK]

E. Klinger , S. G. Barta , & E. D. Kemble (1974) Cyclic activity changes during extinction in rats: A potential model of depression. Animal Learning and Behavior 2:313–16. [EK]

H. Klüver & P. C. Bucy (1939) Preliminary analysis of functions of the temporal lobes in monkeys. Archives of Neurology and Psychiatry 42:9791000. [taJP]

D. J. Lewis (1979) Psychobiology of active and inactive memory. Psychological Bulletin 86:1054–83. [FMT]

K. Lorenz (1970) Studies in animal and human behaviour. London: Methuen, vol. 1. [WL]

C. Lutz (1982) The domain of emotion words on Ifaluk. American Ethnologist 9:113–28. [CL]

P. D. MacLean (1949) Psychosomatic disease and the “visceral brain”: Recent developments bearing on the Papez theory of emotion. Psychosomatic Medicine 11:338–53. [taJP]

E. M. MacPhail & N. E. Miller (1968) Cholinergic stimulation in cats: Failure to obtain sleep. Journal of Comparative and Physiological Psychology 65:499503. [taJP]

S. F. Maier & M. E. P. Seligman (1976) Learned helplessness: Theory and evidence. Journal of Experimental Psychology 105:346. [HA]

J. F. Marshall (1979) Somatosensory inattention after dopamine depleting intracerebral 6-OH-DA injections: Spontaneous recovery and pharmacological control. Brain Research 177:311–24. [JP]

J. F. Marshall , N. Berrios , & S. Sawyer (1980) Neostriatal dopamine and sensory inattention. Journal of Comparative and Physiological Psychology 94:833–46. [taJP]

J. F. Marshall & P. Teitelbaum (1974) Further analysis of sensory inattention following lateral hypothalamic damage in rats. Journal of Comparative and Physiological Psychology 86:375–95. [taJP]

J. H. Masserman (1941) Is the hypothalamus a center of emotion? Psychosomatic Medicine 3:325. [taJP]

D. T. Masuoka & A. F. Alcaraz (1975) An autoradiographic method of mapping the distribution and density of monoamine neurons in mouse brain. European Journal of Pharmacology 33:125–30. [taJP]

D. J. McGinty & M. B. Sterman (1968) Sleep suppression after basal forebrain lesions in the cat. Science 160:1253–55. [taJP]

M. McIntyre & D. G. Stein (1973) Differential effects of one- vs. two-stage amygdaloid lesions on activity, exploratory, and avoidance behavior in the albino rat. Behavioral Biology 9:451–65. [JdeR]

R. Melzack & K. L. Casey (1970) The affective dimension of pain. In: Feelings and emotions, ed. M. B. Arnold , pp. 5568. New York: Academic Press. [LDK]

P. J. Morgane , M. S. Jacobs , & W. L. McFarland (1980) The anatomy of the brain of the bottlenose dolphins (Tursiops truncatus): Surface configurations of the telencephalon of the bottlenose dolphin with comparative anatomical observations in four other cetacean species. Brain Research Bulletin, vol. 5, supplement 3. [rJP]

O. H. Mowrer (1960) Learning theory and behavior. New York: Wiley. [JAG]

M. R. Murphy , P. D. MacLean , & S. C. Hamilton (1981) Species-typical behavior of hamsters deprived from birth of the neocortex. Science 213:429–61. [taJP]

R. D. Myers (1964) Emotional and autonomic responses following hypothalamic chemical stimulation. Canadian Journal of Psychology 18:614. [taJP]

K. Nakamura & H. Thoenen (1972) Increased irritability: A permanent behavior change induced in the rat by intraventricular administration of 6-hydroxydopamine. Psychopharmacologia 24:359–72. [taJP]

R. E. Nisbett & T. D. Wilson (1977) Telling more than we can know: Verbal reports on mental processes. Psychological Review 84:231–59. [RdeS, CL, rJP, CHV]

J. Panksepp (1971a) Aggression elicited by electrical stimulation of the hypothalamus in albino rats. Physiology and Behavior 6:321–29. [LDK, tarJP]

J. Panksepp (1971b) Drugs and stimulus-bound attack. Physiology and Behavior 6:317–20. [taJP]

J. Panksepp (1971c) Effects of hypothalamic lesions on mouse-killing and shock-induced fighting in rats. Physiology and Behavior 6:321–29. [taJP]

J. Panksepp (1982a) The pleasure in brain substrates of foraging. Behavioral and Brain Sciences 5:7172. [rJP]

J. Panksepp & P. Bishop (1981) An autoradiographic map of (3H) diprenorphine binding in rat brain: Effects of social interaction. Brain Research Bulletin 7:405–10. [taJP]

J. Panksepp , R. Gandelman , & J. Trowill (1970) Modulation of hypothalamic self-stimulation and escape behavior by chlordiazepoxide. Physiology and Behavior 5:965–69. [rJP]

J. Panksepp , B. H. Herman , T. Vilberg , T. Bishop , & F. C. DeEskinazi (1980) Endogenous opioids and social behavior. Neuroscience and Biobehavioral Reviews 4:473–87. [LDK, tarJP]

J. W. Papez (1937) A proposed mechanism of emotion. Archives of Neurology and Psychiatry 38:725–44. [taJP]

A. A. Perochio & M. Alexander (1974) Neurophysiological approaches to the study of aggression. In: The neuropsychology of aggression, ed. R. E. Whalen , pp. 6583. Advances in Behavioral Biology 12. New York: Plenum Press. [EF]

A. G. Phillips (1975) Object-carrying by rats: Disruption by ventral mesencephalic lesions. Canadian Journal of Psychology 29:250–62. [taJP]

A. G. Phillips & H. C. Fibiger (1973) Dopaminergic and noradrenergic substrates of positive reinforcement: Differential effects of d- and I-amphetamine. Science 179:575–77. [taJP]

A. G. Phillips , A. C. McDonald , & D. M. Wilkie (1981) Disruption of autoshaped responding to a signal of brain-stimulation reward by neuroleptic drags. Pharmacology Biochemistry and Behavior 14:543–48. [rJP]

M. Piechowski (1981) The logical and empirical form of feeling. Journal of Aesthetic Education 15:3153. [MC]

J. P. J. Pinel & D. Treit (1978) Burying as a defensive response in rats. Journal of Comparative and Physiological Psychology 92:708–12. [HA]

R. Plotnik , D. Mir , & J. M. R. Delgado (1971) Aggression noxiousness and brain stimulation in unrestrained rhesus monkeys. In: The physiology of aggression and defeat, ed. B. E. Eleftheriou & J. P. Scott , pp. 143222. New York: Plenum. [taJP]

R. Plutchik (1970) Emotions, evolution and adaptive processes. In: Feelings and emotions, ed. M. Arnold . New York: Academic Press. [RP]

R. Plutchik , H. Kellerman , & H. R. Conte (1979) A structural theory of ego defenses. In: Emotions, personality and psychopathology, ed. C. E. Izard . New York: Plenum. [RP]

R. Plutchik , W. L. McFarland , & B. W. Robinson , (1966) Relationships between current intensity, self-stimulation rates, escape latencies and evoked behavior in rhesus monkeys. Journal of Comparative and Physiological Psychology 61:181–88. [RP]

R. Plutchik & S. R. Platman (1977) Personality connotations of psychiatric diagnoses. Journal of Nervous and Mental Disease 165:418–22. [RP]

W. T. Powers (1978) Quantitative analysis of purposive systems: Some spadework at the foundations of scientific psychology. Psychological Review 85:417–35. [FMT]

S. W. Ranson (1939) Somnolence caused by hypothalamic lesions in the monkey. Archives of Neurology and Psychiatry 41:123. [taJP]

S. W. Ranson & H. W. Magoun (1939) The hypothalamus. Ergebnisse der Physiologic 41:56163. [taJP]

D. E. Redmond Jr., & Y. H. Hunag (1979) Current Concepts. 2. New evidence for a locus coeruleus-norepinephrine connection with anxiety. Life Sciences 25:2149–62. [taJP]

A. G. Reeves & F. Plum (1969) Hyperphagia, rage, and dementia accompanying a ventromedial hypothalamic neoplasam. Archives of Neurology 20:616–24. [taJP]

R. A. Rescorla & R. L. Solomon (1967) Two process learning theory: Relationships between Pavlovian and instrumental learning. Psychological Review 74:151–82. [HA]

W. W. Roberts (1958) Rapid escape learning without avoidance learning motivated by hypothalamic electrical stimulation. Journal of Comparative and Physiological Psychology 51:391–99. [taJP]

W. W. Roberts (1980) (14C) deoxyglucose mapping of first order projections activated by stimulation of lateral hypothalamic sites eliciting gnawing, eating and drinking in rats. Journal of Comparative Neurology 194:617–38. [taJP]

W. W. Roberts & E. Berquist (1968) Attack elicited by hypothalamic stimulation in cats raised in social isolation. Journal of Comparative and Physiological Psychology 66:590–96. [taJP]

B. W. Robinson , M. Alexander , & G. Browne (1969) Dominance reversal resulting from aggressive responses evoked by brain telestimulation. Physiology and Behavior 4:749–52. [taJP]

E. T. Rolls & P. H. Kelly (1972) Neural basis of stimulus-bound locomotor activity in the rat. Journal of Comparative and Physiological Psychology 81:173–82. [taJP]

A. Routtenberg (1968) The two-arousal hypothesis: Reticular formation and limbic system. Psychological Review 75:5181. [MZ]

A. Routtenberg & C. Malsbury (1969) Brainstem pathways of reward. Journal of Comparative and Physiological Psychology 68:2230. [taJP]

J. R. Royce & S. R. Diamond (1980) A multifactor-system dynamics theory of emotion: Cognitive affective interaction. Motivation and Emotion 4:263–98. [JRR]

C. A. Ruckmick (1936) The psychology of feeling and emotion. New York: McGraw-Hill. [taJP]

J. Ruger & J. Schulkin (1980) Preoperative sodium appetite experience and hypothalamic lesions in rats. Journal of Comparative and Physiological Psychology 94:914–20. [taJP]

S. Schachter & J. E. Singer (1962) Cognitive, social and physiological determinants of emotional state. Psychological Review 69:379–99. [taJP, HU]

E. Schaefer & R. Plutchik (1966) Interrelationships of emotions, traits and diagnostic constructs. Psychological Reports 18:399410. [HP]

M. Schwartz & P. Teitelbaum (1974) Dissociation between learning and remembering in rats with lesions in the lateral hypothalamus. Journal of Comparative and Physiological Psychology 87:384–98. [taJP]

C. S. Sherrington (1900) Experiments on the value of vascular and visceral factors for the genesis of emotion. Proceedings of the Royal Society (London), Series B 66:390403. [taJP]

D. A. Smith (1972) Increased perioral responsiveness: A possible explanation for the switching of behavior observed during lateral hypothalamic stimulation. Physiology and Behavior 8:617–21. [taJP]

R. L. Solomon (1980) The opponent-process theory of acquired motivation. American Psychologist 35:691712. [rJP]

R. W. Sperry (1969) A modified concept of consciousness. Psychological Review 76:532–36. [GGG]

L. W. Swanson & H. G. J. M. Kuypers (1980) The paraventricular nucleus of the hypothalamus: Cytoarchitectonic subdivisions and organization of projections to the pituitary, dorsal vagal complex, and spinal cord as demonstrated by retrograde fluorescence double-labeling methods. Journal of Comparative Neurology 194:555–70. [rJP]

D. Treit , J. P. J. Pinel , & H. C. Fibiger (1981) Conditioned defensive burying: A new paradigm for the study of anxiolytic agents. Pharmacology Biochemistry and Behavior 15:619–26. [HA]

J. A. Trowill , J. Panksepp , & R. Gandelman (1969) An incentive model of rewarding brain stimulation. Psychological Review 76:264–81. [taJP]

H. Ursin (1965) The effect of amygdaloid lesions on flight and defence behavior in cats. Experimental Neurology 11:6179. [taJP]

H. Ursin (1980) Personality, activation, and somatic health: A new psychosomatic theory. In: Coping and health, ed. S. Levine & H. Ursin , pp. 259–79. New York: Plenum Press. [HU]

H. Ursin & B. R. Kaada (1960) Functional localization within the amygdaloid complex in the cat. Electroencephalography and Clinical Neurophysiology 12:120. [taJP]

E. S. Valenstein , V. C. Cox , & J. W. Kakolewski (1970) Reexamination of the role of the hypothalamus in motivation behavior. Psychological Review 77:1631. [HA, EK, tarJP]

C. von Economo (1930) Sleep as a problem of localization. Journal of Nervous and Mental Disease 71:249–59. [taJP]

J. A. Wada & M. Matsuda (1970) Can hypothalamically induced escape be conditioned? Experimental Neurology 28:507–12. [taJP]

J. A. Wada , M. Matsuda , E. Jung , & A. Hamm (1970) Mesencephalically induced escape behavior and avoidance performance. Experimental Neurology 29:215–20. [taJP]

D. Wahlsten (1972) Phenotypic and genetic relations between initial response to electric shock and rate of avoidance learning in mice. Behavior Genetics 2:211–40. [HA]

J. B. Watson (1924) Psychology from the standpoint of a behaviorist. Philadelphia: Lippincott. [taJP]

M. C. Wheatley (1944) The hypothalamus and affective behavior in cats. Archives Neurology and Psychiatry (Chicago) 52:296316. [taJP]

J. Wilcock (1968). Strain differences in response to shock in rats selectively bred for emotional elimination. Animal Behaviour 16:294–97. [JAG]

R. A. Wise (1971) Individual differences in effects of hypothalamic stimulation: The role of stimulation locus. Physiology and Behavior 6:569–72. [taJP]

R. A. Wise (1978) Catecholamine theories of reward: A critical review. Brain Research 152:215–47. [taJP]

T. B. Wishart & E. K. Walls (1974) Reduction of stimulus-bound food consumption in the rat following amphetamine administration. Journal of Comparative and Physiological Psychology 87:741–45. [HA]

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Behavioral and Brain Sciences
  • ISSN: 0140-525X
  • EISSN: 1469-1825
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