An emerging dialogue among social scientists and neuroscientists on the causal bases of emotion

Marc D. Lewis

doi:10.1017/S0140525X05520041

An emerging dialogue among social scientists and neuroscientists on the causal bases of emotion

Published online by Cambridge University Press: 12 August 2005

Marc D. Lewis

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Marc D. Lewis*: Affiliation:
Department of Human Development and Applied Psychology, University of Toronto, Toronto, Ontario, M5S 1V6, Canadahttp://home.oise.utoronto.ca/~mlewis
*: [email protected]

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Abstract:

The target article developed a dynamic systems framework that viewed the causal basis of emotion as a self-organizing process giving rise to cognitive appraisal concurrently. Commentators on the article evaluated this framework and the principles and mechanisms it incorporated. They also suggested additional principles, mechanisms, modeling strategies, and phenomena related to emotion and appraisal, in place of or extending from those already proposed. There was general agreement that nonlinear causal processes are fundamental to the psychology and neurobiology of emotion.

Type: Author’s Response
Information: Behavioral and Brain Sciences , Volume 28 , Issue 2 , April 2005 , pp. 223 - 245

DOI: https://doi.org/10.1017/S0140525X05520041 [Opens in a new window]
Copyright: Copyright © Cambridge University Press 2005

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References

Abe, J. A. & Izard, C. E. (1999) A longitudinal study of emotion expression and personality relations in early development. Journal of Personality and Social Psychology 77:556–77. [CEI]Google Scholar

Adamec, R., Kent, P., Anisman, H., Shallow, T. & Merali, Z. (1998) Neural plasticity, neuropeptides and anxiety in animals: Implications for understanding and treating affective disorder following traumatic stress in humans. Neuroscience and Biobehavioral Reviews 23:301–18. [aMDL]Google Scholar

Adolphs, R. (2001) The neurobiology of social cognition. Current Opinion in Neurobiology 11:231–39. [ANS]Google Scholar

Adolphs, R., Russell, J. A. & Tranel, D. (1999) A role for the human amygdala in recognizing emotional arousal from unpleasant stimuli. Psychological Science 10(2):167–71. [DS]Google Scholar

Aggleton, A. P. & Brown, M. W. (1999) Episodic memory, amnesia, and the hippocampal-anterior thalamic axis. Behavioral and Brain Sciences 22:425–89. [aMDL]Google Scholar

Ainslie, G. (2001) Breakdown of will. Cambridge University Press. [GA]Google Scholar

Ainslie, G. (2001) (in press) A selectionist model of the ego: Implications for self-control. In: Disorders of volition, ed. Sebanz, N. & Prinz, W.. MIT Press. [GA]Google Scholar

Alonso, A. & Llinus, R. R. (1992) Electrophysiology of the mammillary complex in vitro. II. Medial mammillary neurons. Journal of Neurophysiology 68:1321–31. [aMDL]Google Scholar

Anderson, A. K., Christoff, K., Stappen, I., Panitz, D., Ghahremani, D. G., Glover, G., Gabrieli, J. D. & Sobel, N. (2003) Dissociated neural representations of intensity and valence in human olfaction. Nature Neuroscience 6(2):196–202. [DS]Google Scholar

Anderson, J. R., Bothell, D., Byrne, M. D., Douglas, S., Lebiere, C. & Qin, Y. (2004) An integrated theory of the mind. Psychological Review 111:1036–60. [PB]Google Scholar

Apostol, G. & Creutzfeldt, O. D. (1974) Crosscorrelation between the activity of septal units and hippocampal EEG during arousal. Brain Research 67:65–75. [aMDL]Google Scholar

Arbib, M. A. (1972) The metaphorical brain: An introduction to cybernetics as artificial intelligence and brain theory. Wiley-Interscience. [RMG-L]Google Scholar

Arbib, M. A., Erdi, P. & Szentagothai, J. (1998) Neural organization: Structure, function and dynamics. MIT Press. [JP-L]Google Scholar

Aristotle, (1993) De anima, trans. Hamlyn, D. W.. Clarendon Press. [RDE]Google Scholar

Arnsten, A. F. T. & Robbins, T. W. (2002) Neurochemical modulation of prefrontal cortical function in humans and animals. In: Principles of frontal lobe function, ed. Stuss, D. T. & Knight, R. T., pp. 51–84. Oxford University Press. [aMDL]Google Scholar

Arrow, H., McGrath, J. E. & Berdahl, J. L. (2000) Small groups as complex system: Formation, coordination, development, and adaptation. Sage. [aMDL]Google Scholar

Asada, H., Fukuda, Y., Tsunoda, S., Yamaguchi, M. & Tonoike, M. (1999) Frontal midline theta rhythms reflect alternative activation of prefrontal cortex and anterior cingulate cortex in humans. Neuroscience Letters 274:29–32. [aMDL]Google Scholar

Ashby, W. R. (1952) Design for a brain. Wiley. [aMDL]Google Scholar

Astin, S., Redston, P. & Campbell, A. (2003) Sex differences in social representations of aggression: Men justify, women excuse? Aggressive Behavior 29:128–33. [MP]Google Scholar

Atran, S. (1998) Folkbiology and the anthropology of science. Behavioral and Brain Sciences 21:547–609. [HF]Google Scholar

Bahrick, L. E. & Lickliter, R. (2000) Intersensory redundancy guides attentional selectivity and perceptual learning in infancy. Developmental Psychology 36:190–201. [ASW-A]Google Scholar

Baier, A. (1991) A progress of sentiments: Reflections on Hume's Treatise. Harvard University Press. [GA]Google Scholar

Barbas, H. (1992) Architecture and cortical connections of the prefrontal cortex in the rhesus monkey. Advances in Neurology 57:91–115. [DAP]Google Scholar

Barbas, H. (1995) Anatomic basis of cognitive-emotional interactions in the primate prefrontal cortex. Neuroscience and Biobehavioral Reviews 19:449–510. [aMDL]Google Scholar

Barbas, H. (2000) Connections underlying the synthesis of cognition, memory, and emotion in primate prefrontal cortices. Brain Research Bulletin 52:319–330. [aMDL]Google Scholar

Barbas, H. & Pandya, D. N. (1989) Architecture and intrinsic connections of the prefrontal cortex in the Rhesus monkey. Journal of Comparative Neurology 286:353–75. [aMDL]Google Scholar

Barnard, P. J. & Bowman, H. (2003) Rendering information processing models of cognition and affect computationally explicit: Distributed executive control and the deployment of attention. Cognitive Science Quarterly 3:297–328. [PB]Google Scholar

Baron-Cohen, S. (2003) The essential difference: The truth about the male and female brain. Basic Books. [CEI]Google Scholar

Baron-Cohen, S., Ring, H. A., Wheelwright, S., Bullmore, E. T., Brammer, M. J., Simmons, A. & Williams, S. C. R. (1999) Social intelligence in the normal and autistic brain: An fMRI study. European Journal of Neuroscience 11:1891–98. [CEI]Google Scholar

Bechara, A., Damasio, H. & Damasio, A. R. (2000) Emotion, decision making and the orbitofrontal cortex. Cerebral Cortex 10:295–307. [aMDL]Google Scholar

Bechara, A., Damasio, H., Tranel, D. & Damasio, A. R. (1997) Deciding advantageously before knowing the advantageous strategy. Science 275:1293–94. [CEI]Google Scholar

Bechara, A., Tranel, D., Damasio, H., Adolphs, R., Rockland, C. & Damasio, A. R. (1995) Double dissociation of conditioning and declarative knowledge relative to the amygdala and hippocampus in humans. Science 269:1115–18. [CEI]Google Scholar

Beck, A. T., Brown, G., Steer, R. A., Eidelson, J. I. & Riskind, J. H. (1987) Differentiating anxiety and depression: A test of the cognitive content specificity hypothesis. Journal of Abnormal Psychology 96:179–183. [aMDL]Google Scholar

Belavkin, R. V. (2001) The role of emotion in problem-solving. In: Proceedings of the AISB’01 Symposium on emotion, cognition and affective computing, Heslington, York, England, ed. Johnson, C. G., pp. 49–57. AISB Press. [PB]Google Scholar

Bennett, M. R. & Hacker, P. M. S. (2003) Philosophical foundations of neuroscience. Blackwell. [JP-L]Google Scholar

Berkowitz, L. (1989) On the formation and regulation of anger and aggression: A cognitive-neoassociationistic analysis. In: Advances in experimental social psychology, vol. 22, ed. Berkowitz, L.. Academic Press. [aMDL]Google Scholar

Biederman, I. (1985) Human image understanding: Recent research and a theory. Computer Vision, Graphics and Image Processing 32:29–73. [AC]Google Scholar

Blair, R. J. R. (2003) Neurobiological basis of psychopathy. British Journal of Psychiatry 182:5–7. [CEI]Google Scholar

Bland, B. H. & Colom, L. V. (1993) Extrinsic and intrinsic properties underlying oscillation and synchrony in limbic cortex. Progress in Neurobiology 41:157–208. [aMDL]Google Scholar

Bland, B. H. & Oddie, S. D. (1998) Anatomical, electrophysiological and pharmacological studies of ascending brainstem hippocampal synchronizing pathways. Neuroscience and Biobehavioral Reviews 22:259–73. [aMDL]Google Scholar

Bland, B. H., Seto, M., Sinclair, B. R. & Fraser, S. M. (1984) The pharmacology of hippocampal theta cells: Evidence that the sensory processing correlate is cholinergic. Brain Research 299:121–31. [aMDL]Google Scholar

Bond, A. H. (1999) Describing behavioural states using a system model of the primate brain. American Journal of Primatology 49:315–38. [PB]Google Scholar

Bower, G. H. (1992) How might emotions affect learning? In: The handbook of emotion and memory: Research and theory, ed. Christianson, S.-Å., pp. 3–31. Erlbaum. [aMDL]Google Scholar

Bradley, B. P., Mogg, K. & Millar, N. H. (2000) Covert and overt orienting of attention to emotional faces in anxiety. Cognition and Emotion 14:789–808. [aMDL]Google Scholar

Bradley, M. M. & Lang, P. J. (2000) Measuring emotion: Behavior, feeling, and physiology. In: Cognitive neuroscience of emotion, ed. Lane, R. D. & Nadel, L., pp. 242–76. Oxford University Press. [NHF, aMDL]Google Scholar

Bressler, S. L. & Kelso, J. A. S. (2001) Cortical coordination dynamics and cognition. Trends in Cognitive Sciences 5:26–36. [aMDL]Google Scholar

Bronstein, P. (1981) Commitments to aggression and nest sites in male Betta splendens. Journal of Comparative and Physiological Psychology 95:436–49. [MP]Google Scholar

Brown, J. W, Bullock, D. & Grossberg, S. (1999) How the basal ganglia use parallel excitatory and inhibitory learning pathways to selectively respond to unexpected rewarding cues. Journal of Neuroscience 19:10502–11. [SG]Google Scholar

Brown, J. W, Bullock, D. & Grossberg, S. (2004) How laminar frontal cortex and basal ganglia circuits interact to control planned and reactive saccades. Neural Networks 17:471–510. [SG]Google Scholar

Bruehl, S., Burns, J. W., Chung, O. Y., Ward, P. & Johnson, B. (2002) Anger and pain sensitivity in chronic low back pain patients and pain-free controls: The role of endogenous opioids. Pain 99:223–33. [MP]Google Scholar

Buck, R. (1985) PRIME theory: An integrated approach to motivation and emotion. Psychological Review 92:389–413. [RB]Google Scholar

Buck, R. (1999) The biological affects: A typology. Psychological Review 106:301–36. [RB, aMDL]Google Scholar

Buck, R. (2004) The gratitude of exchange and the gratitude of caring: A developmentalinteractionist perspective of moral emotion. In: The psychology of gratitude, ed. Emmons, R. A. & McCullough, M., pp. 100–22. Oxford University Press. [RB]Google Scholar

Bush, G., Luu, P. & Posner, M. I. (2000) Cognitive and emotional influences in anterior cingulate cortex. Trends in Cognitive Sciences 4(6):215–22. [aMDL, GN, DAP]Google Scholar

Buss, K. A., Schumacher, J. R., Dolski, I., Kalin, N. H., Goldsmith, H. H. & Davidson, R. J. (2003) Right frontal brain activity, cortisol, and withdrawal behavior in 6-month-old infants. Behavioral Neuroscience 117:11–20. [JvH]Google Scholar

Buzsaki, G. (1996) The hippocampal-neorcortical dialogue. Cerebral Cortex 6:81–92. [aMDL]Google Scholar

Buzsaki, G. (2002) Theta oscillations in the hippocampus. Neuron 33:325–40. [JP]Google Scholar

Buzsaki, G. & Draguhn, A. (2004) Neuronal oscillations in cortical networks. Science 304:1926–29. [JP]Google Scholar

Cairns, R. B., Santoyo, C. & Holly, K. A. (1994) Aggressive escalation: Toward a developmental analysis. In: The dynamics of aggression: Biological and social processes in dyads and groups, ed. Potegal, M. & Knutson, J. F., pp. 227–53. Erlbaum. [MP]Google Scholar

Calder, A. J., Lawrence, A. D. & Young, A. W. (2001) Neuropsychology of fear and loathing. Nature Reviews Neuroscience 2:352–63. [PB]Google Scholar

Camille, N., Coricelli, G., Sallet, J., Pradat, P., Duhamel, J. R. & Sirigu, A. (2004) The involvement of the orbitofrontal cortex in the experience of regret. Science 304:1167–70. [CEI]Google Scholar

Campbell, A. & Muncer, S. (1994) Sex differences in aggression: Social representation and social roles. British Journal of Social Psychology 33:233–40. [MP]Google Scholar

Camras, L. A. (2000) Surprise! Facial expressions can be coordinative motor structures. In: Emotion, development, and self-organisation, ed. Lewis, M. D. & Granic, I., pp. 100–24. Cambridge University Press. [NHF]Google Scholar

Cannon, W. B. (1939) The wisdom of the body. Norton. [WJF]Google Scholar

Cardinal, R. N., Parkinson, J. A., Hall, J. & Everitt, B. J. (2002) Emotion and motivation: The role of the amygdala, ventral striatum, and prefrontal cortex. Neuroscience and Biobehavioral Reviews 26:321–352. [aMDL]Google Scholar

Carpenter, G. A. & Grossberg, S. (1987) A massively parallel architecture for a selforganizing neural pattern recognition machine. Computer Vision, Graphics, and Image Processing 37:54–115. [SG]Google Scholar

Carpenter, G. A. & Grossberg, S. (1991) Pattern recognition by self-organizing neural networks. MIT Press. [SG]Google Scholar

Carreti, L., Mart’n-Loeches, M., Hinojosa, J. A. & Mercado, F. (2001) Emotion and attention interaction studied through event-related potentials. Journal of Cognitive Neuroscience 13:1109–1128. [aMDL]Google Scholar

Carter, C. S., Braver, T. S., Barch, D. M., Botvinick, M. M., Noll, D. & Cohen, J. D. (1998) Anterior cingulate cortex, error detection, and the online monitoring of performance. Science 280:747–49. [aMDL]Google Scholar

Carter, C. S., MacDonald, A. M. III,, Botvinick, M. M., Ross, L. L., Stenger, V. A., Noll, D. & Cohen, J. D. (2000) Parsing executive processes: Strategic vs. evaluative functions of the anterior cingulate cortex. Proceedings of the National Academy of Sciences USA 97:1944–48. [aMDL]Google Scholar

Carver, C. S. (2001) Affect and the functional bases of behavior: On the dimensional structure of affective experience. Personality and Social Psychology Review 5:345–56. [CSC]Google Scholar

Carver, C. S. (2003) Pleasure as a sign you can attend to something else: Placing positive feelings within a general model of affect. Cognition and Emotion 17:241–61. [CSC]Google Scholar

Carver, C. S. (2004) Negative affects deriving from the behavioral approach system. Emotion 4:3–22. [CSC]Google Scholar

Carver, C. S. & Scheier, M. F. (1990) Origins and functions of positive and negative affect: A control-process view. Psychological Review 97:19–35. [aMDL]Google Scholar

Carver, C. S. & Scheier, M. F. (1991) A control-process perspective on anxiety. In: Anxiety and self-focused attention, ed. Schwarzer, R. & Wicklund, R. A., pp. 3–8. Harwood. [aMDL]Google Scholar

Carver, C. S. & Scheier, M. F. (1998) On the self-regulation of behavior. Cambridge University Press. [CSC]Google Scholar

Centonze, D., Picconi, B., Gubellini, P., Bernardi, G. & Calabresi, P. (2001) Dopaminergic control of synaptic plasticity in the dorsal striatum. European Journal of Neuroscience 13:1071–77. [aMDL]Google Scholar

Chella, A., Frixione, M. & Gaglio, S. (1997) A cognitive architecture for artificial vision. Artificial Intelligence 89:73–111. [AC]Google Scholar

Chella, A., Frixione, M. & Gaglio, S. (2000) Understanding dynamic scenes. Artificial Intelligence 123:89–132. [AC]Google Scholar

Chwelos, G. & Oatley, K. (1994) Appraisal, computational models, and Scherer's expert system. Cognition and Emotion 8:245–58. [NHF]Google Scholar

Ciompi, L. & Panksepp, J. (2004) Energetic effects of emotions on cognitions – Complementary psychobiological and psychosocial findings. Consciousness and Emotion 1:23–56. [JP]Google Scholar

Clark, A. (1997) Being there: Putting brain, body, and world together again. MIT Press. [aMDL]Google Scholar

Clark, D. M. & Teasdale, J. D. (1982) Diurnal variation in clinical depression and accessibility of memories of positive and negative experiences. Journal of Abnormal Psychology 91:87–95. [aMDL]Google Scholar

Cloninger, C. (1987) A systematic method for clinical description and classification of personality variants. Archives of Geneal Psychiatry 44:573–88. [PB]Google Scholar

Clum, G. A., Clum, G. A. & Surls, R. (1993) A meta-analysis of treatments for panic disorder. Journal of Consulting and Clinical Psychology 61:317–26. [GA]Google Scholar

Commons, M. L. Grossberg, S. & Staddon, J. E. R., eds. (1991) Neural network models of conditioning and action. Erlbaum. [SG]Google Scholar

Constantinidis, C., Williams, G. V. & Goldman-Rakic, P. S. (2002) A role for inhibition in shaping the temporal flow of information in the prefrontal cortex. Nature Neuroscience 5:175–80. [JFT]Google Scholar

Craig, A. D. (2002) How do you feel? Interoception: The sense of the physiological condition of the body. Nature Reviews Neuroscience 3:655–666. [aMDL, ANS]Google Scholar

Craik, I. M. (1999) In search of the self. A PET study. Psychological Science 10:26–34. [GN]Google Scholar

Crestani, F., Lorez, M., Baer, K., Essrich, C., Benke, D., Laurent, J. P., Belzung, C., Fritschy, J. M., Luscher, B. & Mohler, H. (1999) Decreased GABAAreceptor clustering results in enhanced anxiety and a bias for threat cues. Nature Neuroscience 2:833–39. [JFT]Google Scholar

Csikszentmihalyi, M. (1990) Flow: The psychology of optimal experience. Harper & Row. [HF]Google Scholar

Dalgleish, T. (2004a) Cognitive approaches to posttraumatic stress disorder (PTSD): The evolution of multi-representational theorizing. Psychological Bulletin 130:228–60. [PB]Google Scholar

Dalgleish, T. (2004b) The emotional brain. Nature Reviews Neuroscience 5:582–89. [PB]Google Scholar

Damasio, A. R. (1998) Emotion in the perspective of an integrated nervous system. Brain Research Reviews 26:83–86. [JvH]Google Scholar

Damasio, A. R. (1999) The feeling of what happens: Body and emotion in the making of consciousness. Harcourt Brace. [GC, SG, aMDL, GN]Google Scholar

Damasio, A. R., Grabowski, T. J., Bechara, A., Damasio, H., Ponto, L. L. B., Parvizi, J. & Hichwa, R. D. (2000) Subcortical and cortical brain activity during the feeling of self-generated emotions. Nature Neuroscience 3(10):1049–56. [PB]Google Scholar

D’Andrade, R. (1995) The development of cognitive anthropology. Cambridge University Press. [HF]Google Scholar

Darwin, C. (1872/1979) The expressions of emotions in man and animals. Julian Friedman/Murray. [GA, WJF]Google Scholar

Davidson, R. J. (1998) Affective style and affective disorders: Perspectives from affective neuroscience. Cognition and Emotion 12:307–30. [aMDL]Google Scholar

Davidson, R. J. (2000) Affective style, psychopathology, and resilience: Brain mechanisms and plasticity. American Psychologist 55:1196–214. [DS]Google Scholar

Davidson, R. J. (2003a) Affective neuroscience and psychophysiology: Toward a synthesis. Psychophysiology 40:655–65. [JvH]Google Scholar

Davidson, R. J. (2003b) Seven sins in the study of emotion: Correctives from affective neuroscience. Brain and Cognition 52:129–32. [DAP]Google Scholar

Davidson, R. J., Ekman, P., Saron, C., Senulis, J. & Friesen, W. V. (1990) Approach-withdrawal and cerebral asymmetry: Emotional expression and brain physiology I. Journal of Personality and Social Psychology 58:330–41. [PB]Google Scholar

Davidson, R. J. & Irwin, W. (1999) The functional neuroanatomy of emotion and affective style. Trends in Cognitive Sciences 3:11–21. [aMDL]Google Scholar

Davidson, R. J., Pizzagalli, D., Nitschke, J. B. & Putnam, K. (2002) Depression: Perspectives from affective neuroscience. Annual Review of Psychology 53:545–74. [DAP]Google Scholar

Davidson, R. J., Putnam, K. M. & Larson, C. L. (2000) Dysfunction in the neural circuitry of emotion regulation: A possible prelude to violence. Science 289:591–94. [aMDL, ANS]Google Scholar

Davidson, R. J., Scherer, K. R. & Goldsmith, H., eds. (2003) Handbook of affective sciences. Oxford University Press. [DS]Google Scholar

Davis, K. L., Panksepp, J. & Normansell, L. (2003) The affective neuroscience personality scales: Normative data and implications. Neuro-Psychoanalysis 5:21–29. [JP]Google Scholar

Decatanzaro, D. A. (1999) Motivation and emotion: Evolutionary, physiological, developmental, and social perspectives. Prentice Hall. [JvH]Google Scholar

Depue, R. A. & Collins, P. F. (1999) Neurobiology of the structure of personality: Dopamine, facilitation of incentive motivation, and extraversion. Behavioral and Brain Sciences 22:491–569. [aMDL]Google Scholar

Derryberry, D. & Rothbart, M. K. (1997) Reactive and effortful processes in the organization of temperament. Development and Psychopathology 9:633–52. [rMDL]Google Scholar

Derryberry, D. & Tucker, D. M. (1994) Motivating the focus of attention. In: The heart's eye: Emotional influences in perception and attention, ed. Niedenthal, P. M. & Kitayama, S., pp. 167–96. Academic Press. [aMDL]Google Scholar

Devinsky, O. (2000) Right cerebral hemisphere dominance for a sense of corporeal and emotional self. Epilepsy and Behavior 1:260–73. [ANS]Google Scholar

DeVries, A. C., DeVries, M. B., Taymans, S. & Carer, C. S. (1995) Modulation of pair binding in female voles by corticosterone. Proceedings of the National Academy of Sciences USA 92:7744–48. [JvH]Google Scholar

Dikman, Z. V. & Allen, J. J. B. (2000) Error monitoring during reward and avoidance learning in high- and low-socialized individuals. Psychophysiology 37:43–54. [aMDL]Google Scholar

Dodge, K. A. & Somberg, D. R. (1987) Hostile attributional biases among aggressive boys are exacerbated under conditions of threats to the self. Child Development 58:213–24. [aMDL]Google Scholar

Dolan, R. J. (2002) Emotion, cognition, and behavior. Science 298:1191–94. [aMDL]Google Scholar

Dolan, R. J. & Morris, J. S. (2000) The functional anatomy of innate and acquired fear: Perspectives from neuroimaging. In: Cognitive neuroscience of emotion, ed. Lane, R. D. & Nadel, L., pp. 225–41. Oxford University Press. [aMDL]Google Scholar

Downey, G. (in press) Learning Capoeira: Lessons in cunning from an Afro- Brazilian art. Oxford University Press. [GD]Google Scholar

Drevets, W. C. & Raichle, M. E. (1998) Reciprocal suppression of regional blood flow during emotional versus higher cognitive processes: Implications for interactions between emotion and cognition. Cognition and Emotion 12(3):353–85. [aMDL, GN, MP]Google Scholar

Drogosz, M. & Nowak, A (in press) A neural model of mere exposure: The EXAC mechanism. Polish Psychological Bulletin. [PW]Google Scholar

Drummond, P. Q. & Quah, S. H. (2001) The effect of expressing anger on cardiovascular reactivity and facial blood flow in Chinese and Caucasians. Psychophysiology 38:190–96. [MP]Google Scholar

Duke, D. J., Barnard, P. J., Duce, D. A. & May, J. (1998) Syndetic modelling. Human-Computer Interaction 13:337–93. [PB]Google Scholar

Edelman, G. M. (1987) Neural Darwinism. Basic Books. [aMDL]Google Scholar

Edelman, G. M & Tononi, G. (1997) Commentary: Selection and development: The brain as a complex system. In: The lifespan development of individuals: Behavioral, neurobiological, and psychosocial perspectives: A synthesis, ed. Magnusson, D., pp. 179–204. Cambridge University Press. [aMDL]Google Scholar

Eich, E. & Metcalfe, J. (1989) Mood dependent memory for internal versus external events. Journal of Experimental Psychology: Learning, Memory, and Cognition 15:443–56. [aMDL]Google Scholar

Eisenberger, N. I., Lieberman, M. D. & Williams, K. D. (2003) Does rejection hurt? An fMRI study of social exclusion. Science 302:290–92. [aMDL]Google Scholar

Ekman, P. (1994) All emotions are basic. In: The nature of emotion: Fundamental questions, ed. Ekman, P. & Davidson, R., pp. 15–19. Oxford University Press. [arMDL]Google Scholar

Ellis, R. D. (1986) An ontology of consciousness. Kluwer/Martinus Nijhoff. [RDE]Google Scholar

Ellis, R. D. (1995) Questioning consciousness: The interplay of imagery, cognition and emotion in the human brain. John Benjamins. [RDE]Google Scholar

Ellis, R. D. (2001a) Implications of inattentional blindness for “enactive” theories of consciousness. Brain and Mind 2:297–322. [RDE]Google Scholar

Ellis, R. D. (2001b) A theoretical model of the role of the cerebellum in cognition, attention and consciousness. Consciousness and Emotion 2:300–09. [RDE]Google Scholar

Ellis, R. D. (2001c) Can dynamical systems explain mental causation? Journal of Mind and Behavior 22:311–34. [RDE]Google Scholar

Ellsworth, P. C. (1991) Some implications of cognitive appraisal theories of emotion. In: International review of studies on emotion, ed. Strongman, K. T.. Wiley. [aMDL]Google Scholar

Elman, J. L., Bates, E. A., Johnson, M. H., Karmiloff-Smith, A., Parisi, D. & Plunkett, K. (1996) Rethinking innateness: A connectionist perspective on development. MIT Press. [aMDL]Google Scholar

Engel, A. K., Fries, P. & Singer, W. (2001) Dynamic predictions: Oscillations and synchrony in top-down processing. Nature Reviews Neuroscience 2:704–16. [arMDL]Google Scholar

Érdi, P. & Barna, G. (1984) Self-organizing mechanism for the formation of ordered neural mappings. Biological Cybernetics 51:93–101. [aMDL]Google Scholar

Fabrega, H. (2003) Commentary: On building a clinical cognitive neuroscience. Psychiatry 66:32–41. [HF]Google Scholar

Fabrega, H. (2004) Cultural formulations of homicide: Two case studies. Psychiatry 67(2):178–96. [HF]Google Scholar

Fanselow, M. S. (1994) Neural organization of the defensive behavior system responsible for fear. Psychonomic Bulletin and Review 1:429–38. [aMDL]Google Scholar

Farrer, C., Frank, N., Georgieff, N., Frith, C. D., Decety, J. & Jeannerod, M. (2003) Modulating the experience of agency: A positron emission tomography study. Neuroimage 18(2):324–33. [GN]Google Scholar

Fiala, J. C., Grossberg, S. & Bullock, D. (1996) Metabotropic glutamate receptor activation in cerebellar Purkinje cells as substrate for adaptive timing of the classically conditioned eye blink response. Journal of Neuroscience 16:3760–74. [SG]Google Scholar

Fingelkurts, A. A., Fingelkurts, A. A., Kivisaari, R., Pekkonen, E., Ilmoniemi, R. J. & Kähkönen, S. (2004) Enhancement of GABA-related signaling is associated with increase of functional connectivity in human cortex. Human Brain Mapping 22:27–39. [JFT]Google Scholar

Fink, G. R., Markowitsch, H. J., Reinkemeier, M., Bruckbauer, T., Kessler, J. & Heiss, W. D. (1996) Cerebral representation of one's own past: Neural networks involved in autobiographical memory. Journal of Neuroscience 16(13):4275–82. [GN]Google Scholar

Flood, J. F., Baker, M. L., Hernandez, E. N. & Morley, J. E. (1990) Modulation of memory retention by neuropeptide K. Brain Research 520:284–90. [aMDL]Google Scholar

Fodor, J. (1975) The language of thought. Harvester. [aMDL]Google Scholar

Fogel, A. (1985) Coordinative structures in the development of expressive behavior. In: The development of expressive behavior: Biology-environment interactions, ed. Zivin, G.. Academic Press. [NHF]Google Scholar

Fogel, A. (1993) Developing through relationships: Origins of communication, self, and culture. University of Chicago Press. [rMDL]Google Scholar

Ford, D. H. (1987) Humans as self-constructing living systems: A developmental perspective on behavior and personality. Erlbaum. [aMDL]Google Scholar

Forgas, J. P. & Bower, G. H. (1987) Affect in social and personal judgments. In: Affect, cognition and social behavior: New evidence and integrative attempts, ed. Fiedler, K. & Forgas, J.. Hogrefe. [aMDL]Google Scholar

Fox, E., Russo, R. & Dutton, K. (2002) Attentional bias for threat: Evidence for delayed disengagement from emotional faces. Cognition and Emotion 16:355–79. [aMDL]Google Scholar

Frank, R. H. (1988) Passions within reason. Norton. [GA]Google Scholar

Freeman, W. J. (1995) Societies of brains: A neurophysiological study of love and hate. Erlbaum. [WJF, aMDL]Google Scholar

Freeman, W. J. (1999) How brains make up their minds. Weidenfeld & Nicolson. [WJF]Google Scholar

Freeman, W. J. (2000) Emotion is essential to all intentional behaviors. In: Emotion, development, and self-organization: Dynamic systems approaches to emotional development, ed. Lewis, M. D. & Granic, I., pp. 209–35. Cambridge University Press. [GC, HF, aMDL]Google Scholar

Freeman, W. J. (2003a) A neurobiological theory of meaning in perception. Part 1, Information and meaning in nonconvergent and nonlocal brain dynamics. International Journal of Bifurcation and Chaos 13:2493–511. [WJF]Google Scholar

Freeman, W. J. (2003b) A neurobiological theory of meaning in perception. Part 2, Spatial patterns of phase in gamma EEG from primary sensory cortices reveal the properties of mesoscopic wave packets. International Journal of Bifurcation and Chaos 13:2513–35. [WJF]Google Scholar

Freeman, W. J. (2004a) Origin, structure and role of background EEG activity. Part 1, Analytic amplitude. Clinical Neurophysiology 115:2077–88. [WJF]Google Scholar

Freeman, W. J. (2004b) Origin, structure and role of background EEG activity. Part 2, Analytic phase. Clinical Neurophysiology 115:2089–2107. [WJF]Google Scholar

Freeman, W. J. (2005) Origin, structure and role of background EEG activity. Part 3, Pattern classification. Clinical Neurophysiology. Available via Science Direct at: http://authors.elsevier.com/sd/article/S1388245705000064. [WJF]Google Scholar

Freeman, W. J. & Burke, B. C. (2003) A neurobiological theory of meaning in perception. Part 4, Multicortical patterns of amplitude modulation in gamma EEG. International Journal of Bifurcation and Chaos 13:2857–66. [WJF]Google Scholar

Freeman, W. J., Burke, B. C. & Holmes, M. D. (2003a) Aperiodic phase re-setting in scalp EEG of beta-gamma oscillations by state transitions at alpha-theta rates. Human Brain Mapping 19:248–72. [WJF]Google Scholar

Freeman, W. J., Burke, B. C., Holmes, M. D. & Vanhatalo, S. (2003b) Spatial spectra of scalp EEG and EMG from awake humans. Clinical Neurophysiology 16:1055–60. [WJF]Google Scholar

Freeman, W. J., Gaál, G. & Jornten, R. (2003c) A neurobiological theory of meaning in perception. Part 3, Multiple cortical areas synchronize without loss of local autonomy. International Journal of Bifurcation and Chaos 13:2845–56. [WJF]Google Scholar

Freeman, W. J. & Rogers, L. J. (2003) A neurobiological theory of meaning in perception. Part 5, Multicortical patterns of phase modulation in gamma EEG. International Journal of Bifurcation and Chaos 13:2867–87. [WJF]Google Scholar

Friedman, B. H., Thayer, J. T. & Borkovec, T. D. (2000) Explicit memory bias for threat words in generalized anxiety disorder. Behavior Therapy 31:745–56. [JFT]Google Scholar

Frijda, N. H. (1986) The emotions. Cambridge University Press. [GC, aMDL, DS]Google Scholar

Frijda, N. H. (1993a) Moods, emotion episodes, and emotions. In: Handbook of emotions, ed. Lewis, M. & Haviland, J. M., pp. 381–403. Guilford. [arMDL]Google Scholar

Frijda, N. H. (1993b) The place of appraisal in emotion. Cognition and Emotion 7:357–87. [arMDL]Google Scholar

Frijda, N. H. & Zeelenberg, M. (2001) Appraisal: What is the dependent? In: Appraisal processes in emotion: Theory, methods, research, ed. Scherer, K. R., Schorr, A. & Johnstone, T., pp. 141–55. Oxford University Press. [aMDL]Google Scholar

Friston, K. J. (2000) The labile brain: II. Transients, complexity, and selection. Philosophical Transactions of the Royal Society of London B. 355:237–52. [GC]Google Scholar

Frith, C. (2002) Attention to action and awareness of other minds. Conscious Cognition 11(4):481–87. [GN]Google Scholar

Frith, C. D., Friston, K., Liddle, P. F. & Frackowiak, R. S. (1991) Willed action and the prefrontal cortex in man: A study with PET. Proceedings of the Royal Society of London: Series B: Biological Science 244(1311):241–46. [aMDL]Google Scholar

Fuster, J. M. (1996) The prefrontal cortex: Anatomy, physiology and neuropsychology of the frontal lobe, 3rd edition. Raven Press. [aMDL]Google Scholar

Fuster, J. M. (2002) Physiology of executive functions: The perception-action cycle. In: Principles of frontal lobe function, ed. Stuss, D. T. & Knight, R. T., pp. 96–108. Oxford University Press. [HF, aMDL]Google Scholar

Galatzer-Levy, R. (1978) Qualitative change from quantitative change: Mathematical catastrophe theory in relation to psychoanalysis. Journal of the American Psychoanalytic Association 26:921–35. [RMG-L]Google Scholar

Galatzer-Levy, R. (2004) Chaotic possibilities: Toward a new model of development. International Journal of Psychoanalysis 85:419–41. [RMG-L]Google Scholar

Gallagher, D. J. (1990) Extraversion, neuroticism, and appraisal of stressful academic events. Personality and Individual Differences 11:1053–57. [aMDL]Google Scholar

Gallagher, M. & Holland, P. C. (1992) Understanding the function of the central nucleus. In: The amygdala, ed. Aggleton, J. P., pp. 307–21. Wiley. [aMDL]Google Scholar

Gallagher, M. & Holland, P. C. (1994) The amygdala complex: Multiple roles in associative learning and attention. Proceedings of the National Academy of Sciences USA 91:11771–76. [aMDL]Google Scholar

Gärdenfors, P. (2000) Conceptual spaces. MIT Press. [AC]Google Scholar

Geary, D. C. & Huffman, K. J. (2002) Brain and cognitive evolution: Forms of modularity and functions of mind. Psychological Bulletin 128(5):667–98. [HF]Google Scholar

Gehring, W. J., Goss, B., Coles, M. G. H., Meyer, D. E. & Donchin, E. (1993) A neural system for error detection and compensation. Psychological Science 4:385–90. [aMDL]Google Scholar

Gehring, W. J., Himle, J. & Nisenson, L. G. (2000) Action monitoring dysfunction in obsessive-compulsive disorder. Psychological Science 11:1–6. [aMDL]Google Scholar

Gehring, W. J. & Willoughby, A. R. (2002) The medial frontal cortex and the rapid processing of monetary gains and losses. Science 295:2279–82. [CEI]Google Scholar

Gelkopf, M. (1997) Laboratory pain and styles of coping with anger. Journal of Psychology 131:121–23. [MP]Google Scholar

Gemba, H., Sasaki, K. & Brooks, V. B. (1986) “Error” potentials in limbic cortex (anterior cingulate area 24) of monkeys during motor learning. Neuroscience Letters 70:223–27. [aMDL]Google Scholar

Goel, V. & Dolan, R. J. (2003) Explaining modulation of reasoning by belief. Cognition 87(1):B11–22. [GN]Google Scholar

Goldberg, G. (1985) Supplementary motor area structure and function: Review and hypotheses. Behavioral and Brain Sciences 8:567–616. [aMDL]Google Scholar

Goodwin, B. (1993) Development as a robust natural process. In: Thinking about biology, ed. Stein, W. & Varela, F. J., pp. 123–48. Addison-Wesley. [aMDL]Google Scholar

Gosselin, P., Kirouac, G. & Dore, F. Y. (1998) Components and recognition of facial expression in the communication of emotion by actors. Journal of Personality and Social Psychology 68:83–96. [GA]Google Scholar

Granda, A. M. & Hammack, J. T. (1961) Operant behavior during sleep. Science 133:1485–86. [GA]Google Scholar

Granic, I. & Hollenstein, T. (2003) Dynamic systems methods for models of developmental psychopathology. Development and Psychopathology 15:641–69. [rMDL]Google Scholar

Gray, J. A. (1982) The neuropsychology of anxiety: An enquiry into the functions of the septo-hippocampal system. Clarendon Press/Oxford University Press. [PB, aMDL]Google Scholar

Gray, J. A. (1987) The psychology of fear and stress, 2nd edition. Cambridge University Press. [aMDL]Google Scholar

Greicius, M. D., Krasnow, B., Reiss, A. L. & Menon, V. (2003) Functional connectivity in the resting brain: A network analysis of the default mode hypothesis. Proceedings of the National Academy of Science USA 100(1):253–58. [GN]Google Scholar

Groenewegen, H. J. (1997) Cortical-subcortical relationships and the limbic forebrain. In: Contemporary behavioral neurology: Blue books of practical neurology, vol. 16, ed. Trimble, M. R. & Cummings, J. L., pp. 29–48. Butterworth-Heinemann. [aMDL]Google Scholar

Grossberg, S. (1971) On the dynamics of operant conditioning. Journal of Theoretical Biology 33:225–55. [SG]Google Scholar

Grossberg, S. (1972a) A neural theory of punishment and avoidance, I: Qualitative theory. Mathematical Biosciences 15:39–67. [SG]Google Scholar

Grossberg, S. (1972b) A neural theory of punishment and avoidance, II: Quantitative theory. Mathematical Biosciences 15:253–85. [SG]Google Scholar

Grossberg, S. (1974) Classical and instrumental learning by neural networks. In: Progress in theoretical biology, ed. Rosen, R. & Snell, F., pp. 51–141. Academic Press. [SG]Google Scholar

Grossberg, S. (1975) A neural model of attention, reinforcement, and discrimination learning. International Review of Neurobiology 18:263–327. [SG]Google Scholar

Grossberg, S. (1976a) Adaptive pattern classification and universal recoding, I: Parallel development and coding of neural feature detectors. Biological Cybernetics 23:121–34. [SG]Google Scholar

Grossberg, S. (1976b) Adaptive pattern classification and universal recoding, II: Feedback, expectation, olfaction, and illusions. Biological Cybernetics 23:187–202. [SG]Google Scholar

Grossberg, S. (1978) A theory of human memory: Self-organization and performance of sensory-motor codes, maps, and plans. In: Progress in theoretical biology, ed. Rosen, R. & Snell, F., pp. 233–374. Academic Press. [SG]Google Scholar

Grossberg, S. (1980) How does a brain build a cognitive code? Psychological Review 1:1–51. [SG]Google Scholar

Grossberg, S. (1982a) A psychophysiological theory of reinforcement, drive, motivation, and attention. Journal of Theoretical Neurobiology 1:286–369. [SG]Google Scholar

Grossberg, S. (1982b) Processing of expected and unexpected events during conditioning and attention: A psychophysiological theory. Psychological Review 89:529–72. [SG]Google Scholar

Grossberg, S. (1984a) Some normal and abnormal behavioral syndromes due to transmitter gating of opponent processes. Biological Psychiatry 19:1075–118. [SG]Google Scholar

Grossberg, S. (1984b) Some psychophysiological and pharmacological correlates of a developmental, cognitive, and motivational theory. In: Brain and information: Event related potentials, ed. Karrer, R., Cohen, J. & Tueting, P., pp. 58–142. New York Academy of Sciences. [SG]Google Scholar

Grossberg, S. (1987) The adaptive brain, Volumes I and II. Elsevier/North-Holland. [SG]Google Scholar

Grossberg, S. (1988) Neural networks and natural intelligence. MIT Press. [SG]Google Scholar

Grossberg, S. (1995) The attentive brain. American Scientist 83:438–49. [SG]Google Scholar

Grossberg, S. (1999a) How does the cerebral cortex work? Learning, attention, and grouping by the lminar circuits of visual cortex. Spatial Vision 12:163–86. [SG]Google Scholar

Grossberg, S. (1999b) The link between brain learning, attention, and consciousness. Consciousness and Cognition 8:1–44. [SG]Google Scholar

Grossberg, S. (2000a) The complementary brain: Unifying brain dynamics and modularity. Trends in Cognitive Sciences 4:233–46. [SG]Google Scholar

Grossberg, S. (2000b) The imbalanced brain: From normal behavior to schizophrenia. Biological Psychiatry 48:81–98. [SG]Google Scholar

Grossberg, S. & Gutowski, S. (1987) Neural dynamics of decision making under risk: Affective balance and cognitive-emotional interactions. Psychological Review 94:300–18. [SG]Google Scholar

Grossberg, S. & Levine, D. S. (1987) Neural dynamics of attentionally modulated Pavlovian conditioning: Blocking, inter-stimulus interval, and secondary conditioning. Applied Optics 26:5015–30. [SG]Google Scholar

Grossberg, S. & Merrill, J. W. L. (1992) A neural network model of adaptively timed reinforcement learning and hippocampal dynamics. Cognitive Brain Research 1:3–38. [SG]Google Scholar

Grossberg, S. & Merrill, J. W. L. (1996) The hippocampus and cerebellum in adaptively timed learning, recognition, and movement. Journal of Cognitive Neuroscience 8:257–77. [SG]Google Scholar

Grossberg, S. & Schmajuk, N. A. (1987) Neural dynamics of attentionallymodulated Pavlovian conditioning: Conditioned reinforcement, inhibition, and opponent processing. Psychobiology 15:195–240. [SG]Google Scholar

Grossberg, S. & Schmajuk, N. A. (1989) Neural dynamics of adaptive timing and temporal discrimination during associative learning. Neural Networks 2:79–102. [SG]Google Scholar

Grossberg, S. & Somers, D. (1991) Synchronized oscillations during cooperative feature linking in a cortical model of visual perception. Neural Networks 4:453–66. [SG]Google Scholar

Gu, Q. (2002) Neuromodulatory transmitter systems in the cortex and their role in cortical plasticity. Neuroscience 111:815–35. [aMDL]Google Scholar

Gusnard, D. A. & Raichle, M. E. (2001) Searching for a baseline: Functional imaging and the resting human brain. Nature Reviews Neuroscience 2(10):685–94. [GN]Google Scholar

Haber, S. N., Kunishio, K., Mizobuchi, M. & Lynd-Balta, E. (1995) The orbital and medial prefrontal circuit through the primate basal ganglia. Journal of Neuroscience 15:4851–67. [aMDL]Google Scholar

Haken, H. (1977) Synergetics – An introduction: Nonequilibrium phase transitions and self-organization in physics, chemistry and biology. Springer Verlag. [BB, arMDL, DMT]Google Scholar

Hamann, S. B., Ely, T. D., Grafton, S. T. & Kilts, C. D. (1999) Amygdala activity related to enhanced memory for pleasant and aversive stimuli. Nature Neuroscience 2:289–93. [aMDL]Google Scholar

Hariri, A. R., Bookheimer, S. Y. & Mazziotta, J. C. (2000) Modulating emotional responses: Effects of a neocortical network on the limbic system. NeuroReport 11:43–48. [aMDL]Google Scholar

Harkness, K. L. & Tucker, D. M. (2000) Motivation of neural plasticity: Neural mechanisms in the self-organization of depression. In: Emotion, development, and self-organization: Dynamic systems approaches to emotional development, ed. Lewis, M. D. & Granic, I., pp. 186–208. Cambridge University Press. [aMDL]Google Scholar

Hasson, U., Nir, Y., Levy, I., Fuhrmann, G. & Malach, R. (2004) Intersubject synchronization of cortical activity during natural vision. Science 303:1634–40. [rMDL]Google Scholar

Haviland, J. M. & Walker-Andrews, A. S. (1992) Emotion socialization: A view from development and ethology. In: Handbook of social development: A lifespan perspective, ed. Hasselt, V. B. V. & Hersen, M., pp. 29–49. Plenum Press. [ASW-A]Google Scholar

Haviland-Jones, J., Boulifard, D. & Magai, C. (2001) Old-new answers and new-old questions of personality and emotion; A matter of complexity. In: Identity and emotions: A self-organisational perspective, ed. Kunnen, S. & Bosma, H.. Cambridge University Press. [ASW-A]Google Scholar

Hebb, D. O. (1949) The organization of behavior: A neuropsychological theory. Wiley. [GD, aMDL]Google Scholar

Heinzel, A., Bermpohl, F., Schlaug, G., Pascual-Leone, A. & Northoff, G. (2004) How do we modulate our emotions? Parametric fMRI reveals cortical midline structures as regions specifically involved in the processing of emotional valences. Cognitive Brain Research. (in revision). [GN]Google Scholar

Helmeke, C., Ovtscharoff, W. Jr.,, Poeggel, G. & Braun, K. (2001) Juvenile emotional experience alters synaptic inputs on pyramidal neurons in the anterior cingulate cortex. Cerebral Cortex 11:717–27. [ANS]Google Scholar

Hermans, H. J. M. (1996) Voicing the self: From information processing to dialogical interchange. Psychological Bulletin 119:31–50. [rMDL]Google Scholar

Hess, U., Blairy, S. & Kleck, R. (1997) The intensity of emotional facial expressions and decoding accuracy. Journal of Nonverbal Behavior 21:241–57. [MP]Google Scholar

Higgins, E. T. (1987) Self-discrepancy: A theory relating self and affect. Psychological Review 94:319–40. [aMDL]Google Scholar

Hikosaka, K. & Watanabe, M. (2000) Delay activity of orbital and lateral prefrontal neurons of the monkey varying with different rewards. Cerebral Cortex 10:263–71. [aMDL]Google Scholar

Hoeksma, J. B., Oosterlaan, J. & Schipper, E. (2004) Emotion regulation and the dynamics of feelings: A conceptual and methodological framework. Child Development 75:354–60. [MP]Google Scholar

Holland, P. C. & Gallagher, M. (1999) Amygdala circuitry in attentional and representational processes. Trends in Cognitive Sciences 3:65–73. [aMDL]Google Scholar

Holland, P. C., Han, J. S. & Gallagher, M. (2000) Lesions of the amygdala central nucleus alter performance on a selective attention task. Journal of Neuroscience 20:6701–06. [aMDL]Google Scholar

Holroyd, C. B. & Coles, M. G. H. (2002) The neural basis of human error processing: Reinforcement learning, dopamine, and the error-related negativity. Psychological Review 109:679–709. [aMDL]Google Scholar

Hopfield, J. J. (1982) Neural networks and physical systems with emergent collective computational abilities. Proceedings of the National Academy of Sciences USA 79:2554–58. [PW]Google Scholar

Horowitz, M. J. (1998) Cognitive psychodynamics: From conflict to character. Wiley. [aMDL]Google Scholar

Hsu, H.-C. & Fogel, A. (2003) Stability and transitions in mother-infant face-toface communication during the first 6 months: A microhistorical approach. Developmental Psychology 39:1061–82. [rMDL]Google Scholar

Hurley, S. L. (1998) Consciousness in action. Harvard University Press. [GC]Google Scholar

Hurley, S. L. & Noë, A. (2003) Neural plasticity and consciousness. Biology and Philosophy 18:131–68. [GC]Google Scholar

Iacoboni, M., Lieberman, M. D., Knowlton, B. J., Molnar-Szakacs, I., Moritz, M., Throop, C. J. & Fiske, A. P. (2004) Watching social interactions produces dorsomedial prefrontal and medial parietal BOLD fMRI signal increases compared to a resting baseline. Neuroimage 21(3):1167–73. [GN]Google Scholar

Isen, A. M. (1985) The asymmetry of happiness and sadness in effects on memory in normal college students. Journal of Experimental Psychology: General 114:388–391. [aMDL]Google Scholar

Isen, A. M. (1990) The influence of positive and negative affect on cognitive organization: Some implications for development. In: Psychological and biological processes in the development of emotion, ed. Stein, N., Leventhal, B. & Trabasso, T.. Erlbaum. [aMDL]Google Scholar

Izard, C. E. (1971) The face of emotion. Appleton-Century-Crofts. [PB]Google Scholar

Izard, C. E. (1977) Human emotions. Plenum Press. [CEI]Google Scholar

Izard, C. E. (1984) Emotion-cognition relationships and human development. In: Emotions, cognition and behavior, ed. Izard, C. E., Kagan, J. & Zajonc, R. B., pp. 17–37. Cambridge University Press. [aMDL]Google Scholar

Izard, C. E. (1991) The psychology of emotion. Plenum. [aMDL]Google Scholar

Izard, C. E. (1993) Four systems for emotion activation: Cognitive and noncognitive processes. Psychological Review 100:68–90. [CEI, aMDL]Google Scholar

Izard, C. E., Ackerman, B. P., Schoff, K. M. & Fine, S. E. (2000) Self-organization of discrete emotions, emotion patterns, and emotion-cognition relations. In: Emotion, development, and self-organization: Dynamic systems approaches to emotional development, ed. Lewis, M. D. & Granic, I., pp. 15–36. Cambridge University Press. [rMDL]Google Scholar

Izard, C. E., Fantauzzo, C. A., Castle, J. M., Haynes, O. M., Rayias, M. F., & Putnam, P. H. (1995) The ontogeny and significance of infants’ facial expressions in the first 9 months of life. Developmental Psychology 31:997–1013. [ASW-A]Google Scholar

Izard, C. E., Hembree, E. A. & Huebner, R. R. (1987) Infants’ emotion expressions to acute pain: Developmental change and stability of individual differences. Developmental Psychology 23:105–13. [CEI]Google Scholar

Izard, C. E., Libero, D. Z., Putnam, P. & Haynes, O. M. (1993) Stability of emotion experiences and their relation to traits of personality. Journal of Personality and Social Psychology 64:847–60. [CEI]Google Scholar

Izard, C. E. & Malatesta, C. (1987) Perspectives on emotional development I: Differential emotions theory of early emotional development. In: Handbook of infant development, ed. Osofsky, J. D., pp. 494–554. Wiley. [aMDL, MP]Google Scholar

Izquierdo, I. (1997) The biochemistry of memory formation and its regulation by hormones and neuromodulators. Psychobiology 25:1–9. [aMDL]Google Scholar

Izumi, Y. & Zorumski, C. F. (1999) Norepinephrine promotes long-term potentiation in the adult rat hippocampus in vitro. Synapse 31:196–202. [aMDL]Google Scholar

Jackendoff, R. (1987) Consciousness and the computational mind. MIT Press. [AC]Google Scholar

James, W. (1890/1968) Does “consciousness” exist? In: The writings of William James, ed. McDermott, John, pp. 169–80. Random House. [RDE]Google Scholar

James, W. (1890) The principles of psychology. Holt. [WJF]Google Scholar

Jantsch, E. (1980) The self-organizing universe. Pergamon. [rMDL]Google Scholar

Jerusalem, M. (1993) Personal resources, environmental constraints, and adaptational processes: The predictive power of a theoretical stress model. Personality and Individual Differences 14:15–24. [aMDL]Google Scholar

Johannes, S., Wieringa, B. M., Nager, W., Dengler, R. & Münte, T. F. (2001) Oxazepam alters action monitoring. Psychopharmacology 155:100–06. [aMDL]Google Scholar

Johnson, E. O., Kamilaris, T. C., Chrousos, G. P. & Gold, P. W. (1992) Mechanisms of stress: A dynamic overview of hormonal and behavioral homeostasis. Neuroscience and Biobehavioral Reviews 16:115–30. [JvH]Google Scholar

Juarrero, A. (1999) Dynamics in action: Intentional behavior as a complex system. MIT Press/Bradford. [arMDL]Google Scholar

Kalin, N. H., Larson, C., Shelton, S. E. & Davidson, R. J. (1998) Asymmetric frontal brain activity, cortisol, and behavior associated with fearful temperament in rhesus monkeys. Behavioral Neuroscience 112:286–92. [JvH]Google Scholar

Kaminski, M. J. & Blinowska, K. J. (1991) A new method of the description of the information flow in the brain structures. Biological Cybernetics 65:203–10. [BK]Google Scholar

Kaminski, M. J. & Kocsis, B. (2003) Direction of the theta rhythmic drive between neurons in the supramammillary nucleus and the septohippocampal system in urethane anesthetized rats. Neuroscience Abstracts 29, No.938.13. [Online: 2003 Abstract Viewer/Itinerary Planner. Society for Neuroscience, Program No. 928.13] [BK]Google Scholar

Kandel, E. R., Schwartz, J. H. & Jessell, T. M. (2000) Principles of neural science. McGraw-Hill. [aMDL]Google Scholar

Karakas, S., Erzengin, O. U. & Basar, E. (2000) The genesis of human eventrelated responses explained through the theory of oscillatory neural assemblies. Neuroscience Letters 285:45–48. [aMDL]Google Scholar

Karoly, P. (1993) Mechanisms of self-regulation: A systems view. Annual Review of Psychology 44:23–52. [aMDL]Google Scholar

Kauffman, S. A. (1993) The origins of order: Self-organization and selection in evolution. Oxford University Press. [aMDL]Google Scholar

Kauffman, S. A. (1995) At home in the universe: The search for the laws of self-organization and complexity. Oxford University Press. [aMDL]Google Scholar

Keenan, J. P., Nelson, A., O’Connor, M. & Pascual-Leone, A. (2001) Selfrecognition and the right hemisphere. Nature 409(6818):305. [GN]Google Scholar

Keenan, J. P., Wheeler, M. A., Gallup, G. G. & Pascual-Leone, A. (2000) Selfrecognition and the right prefrontal cortex. Trends in Cognitive Sciences 4(9):338–44. [GN]Google Scholar

Kelley, W. M., Macrae, C. N., Wyland, C. L., Caglar, S., Inati, S. & Heatherton, T. F. (2002) Finding the self? An event-related fMRI study. Journal of Cognitive Neuroscience 14(5):785–94. [GN]Google Scholar

Kelso, J. A. S. (1995) Dynamic patterns: The self-organization of brain and behavior. MIT Press/Bradford. [BB, PB, aMDL]Google Scholar

Keltner, D., Ellsworth, P. C. & Edwards, K. (1993) Beyond simple pessimism: Effects of sadness and anger on social perception. Journal of Personality and Social Psychology 64:740–52. [aMDL, MP]Google Scholar

Kilic, C., Noshirvani, H., Basoglu, M. & Marks, I. (1997) Agoraphobia and panic disorder: 3.5 years after alprazolam and/or exposure treatment. Psychotherapy and Psychosomatics 66:175–78. [GA]Google Scholar

Kirk, I. J. & McNaughton, N. (1991) Supramammillary cell firing and hippocampal rhythmical slow activity. NeuroReport 2:723–25. [BK]Google Scholar

Kirk, I. J. & McNaughton, N. (1993) Mapping the differential effects of procaine on frequency and amplitude of reticularly elicited hippocampal rhythmical slow activity. Hippocampus 3:517–26. [BK]Google Scholar

Kirk, I. J., Oddie, S. D., Konopacki, J. & Bland, B. H. (1996) Evidence for differential control of posterior-hypothalamic, supramammillary, and medial mammillary theta-related cellular discharge by ascending and descending pathways. Journal of Neuroscience 16:5547–54. [BK]Google Scholar

Klimesch, W. (1999) EEG alpha and theta oscillations reflect cognitive and memory performance: A review and analysis. Brain Research Reviews 29:169–95. [aMDL, JP]Google Scholar

Klinger, E. (1975) Consequences of commitment to and disengagement from incentives. Psychological Review 82:1–25. [CSC]Google Scholar

Klinnert, M. D., Sorce, J. F., Emde, R. N., Stenberg, C. & Gaensbauer, T (1984) Continuities and change in early emotional life. In: Continuities and discontinuities in development, ed. Emde, R. N. & Harman, R. J., pp. 339–54. Plenum Press. [MP]Google Scholar

Knyazev, G. G., Savostyanov, A. N. & Levin, E. A. (2004) Alpha oscillations as a correlate of trait anxiety. International Journal of Psychophysiology 53:147–60. [JvH]Google Scholar

Knyazev, G. G. & Slobodskaya, H. R. (2003) Personality trait of behavioral inhibition is associated with oscillatory systems reciprocal relationships. International Journal of Psychophysiology 48:247–61. [JvH]Google Scholar

Kocsis, B. (2000) Possible descending theta-rhythmic drive to neurons in the supramammillary nucleus. Neuroscience Abstracts 26, No.70.8. [Online: 2000 Abstract Viewer/Itinerary Planner. Society for Neuroscience, Program No. 70.8] [BK]Google Scholar

Kocsis, B. & Vertes, R. P. (1992) Dorsal Raphe neurons: Synchronous discharge with the theta rhythm of the hippocampus in the freely behaving rat. Journal of Neurophysiology 68:1463–67. [aMDL]Google Scholar

Kocsis, B. & Vertes, R. P. (1994) Characterization of neurons of the supramammillary nucleus and mammillary body that discharge rhythmically with the hippocampal theta rhythm in the rat. Journal of Neuroscience 14:7040–52. [BK, aMDL]Google Scholar

Kocsis, B. & Vertes, R. P. (1997) Phase relations of theta rhythmic firing of neurons in the supramammillary nucleus and mammillary body to the hippocampal theta activity in urethane anesthetized rats. Hippocampus 7:204–14. [BK]Google Scholar

Kocsis, B., Viana Di Prisco, G. & Vertes, R. P. (2001) Theta synchronization in the limbic system: The role of Gudden's tegmental nuclei. European Journal of Neuroscience 13:381–88. [aMDL]Google Scholar

Köhling, R. (2002) GABA becomes exciting. Science 298:1350–51. [JFT]Google Scholar

Kopell, N., Ermentrout, G. B., Whittington, M. A. & Traub, R. D. (2000) Gamma rhythms and beta rhythms have different synchronization properties. Proceedings of the National Academy of Sciences USA 97:1867–72. [aMDL]Google Scholar

Kosslyn, S. M. & Koenig, O. (1995) Wet mind, the new cognitive neuroscience. Free Press. [DS]Google Scholar

Krause, C. M., Viemerö, V., Rosenqvist, A., Sillanmäki, L. & Åström, T. (2000) Relative electroencephalographic desynchronization and synchronization in humans to emotional film content: An analysis of the 4-6, 6-8, 8-10, and 10-12 Hz frequency bands. Neuroscience Letters 286:9–12. [JP]Google Scholar

Kuiper, N. A. & Martin, R. A. (1989) Type A behavior: A social cognition motivational perspective. In: The psychology of learning and motivation: Advances in research and theory, vol. 24, ed. Bower, G. H., pp. 311–41. Academic Press. [aMDL]Google Scholar

Kunda, Z. & Thagard, P. (1996) Forming impressions from stereotypes, traits, and behaviors: A parallel-constraint-satisfaction theory. Psychological Review 103:284–308. [aMDL]Google Scholar

Kunnen, E. S., Bosma, H. A., van Halen, C. P. M. & van der Meulen, M. (2001) A self-organizational approach to identity and emotions: An overview and implications. In: Identity and emotion: Development through selforganization, ed. Bosma, H. A. & Kunnen, E. S., pp. 202–30. Cambridge University Press. [rMDL]Google Scholar

Kuppens, P., Van Mechelen, I., Smits, D. J. M. & De Boeck, P. (2003) The appraisal basis of anger: Specificity, necessity, and sufficiency of components. Emotion 3:254–69. [NHF]Google Scholar

Lakoff, G. & Koevecses, Z. (1987) The cognitive model of anger inherent in American English. In: Cultural models in language and thought, ed. Holland, D. & Quinn, N., pp. 195–221. Cambridge University Press. [MP]Google Scholar

Lane, R. D. (2000) Neural correlates of conscious experience. In: Cognitive neuroscience of emotion, ed. Lane, R. D. & Nadel, L., pp. 345–70. Oxford University Press. [aMDL]Google Scholar

Lane, R. D. & Nadel, L., eds. (2000) Cognitive neuroscience of emotion. Series in Affective Science. Oxford University Press. [DS, JFT]Google Scholar

Lane, R. D., Nadel, L., Allen, J. J. B. & Kaszniak, A. W. (2000) The study of emotion from the perspective of cognitive neuroscience. In: Cognitive neuroscience of emotion, ed. Lane, R. D. & Nadel, L., pp. 3–11. Oxford University Press. [aMDL]Google Scholar

Lane, R. D., Reiman, E. M., Axelrod, B., Yun, L., Holmes, A. & Schwartz, G. E. (1998) Neural correlates of levels of emotional awareness: Evidence of an interaction between emotion and attention in the anterior cingulate cortex. Journal of Cognitive Neuroscience 10:525–35. [aMDL]Google Scholar

Lang, P. J., Bradley, M. M. & Cuthbert, B. N. (1990) Emotion, attention, and the startle reflex. Psychological Review 97(3):377–95. [PB]Google Scholar

Langs, R. & Badalamenti, J. (1991) Statistics and mathematics in psychotherapy research. The Society for Psychoanalytic Psychotherapy Bulletin 6:2–13. [RMG-L]Google Scholar

Lazarus, R. S. (1966) Psychological stress and the coping process. McGraw-Hill. [aMDL]Google Scholar

Lazarus, R. S. (1968) Emotions and adaptation: Conceptual and empirical relations. In: Nebraska Symposium on Motivation, vol. 16, ed. Arnold, W. J., pp. 175–270. University of Nebraska Press. [aMDL]Google Scholar

Lazarus, R. S. (1984) On the primacy of cognition. American Psychologist 39:124–29. [aMDL]Google Scholar

Lazarus, R. S. (1991) Emotion and adaptation. Oxford University Press. [aMDL]Google Scholar

Lazarus, R. S. (1995) Vexing research problems inherent in cognitive-mediational theories of emotion and some solutions. Psychological Inquiry 6:183–96. [aMDL]Google Scholar

Lazarus, R. S. (1999) The cognition-emotion debate: A bit of history. In: Handbook of cognition and emotion, ed. Dalgleish, T. & Power, M., pp. 3–19. Wiley. [aMDL]Google Scholar

Lazarus, R. S. & Smith, C. A. (1988) Knowledge and appraisal in the cognitionemotion relationship. Cognition and Emotion 2:281–300. [NHF]Google Scholar

LeDoux, J. E. (1987) Emotion. In: Handbook of physiology: Vol. 5. Higher functions of the brain, ed. Plum, F., pp. 419–59. American Psychological Society. [aMDL]Google Scholar

LeDoux, J. E. (1989) Cognition-emotion interactions in the brain. Cognition and Emotion 3:267–89. [aMDL]Google Scholar

LeDoux, J. E. (1993) Emotional networks in the brain. In: Handbook of emotions, ed. Lewis, M. & Haviland, J. M., pp. 109–18. Guilford. [aMDL]Google Scholar

LeDoux, J. E. (1995a) Emotion: Clues from the brain. Annual Review of Psychology 46:209–35. [aMDL]Google Scholar

LeDoux, J. E. (1995b) In search of an emotional system in the brain: Leaping from fear to emotion and consciousness. In: The cognitive neurosciences, ed. Gazzaniga, M. S., pp. 1049–61. MIT Press. [aMDL]Google Scholar

Levenson, R. W. (1992) Autonomic nervous system differences among emotions. Psychological Science 3, 23–27. [MP]Google Scholar

Leventhal, H. & Scherer, K. (1987) The relationship of emotion to cognition: A functional approach to a semantic controversy. Cognition and Emotion 1:3–28. [aMDL, DS]Google Scholar

LeVine, R. A. (1990) Enculturation: A biosocial perspective on the development of self. In: The self in transition: Infancy to childhood, ed. Cicchetti, D. & Beeghly, M., pp. 99–117. University of Chicago Press. [HF]Google Scholar

Lewenstein, M. & Nowak, A. (1989) Recognition with self-control in neural networks. Physical Review 40:4652–64. [PW]Google Scholar

Lewis, M., Alessandri, S. M. & Sullivan, M. W. (1990) Violation of expectancy, loss of control, and anger expressions in young infants. Developmental Psychology 26:745–51. [MP]Google Scholar

Lewis, M. D. (1995) Cognition-emotion feedback and the self-organization of developmental paths. Human Development 38:71–102. [arMDL]Google Scholar

Lewis, M. D. (1996) Self-organising cognitive appraisals. Cognition and Emotion 10:1–25. [aMDL]Google Scholar

Lewis, M. D. (2000a) Emotional self-organization at three time scales. In: Emotion, development, and self-organization: Dynamic systems approaches to emotional development, ed. Lewis, M. D. & Granic, I., pp. 37–69. Cambridge University Press. [GC arMDL]Google Scholar

Lewis, M. D. (2000b) The promise of dynamic systems approaches for an integrated account of human development. Child Development 71:36–43. [arMDL, ASW-A]Google Scholar

Lewis, M. D. (2002) The dialogical brain: Contributions of emotional neurobiology to understanding the dialogical self. Theory and Psychology 12:175–90. [rMDL]Google Scholar

Lewis, M. D. & Granic, I. (1999) Self-organization of cognition-emotion interactions. In: Handbook of cognition and emotion, ed. Dalgleish, T. & Power, M., pp. 683–70. Wiley. [aMDL]Google Scholar

Lewis, M. D., Lamey, A. V. & Douglas, L. (1999) A new dynamic systems method for the analysis of early socioemotional development. Developmental Science 2:458–76. [rMDL]Google Scholar

Lewis, M. D. & Stieben, J. (2004) Emotion regulation in the brain: Conceptual issues and directions for developmental research. Child Development 75:371–76. [aMDL]Google Scholar

Lillard, A. S. (1998) Ethnopsychologies: Cultural variation in theories of mind. Psychological Bulletin 123(1):3–32. [HF]Google Scholar

Liotti, M., Mayberg, H. S., Brannan, S. K., McGinnis, S., Jerabek, P. & Fox, P. T. (2000) Differential limbic-cortical correlates of sadness and anxiety in healthy subjects: Implications for affective disorders. Biological Psychiatry 48:30–42. [aMDL]Google Scholar

Lutz, A., Lachaux, J.-P., Martinerie, J. & Varela, F. J. (2002) Guiding the study of brain dynamics by using first-person data: Synchrony patterns correlate with ongoing conscious states during a simple visual task. Proceedings of the National Academy of Science USA 99(3):1586–91. [GC, arMDL]Google Scholar

Lutz, A & Thompson, E. (2003) Neurophenomenology: Integrating subjective experience and brain dynamics in the neuroscience of consciousness. Journal of Consciousness Studies 10:31–52. [GC]Google Scholar

Lutz, C. (1985) Ethnopsychology compared to what? Explaining behavior and consciousness among the Ifaluk. In: Person, self, and experience, ed. White, G. & Kirkpatrick, J.. University of California Press. [HF]Google Scholar

Luu, P., Collins, P. & Tucker, D. M. (2000) Mood, personality, and self-monitoring: Negative affect and emotionality in relation to frontal lobe mechanisms of error monitoring. Journal of Experimental Psychology: General 129:43–60. [aMDL]Google Scholar

Luu, P. & Tucker, D. M. (2002) Self-regulation and the executive functions: Electrophysiological clues. In: The cognitive electrophysiology of mind and brain, ed. Zani, A. & Preverbio, A. M., pp. 199–223. Academic Press. [arMDL]Google Scholar

Luu, P., Tucker, D. M. & Derryberry, D. (1998) Anxiety and the motivational basis of working memory. Cognitive Therapy and Research 22:577–94. [aMDL]Google Scholar

Luu, P., Tucker, D. M., Derryberry, D., Reed, M. & Poulsen, C. (2003) Electrophysiological responses to errors and feedback in the process of action regulation. Psychological Science 14(1):47–53. [arMDL, DAP]Google Scholar

Luu, P., Tucker, D. M. & Makeig, S. (2004) Frontal midline theta and the errorrelated negativity: Neurophysiological mechanisms of action regulation. Clinical Neurophysiology 115:1821–35. [rMDL, DAP]Google Scholar

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

MacLean, P. D. (1990) The triune brain in evolution: Role in paleocerebral functions. Plenum Press. [JvH]Google Scholar

MacLean, P. D. (1993) Perspectives on cingulate cortex in the limbic system. In: Neurobiology of cingulate cortex and limbic thalamus: A comprehensive handbook, ed. Vogt, B. A. & Gabriel, M., pp. 1–15. Brikhauser. [aMDL]Google Scholar

Magai, C. & Haviland-Jones, J. (2002) The hidden genius of emotion: Lifespan transformations of personality. Cambridge University Press. [ASW-A]Google Scholar

Magai, C. & McFadden, S. H. (1995) The role of emotions in social and personality development: History, theory, and research. Plenum Press. [CEI, aMDL]Google Scholar

Makeig, S., Westerfield, M., Jung, T.-P., Enghoff, S., Townsend, J., Courchesne, E. & Sejnowski, T. J. (2002) Dynamic brain sources of visual evoked responses. Science 295:690–94. [aMDL]Google Scholar

Malatesta, C. Z. & Izard, C. E. (1984) The facial expression of emotion: Young, middle-aged, and older adult expressions. In: Emotion in adult development, ed. Malatesta, C. Z. & Izard, C. E., pp. 253–73. Sage. [ASW-A]Google Scholar

Malatesta, C. Z. & Wilson, A. (1988) Emotion/cognition interaction in personality development: A discrete emotions, functionalist analysis. British Journal of Social Psychology 27:91–112. [aMDL]Google Scholar

Mandler, G. (1980) Recognizing: The judgment of previous occurrence. Psychological Review 87:252–71. [PW]Google Scholar

Marks, I. & Tobena, A. (1990) Learning and unlearning fear: A clinical and evolutionary perspective. Neuroscience and Biobehavioral Reviews 14:365–84. [GA]Google Scholar

Marr, D. & Vaina, L. (1982) Representation and recognition of the movements of shapes. Proceedings of the Royal Society of London, B 214:501–24. [AC]Google Scholar

Martin, L. L. & Tesser, A. (1996) Some ruminative thoughts. In: Ruminative thoughts, vol. 9, Advances in social cognition, ed. Wyer, R. S., pp. 1–47. Erlbaum. [aMDL]Google Scholar

Mathews, A. (1990) Why worry? The cognitive function of anxiety. Behaviour Research and Therapy 28:455–68. [aMDL]Google Scholar

Mathews, A. & MacLeod, C. (1985) Selective processing of threat cues in anxiety states. Behavior Research and Therapy 23:563–69. [aMDL]Google Scholar

Mathews, A. M. & MacLeod, C. (1986) Discrimination of threat cues without awareness in anxiety states. Journal of Abnormal Psychology 95:131–38. [aMDL]Google Scholar

Mathews, A. M. & MacLeod, C. (1994) Cognitive approaches to emotion and emotional disorders. Annual Review of Psychology 45:25–50. [aMDL]Google Scholar

Mathews, A. M. & MacLeod, C. (2002) Induced processing biases have causal effects on anxiety. Cognition and Emotion 16:331–54. [aMDL]Google Scholar

Maulsby, R. L. (1971) An illustration of emotionally evoked theta rhythm in infancy: Hedonic hypersynchrony. Electroencephalography and Clinical Neurophysiology 31:157–65. [JP]Google Scholar

Mayberg, H. S., Liotti, M., Brannan, S. K., McGinnis, S., Mahurin, R. K., Jerabek, P. A., Silva, J. A., Tekell, J. L., Martin, C. C., Lancaster, J. L. & Fox, P. T. (1999) Reciprocal limbic-cortical function and negative mood: Converging PET findings in depression and normal sadness. American Journal of Psychiatry 156(5):675–82. [aMDL]Google Scholar

Mazur, A. & Booth, A. (1998) Testosterone and dominance. Behavioral and Brain Sciences 21:353–97. [JvH]Google Scholar

McCormick, D. A., Wang, Z.. & Huguenard, J. (1993) Neurotransmitter control of neocortical neuronal activity and excitability. Cerebral Cortex 3:387–98. [aMDL]Google Scholar

McCulloch, W. & Pitts, W. (1943) A logical calculus of the ideas immanent in nervous activity. Bulletin of Mathematical Biophysics 5:115–33. [aMDL]Google Scholar

Menon, V., Adleman, N. E., White, C. D., Glover, G. H. & Reiss, A. L. (2001) Error-related brain activation during a Go/NoGo response inhibition task. Human Brain Mapping 12:131–43. [aMDL]Google Scholar

Merleau-Ponty, M. (1942/1963) The structure of behavior. Beacon. [RDE]Google Scholar

Mesulam, M. (2002) The human frontal lobes: Transcending the default mode through contingent encoding. In: Principals of frontal lobe function, ed. Stuss, D. T. & Knight, R. T., pp. 8–30. Oxford University Press. [arMDL]Google Scholar

Mesulam, M-M. (2000) Behavioral neuroanatomy: Large-scale networks, association cortex, frontal lobe syndromes, the limbic system, and hemispheric specializations. In: Principles of behavioral and cognitive neurology, ed. Mesulam, M.-M., pp. 1–120. Oxford University Press. [HF]Google Scholar

Meyer-Lindenberg, A., Bauer, U., Krieger, S., Lis, S., Vehmeyer, K., Schueler, G. & Gallhofer, B. (1998) The topography of non-linear cortical dynamics at rest, in mental calculation and moving shape perception. Brain Topography 10:291–99. [aMDL]Google Scholar

Meyer-Lindenberg, A., Ziemann, U., Hajak, G., Cohen, L. & Berman, K. F. (2002) Transitions between dynamical states of differing stability in the human brain. Proceedings of the National Academy of Sciences USA 99:10948–53. [aMDL]Google Scholar

Miller, R. (1991) Cortico-hippocampal interplay and the representation of contexts in the brain. Springer-Verlag. [aMDL]Google Scholar

Mineka, S., Rafaeli, E. & Yovel, I. (2003) Cognitive biases in emotional disorders: Information processing and social-cognitive perspectives. In: Handbook of affective science, ed. Davidson, R. J., Scherer, K. R. & Goldsmith, H. H., pp. 976–1009. Oxford University Press. [DAP]Google Scholar

Montague, P. R. & Berns, G. S. (2002) Neuroeconomics and the biological substrates of valuation. Neuron 36:265–84. [GA]Google Scholar

Morris, J., Friston, K. J., Buechel, C., Frith, C. D., Young, A. W., Calder, A. J. & Dolan, R. J. (1998) A neuromodulatory role for the human amygdala in processing emotional facial expressions. Brain 121:47–57. [aMDL]Google Scholar

Moscovitch, M. (1992) Memory and working-with-memory: A component process model based on modules and central systems. Journal of Cognitive Neuroscience 4:257–67. [aMDL]Google Scholar

Murphy, S. T. & Zajonc, R. B. (1993) Affect, cognition, and awareness: Affective priming with optimal and suboptimal stimulus exposures. Journal of Personality and Social Psychology 64:723–39. [NHF]Google Scholar

Myers, F. (1986) Pintupi country, Pintupi self: Sentiment, place and politics among Western Desert Aborigines. Smithsonian Institution. [GD]Google Scholar

Nagai, Y., Critchely, H. D., Featherstone, E., Trimble, M. R. & Dolan, R. J. (2004) Activity in ventromedial prefrontal cortex covaries with a sympathetic skin conductance level: A physiological account of a “default mode” of brain function. Neuroimage 22:243–51. [GN]Google Scholar

Nair, H. P., Berndt, J. D., Barrett, D. & Gonzalez-Lima, F. (2001) Maturation of extinction behavior in infant rats: Large-scale regional interactions with medial prefrontal cortex, orbitofrontal cortex, and anterior cingulate. Journal of Neuroscience 21:4400–407. [ANS]Google Scholar

Natsume, K. & Kometani, K. (1997) Theta-activity-dependent and -independent muscarinic facilitation of long-term potentiation in guinea pig hippocampal slices. Neuroscience Research 27:335–41. [aMDL]Google Scholar

Neddens, J., Brandenburg, K., Teuchert-Noodt, G. & Dawirs, R. R. (2001) Differential environment alters ontogeny of dopamine innervation of the orbital prefrontal cortex in gerbils. Journal of Neuroscience Research 63:209–13. [ANS]Google Scholar

Nerb, J. & Spada, H. (2001) Evaluation of environmental problems: A coherence model of cognition and emotion. Cognition and Emotion 15:521–51. [aMDL]Google Scholar

Nesse, R. M. (2000) Is depression an adaptation? Archives of General Psychiatry 57:14–20. [CSC]Google Scholar

Newton, N. (2000) Conscious emotion in a dynamic system: How I can know how I feel. In: The caldron of consciousness: Motivation, affect, and selforganization, ed. Ellis, R. & Newton, N., pp. 91–108. John Benjamins. [RDE]Google Scholar

Niedenthal, P. M., Setterlund, M. B. & Jones, D. E. (1994) Emotional organization of perceptual memory. In: The heart's eye: Emotional influences in perception and attention, ed. Niedenthal, P. M. & Kitayama, S., pp. 87–113. Academic Press. [aMDL]Google Scholar

Noë, A. (2004) Action in perception. MIT Press. [GC]Google Scholar

Nolen-Hoeksema, S. & Morrow, J. (1991) A prospective study of depression and distress following a natural disaster: The 1989 Loma Prieta earthquake. Journal of Personality and Social Psychology 61:115–21. [aMDL]Google Scholar

Northoff, G. (2002) What catatonia can tell us about “top-down modulation”: A neuropsychiatric hypothesis. Behavioral and Brain Sciences 25(5):555–77; discussion 578–604. [GN]Google Scholar

Northoff, G. & Bermpohl, F. (2004) Cortical midline structures and the self. Trends in Cognitive Sciences 8:102–07. [GN]Google Scholar

Northoff, G., Heinzel, A., Bermpohl, F., Niese, R., Pfennig, A., Pascual-Leone, A. & Schlaug, G. (2004) Reciprocal modulation and attenuation in the prefrontal cortex: An fMRI study on emotional-cognitive interaction. Human Brain Mapping 21:202–12. [GN]Google Scholar

Nowak, A. & Vallacher, R. R. (1998) Dynamical social psychology. Guilford. [PW]Google Scholar

Nowak, A., Vallacher, R. R., Tesser, A. & Borkowski, W. (2000) Society of self: The emergence of collective properties in self-structure. Psychological Review 107:39–61. [aMDL]Google Scholar

Nunez, P. L. (2000) Toward a quantitative description of large-scale neocortical dynamic function and EEG. Behavioral and Brain Sciences 23:371–437. [aMDL]Google Scholar

Nusbaum, M. (2001) Upheavals of thought: The intelligence of emotions. Cambridge University Press. [GD]Google Scholar

Nwokah, E. & Fogel, A. (1993) Laughter in mother infant emotional communication: Humor. Journal of Humor Research 6:137–61. [ASW-A]Google Scholar

Oades, R. D. & Halliday, G. M. (1987) Ventral tegmental (A10) system: Neurobiology. 1. Anatomy and connectivity. Brain Research Reviews 12:117–65. [aMDL]Google Scholar

Oatley, K. & Johnson-Laird, P. N. (1987) Towards a cognitive theory of emotions. Cognition and Emotion 1:29–50. [aMDL]Google Scholar

Öhman, A. (1988) Preattentive processes in the generation of emotions. In: Cognitive perspectives on emotion and motivation, ed. Hamilton, V., Bower, G. H. & Frijda, N. H., pp. 127–44. Kluwer Academic Publishers. [aMDL]Google Scholar

Öhman, A. (1993) Fear and anxiety as emotional phenomena: Clinical phenomenology, evolutionary perspectives, and information-processing mechanisms. In: Handbook of emotions, ed. Lewis, M. & Haviland, J. M., pp. 511–36. Guilford. [aMDL]Google Scholar

Öhman, A. & Mineka, S. (2001) Fears, phobias, and preparedness: Toward an evolved module of fear and fear learning. Psychological Review 108(3):483–522. [DS]Google Scholar

Öhman, A. & Soares, J. J. F. (1994) “Unconscious anxiety”: Phobic responses to masked stimuli. Journal of Abnormal Psychology 103:231–40. [aMDL]Google Scholar

Ongur, D. & Price, J. L. (2000) The organization of networks within the orbital and medial prefrontal cortex of rats, monkeys and humans. Cerebral Cortex 10(3):206–19. [aMDL, GN]Google Scholar

O’Regan, K. J. & Noë, A. (2001) A sensorimotor account of vision and visual consciousness. Behavioral and Brain Sciences 24:883–917. [GC]Google Scholar

O’Reilly, R. C. & Munakata, Y. (2000) Computational explorations in cognitive neuroscience: Understanding the mind by simulating the brain. MIT Press. [PW]Google Scholar

Ortony, A., Clore, G. L. & Collins, A. (1988) The cognitive structure of emotion. Cambridge University Press. [aMDL, MP]Google Scholar

Oster, H., Hegley, D. & Nagel, L. (1992) Adult judgements and fine-grained analysis of infant facial expressions: Testing the validity of a priori coding formulas. Developmental Psychology 28:1115–31. [MP]Google Scholar

Packard, M. G. & Cahill, L. (2001) Affective modulation of multiple memory systems. Current Opinion in Neurobiology 11:752–56. [aMDL]Google Scholar

Pailing, P. E., Segalowitz, S. J., Dywan, J. & Davies, P. L. (2002) Error negativity and response control. Psychophysiology 39:198–206. [aMDL]Google Scholar

Pan, W. X. & McNaughton, N. (2002) The role of the medial supramammillary nucleus in the control of hippocampal theta activity and behaviour in rats. European Journal of Neuroscience 16:1797–809. [BK]Google Scholar

Panksepp, J. (1982) Toward a general psychobiological theory of emotions. Behavioral and Brain Sciences 5:407–67. [PB]Google Scholar

Panksepp, J. (1991) Affective neuroscience: A conceptual framework for the neurobiological study of emotions. In: International reviews of studies in emotions, vol. 1, ed. Strongman, K., pp. 59–99. Wiley. [aMDL]Google Scholar

Panksepp, J. (1993) Neurochemical control of moods and emotions: Amino acids to neuropeptides. In: Handbook of emotions, ed. Lewis, M. & Haviland, J., pp. 57–107. Guilford. [aMDL]Google Scholar

Panksepp, J. (1998a) Affective neuroscience: The foundations of human and animal emotions. Oxford University Press. [JvH, aMDL, JP]Google Scholar

Panksepp, J. (1998b) The periconscious substrates of consciousness: Affective states and the evolutionary origins of self. Journal of Consciousness Studies 5:566–82. [GC]Google Scholar

Panksepp, J. (1999) Emotions as viewed by psychoanalysis and neuroscience: An exercise in consilience, and accompanying commentaries. Neuro-Psychoanalysis 1:15–89. [JP]Google Scholar

Panksepp, J. (2000) The neurodynamics of emotions: An evolutionary-neurodevelopmental view. In: Emotion, self-organization, and development, ed. Lewis, M. D. & Granic, I., pp. 236–64. Cambridge University Press. [JP]Google Scholar

Panksepp, J. (2003) At the interface of affective, behavioral and cognitive neurosciences: Decoding the emotional feelings of the brain. Brain and Cognition 52:4–14. [aMDL, DAP, JP]Google Scholar

Panksepp, J. & Harro, J. (2004) Future prospects in psychopharmacology. In: Textbook of biological psychiatry, ed. Panksepp, J., pp. 627–60. Wiley. [JP]Google Scholar

Paré, D. & Collins, D. R. (2000) Neuronal correlates of fear in the lateral amygdala: Multiple extracellular recordings in conscious cats. Journal of Neuroscience 20:2701–10. [aMDL]Google Scholar

Paré, D., Collins, D. R. & Pelletier, J. G. (2002) Amygdala oscillations and the consolidation of emotional memories. Trends in Cognitive Sciences 6:306–14. [aMDL]Google Scholar

Parkinson, B. (2001) Putting appraisal in context. In: Appraisal processes in emotion: Theory, methods, research, ed. Scherer, K. R., Schorr, A. & Johnstone, T., pp. 173–86. Oxford University Press. [aMDL]Google Scholar

Parrott, W. G. (1991) Mood induction and instructions to sustain moods. A test of the subject compliance hypothesis of mood congruent memory. Cognition and Emotion 3:41–52. [GA]Google Scholar

Parrott, W. G. & Schulkin, J. (1993) What sort of system could an affective system be? A reply to LeDoux. Cognition and Emotion 7:65–69. [aMDL]Google Scholar

Pascual-Leone, J. (1991) Emotions, development and psychotherapy: A dialecticalconstructivist perspective. In: Emotion, psychotherapy and change, ed. Safran, J. & Greenberg, L., pp. 302–35. Guilford. [JP-L]Google Scholar

Pascual-Leone, J. (1995) Learning and development as dialectical factors in cognitive growth. Human Development 38:338–48. [JP-L]Google Scholar

Pascual-Leone, J. (1996) Piaget, Vygotsky and the problems of Plato. Swiss Journal of Psychology 55: 84–92. [JP-L]Google Scholar

Pascual-Leone, J. & Johnson, J. (1991) The psychological unit and its role in task analysis: A reinterpretation of object permanence. In: Criteria for competence: Controversies in conceptualization and assessment of children's abilities, ed. Chandler, M. & Chapman, M., pp. 153–87. Erlbaum. [JP-L]Google Scholar

Pascual-Leone, J. & Johnson, J. (2004) Affect, self-motivation, and cognitive development: A dialectical constructivist view. In: Motivation, emotion and cognition: Integrating perspective on intellectual functioning and development, ed. Dai, D. Y. & Sternberg, R. J., pp. 197–235. Erlbaum. [JP-L]Google Scholar

Pascual-Leone, J. & Johnson, J. (2005) A dialectical constructivist view of developmental intelligence. In: Handbook of understanding and measuring intelligence, ed. Wilhelm, O. & Engle, R., pp. 177–201. Sage. [JP-L]Google Scholar

Perlovsky, L. I. (2002) Physical theory of information processing in the mind: Concepts and emotions. SEED 2:36–54. [Available at: http://www.library.utoronto.ca/see/SEED/Vol2-2/2-2%20resolved/Perlovsky.pdf]. [DJK]Google Scholar

Petrides, M. & Pandya, D. N. (1999) Dorsolateral prefrontal cortex: comparative cytoarchitectonic analysis in the human and the macaque brain and corticocortical connection patterns. European Journal of Neuroscience 11:1011–36. [DAP]Google Scholar

Petrides, M. & Pandya, D. N. (2002) Association pathways of the prefrontal cortex and functional observations. In: Principals of frontal lobe function, ed. Stuss, D. T. & Knight, R. T., pp. 31–50. Oxford University Press. [aMDL]Google Scholar

Phan, K. L., Wager, T., Taylor, S. F. & Liberzon, I. (2002) Functional neuroanatomy of emotion: A meta-analysis of emotion activation studies in PET and fMRI. Neuroimage 16:331–48. [DAP]Google Scholar

Pizzagalli, D. A., Oakes, T. R. & Davidson, R. J. (2003a) Coupling of theta activity and glucose metabolism in the human rostral anterior cingulate cortex: An EEG/PET study of normal and depressed subjects. Psychophysiology 40:939–49. [DAP]Google Scholar

Pizzagalli, D. A., Oakes, T. R., Fox, A. S., Chung, M. K., Larson, C. L., Abercrombie, H. C., Schaefer, S. M., Benca, R. M. & Davidson, R. J. (2004) Functional but not structural subgenual prefrontal cortex abnormalities in melancholia. Molecular Psychiatry 9:393–405. [DAP]Google Scholar

Pizzagalli, D. A., Shackman, A. J. & Davidson, R. J. (2003b) The functional neuroimaging of human emotion: Asymmetric contributions of cortical and subcortical circuitry. In: The asymmetrical brain, ed. Hughdal, K. & Davidson, R. J., pp. 511–32. MIT Press. [DAP]Google Scholar

Poeggel, G., Nowicki, L. & Braun, K. (2003) Early social deprivation alters monoaminergic afferents in the orbital prefrontal cortex of Octodon degus. Neuroscience 116:617–20. [ANS]Google Scholar

Poremba, A. & Gabriel, M. (1997) Amygdalar lesions block discriminative avoidance learning and cingulothalamic training-induced neuronal plasticity in rabbits. Journal of Neuroscience 17:5237–5244. [aMDL]Google Scholar

Port, R. F. & Van Gelder, T., eds. (1995) Explorations in the dynamics of cognition: Mind as motion. MIT Press. [aMDL]Google Scholar

Posner, M. I., Petersen, S. E., Fox, P. T. & Raichle, M. E. (1988) Localization of cognitive functions in the human brain. Science 240:1627–31. [aMDL]Google Scholar

Post, R. M. & Weiss, S. R. B. (1997) Emergent properties of neural systems: How focal molecular neurobiological alterations can affect behavior. Development and Psychopathology 9:907–29. [arMDL]Google Scholar

Post, R. M., Weiss, S. R. B., Li, H., Smith, M. A., Zhang, L. X., Xing, G., Osuch, E. A. & McCann, U. D. (1998) Neural plasticity and emotional memory. Development and Psychopathology 10:829–55. [aMDL]Google Scholar

Potegal, M. (1994) Aggressive arousal: The amygdala connection. In: The dynamics of aggression: Biological and social processes in dyads and groups, ed. Potegal, M. & Knutson, J., pp. 73–112. Erlbaum. [MP]Google Scholar

Potegal, M. (2000) Some characteristics, correlates, and consequences of visible autonomic activity in the temper tantrums of young children. In: Crying as a sign, a symptom and a signal, ed. Barr, R. G., Hopkins, B. & Green, J. A., pp. 121–36. Mac Keith Press. [MP]Google Scholar

Potegal, M. & Davidson, R. J. (2003) Temper tantrums in young children: 1. Behavioral composition. Journal of Developmental and Behavioral Pediatrics 24:140–47. [MP]Google Scholar

Potegal, M., Hebert, M., DeCoster, M. & Meyerhoff, J. (1996) Brief, high frequency stimulation of the corticomedial amygdala induces a delayed and prolonged increase of aggressiveness in male Syrian golden hamsters. Behavioral Neuroscience 110:1–12. [MP]Google Scholar

Prigogine, I. & Stengers, I. (1984) Order out of chaos. Bantam. [aMDL]Google Scholar

Prinz, W. (1997) Perception and action planning. European Journal of Cognitive Psychology 9:129–54. [GC]Google Scholar

Pruitt, D. G., Parker, J. C. & Mikolic, J. M.. (1997) Escalation as a reaction to persistent annoyance. International Journal of Conflict Management 8:252–70. [MP]Google Scholar

Putnam, H. (1975) Mind, language and reality. Cambridge University Press. [aMDL]Google Scholar

Qiu, P, Yang, R. & Potegal, M. (submitted) Semiparametric modeling of the time course of tantrum anger. Biometrics. [MP]Google Scholar

Quigley, B. M. & Tedeschi, J. T. (1996) Mediating effects of blame attributions on feelings of anger. Personality and Social Psychology Bulletin 22:1280–88. [MP]Google Scholar

Rafal, R. (2002) Cortical control of visuomotor reflexes. In: Principals of frontal lobe function, ed. Stuss, D. T. & Knight, R. T., pp. 149–58. Oxford University Press. [aMDL]Google Scholar

Raichle, M. E., MacLeod, A. M., Snyder, A. Z., Powers, W. J., Gusnard, D. A. & Shulman, G. L. (2001) A default mode of brain function. Proceedings of the National Academy of Science USA 98(2):676–82. [GN]Google Scholar

Raizada, R. & Grossberg, S. (2003) Towards a theory of the laminar architecture of cerebral cortex: Computational clues from the visual system. Cerebral Cortex 13:100–13. [SG]Google Scholar

Ramirez, J. M., Andreu, J. M. & Fujihara, T. (2001) Cultural and sex differences in aggression: A comparison between Japanese and Spanish students using two different inventories. Aggressive Behavior 27:313–22. [MP]Google Scholar

Ramsay, R. W. (1997) Behavioural approaches to bereavement. In: The best of behavior research and therapy, ed. Rachman, S. & Eysenck, H. J.. Pergamon. [GA]Google Scholar

Reber, R., Winkielman, P. & Schwarz, N. (1998) Effects of perceptual fluency on affective judgments. Psychological Science 9:45–48. [PW]Google Scholar

Reisenzein, R. (2001) Appraisal processes conceptualized from a schema-theoretic perspective: Contributions to a process analysis of emotions. In: Appraisal processes in emotion: Theory, methods, research, ed. Scherer, K. R., Schorr, A. & Johnstone, T., pp. 187–201. Oxford University Press. [aMDL]Google Scholar

Reisenzein, R. & Hofmann, T. (1993) Discriminating emotions from appraisalrelevant situational information: Baseline data for structural models of cognitive appraisals. Cognition and Emotion 7:271–93. [aMDL]Google Scholar

Ressler, N. (2004) Rewards and punishments, goal-directed behavior and consciousness. Neuroscience and Biobehavioral Reviews 28:27–39. [JvH]Google Scholar

Richell, R. A., Mitchell, D. G. V., Newman, C., Leonard, A., Baron-Cohen, S. & Blair, R. J. R. (2003) Theory of mind and psychopathy: Can psychopathic individuals read the “language of the eyes”? Neuropsychologia 41:523–26. [CEI]Google Scholar

Rizzolatti, G., Fadiga, L., Fogassi, L. & Gallese, V. (1997) The space around us. Science 277:190–91. [GC]Google Scholar

Robinson, M. D. (1998) Running from William James’ bear: A review of preattentive mechanisms and their contributions to emotional experience. Cognition and Emotion 12:667–96. [aMDL]Google Scholar

Rolls, E. T. (1990) A theory of emotion, and its application to understanding the neural basis of emotion. Special Issue: Development of relationships between emotion and cognition. Cognition and Emotion 4(3):161–90. [PB]Google Scholar

Rolls, E. T. (1999) The brain and emotion. Oxford University Press. [PB, aMDL]Google Scholar

Rolls, E. T. & Treves, E. T. (1998) Neural networks and brain function. Oxford University Press. [aMDL]Google Scholar

Rosaldo, R. (1984) Grief and a headhunter's rage. In: Text, play, and story: The construction and reconstruction of self and society, ed. Bruner, E., pp. 178–95. American Ethnological Society. [GD]Google Scholar

Roseman, I. J. (1984) Cognitive determinants of emotion: A structural theory. In: Review of personality and social psychology, vol. 5. Emotions, relationships, and health, ed. Shaver, P., pp. 11–36. Sage. [aMDL]Google Scholar

Roseman, I. J. (1991) Appraisal determinants of discrete emotions. Cognition and Emotion 5:161–200. [aMDL]Google Scholar

Roseman, I. J., Antoniou, A. A. & Jose, P. E. (1996) Appraisal determinants of emotions: Constructing a more accurate and comprehensive theory. Cognition and Emotion 10:241–77. [aMDL]Google Scholar

Roseman, I. J. & Smith, C. A. (2001) Appraisal theory: Overview, assumptions, varieties, controversies. In: Appraisal processes in emotion: Theory, methods, research, ed. Scherer, K. R., Schorr, A. & Johnstone, T., pp. 3–19. Oxford University Press. [aMDL, DAP]Google Scholar

Ruby, P. & Decety, J. (2001) Effect of subjective perspective taking during simulation of action: A PET investigation of agency. Nature Neuroscience 4(5):546–50. [GN]Google Scholar

Ruelle, D. (1991) Chance and chaos. Princeton University Press. [RMG-L]Google Scholar

Rumelhart, D. E., Hinton, G. E. & McClelland, J. L. (1986a) A general framework for parallel distributed processing. In: Parallel distributed processing: Explorations in the microstructure of cognition, ed. McClelland, J. L., Rumelhart, D. E. & the PDP Research Group, pp. 45–76. MIT Press. [aMDL]Google Scholar

Rumelhart, D. E., McClelland, J. L. & the PDP Research Group (1986b) Parallel distributed processing: Explorations in the microstructure of cognition. MIT Press. [RMG-L]Google Scholar

Sacks, O. (2004) In the river of consciousness. New York Review 51(1), January 15. [WJF]Google Scholar

Sander, D., Grafman, J. & Zalla, T. (2003) The human amygdala: An evolved system for relevance detection. Reviews in the Neurosciences 14(4):303–16. [DS]Google Scholar

Sander, D. & Koenig, O. (2002) No inferiority complex in the study of emotion complexity: A cognitive neuroscience computational architecture of emotion. Cognitive Science Quarterly 2:249–72. [DS]Google Scholar

Sartre, J.-P. (1939/1948) The emotions: Sketch of a theory, trans. Frechtman, B.. Philosophical Library. [GA]Google Scholar

Sashin, J. (1985) Affect tolerance – A model of affect-response using catastrophetheory. Journal of Social and Biological Structures 8:175–202. [RMG-L]Google Scholar

Sashin, J. & Callahan, J. (1990) A model of affect using dynamical systems. Annual of Psychoanalysis 18:213–31. [RMG-L]Google Scholar

Scherer, K. R. (1984) On the nature and function of emotion: A component process approach. In: Approaches to emotion, ed. Scherer, K. R. & Ekman, P., pp. 293–317. Erlbaum. [arMDL, DS]Google Scholar

Scherer, K. R. (1993a) Neuroscience projections to current debates in emotion psychology. Cognition and Emotion 7:1–41. [DS]Google Scholar

Scherer, K. R. (1993b) Studying the emotion-antecedent appraisal process: An expert system approach. Cognition and Emotion 3:325–55. [aMDL]Google Scholar

Scherer, K. R. (1999) Appraisal theory. In: Handbook of cognition and emotion, ed. Dalgleish, T. & Power, M., pp. 637–63. Wiley. [aMDL]Google Scholar

Scherer, K. R. (2000) Emotions as episodes of subsystem synchronization driven by nonlinear appraisal processes. In: Emotion, development, and self-organization: Dynamic systems approaches to emotional development, ed. Lewis, M. D. & Granic, I., pp. 70–99. Cambridge University Press. [GC, arMDL, DS]Google Scholar

Scherer, K. R. (2001) Appraisal considered as a process of multilevel sequential checking. In: Appraisal processes in emotion: Theory, methods, research, ed. Scherer, K. R., Schorr, A. & Johnstone, T., pp. 92–120. Oxford University Press. [aMDL, DS]Google Scholar

Scherer, K. R. (2004) Feelings integrate the central representation of appraisal-driven response organization in emotion. In: Feelings and emotions: The Amsterdam Symposium, ed. Manstead, A. S. R., Frijda, N. H. & Fischer, A. H., pp. 136–57. Cambridge University Press. [DS]Google Scholar

Scherer, K. R. & Peper, M. (2001) Psychological theories of emotion and neuropsychological research. In: Handbook of neuropsychology: Vol. 5: Emotional behavior and its disorders, ed. Boller, F. & Grafman, J.. (2nd revised edition, ed. Gainotti, G.). Elsevier. [DS]Google Scholar

Scherer, K. R., Schorr, A. & Johnstone, T., eds. (2001) Appraisal processes in emotion: Theory, methods, research. Oxford University Press. [rMDL, DS]Google Scholar

Scherg, M., Ille, N., Bornfleth, H. & Berg, P. (2002) Advanced tools for digital EEG review: Virtual source montages, whole-head mapping, correlation, and phase analysis. Journal of Clinical Neurophysiology 19:91–112. [aMDL]Google Scholar

Schneirla, T. C. (1959) An evolutionary and developmental theory of biphasic processes underlying approach and withdrawal. In: Nebraska Symposium on Motivation, vol. 7, ed. Jones, M. R., pp. 1–42. University of Nebraska Press. [PB]Google Scholar

Schore, A. N. (1994) Affect regulation and the origin of the self: The neurobiology of emotional development. Erlbaum. [aMDL, ANS]Google Scholar

Schore, A. N. (1997) Early organization of the nonlinear right brain and development of a predisposition to psychiatric disorders. Development and Psychopathology 9:595–631. [ANS]Google Scholar

Schore, A. N. (2000) The self-organization of the right brain and the neurobiology of emotional development. In: Emotion, development and self-organization: Dynamic systems approaches to emotional development, ed. Lewis, M. D. & Granic, I., pp. 155–85. Cambridge University Press. [aMDL, ANS]Google Scholar

Schore, A. N. (2001) The effects of a secure attachment relationship on right brain development, affect regulation, and infant mental health. Infant Mental Health Journal 22:7–66. [ANS]Google Scholar

Schore, A. N. (2003a) Affect dysregulation and disorders of the self. W. W. Norton. [ANS]Google Scholar

Schore, A. N. (2003b) Affect regulation and the repair of the self. W. W. Norton. [ANS]Google Scholar

Schulkin, J. (2003) Rethinking homeostasis: Allostatic regulation in physiology and pathophysiology. MIT Press. [JvH]Google Scholar

Schultz, W. (1998) Predictive reward signal of dopamine neurons. Journal of Neurophysiology 80:1–27. [aMDL]Google Scholar

Schutter, D. J. L. G. & Van Honk, J. (2004) Decoupling of midfrontal delta-beta oscillations after testosterone administration. International Journal of Psychophysiology 53:71–73. [JvH]Google Scholar

Schutter, D. J. L. G. & Van Honk, J. (2005) Basal cortisol levels and the coupling of midfrontal delta-beta oscillations. International Journal of Psychophysiology 55:127–29. [JvH]Google Scholar

Schutter, D. J. L. G., Van Honk, J. & Panksepp, J. (2004) Introducing repetitive transcranial magnetic stimulation (rTMS) and its property of causal inference in investigating the brain-function relationship. Synthese 141:155–73. [JP]Google Scholar

Sederberg, P. B., Kahana, M. J., Howard, M. W., Donner, E. J. & Madsen, J. R. (2003) Theta and gamma oscillations during encoding predict subsequent recall. Journal of Neuroscience 23:10809–814. [JP]Google Scholar

Seidenbecher, T., Laxmi, T. R., Stork, O. & Pape, H.-C. (2003) Amygdalar and hippocampal theta rhythm synchronization during fear memory retrieval. Science 301:846–50. [aMDL]Google Scholar

Shallice, T. (2002) Fractionation of the supervisory system. In: Principals of frontal lobe function, ed. Stuss, D. T. & Knight, R. T., pp. 261–77. Oxford University Press. [aMDL]Google Scholar

Shiller, V. M., Izard, C. E. & Hembree, E. A. (1986) Patterns of emotion expression during separation in the strange-situation procedure. Developmental Psychology 22:378–82. [CEI]Google Scholar

Shimamura, A. P. (2002) Memory retrieval and executive control processes. In: Principals of frontal lobe function, ed. Stuss, D. T. & Knight, R. T., pp. 210–20. Oxford University Press. [aMDL]Google Scholar

Shin, L. M., Dougherty, D. D., Orr, S. P., Pitman, R. K., Lasko, M., Macklin, M. L., Alpert, N., Fischman, A. J. & Rauch, S. L. (2000) Activation of anterior paralimbic structures during guilt-related script-driven imagery. Biological Psychiatry 48:43–50. [aMDL]Google Scholar

Shizgal, P. & Conover, K. (1996) On the neural computation of utility. Current Directions in Psychological Science 5:37–43. [GA]Google Scholar

Shultz, T. R. & Lepper, M. R. (1996) Cognitive dissonance reduction as constraint satisfaction. Psychological Review 103:219–40. [aMDL]Google Scholar

Shweder, R. A. (1991) Thinking through cultures: Expeditions in cultural psychology. Harvard University Press. [HF]Google Scholar

Sinha, R. & Parsons, O. A. (1996) Multivariate response patterning of fear and anger. Cognition and Emotion 10:173–98. [MP]Google Scholar

Skarda, C. A. & Freeman, W. J. (1987) How brains make chaos in order to make sense of the world. Behavioral and Brain Sciences 10:161–95. [WJF, aMDL]Google Scholar

Skinner, J. E. & Molnar, M. (1999) Event-related dimensional reductions of the primary auditory cortex of the conscious cat are revealed by new techniques for enhancing the nonlinear dimensional algorithms. International Journal of Psychophysiology 34:21–35. [aMDL]Google Scholar

Smith, C. A. & Kirby, L. D. (2001) Toward delivering on the promise of appraisal theory. In: Appraisal processes in emotion: Theory, methods, research, ed. Scherer, K. R., Schorr, A. & Johnstone, T., pp. 187–201. Oxford University Press. [aMDL]Google Scholar

Smith, C. A. & Lazarus, R. S. (1993) Appraisal components, core relational themes, and the emotions. Cognition and Emotion 7:233–69. [aMDL]Google Scholar

Solms, M. & Turnbull, O. (2002) The brain and the inner world: An introduction to the neuroscience of subjective experience. Other Press. [RMG-L]Google Scholar

Spitzer, M. (1999) The mind within the net: Models of learning, thinking, and acting. MIT Press. [RMG-L]Google Scholar

Spruiell, V. (1993) Deterministic chaos and the sciences of complexity. Journal of the American Psychoanalytic Association 41:3–44. [RMG-L]Google Scholar

Stapel, D. A. & Koomen, W. (2000) How far do we go beyond the information given? The impact of knowledge activation on interpretation and inference. Journal of Personality and Social Psychology 78:19–37. [NHF]Google Scholar

Stemmler, G., Heldmann, M., Pauls, C. & Scherer, T. (2001) Constraints for emotion specificity in fear and anger: The context counts. Psychophysiology 38:275–91. [MP]Google Scholar

Stenberg, C. R. & Campos, J. L. (1990) The development of anger expressions in infancy. In: Psychological and biological approaches to emotion, ed. Stein, N. L., Leventhal, B. & Trabasso, T., pp. 247–82. Erlbaum. [MP]Google Scholar

Stenberg, C. R., Campos, J. L. & Emde, R. N. (1983) The facial expression of anger in seven-month-old infants. Child Development 54:178–84. [MP]Google Scholar

Stern, D. (1985) The interpersonal world of the infant. Basic Books. [ASW-A]Google Scholar

Strasberg, L. (1988) A dream of passion: The development of the method. Dutton. [GA]Google Scholar

Strumwasser, F. (2003) The human mind: Building bridges between neuroscience and psychiatry. Psychiatry 66:22–31. [HF]Google Scholar

Sullivan, R. M. & Gratton, A. (2002) Prefrontal cortical regulation of hypothalamicpituitary- adrenal function in the rat and implications for psychopathology: Side matters. Psychoneuroendocrinology 27:99–114. [ANS]Google Scholar

Szentagothai, J. (1993) Self organization: The basic principle of neural functions. Theoretical Medicine 14:101–16. [arMDL]Google Scholar

Teasdale, J. D. (1983) Negative thinking in depression: Cause, effect or reciprocal relationship? Advances in Behavior Research and Therapy 5:3–25. [aMDL]Google Scholar

Teasdale, J. D. & Barnard, P. J. (1993) Affect, cognition, and change: Remodelling depressive thought. Erlbaum. [PB, aMDL]Google Scholar

Thagard, P. & Verbeurgt, K. (1998) Coherence as constraint satisfaction. Cognitive Science 22:1–24. [aMDL]Google Scholar

Thatcher, R. W. (1998) A predator–prey model of human cerebral development. In: Applications of nonlinear dynamics to developmental process modeling, ed. Newell, K. M. & Molenaar, P. C. M., pp. 87–128. Erlbaum. [aMDL]Google Scholar

Thayer, J. F. & Friedman, B. H. (1997) The heart of anxiety: A dynamical systems approach. In: The (non) expression of emotions in health and disease, ed. Vingerhoets, A., van Bussel, F. & Boelhouwer, J., pp. 39–49. Tilburg University Press. [aMDL]Google Scholar

Thayer, J. F. & Friedman, B. H. (2002) Stop that! Inhibition, sensitization, and their neurovisceral concomitants. Scandinavian Journal of Psychology 43:123–30. [JFT]Google Scholar

Thayer, J. F., Friedman, B. H., Borkovec, T. D., Johnsen, B. H. & Molina, S. (2000) Phasic heart period to cued threat and non-threat stimuli in generalized anxiety disorder. Psychophysiology 37:361–68. [JFT]Google Scholar

Thayer, J. F. & Lane, R. D. (2000) A model of neurovisceral integration in emotion regulation and dysregulation. Journal of Affective Disorders 61:201–16. [aMDL, JFT]Google Scholar

Thayer, J. F. & Lane, R. D. (2002) Perseverative thinking and health: Neurovisceral concomitants. Psychology and Health 17:685–95. [JFT]Google Scholar

Thelen, E. (1995) Motor development: A new synthesis. American Psychologist 50:79–95. [GD]Google Scholar

Thelen, E., Schöner, G., Scheier, C. & Smith, L. B. (2001) The dynamics of embodiment: A field theory of infant perseverative reaching. Behavioral and Brain Sciences 24:1–86. [aMDL]Google Scholar

Thelen, E. & Smith, L. B. (1994) A dynamic systems approach to the development of cognition and action. MIT Press/Bradford. [aMDL, ASW-A]Google Scholar

Thinschmidt, J. S., Kinney, G. G. & Kocsis, B. (1995) The supramammillary nucleus: Is it necessary for the mediation of hippocampal theta rhythm? Neuroscience 67:301–12. [BK]Google Scholar

Thompson, E. (forthcoming) Radical embodiment: The lived body in biology, human experience, and the sciences of mind. Harvard University Press. [GC]Google Scholar

Thompson, E., Lutz, A. & Cosmelli, D. (in press) Neurophenomenology: An introduction for neurophilosophers. In: Cognition and the brain: The philosophy and neuroscience movement, ed. Brook, A. & Akins, K.. Cambridge University Press. [GC]Google Scholar

Thompson, E. & Varela, F. J. (2001) Radical embodiment: Neural dynamics and consciousness. Trends in Cognitive Sciences 5:418–25. [arMDL]Google Scholar

Titchener, E. B. (1910) A textbook of psychology. Macmillan. [PW]Google Scholar

Tomkins, S. S. (1982) Affect theory. In: Approaches to emotion, ed. Scherer, K. R. & Ekman, P. pp. 163–96. Erlbaum. [PB]Google Scholar

Tononi, G. & Edelman, G. M. (1998) Consciousness and complexity. Science 282(4):1846–51. [HF, aMDL]Google Scholar

Tooby, J. & Cosmides, L. (1992) The psychological foundations of culture. In: The adapted mind: Evolutionary psychology and the generation of culture, ed. Barkow, J. H., Cosmides, L. & Tooby, J., pp. 19–136. Oxford University Press. [HF]Google Scholar

Touzani, I. & Velley, L. (1998) Electrical self-stimulation in the central amygdaloid nucleus after ibotenic acid lesion of the lateral hypothalamus. Behavioral and Brain Research 90:115–24. [GA]Google Scholar

Tsuda, I. (2001) Toward an interpretation of dynamics of neural activity in terms of chaotic dynamical systems. Behavioral and Brain Sciences 24:793–847. [WJF]Google Scholar

Tucker, D. M. (2001) Motivated anatomy: A core-and-shell model of corticolimbic architecture. In: Handbook of neuropsychology: Vol. 5. Emotional behavior and its disorders, 2nd edition, ed. Gainotti, G., pp. 125–60. Elsevier. [aMDL]Google Scholar

Tucker, D. M., Derryberry, D. & Luu, P. (2000) Anatomy and physiology of human emotion: Vertical integration of brainstem, limbic, and cortical systems. In: The neuropsychology of emotion, ed. Borod, J. C.. Oxford University Press. [aMDL]Google Scholar

Tucker, D. M., Hartry-Speiser, A., McDougal, L., Luu, P. & deGrandpre, D. (1999) Mood and spatial memory: Emotion and the right hemisphere contribution to spatial cognition. Biological Psychology 50:103–25. [aMDL]Google Scholar

Tucker, D. M., Luu, P., Desmond, R. E., Hartry-Speiser, A. L., Davey, C. & Flaisch, T. (2003) Corticolimbic mechanisms in emotional decisions. Emotion 3:127–49. [aMDL]Google Scholar

Tucker, D. M. & Williamson, P. A. (1984) Asymmetric neural control systems in human self-regulation. Psychological Review 91:185–215. [aMDL]Google Scholar

Vallacher, R. R. & Nowak, A. (1997) The emergence of dynamical social psychology. Psychological Inquiry 8:73–99. [aMDL]Google Scholar

Vallacher, R. R. & Nowak, A. (1999) The dynamics of self-regulation. In: Advances in social cognition, vol. 12, ed. Wyer, R. S. Jr.,, pp. 241–59. Erlbaum. [PW]Google Scholar

van Geert, P. & van Dijk, M. (2002) Focus on variability: New tools to study intraindividual variability in developmental data. Infant Behavior and Development 25:340–74. [rMDL]Google Scholar

Van Gelder, T. (1995) What might cognition be, if not computation? Journal of Philosophy 92(7):345–81. [CD]Google Scholar

Van Gelder, T. (1998) The dynamical hypothesis in cognitive science. Behavioral and Brain Sciences 21:615–65. [aMDL]Google Scholar

Van Gelder, T. & Port, R. F. (1995) It's about time: An overview of the dynamical approach to cognition. In: Mind as motion: Explorations in the dynamics of cognition, ed. Port, R. F. & Van Gelder, T., pp. 1–43. MIT Press. [aMDL]Google Scholar

Van Honk, J. & Schutter, D. J. L. G. (in press) Unmasking feigned sanity: A neurobiological model of emotion processing in primary psychopathy. Cognitive Neuropsychiatry. [JvH]Google Scholar

Van Honk, J., Schutter, D. J. L. G., Hermans, E. J. & Putman, P. (2003) Low cortisol levels and the balance between punishment sensitivity and reward dependency. NeuroReport 14:1993–96. [JvH]Google Scholar

Van Honk, J., Schutter, D. J. L. G., Hermans, E. J., Putman, P., Tuiten, A. & Koppeschaar, H. P. F. (2004) Testosterone shifts the balance between sensitivity for punishment and reward in healthy young women. Psychoneuroendocrinology 29:937–43. [JvH]Google Scholar

Van Honk, J., Tuiten, A., Van den Hout, M., Koppeschaar, H., Thijssen, J., De Haan, E. & Verbaten, R. (1998) Baseline salivary cortisol levels and preconscious selective attention for threat: A pilot study. Psychoneuroendocrinology, 23:741–47. [JvH]Google Scholar

Van Honk, J., Tuiten, A., Van den Hout, M., Koppeschaar, H., Thijssen, J., De Haan, E. & Verbaten, R. (1999) Correlations among salivary testosterone, mood, and selective attentions to threat in humans. Hormones and Behavior 36:17–24. [JvH]Google Scholar

van Reekum, C. M. & Scherer, K. R. (1997) Levels of processing in emotionantecedent appraisal. In: Cognitive science perspectives on personality and emotion, ed. Matthews, G., pp. 259–300. Elsevier. [aMDL]Google Scholar

van Rullen, R. & Koch, C. (2003) Is perception discrete or continuous? Trends in Cognitive Sciences 7:207–13. [aMDL]Google Scholar

van Veen, V. & Carter, C. S. (2002) The timing of action-monitoring processes in the anterior cingulate cortex. Journal of Cognitive Neuroscience 14:593–602. [aMDL]Google Scholar

van Veen, V., Cohen, J. D., Botvinick, M. M., Stenger, V. A. & Carter, C. S. (2001) Anterior cingulate cortex, conflict monitoring, and levels of processing. Neuroimage 14:1302–08. [aMDL]Google Scholar

Vanderwolf, C. H. (1988) Cerebral activity and behavior: Control by central cholinergic and serotonergic systems. International Review of Neurobiology 30:225–340. [aMDL]Google Scholar

Varela, F. J. (1996) Neurophenomenology: A methodological remedy for the hard problem. Journal of Consciousness Studies 3:330–50. [GC]Google Scholar

Varela, F. J. & Depraz, N. (2000) At the source of time: Valence and the constitutional dynamics of affect. Arob@se. Journal de Lettre et de Sciences Humain 4(1–2). Available at: http://www.arobase.to. [Also appearing in: Ipseity and alterity: Interdisciplinary approaches to intersubjectivity, ed. Gallagher, S. & Watson, S.. Presses Universitaires de Rouen. (in press).] [GC]Google Scholar

Varela, F. J., Lachaux, J.-P., Rodriguez, E. & Martinerie, J. (2001) The brainweb: Phase synchronization and large-scale integration. Nature Reviews Neuroscience 2:229–39. [GC, aMDL]Google Scholar

Varela, F. J., Thompson, E. & Rosch, E. (1991) The embodied mind: Cognitive science and human experience. MIT Press. [GC, aMDL]Google Scholar

Vertes, R. P., Albo, Z. & Viana Di Prisco, G. (2001) Theta-rhythmically firing neurons in the anterior thalamus: Implications for mnemonic functions of Papez's circuit. Neuroscience 104:619–25. [aMDL]Google Scholar

Vertes, R. P. & Kocsis, B. (1997) Brainstem-diencephalo-septohippocampal systems controlling the theta rhythm of the hippocampus. Neuroscience 81:893–926. [aMDL, JP]Google Scholar

Viau, V. (2002) Functional cross-talk between the hypothalamic-pituitary-gonadal and -adrenal axes. Journal of Neuroendocrinology 14:506–13. [JvH]Google Scholar

Vinogradova, O. S. (1995) Expression, control, and probable functional significance of the neuronal theta-rhythm. Progress in Neurobiology 45:523–83. [DAP]Google Scholar

von Bertalanffy, L. (1933/1962) Modern theories of development: An introduction to theoretical biology. Harper. [RDE]Google Scholar

von Neumann, J. (1958) The computer and the brain. Yale University Press. [aMDL]Google Scholar

von Stein, A. & Sarnthein, J. (2000) Different frequencies for different scales of cortical integration: From local gamma to long range alpha/theta synchronization. International Journal of Psychophysiology 38:301–13. [aMDL]Google Scholar

Waddington, C. H. (1962) New patterns in genetics and development. Columbia University Press. [rMDL]Google Scholar

Waldvogel, D., van Gelderen, P., Muellbacher, W., Ziemann, U., Immisch, I. & Hallett, M. (2000) The relative metabolic demand of inhibition and excitation. Nature 406:995–98. [JFT]Google Scholar

Walker-Andrews, A. S. & Lennon, E. (1991) Infants’ discrimination of vocal expressions: Contributions of auditory and visual information. Infant Behavior and Development 14:131–42. [ASW-A]Google Scholar

Wallace, D. M., Magnusson, D. J. & Gray, T. S. (1992) Organization of amygdaloid projections to brainstem dopaminergic, norandrenergic and andrenergic cell groups in the rat. Brain Research Bulletin 28:447–54. [aMDL]Google Scholar

Wang, X. F. & Chen, G. R. (2003) Complex networks: Small-world, scale-free and beyond. IEEE Transactions on Circuits and Systems 31:6–20. [WJF]Google Scholar

Ward, L. M. (2002) Dynamical cognitive science. MIT Press. [aMDL]Google Scholar

Watson, D. & Clark, L. A. (1992) Affects separable and inseparable: On the arrangement of the negative affects. Journal of Personality and Social Psychology 62:489–505. [CEI]Google Scholar

Watt, D. F. (1998) Emotion and consciousness: Implications of affective neuroscience for extended reticular thalamic activating system theories of consciousness. Electronic publication of the Association for the Scientific Study of Consciousness. Available at: http://server.philvt.edu/assc/watt/default.htm. [GC]Google Scholar

Weissenberger, A. A., Dell, M. L., Liow, K., Theodore, W., Frattali, C. M., Hernandez, D. & Zametkin, A. J. (2001) Aggression and psychiatric comorbidity in children with hypothalamic hamartomas and their unaffected siblings. Journal of the American Academy of Child and Adolescent Psychiatry 40:696–703. [MP]Google Scholar

Wells, A. & Matthews, G. (1994) Attention and emotion: A clinical perspective. Erlbaum. [aMDL]Google Scholar

Wenzlaff, R. M., Rude, S. S., Taylor, C. J., Stultz, C. H. & Sweatt, R. A. (2001) Beneath the veil of thought suppression: Attentional bias and depression risk. Cognition and Emotion 15:435–52. [aMDL]Google Scholar

Whalen, P. J., Shin, L. M., McInerney, S. C., Fischer, H., Wright, C. I. & Rauch, S. L. (2001) A functional MRI study of human amygdala responses to facial expressions of fear versus anger. Emotion 1:70–83. [DS]Google Scholar

Wiener, N. (1948) Cybernetics; or, control and communication in the animal and the machine. Wiley. [RMG-L]Google Scholar

Wiener, N. (1950) The human use of human beings cybernetics and society. Houghton Mifflin. [RMG-L]Google Scholar

Wiener, N. & Schadé, J. P. (1965) Cybernetics of the nervous system. Elsevier. [RMG-L]Google Scholar

Wierzbicka, A. (1999) Emotions across languages and cultures: Diversity and universals. Cambridge University Press. [HF]Google Scholar

Wierzbicka, A. (2003) Emotion and culture: Arguing with Martha Nussbaum. Ethos 31(4):577–600. [GD]Google Scholar

Wikan, U. (1990) Managing turbulent hearts: A Balinese formula for living. University of Chicago Press. [GD]Google Scholar

Williams, B. (1972) Descartes, René. In: The encyclopedia of philosophy, ed. Edward, P., pp. 344–54. MacMillan. [JP]Google Scholar

Williams, G. V. & Goldman-Rakic, P. S. (1995) Modulation of memory fields by dopamine D1 receptors in prefrontal cortex. Nature 376:572–75. [aMDL]Google Scholar

Williams, J. M. G., Watts, F. N., MacLeod, C. & Mathews, A. (1997) Cognitive psychology and emotional disorders, 2nd edition. Wiley. [aMDL]Google Scholar

Winkielman, P. & Cacioppo, J. T. (2001) Mind at ease puts a smile on the face: Psychophysiological evidence that processing facilitation increases positive affect. Journal of Personality and Social Psychology 81:989–1000. [PW]Google Scholar

Winkielman, P., Schwarz, N. & Nowak, A. (2002) Affect and processing dynamics: Perceptual fluency enhances evaluations. In: Emotional cognition: From brain to behaviour, ed. Moore, S. & Oaksford, M., pp. 111–36. John Benjamins. [PW]Google Scholar

Witherington, D. C., Campos, J. J. & Hertenstein, M. J. (2001) Principles of emotion and its development in infancy. In: Blackwell handbook of infant development, ed. Bremner, G. & Fogel, A., pp. 427–64. Blackwell. [ASW-A]Google Scholar

Wood, J., Mathews, A. & Dalgleish, T. (2001) Anxiety and cognitive inhibition. Emotion 1:166–81. [aMDL]Google Scholar

Wood, R. I. (1996) Functions of the steroid-responsive neural network in the control of male hamster sexual behavior. Trends in Endocrinology and Metabolism 7:338–44. [JvH]Google Scholar

Yaniv, D., Vouimba, R. M., Diamond, D. M. & Richter-Levin, G. (2003) Simultaneous induction of long-term potentiation in the hippocampus and the amygdala by entorhinal cortex activation: mechanistic and temporal profiles. Neuroscience 120:1125–35. [aMDL]Google Scholar

Zajonc, R. B. (1980) Feeling and thinking: Preferences need no inferences. American Psychologist 35:151–75. [PW]Google Scholar

Zajonc, R. B. (1984) On the primacy of affect. American Psychologist 39:117–23. [aMDL]Google Scholar

Ziabreva, I., Poeggel, G., Schnabel, R. & Braun, K. (2003) Separation-induced receptor changes in the hippocampus and amygdala of Octodon degus: Influence of maternal vocalizations. Journal of Neuroscience 23:5329–36. [ANS]Google Scholar

Zillmann, D. (1994) Cognition-excitation interdependencies in the escalation of anger and angry aggression. In: The dynamics of aggression: Biological and social processes in dyads and groups, ed. Potegal, M. & Knutson, J., pp. 45–72. Erlbaum. [MP]Google Scholar

Zochowski, M., Lewenstein, M. & Nowak, A. (1993) Memory that tentatively forgets. Journal of Physics A 26:2453–60. [PW]Google Scholar

Zochowski, M., Lewenstein, M. & Nowak, A. (1995) SMARTNET: A neural network with self-controlled learning. Network 6:93–101. [PW]Google Scholar

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An emerging dialogue among social scientists and neuroscientists on the causal bases of emotion

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