Abstract
Experimental studies attempting to relate brain electrical activity to behavior have become commonplace in the last 25 years. During this period, there have been many advances in the development of techniques of analysis of slow waves or spike events generated in the brain, but comparable sophistication has not yet been applied to the behavioral side of the brain-behavior problem. Many investigators have been content to refer to the activities of their experimental animals or human subjects in terms that are not descriptive of behavior at all but appear to refer to unseen “inferred processes” instead. Thus various types of brain electrical activity have been said to be related to perception, information processing, attention, motivation, arousal, emotion, learning, memory, and the like. These terms are notoriously difficult to define and therefore impair communication from one researcher to another. Thus one researcher may say that an animal is “attentive” when it stands motionless with head up and eyes open, suggesting that it is “staring at something.” A second researcher may interpret the word attentive” to mean that the animal is actively interacting with the environment by sniffing, biting, or manipulating objects. As the data summarized here will show, details of actual behavior are important in the study of brain and behavior, and merit careful observation and precise description.
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References
Bennett, T. L. Evidence against the theory that hippocampal theta is a correlate of voluntary movement. Communications in Behavioral Biology, 1969, 4, 165–169.
Bennett, T. L. Hippocampal theta activity and behavior—A review. Communications in Behavioral Biology, 1971, 6, 37–48.
Bennett, T. L., and Gottfried, J. Hippocampal theta and response inhibition. Electroencephalography and Clinical Neurophysiology, 1970, 29, 196–200.
Black, A. H., and Young, G. A. Electrical activity of the hippocampus and cortex in dogs operantly trained to move and to hold still. Journal of Comparative and Physiological Psychology, 1972, 79, 128–141.
Black, A. H., Young, G. A., and Batenchuk, C. Avoidance training of hippocampal theta waves in flaxedilized dogs and its relation to skeletal movement. Journal of Comparative and Physiological Psychology, 1970, 70, 15–24.
Bland, B. H., and Vanderwolf, C. H. Diencephalic and hippocampal mechanisms of motor activity in the rat: Effects of posterior hypothalamic stimulation on behavior and hippocampal slow wave activity. Brain Research, 1972a, 43, 67–88.
Bland, B. H., and Vanderwolf, C. H. Electrical stimulation of the hippocampal formation: Behavioral and bioelectrical effects. Brain Research, 1972b, 43, 89–106.
Bradley, P. B., and Elkes, J. The effects of some drugs on the electrical activity of the brain. Brain, 1957, 80, 77–117.
Bradley, P. B., and Hance, A. J. The effect of chlorpromazine and methopromazine on the electrical activity of the brain in the cat. Electroencephalography and Clinical Neurophysiology, 1957, 9, 191–215.
Brown, B. B. Frequency and phase of hippocampal theta activity in the spontaneously behaving cat. Electroencephalography and Clinical Neurophysiology, 1968, 24, 53–62.
Buchwald, N. A., Horvath, F. E., Wyers, E. J., and Wakefield, C. Electroencephalogram rhythms correlated with milk reinforcement in cats. Nature (London), 1964, 201, 830–831.
Clemente, C. D., Sterman, M. B., and Wyrwicka, W. Postreinforcement EEG synchronization during alimentary behavior. Electroencephalography and Clinical Neurophysiology, 1964, 16, 355–365.
Dalton, A., and Black, A. H. Hippocampal electrical activity during operant conditioning of movement and refraining from movement. Communications in Behavioral Biology, 1968, 2, 267–273.
Feder, R., and Ranck, J. B., Jr. Studies on single neurons in dorsal hippocampal formation and septum in unrestrained rats. Part II. Hippocampal slow waves and theta cell firing during bar pressing and other behaviors. Experimental Neurology, 1973, 41, 532–555.
Frederickson, C. J., and Zurawin, R. Hippocampal theta waves in rats during intra-species aggression. Paper presented at meeting of the Eastern Psychological Association, Philadelphia, April 1974.
Gillespie, L. A. Development of two rhythmical slow activity (RSA) systems in the rabbit hippocampus. Paper presented at meeting of the Eastern Psychological Association, Philadelphia, April 1974.
Gillespie, L. A., and Vanderwolf, C. H. Ontogeny of hippocampal EEG in the guinea pig and rat. Paper presented at meeting of the Psychonomic Society, St. Louis, November 1973.
Grandstaff, N. W. Frequency analysis of EEG during milk drinking. Electroencephalography and Clinical Neurophysiology, 1969, 27, 57–65.
Gray, J. A. Medial septal lesions, hippocampal theta rhythm and the control of vibrissal movement in the freely moving rat. Electroencephalography and Clinical Neurophysiology, 1971, 30, 189–197.
Green, J. D., and Arduini, A. A. Hippocampal electrical activity in arousal. Journal of Neurophysiology, 1954, 17, 533–557.
Hackett, J. T., and Marczynski, T.J. Postreinforcement electrocortical synchronization and enhancement of cortical photic evoked potentials during instrumentally conditioned appetitive behavior in the cat. Brain Research, 1969, 15, 447–464.
Harper, R. M. Frequency changes in hippocampal electrical activity during movement and tonic immobility. Physiology and Behavior, 1971, 7, 55–58.
Herz, A., Teschemacher, H., Hofstetter, A., and Kurz, H. The importance of lipid-solubility for the central action of cholinolytic drugs. International Journal of Neuropharmacology, 1965, 4, 207–218.
Holmes, J. E., and Beckman, J. Hippocampal theta rhythm used in predicting feline behavior. Physiology and Behavior, 1969, 4, 563–565.
Irmis, F., Madlafousek, J., and Hlinak, Z. Hippocampal electrical activity in course of sexual behavior of male rats. Physiologia Bohemoslovaca, 1970, 19, 83–87.
James, W.The principles of psychology. New York: Dover, 1950. First published by Henry Holt, 1890.
Kaada, B. R. Somato-motor, autonomic and electrocorticographic responses to electrical stimulation of “rhinencephalic” and other structures in primates, cat and dog. Acta physiologica scandinavica, 1951, 24, Supplement 83, 1–285.
Kaada, B. R., Feldman, R. S., and Langfeldt, T. Failure to modulate autonomic reflex discharge by hippocampal stimulation in rabbits. Physiology and Behavior, 1971, 7, 225–231.
Kamp, A., Lopes da Silva, F. H., and Storm van Leeuwen, W. Hippocampal frequency shifts in different behavioural situations. Brain Res., 1971, 31, 287–294.
Klemm, W. R. EEG and multiple-unit activity in limbic and motor systems during movement and immobility. Physiology and Behavior, 1971, 7, 337–343.
Komisaruk, B. Synchrony between limbic system theta activity and rhythmical behavior in rats. Journal of Comparative and Physiological Psychology, 1970, 70, 482–492.
Kramis, R. C., and Routtenberg, A. Rewarding brain stimulation, hippocampal activity, and footstomp-ing in the gerbil. Physiology and Behavior, 1969, 4, 7–11.
Kramis, R., Vanderwolf, C. H. Two hippocampal rhythmical slow activity (RSA) systems in both rabbit and rat; differentiation of movement- and immobility-related RSA. Paper presented at meeting of the Eastern Psychological Association, Philadelphia, April 1974.
Krnjevic, K., and Phillis, J. W. Pharmacological properties of acetylcholine sensitive cells in the cerebral cortex. Journal of Physiology (London), 1963, 166, 328–350.
Kurtz, R. G., and Adler, N. T. Electrophysiological correlates of copulatory behavior in the male rat: Evidence for a sexual inhibitory process. Journal of Comparative and Physiological Psychology, 1973, 84, 225–239.
Lewis, P. R., and Shute, C. C. D. The cholinergic limbic system: Projection to hippocampal formation, medial cortex, nuclei of the ascending cholinergic reticular system, and the subfornical organ and supraoptic crest. Brain, 1967, 90, 521–540.
Longo, V. G. Behavioral and electroencephalographic effects of atropine and related compounds. Pharmacological Review, 1966, 18, 965–996.
Lopes da Silva, F. H., and Kamp, A. Hippocampal theta frequency shifts and operant behavior. Electroencephalography and Clinical Neurophysiology, 1968, 26, 133–143.
Marczynski, T. J., and Hackett, J. T. Postreinforcement electrocortical synchronization and facilitation of cortical somato-sensory evoked potentials in appetitive behavior in the cat. Electroencephalography and Clinical Neurophysiology, 1969, 26, 41–49.
Marczynski, T. J., Rosen, A. J., and Hackett, J. T. Postreinforcement electrocortical synchronization and facilitation of cortical auditory evoked potentials in appetitive instrumental conditioning. Electroencephalography and Clinical Neurophysiology, 1968, 24, 227–241.
Milne, A. C. Mesencephalic and diencephalic influences on hippocampal EEG and motor activity in the rat. Unpublished M.Sc. thesis, University of Western Ontario, London, Ontario, 1972.
Moruzzi, G., and Magoun, H. W. Brain stem reticular formation and activation of the EEG. Electroencephalography and Clinical Neurophysiology, 1949, 1, 455–473.
O’Keefe, J., and Dostrovsky, J. The hippocampus as a spatial map: Preliminary evidence from unit activity in the freely moving rat. Brain Research, 1971, 34, 171–175.
Paxinos, G., and Bindra, D. Rewarding intracranial stimulation, movement, and the hippocampal theta rhythm. Physiology and Behavior, 1970, 5, 227–231.
Pickenhain, L., Klingberg, F. Hippocampal slow activity as a correlate of basic behavioral mechanisms in the rat. In W. R. Adey and T. Tokizane (Eds.), Progress in brain research. Vol. 27. Amsterdam: Elsevier, 1967, pp. 218–227.
Pond, F. J., and Schwartzbaum, J. S. Interrelationships of hippocampal EEG and visual evoked responses during appetitive behavior in rats. Brain Research, 1972, 43, 119–137.
Ranck, J. B., Jr. Studies on single neurons in dorsal hippocampal formation and septum in unrestrained rats. Part 1. Behavioral correlates and firing repertoires. Experimental Neurology, 1973, 41, 461–531.
Robinson, T. E., and Whishaw, I. Q. Effects of posterior hypothalamic lesions on voluntary behavior and hippocampal electroencephalograms in the rat. Journal of Comparative and Physiological Psychology, 1974, 86, 768–786.
Roth, S. R., Sterman, M. B., and Clemente, C.D. Comparison of EEG correlates of reinforcement, internal inhibition and sleep. Electroencephalography and Clinical Neurophysiology, 1967, 23, 509–520.
Rougeul, A. Observations électrographiques au cours du conditionnement instrumental alimentaire chez le chat. Journal de Physiologie (Paris), 1958, 50, 494–496.
Routtenberg, R. A. Hippocampal correlates of consummatory and observed behavior. Physiology and Be havior, 1968, 3, 533–535.
Sainsbury, R. S. Hippocampal activity during natural behavior in the guinea pig. Physiology and Behavior, 1970, 5, 317–324.
Sakai, K., Sano, K., and Iwahara, S. Eye movements and hippocampal theta activity in cats. Electroencephalography and Clinical Neurophysiology, 1973, 34, 547–549.
Schwartzbaum, J. S., and Kreinick, C. J. Interrelationships of hippocampal electroencephalogram, visually evoked response, and behavioral reactivity to photic stimuli in rats. Journal of Comparative and Physiological Psychology, 1973, 85, 479–490.
Shute, C. C. D., and Lewis, P. R. The ascending cholinergic reticular system: Neocortical, olfactory and subcortical projections. Brain, 1967, 90, 497–520.
Skinner, B. F. Behaviorism at fifty. Science, 1963, 134, 566–602.
Skinner, B.F.Contingencies of reinforcement: A theoretical analysis. New York: Appleton-Century- Crofts, 1969.
Skinner, B. F.About behaviorism. New York: Knopf, 1974, pp. 207–208.
Sperry, R. W. Neurology and the mind-brain problem. American Scientist, 1952, 40, 291–312.
Reprinted in R. L. Isaacson (Ed.), Basic readings in neuropsychology. New York: Harper and Row, 1964.
Stumpf, C. Drug action on the electrical activity of the hippocampus. International Review of Neurobiology, 1965, 8, 77–138.
Teitelbaum, H., and McFarland, W. L. Power spectral shifts in hippocampal EEG associated with conditioned locomotion in the rat. Physiology and Behavior, 1971, 7, 545–549.
Tinbergen, 96. H. Seidel, Biochim. Biophys. Acta, 138:98 (1967).The study of instinct. New York: Oxford University Press, 1951.
Tinbergen, N.The animal in its world: Explorations of an ethologist. London: Allen and Unwin, 1972.
Towe, A. L. Motor cortex and the pyramidal system. In J. D. Maser (Ed.), Efferent organization and the integration of behavior. New York: Academic Press, 1973, pp. 61–91.
Vanderwolf, C.H. Hippocampal electrical activity and voluntary movement in the rat. Electroencephalography and Clinical Neurophysiology, 1969, 26, 407–418.
Vanderwolf, C. H. Limbic-diencephalic mechanisms of voluntary movement. Psychological Review, 1971, 78, 83–113.
Vanderwolf, C. H. Neocortical and hippocampal activation in relation to behavior: Effects of atropine, eserine, phenothiazines and amphetamine. Journal of Comparative and Physiological Psychology, 1975, 88, 300–323.
Vanderwolf, C. H., and Heron, W. Electroencephalographs waves with voluntary movement: Study in the rat. Archives of Neurology (Chicago), 1964, 11, 379–384.
Vanderwolf, C. H., and Vanderwart, M. L. Relations of heart rate to motor activity and arousal in the rat. Canadian Journal of Psychology, 1970, 24, 434–441.
Vanderwolf, C. H., Bland, B. H., and Whishaw, I. Q. Diencephalic, hippocampal and neocortical mechanisms in voluntary movement. In J. D. Maser (Ed.), Efferent organization and the integration of behavior. New York: Academic Press, 1973, pp. 229–262.
Whishaw, I. Q. Hippocampal electroencephalographic activity in the Mongolian gerbil during natural behaviours and wheel running and in the rat during wheel running and conditioned immobility. Canadian Journal of Psychology, 1972, 26, 219–239.
Whishaw, I. Q., and Vanderwolf, C.H. Hippocampal EEG and behavior: Effects of variation in body temperature and relation of EEG to vibrissae movement, swimming and shivering. Physiology and Behavior, 1971, 6, 391–397.
Whishaw, I. Q., and Vanderwolf, C. H. Hippocampal EEG and behavior: Changes in amplitude and frequency of RSA (theta rhythm) associated with spontaneous and learned movement patterns in rats and cats. Behavioral Biology, 1973, 8,461–484.
Whishaw, B.H., Bland, B H., and Vanderwolf, C. H. Hippocampal activity, behavior, self-stimulation, and heart rate during electrical stimulation of the lateral hypothalamus. Journal of Comparative and Physiological Psychology, 1972, 79, 115–127.
Winson, J. Interspecies differences in the occurrence of theta. Behavioral Biology, 1972, 7, 479–487.
Winson, J. Patterns of hippocampal theta rhythm in the freely moving rat. Electroencephalography and Clinical Neurophysiology, 1974, 36, 291–301.
Young, G. A. Relationships between hippocampal EEG and behavior in the rat. Unpublished Ph.D. thesis, McMaster University, Hamilton, Ontario, 1973.
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Vanderwolf, C.H., Kramis, R., Gillespie, L.A., Bland, B.H. (1975). Hippocampal Rhythmic Slow Activity and Neocortical Low-Voltage Fast Activity: Relations to Behavior. In: Isaacson, R.L., Pribram, K.H. (eds) The Hippocampus. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-2979-4_3
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