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On the hippocampus, time, and interference

Published online by Cambridge University Press:  04 February 2010

Leonard E. Jarrard
Affiliation:
Department of Psychology, Washington and Lee University, Lexington, Va. 24450

Abstract

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Copyright © Cambridge University Press 1985

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References

Aggleton, J. P. & Mishkin, M. (1983) Visual recognition impairment following medial thalamic lesions in monkeys. Neuropsychologia 21:189–97. [taJNPR]Google Scholar
Alexander, M. P. & Freedman, M. (1984) Amnesia after anterior communicating artery aneurysm rupture. Neurology 34:752–57. [HJM]Google Scholar
Amsel, A. (1962) Frustrative nonreward in partial reinforcement and discrimination learning: Some recent history and a theoretical extension. Psychological Review 69:306–28. [taJNPR]Google Scholar
Andersen, P., Bliss, T. V. P. & Skrede, K. K. (1971) Lamellar organization of hippocampal excitatory pathways. Experimental Brain Research 13:222–38. [HJM]Google Scholar
Anger, D. (1956) The dependence of interresponse times upon the relative reinforcement of different interresponse times. Journal of Experimental Psychology 52:145–61. [taJNPR]Google Scholar
Angevine, J. B. (1975) Development of the hippocampal region. In: The hippocampus, vol. 1. Structure and development, ed. Isaaeson, R. L. & Prihram, K. H.. Plenum Press. [HJM]Google Scholar
Arnold, M. B. (1984) Memory and the brain. Erlbaum Associates. [HJM]Google Scholar
Ashe, J. H. & Nachman, M. (1980) Neural mechanisms in taste aversion learning. In: Progress in psychobiology and physiological psychology, vol. 9. ed. Sprague, J. M. & Epstein, A. E.. Academic Press. [taJNPR]Google Scholar
Baddeley, A. D. & Hitch, G. (1977) Commentary on “working memory.” In: Human memory, basic processes, ed. Bower, G.. Academic Press. [taJNPR]Google Scholar
Baddeley, A. D. & Warrington, E. K. (1970) Amnesia and the distinction between long-and short-term memory. Journal of Verbal Learning and Verbal Behavior 9:176–89. [taJNPR]Google Scholar
Barnes, C. A. (1979) Memory deficits associated with senescence: A neurophysiological and behavioral study in the rat. Journal of Comparative and Physiological Psychology 93:74104. [BLMcN]Google Scholar
Barnes, C. A. & McNaughton, B. L. (1980) Spatial memory and hippocampal synaptic plasticity in senescent and middle-aged rats. In: The psychobiology of aging: Problems and perspectives, ed. Stein, D.. Elsevier. [BLMcN]Google Scholar
Barnes, C. A. & McNaughton, B. L. (1983) Where is the cognitive map? Society for Neuroscience Abstracts 9:649. [taJNPR, BLMcN]Google Scholar
Barnes, C. A. & McNaughton, B. L. (submitted) An age comparison of the rates of acquisition and forgetting of spatial information in relation to long-term enhancement of hippocampal synapses. [BLMcN]Google Scholar
Beatty, W. W. & Shavalia, D. A. (1980) Spatial memory in rats: Time course of working memory and effect of anesthetics. Behavioral and Neural Biology 28:454–62. [WSM]Google Scholar
Becker, J. T., Olton, D. S., Anderson, C. A. & Breitinger, E. R. P. (1981) Cognitive mapping in rats: The role of the hippocampal and frontal systems in retention and reversal. Behavioural Brain Research 3:122. [rJNPR]Google Scholar
Berger, T. W. (1984) Long-term potentiation of hippocampal synaptic transmission affects rate of behavioral learning. Science 224:627–30. [BLMcN]Google Scholar
Berger, T. W. & Orr, W. B. (1983) Hippocampectomy selectively disrupts discrimination reversal conditioning of the rabbit nictitating membrane response. Behavioural Brain Research 8:4968. [tarJNPR]Google Scholar
Bierley, R. A., Kesner, R. P. & Novak, J. M. (1983) Episodic long-term memory in the rat: Effects of hippocampal stimulation. Behavioural Neuroscience 97:4248. [RHID]Google Scholar
Blough, D. S. (1959) Delayed matching in the pigeon. Journal of the Experimental Analysis of Behavior 2:151–60. [taJNPR]Google Scholar
Boitano, J. J., Dokla, C. J. P., Mulinski, P., Misikonis, S. & Kaluzynski, T. (1980) Effects of hippocampectomy in an incremental-step DRL paradigm. Physiology and Behavior 25:273–78. [taJNPR]Google Scholar
Brierley, J. B. (1977) Neuropathology of amnesic states. In: Amnesia, 2nd ed., ed. Whitty, C. W. M. & Zangwill, O. L.. Butterworths. [HJM]Google Scholar
Broadbent, D. (1984) The Maltese cross: A new simplistic model for memory. Behavioral and Brain Sciences 7:5594. [LEJ]Google Scholar
Brodal, P. (1969) Neurological anatomy in relation to clinical medicine, 2nd ed.Oxford University Press. [HJM]Google Scholar
Brookes, S. (1981) Behavioural aspects of septo-hippocampal function. D. Phil. thesis, Oxford University. [taJNPR]Google Scholar
Brookes, S., Rawlins, J. N. P. & Gray, J. A. (1983) Hippocampal lesions do not alter the partial punishment effect. Experimental Brain Research 52:3440. [taJNPR]Google Scholar
Brookes, S., Rawlins, J. N. P., Gray, J. A. & Feldon, J. (1983) DRL performance in rats with medial or lateral septal lesions. Physiological Psychology 11:178–84. [rJNPR]Google Scholar
Brown, M. W. (1982) Effects of context on the response of single units recorded from the hippocampal region of behaviorally trained monkeys. In: Neuronal plasticity and memory formation, ed. Marsan, A. & Matthies, H.. Raven Press. [rJNPR]Google Scholar
Brown, M. W. & Harries, M. H. (1984) Hippocampal single-unit activity during rats' performance of a visual recognition memory task. Journal of Physiology (London) 350:74P. [rJNPR]Google Scholar
Brown, R. T. & Wagner, A. R. (1964) Resistance to punishment and extinction following training with shock or nonreinforcement. Journal of Experimental Psychology 68:503–7. [taJNPR]Google Scholar
Capaldi, E. J. (1967) A sequential hypothesis of instrumental learning. In: The psychology of learning and motivation, vol. 1, ed. Spence, K. W. & Spence, J. T.. Academic Press. [taJNPR]Google Scholar
Carroll, L. (1895) What the tortoise said to Achilles. Mind 4:278–80. [rJNPR]Google Scholar
Chow, K. L. (1967) Effects of ablation. In: The neurosciences: A study program, ed. Quarton, G. C., Melnechuk, T. & Schmitt, F. O.. Rockefeller University Press. [HJM]Google Scholar
Chronister, R. B., Sikes, R. W. & White, L. E. Jr. (1976) The septo-hippocampal system: Significance of the subiculum. In: The septal nuclei, ed. DeFrance, J. F.. Plenum Press. [HJM]Google Scholar
Cogan, D. C., Posey, T. B. & Reeves, J. L. (1976) Response patterning in hippocampectomized rats. Physiology and Behavior 16:569–76. [taJNPR]Google Scholar
Cohen, N. J. (1984) Preserved learning capacity in amnesia: Evidence for multiple memory systems. In: Neuropsychology of memory, ed. Squire, L. R. & Butters, N.. Guilford Press. [NJC]Google Scholar
Corkin, S. (1968) Acquisition of motor skill after bilateral medial temporal-lobe excision. Neuropsychologia 6:255–66. [taJNPR]Google Scholar
Correll, R. E. & Scoville, W. B. (1965) Performance on delayed match following lesions of medial temporal lobe structures. Journal of Comparative and Physiological Psychology 60:360–67. [taJNPR]Google Scholar
Correll, R. E. & Scoville, W. B. (1967) Significance of delay in the performance of monkeys with medial temporal lobe resections. Experimental Brain Research 4:8596. [taJNPR]Google Scholar
Crowell, R. M., Marcoux, F. W. & DeGirolami, U. (1981) Variability and reversibility of focal cerebral ischemia in unanesthetized monkeys. Neurology 31:12951302. [HJM]Google Scholar
D'Amato, M. R. & O'Neill, W. (1971) Effect of delay-interval illumination on matching behavior in the capuchin monkey. Journal of the Experimental Analysis of Behavior 15:327–33. [taJNPR]Google Scholar
D'Amato, M. R. & Safarjan, W. R. (1981) Differential effects of delay of reinforcement on acquisition of affective and instrumental responses. Animal Learning and Behavior 9:209–15. [taJNPR]Google Scholar
D'Amato, M. R., Safarjan, W. R. & Salmon, D. (1981) Long-delay conditioning and instrumental learning: Some new findings. In: Information processing in animals: Memory mechanisms, ed. Spear, N. E. & Miller, R. R.. Erlbaum Associates. [taJNPR]Google Scholar
Davidson, D. (1975) Thought and talk. In: Mind and language, ed. Guttenplan, S.. Clarendon Press. [rJNPR]Google Scholar
Deadwyler, S. A. (in press) Involvement of hippocampal systems in learning and memory. In: Memory systems of the brain: Animal and human cognitive processes. Guilford Publications. [SAD]Google Scholar
Deadwyler, S. A., West, M. O., Christian, E. P., Hampson, R. A. & Foster, T. C. (in press) Sensory evoked potentials in the dentate gyrus represent item specific short-term information storage in the hippocampus. Behavioral and Neural Biology 10 1985. [SAD]Google Scholar
DeGirolami, U., Crowell, R. M. & Marcoux, F. W. (1984) Selective necrosis and total necrosis in focal cerebral ischemia: Neuropathologic observations on experimental middle cerebral artery occlusion in the macaque monkey. Journal of Neuropathology and Experimental Neurology 43:5771. [HJM]Google Scholar
Dennett, D. C. (1971) Intentional systems. Journal of Philosophy 68:87106. [rJNPR]Google Scholar
Dennett, D. C. (1978) Brainstorms. Bradford Books. [rJNPR]Google Scholar
Dews, P. B. (1955) Studies on behavior: 1. Differential sensitivity to pentobarbital or pecking performance in pigeons depending on the schedule of reward. Journal of Pharmacology and Experimental Therapeutics 113:393401. [MNB]Google Scholar
Dickinson, A. (1975) Suppressing and enhancing effects of footshock on food-reinforced operant responding following septal lesions in rats. Journal of Comparative and Physiological Psychology 88:851–61. [taJNPR]Google Scholar
Doinikow, B. (1908) Beitrag zur vergleichenden Histologie des Ammonshorns. Journal für Psychologie und Neurologie 13:166202. [ HJM ]Google Scholar
Douglas, R. J. (1967) The hippocampus and behavior. Psychological Bulletin 67:416–42. [taJNPR, DTDJ, LEJ]Google Scholar
Drachman, D. A. & Arbit, J. (1966) Memory and the hippocampal complex: 2. Is memory a multiple process? Archives of Neurology 15:5261. [taJNPR]Google Scholar
Duvernoy, H. M., Delon, S. & Vannson, J. L. (1981) Cortical blood vessels of the human brain. Brain Research Bulletin 7:519–79. [HJM]Google Scholar
Ellen, P., Wilson, A. S. & Powell, E. W. (1964) Septal inhibition and timing behavior in the rat. Experimental Neurology 10:120–32. [rJNPR]Google Scholar
Estes, W. K. (1984) Global and local control of choice behavior by cyclically varying outcome probabilities. Journal of Experimental Psychology: Learning, Memory, and Cognition 10:258–70. [WHM]Google Scholar
Farthing, G. W. & Opuda, M. J. (1973) cited in Honig, W. K., Studies of working memory in the pigeon. In: Cognitive processes in animal behavior, ed. Hulse, S. H., Fowler, H. F. & Honig, W. K.. Erlbaum Associates. [taJNPR]Google Scholar
Feldon, J. & Gray, J. A. (1979a) Effects of medial and lateral septal lesions on the partial reinforcement extinction effect at one trial a day. Quarterly Journal of Experimental Psychology 31:653–74. [rJNPR]Google Scholar
Feldon, J. & Gray, J. A. (1979b) Effects of medial and lateral septal lesions on the partial reinforcement extinction effect at short inter-trial intervals. Quarterly Journal of Experimental Psychology 31:675–90. [rJNPR]Google Scholar
Feldon, J., Rawlins, J. N. P. & Gray, J. A. (in press) Fornix-fimbria section and the partial reinforcement extinction effect. Experimental Brain Research. [rJNPR]Google Scholar
Franchina, J. J. & Brown, T. S. (1970) Response patterning and extinction in rats with hippocampal lesions. Journal of Comparative and Physiological Psychology 70:6672. [taJNPR]Google Scholar
Freeman, F. G. (1978) Cue utilization and hippocampal lesions in rats. Physiological Psychology 6:275–78. [rJNPR, MLW]Google Scholar
Freeman, F. C., Kramarcy, N. R. & Lee, J. (1973) Discrimination learning and stimulus generalization in rats with hippocampal lesions. Physiology and Behavior 11:273–75. [rJNPR]Google Scholar
Gade, A. (1982) Amnesia after operations on aneurysms of the anterior communicating artery. Surgical Neurology 18:4649. [HJM]Google Scholar
Gaffan, D. (1972) Loss of recognition memory in rats with lesions of the fornix. Neuropsychologia 10:327–41. [taJNPR]Google Scholar
Gaffan, D. (1974) Recognition impaired and association intact in the memory of monkeys after transection of the fornix. Journal of Comparative and Physiological Psychology 86:1100–9. [taJNPR, NJC, RH1D]Google Scholar
Gaffan, D. (1977) Recognition memory after short retention intervals in fornix-transected monkeys. Quarterly Journal of Experimental Psychology 29:577–88. [taJNPR]Google Scholar
Gaffan, D. (1982) Animal amnesia: Some disconnection syndromes? In: Neurobiology of the hippocampus, ed. Seifert, W.. Academic Press. [taJNPR, DTDJ]Google Scholar
Gaffan, D. (in press) Hippocampus: Memory habit and voluntary movement. Philosophical Transactions of the Royal Society of London Series B. [taJNPR]Google Scholar
Gaffan, D., Saunders, R. C.Gaffan, E. A., Harrison, S., Shields, C. & Owen, M. J. (1984) Effects of fornix transection upon associative memory in monkeys: Role of the hippocampus in learned action. Quarterly Journal of Experimental Psychology 36B:173221. [RHID]Google Scholar
Galef, B. G. Jr, & Wigmore, S. W. (1983) Transfer of information concerning distant foods: A laboratory investigation of the “information-centre” hypothesis. Animal Behaviour 31:748–58. [GW]Google Scholar
Gaston, K. E. (1978) Brain mechanisms of conditioned taste aversion learning: A review of the literature. Physiological Psychology 6:340–53. [taJNPR]Google Scholar
Geschwind, N. (1974) Late changes in the nervous system: An overview. In: Plasticity and recovery of function in the central nervous system, ed. Stein, D. G., Rosen, J. J. & Butters, N.. Academic Press. [HJM]Google Scholar
Gibbon, J. & Balsam, P. (1981) Spreading association in time. In: Autoshaping and conditioning theory, ed. Locurto, C. M., Terrace, H. S. & Gibbon, J.. Academic Press. [WHM]Google Scholar
Gibbon, J., Church, R. M. & Meek, W. H. (1984) Scalar timing in memory. In: Annals of the New York Academy of Sciences: Timing and time perception, vol. 423, ed. Gibbon, J. & Allan, L.. NYAS. [rJNPR, WHM]Google Scholar
Glanzer, M. & Razel, M. (1974) The size of the unit in short-term storage. Journal of Verbal Learning and Verbal Behavior 13:114–31. [taJNPR]Google Scholar
Glaser, G. H. (1980) Treatment of intractable temporal-lobe epilepsy (complex partial seizures) by temporal lobectomy. Annals of Neurology 8:455–59. [HJM]Google Scholar
Goddard, G. V. (1980) Component properties of the memory machine: Hebb revisited. In: The nature of thought: Essays in honor of D. O. Hebb, ed. Jusczyk, P. W. & Klein, R. M.. Erlbaum Associates. [NMcN]Google Scholar
Goldman-Rakic, P. S (1984) Modular organization of prefrontal cortex. Trends in Neurosciences 7:419–24. [HJM]Google Scholar
Goldman-Rakic, P. S., Selemon, L. D. & Schwartz, M. L. (1984) Dual pathways connecting the dorsolateral prefrontal cortex with the hippocampal formation and parahippocampal cortex in the rhesus monkey. Neuroscience 12:719–43. [HJM]Google Scholar
Grant, L. D. & Jarrard, L. E. (1968) Functional dissociation within hippocampus. Brain Research 10:392401. [HJM]Google Scholar
Gray, J. A. (1971) The psychology of fear and stress. Weidenfeld and Nicolson, and McGraw Hill. [DTDJ]Google Scholar
Gray, J. A. (1982a) The neuropsychology of anxiety: An enquiry into the functions of the septo-hippocampal system. Oxford University Press. [tarJNPR, JAG]Google Scholar
Gray, J. A. (1982b) Multiple book review of The neuropsychology of anxiety: An enquiry into the functions of the septo-hippocampal system. Behavioral and Brain Sciences 5:469534. [JCG, tarJNPR, DTDJ)Google Scholar
Gray, J. A. (1984) The hippocampus as an interface between cognition and emotion. In: Animal cognition, ed. Roitblat, H. L., Bever, T. G. & Terrace, H. S.. Erlbaum Associates. [RHID, JAG]Google Scholar
Gray, J. A., Feldon, J., Rawlins, J. N. P., Owen, S. & McNaughton, N. (1978) The role of the septo-hippocampal system and its noradrenergic afferents in behavioural responses to non-reward. In: Functions of the septo-hippocampal system, ed. Elliott, K. & Whelan, J.. Ciba Foundation Symposium No. 58 (New Series), Elsevier. [tarJNPR]Google Scholar
Gray, J. A. & McNaughton, N. (1983) Comparison between the behavioural effects of septal and hippocampal lesions: A review. Neuroscience and Biobehavioral Reviews 7:119–88. [tarJNPR, JAG, DTDJ, LEJ, NMcN]Google Scholar
Gray, J. A. & Rawlins, J. N. P. (in press) Comparator and buffer memory: An attempt to integrate two models of hippocampal function. In: The hippocampus. 2d ed., ed. Isaacson, R. L. & Pribram, K. H.. Plenum Press. [rJNPR, JAG]Google Scholar
Gross, C. G. (1973) Inferotemporal cortex and vision. In: Progress in physiological psychology, vol. 5, ed. Stellar, E. & Sprague, J. M.. Academic Press. [taJNPR]Google Scholar
Haig, K. A., Rawlins, J. N. P., Olton, D. S., Mead, A. & Taylor, B. (1983) Food searching strategies of rats: Variables affecting the relative strength of stay and shift strategies. Journal of Experimental Psychology: Animal Behavior Processes 9:337–48. [taJNPR]Google Scholar
Halgren, E. (1979) The human amnesic syndrome and homologies in cross-species hippocampal function. Behavioral and Brain Sciences 2:330–32. [ HJM]Google Scholar
Halgren, E., Babb, T. L. & Crandall, P. H. (1978) Activity of human hippocampal formation and amygdala neurons during memory testing. Electroencephalography and Clinical Neurophysiology 45:585601. [HJM]Google Scholar
Henke, P. G. (1974) Persistence of runway performance after septal lesions in rats. Journal of Comparative and Physiological Psychology 86:760–67. [tarJNPR]Google Scholar
Hirsh, R. (1980) The hippocampus, conditional operations, and cognition. Physiological Psychology 8:175–82. [RHID]Google Scholar
Holmes, J. E. (1979) Waves and cells, maps and memories, space and time. Behavioral and Brain Sciences 2:505–6. [HJM]Google Scholar
Honig, W. K. (1978) Studies of working memory in the pigeon. In: Cognitive processes in animal behavior, ed. Hulse, S. H., Fowler, H. F. & Honig, W. K.. Erlbaum Associates. [taJNPR, SAD]Google Scholar
Honig, W. K. (1984) Contributions of animal memory to the interpretation of animal learning. In: Animal cognition, ed. Roitblat, H. L., Bever, T. G. & Terrace, H. S.. Erlbaum Associates. [RHID]Google Scholar
Horel, J. A. (1978) The neuroanatomy of amnesia. Brain 101:403–5. [taJNPR]Google Scholar
Houk, J. C. (1980) Principle of system theory as applied to physiology. In: Medical physiology, 14th ed., vol. 1, ed. Mountcastle, V.. Mosby [SAD]Google Scholar
Hughey, D. J. & Koppenaal, R. J. (1982) The effects of hippocampal lesions in rats on the learning of a sequence of intra-maze stimuli. Paper presented at 12th annual meeting of The Society for Neuroscience, 10 31-11. 5, Minneapolis. [DJH]Google Scholar
Huppert, S. A. & Piercy, M. (1979) Normal and abnormal forgetting in organic amnesia: Effects of locus of lesion. Cortex 15:385–90. [GW]Google Scholar
Irle, E. & Markowitsch, H. J. (1982a) Widespread cortical projections of the hippocampal formation in the cat. Neuroscience 7:2637–47. [HJM]Google Scholar
Irle, E. & Markowitsch, H. J. (1982b) Connections of the hippocampal formation, mamillary bodies, anterior thalamus and cingulate cortex. Experimental Brain Research 47:7994. [HJM]Google Scholar
Isseroff, A. (1979) Limited recovery of spontaneous alternation after extensive hippocampal damage: Evidence for a memory impairment. Experimental Neurology 64:284–94. [taJNPR]Google Scholar
Jackson, W. J. (1968) A comment on “The hippocampus and behavior.” Psychological Bulletin 69:2022. [HJM]Google Scholar
Jackson, W. J. & Strong, P. N. (1969) Differential effects of hippocampal lesions upon sequential tasks and maze learning by the rat. Journal of Comparative and Physiological Psychology 68:442–50. [tarJNPR]Google Scholar
Jacobs, M. S., McFarland, W. L. & Morgane, P. J. (1979) The anatomy of the brain of the bottlenose dolphin (Tursiops truncatus). Rhinic lobe (rhinencephalon): The archicortex. Brain Research Bulletin 4, Suppl. 1:1108. [HJM]Google Scholar
Jarrard, L. E. (1968) Behavior of hippocampal lesioned rats in home cage and novel situations. Physiology and Behavior 3:6570. [rJNPR]Google Scholar
Jarrard, L. E. (1975) Role of interference in retention in rats with hippocampal lesions. Journal of Comparative and Physiological Psychology 89:400408. [taJNPR, LEJ]Google Scholar
Jarrard, L. E. (1980) Selective hippocampal lesions and behavior. Physiological Psychology 8:198206. [HJM]Google Scholar
Jarrard, L. E. (1983) Selective hippocampal lesions and behavior: Effects of kainic acid lesions on performance of place and cue tasks. Behavioral Neuroscience 97:873–89. [HJM]Google Scholar
Jarrard, L. E. (in press a) Selective hippocampal lesions and behavior: Implications for current research and theorizing. In: The hippocampus, 2nd ed., ed. Pribram, K. H. & Isaacson, R. L.. Plenum Press. [taJNPR, LEJ]Google Scholar
Jarrard, L. E. (in press b) Is the hippocampus really involved in memory? In: Brain plasticity, learning and memory, ed. Will, B. E. & Schmitt, P.. Plenum Press. [LEJ]Google Scholar
Jarrard, L. E., Feldon, J., Rawlins, J. N. P., Sinden, J. D. & Gray, J. A. (in preparation). [rJNPR]Google Scholar
Jarrard, L. E. & Isaacson, R. L. (1965) Runway response perseveration in the hippocampcct utilised rat: Determined by extinction variables. Nature 207:109–10. [taJNPR]Google Scholar
Jarrard, L. E., Isaacson, R. L. & Wickelgren, W. O. (1964) Effects of hippocampal ablation and intertrial interval on runway acquisition and extinction. Journal of Comparative and Physiological Psychology 57:442–44. [DTDJ]Google Scholar
Jarrard, L. E., Okaichi, H., Steward, O. & Goldschmidt, R. (1983) Hippocampal connections in the performance of place and cue tasks: Comparisons with damage to hippocampus. Society for Neuroscience Abstracts 9:638. [taJNPR]Google Scholar
Jarrard, L. E., Okaichi, H., Steward, O. & Goldschmidt, R. (1984) On the role of the hippocampal connections in the performance of place and cue tasks: Comparisons with damage to hippocampus. Behavioral Neuroscience 98:946–54. [LEJ]Google Scholar
Johnson, C. T., Olton, D. S., Gage, F. H. III & Jenko, P. G. (1977) Damage to hippocampus and hippocampal connections: Effects on DRL and spontaneous alternation. Journal of Comparative and Psychological Psychology 91:508–22. [tarJNPR]Google Scholar
Johnson, R. Jr. (1980) P300 amplitude and probabilistic judgments. In: Progress in brain research, vol. 54, ed. Kornhuber, H. H. & Deecke, L.. Elsevier. [SAD]Google Scholar
Jones, B. & Mishkin, M. (1972) Limbic lesions and the problem of stimulus-reinforcement associations. Experimental Neurology 36:362–77. [rJNPR, NJC]Google Scholar
Kahn, E. A. & Crosby, E. C. (1972) Korsakoff's syndrome associated with surgical lesions involving the mamillary bodies. Neurology 22:117–25. [HJM]Google Scholar
Kaplan, P. S. (1984) Importance of relative temporal parameters in trace autoshaping: From excitation to inhibition. Journal of Experimental Psychology: Animal Behavior Processes 10:113–26. [WHM]Google Scholar
Kesner, R. P. & Novak, J. M. (1982) Serial position curve in rats: Role of the dorsal hippocampus. Science 218:173–75. [tarJNPR, DTDJ, DPK, DSO]Google Scholar
Kimble, D. P. (1968) Hippocampus and internal inhibition. Psychological Bulletin 70:285–95. [taJNPR, LEJ]Google Scholar
Kimble, D. P. & BreMiller, R. (1981) Latent learning in hippocampal lesioned rats. Physiology and Behavior 26:1055–59. [DPK]Google Scholar
Kimble, D. P., Jordan, W. P. & BreMiller, R. (1982) Further evidence for latent learning in hippocampal-lesioned rats. Physiology and Behavior 29:401–7. [DPK]Google Scholar
Krane, R. V., Sinnamon, H. M. & Thomas, G. J. (1976) Conditioned taste aversions and neophobia in rats with hippocampal lesions. Journal of Comparative and Physiological Psychology 90:680–93. [rJNPR]Google Scholar
Laties, V. G., Weiss, B., & Weiss, A. B. (1969) Further observations on overt ‘mediating” behavior and the discrimination of time. Journal of the Experimental Analysis of Behavior 12:4357. [taJNPR]Google Scholar
Lett, B. T. (1975) Long delay learning in the T-maze. Learning and Motivation 6:8090. [taJNPR]Google Scholar
Lewis, D. J. (1979) Psychobiology of active and inactive memory. Psychological Bulletin 86:1054–83. [taJNPR]Google Scholar
Lieberman, D. A., McIntosh, D. C. & Thomas, G. V. (1979) Learning when reward is delayed: A masking hypothesis. Journal of Experimental Psychology: Animal Behavior Processes 5:224–42. [taJNPR]Google Scholar
Mackintosh, N. J. (1983) Conditioning and associative learning. Oxford University Press. [taJNPR]Google Scholar
Macmillan, A. St. C., Gray, J. A. & Ison, J.-R. (1973) An apparent new instance of stimulus intensity dynamism during discrimination of duration of repeating auditory stimuli. Quarterly Journal of Experimental Psychology 25:6270. [rJNPR]Google Scholar
Magleby, K. L. & Zengel, J. E. (1976) Augmentation: A process that acts to increase transmitter release at the frog neuromuscular junction. Journal of Physiology-London 257:449–70. [BLMcN]Google Scholar
Mahut, H. (1971) Spatial and object reversal learning in monkeys with partial temporal lobe ablation. Neuropsychologia 9:409–29. [taJNPR, NJC]Google Scholar
Mahut, H. & Cordeau, J. P. (1963) Spatial reversal deficit in monkeys with amygdalohippocampal ablations. Experimental Neurology 7:426–34. [taJNPR]Google Scholar
Mahut, H., Moss, M. & Zola-Morgan, S. (1981) Retention deficits after combined amygdalo-hippocampal and selective hippocampal resections in the monkey. Neuropsychologia 19:201–25. [taJNPR]Google Scholar
Mahut, H., Zola-Morgan, S. & Moss, M. (1982) Hippocampal resections impair associative learning and recognition memory in the monkey. Journal of Neuroscience 2:1214–29. [HJM]Google Scholar
Maki, W. S. (in press) Differential effects of electroconvulsive shock on concurrent spatial memories: “Old” memories are impaired while “new” memories are spared. Behavioral and Neural Biology. [WSM]Google Scholar
Maki, W. S., Beatty, W. W. & Clouse, B. A. (1984) Item and order information in spatial memory. Journal of Experimental Psychology: Animal Behavior Processes 10:437–52. [WSM]Google Scholar
Maki, W. S., Beatty, W. W., Hoffman, N., Bierley, R. A. & Clouse, B. A. (1984) Spatial memory over long retention intervals: Nonmemorial factors are not necessary for accurate performance on the radial arm maze by rats. Behavioral and Neural Biology 41:16. [WSM]Google Scholar
Maki, W. S., Brokofsky, S. & Berg, B. (1979) Spatial memory in rats: Resistance to retroactive interference. Animal Learning and Behavior 7:2530. [WSM]Google Scholar
Maki, W. S. & Hoffman, N. (1984) Effects of electroconvulsive shock upon proactively interfering spatial memories. Paper presented at the meeting of the Psychonomic Society, San Antonio. [WSM]Google Scholar
Markowitsch, H. J. (1982) Thalamic mediodorsal nucleus and memory: A critical evaluation of studies in animals and man. Neuroscience and Biobehavioral Reviews 6:351–80. [HJM]Google Scholar
Markowitsch, H. J. (1984) Can amnesia be caused by damage of a single brain structure? Cortex 20:2745. [HJM]Google Scholar
Markowitsch, H. J., Kessler, J. & Streicher, M. (1985) Consequences of serial cortical, hippocampal, and thalamic lesions and of different lengths of overtraining on the acquisition and retention of learning tasks. Behavioral Neuroscience 99:233–56. [HJM]Google Scholar
Marr, D. (1969) A theory for cerebellar cortex. Journal of Physiology-London 202:437–70. [BLMcN]Google Scholar
Marr, D. (1971) Simple memory: A theory for archicortex. Philosophical Transactions of the Royal Society of London Series B 262:2382. [tarJNPR, BLMcN]Google Scholar
McFarland, D. J., Kostas, J. & Drew, W. G. (1978) Dorsal hippocampal lesions: Effects of pre-conditioning CS exposure on flavor aversion. Behavioral Biology 22:398404. [taJNPR]Google Scholar
McGaugh, J. L. & Landfield, P. W. (1970) Delayed development of amnesia following electroconvulsive shock. Physiology and Behavior 5:1109–13. [WSM]Google Scholar
McGinn, C. (1982) The character of mind. Oxford University Press. [rJNPR]Google Scholar
McGowan, B. K., Hankins, W. G. & Garcia, J. (1972) Limbic lesions and control of the internal and external environment. Behavioral Biology 7:841–52. [taJNPR]Google Scholar
McIntyre, D. C. & Chew, G. L. (1983) Relations between social rank, submissive behavior, and brain catecholamine levels in ring-necked pheasants (Phasianus colchicus). Behavioral Neuroscience 97:595601. [HJM]Google Scholar
McNaughton, B. L. (1982) Long-term synaptic enhancement and short-term potentiation in rat fascia dentata act through different mechanisms. Journal of Physiology-London 324:249–62. [BLMcN]Google Scholar
McNaughton, B. L. & Barnes, C. A. (1979) Cooperativity in the generation of post-tetanic synaptic enhancement appears to require near simultaneity of afferent input. Society for Neuroscience Abstracts 5:631. [BLMcN]Google Scholar
McNaughton, B. L., Douglas, R. M. & Goddard, G. V. (1978) Synaptic enhancement in fascia dentata: Cooperativity among coactive afferents. Brain Research 157:277–93. [BLMcN]Google Scholar
McNaughton, N. (in press) The effects of systemic and intraseptal injections of sodium amylobarbitone on rearing and ambulation in rats. Australian Journal of Psychology. [NMcN]Google Scholar
McNaughton, N. & Gray, J. A. (1983) Pavlovian counterconditioning is unchanged by chlordiazepoxide or by septal lesions. Quarterly Journal of Experimental Psychology 35B:221–34. [taJNPR]Google Scholar
Means, L. W., Walker, D. W. & Isaacson, R. L. (1970) Facilitated single-alternation go, no-go acquisition following hippocampectomy in the rat. Journal of Comparative and Physiological Psychology 72:278–85. [MLW]Google Scholar
Means, L. W., Woodruff, M. L. & Isaacson, R. L. (1972) The effect of a twenty-four hour intertrial interval on the acquisition of spatial discrimination by hippocampally damaged rats. Physiology and Behavior 8:457–62. [taJNPR]Google Scholar
Meck, W. H. (1983) Selective adjustment of the speed of internal clock and memory processes. Journal of Experimental Psychology: Animal Behavior Processes 9:171201. [WHM]Google Scholar
Meck, W. H. (1985) Postreinforcement signal processing. Journal of Experimental Psychology: Animal Behavior Processes 11:5270. [WHM]Google Scholar
Meck, W. H. (submitted) Hippocampal function is required for feedback control of an internal clock's criterion. [WHM]Google Scholar
Meck, W. H. & Church, R. M. (in press) Cholinergic modulation of the content of temporal memory. Behavioral Neuroscience. [WHM]Google Scholar
Meck, W. H., Church, R. M. & Olton, D. S. (1984) Hippocampus, time, and memory. Behavioral Neuroscience 98:322. [tarJNPR, WHM]Google Scholar
Meck, W. H., Church, R. M. & Wenk, G. L. (submitted) Arginine vasopressin innoculates against age-related increases in sodium-dependent high affinity choline uptake and discrepancies in the content of temporal memory. [WHM]Google Scholar
Medin, D. L. (1977) Information processing and discrimination learning set. In: Behavioral primatology, vol. 1, ed. Schrier, A. M.. Erlbaum Associates. [taJNPR]Google Scholar
Medin, D. L. & Davis, R. T. (1974) Memory. In: Behavior of non-human primates. Modern research trends, vol. 5, ed. Schrier, A. M. & Stollnitz, F.. Academic Press. [taJNPR]Google Scholar
Mering, T. A. & Mukhin, E. I. (1973) Functional significance of the hippocampus. Physiology and Behavior 10:185–91. [taJNPR]Google Scholar
Mikulka, P. J. & Freeman, F. C. (1975) The effects of reinforcement delay and hippocampal lesions on the acquisition of a choice response. Behavioral Biology 15:473–77. [tarJNPR]Google Scholar
Miller, C. R., Elkins, R. L. & Peacock, L. J. (1971) Disruption of a radiation-induced preference shift by hippocampal lesions. Physiology and Behavior 6:283–85. [taJNPR]Google Scholar
Milner, B. (1959) The memory deficit in bilateral hippocampal lesions. Psychiatric Research Reports 11:4358. [taJNPR]Google Scholar
Milner, B. (1962) Les troubles de la mémoire accompagnent des lesions hippocampiques bilatérales. In: Physiologic de l'hippocampe. Centre Nationale de la Recherche Scientifique, Paris. [taJNPR]Google Scholar
Milner, B. (1968) Preface: Material specific and generalized memory loss. Neuropsychologia 6:175–79. [taJNPR, JAG]Google Scholar
Milner, B. (1970) Memory and the medial temporal regions of the brain. In: Biology of memory, ed. Pribram, K. H. & Broadbent, D. E.. Academic Press. [DTDJ]Google Scholar
Mishkin, M. (1954) Visual discrimination performance following partial ablations of the temporal lobe: 2. Ventral surface vs. hippocampus. Journal of Comparative and Physiological Psychology 47:187–93. [taJNPR]Google Scholar
Mishkin, M. (1978) Memory in monkeys severely impaired by combined but not separate removal of amygdala and hippocampus. Nature 273:297–98. [taJNPR, HJM]Google Scholar
Mishkin, M. & Delacour, J. (1975) An analysis of short-term visual memory in the monkey. Journal of Experimental Psychology: Animal Behavior Processes 1:326–34. [taJNPR]Google Scholar
Mishkin, M. & Petri, H. L. (1984) Memories and habits: Some implications for the analysis of learning and retention. In: Neuropsychology of memory, ed. Squire, L. R. & Butters, N.. Guilford Press. [GW]Google Scholar
Mishkin, M. & Pribram, K. H. (1954) Visual discrimination performance following partial ablations of the temporal lobe: 1. Ventral surface versus hippocampus. Journal of Comparative and Physiological Psychology 47:1420. [taJNPR]Google Scholar
Mishkin, M. & Weiskrantz, L. (1958) Effects of delaying reward on visual-discrimination performance in monkeys with frontal lesions. Journal of Comparative and Physiological Psychology 51:276–81. [taJNPR]Google Scholar
Moore, J. W. & Stickney, K. J. (1980) Formation of attentional-associative networks in real time: Role of the hippocampus and implications for conditioning. Physiological Psychology 8:207–17. [taJNPR]Google Scholar
Morgane, P. J., McFarland, W. L. & Jacobs, M. S. (1982) The limbic lobe of the dolphin brain: A quantitative cytoarchitectonic study. Journal für Hirnforschung 23:465552. [HJM]Google Scholar
Moss, M., Mahut, H. & Zola-Morgan, S. (1981) Concurrent discrimination learning of monkeys after hippocampal, entorhinal or fornix lesions. Journal of Neuroscience 1:227–40. [taJNPR]Google Scholar
Muramoto, O., Kuru, Y., Sugishita, M. & Toyokura, Y. (1979) Pure memory loss with hippocampal lesions. Archives of Neurology 36:5456. [rJNPR, HJM]Google Scholar
Murphy, H. & Brown, T. (1970) Effects of hippocampal lesions on simple and preferential consummately behavior in the rat. Journal of Comparative and Physiological Psychology 72:404–15. [rJNPR]Google Scholar
Murphy, L. R. & Brown, T. S. (1974) Hippocampal lesions and learned taste aversion. Physiological Psychology 2:6064. [taJNPR]Google Scholar
Newman, J. P., Corenstein, E. E. & Kelsey, J. E. (1983) Failure to delay gratification following septal lesions in rats: Implications for an animal model of disinhibitory psychopathology. Personality and Individual Differences 4:147–56. [taJNPR]Google Scholar
Niki, H. (1966) Response perseveration following the hippocampal ablation in the rat. Japanese Psychological Research 8:19. [taJNPR]Google Scholar
Nisbett, R. E. & Wilson, T. D. (1977) Telling more than we can know: Verbal reports on mental processes. Psychological Review 84:231–59. [CPS]Google Scholar
Novelly, R. A., Augustine, E. A., Mattson, R. H., Glaser, G. H., Williamson, P. D., Spencer, D. D. & Spencer, S. S. (1984) Selective memory improvement and impairment in temporal lobectomy for epilepsy. Annals of Neurology 15:6467. [HJM]Google Scholar
O'Keefe, J. & Nadel, L. (1978) The hippocampus as a cognitive map. Oxford University Press. [tarJNPR, DJH, LEJ, BLMcN, NMcN]Google Scholar
O'Keefe, J. & Nadel, L. (1979) Précis of O'Keefe & Nadel's The hippocampus as a cognitive map. Behavioral and Brain Sciences 2:487533. [HJM]Google Scholar
Olton, D. S. (1978) Characteristics of spatial memory. In: Cognitive processes in animal behavior, ed. Hulse, S. H., Fowler, H. & Honig, W. K.. Erlbaum Associates. [JAG]Google Scholar
Olton, D. S. (1983) Memory functions and the hippocampus. In: Neurobiology of the hippocampus, ed. Seifert, W.. Academic Press. [DJH]Google Scholar
Olton, D. S., Becker, J. T. & Handelmann, G. E. (1979) Hippocampus. space, and memory. Behavioral and Brain Sciences 2:313–65. [tarJNPR, RHID, JAG, DJH, DTDJ, LEJ. HJM. WHM]Google Scholar
Olton, D. S., Meck, W. H. & Church, R. M. (submitted) Separation of hippocampal and amygdaloid involvement in temporal memory dysfunctions. [WHM]Google Scholar
Olton, D. S. & Samuelson, R. J. (1976) Remembrance of places passed: Spatial memory in rats. Journal of Experimental Psychology: Animal Behavior Processes 2:97116. [taJNPR, WSM]Google Scholar
Olton, D. S., Shapiro, N. C. & Hulse, S. H. (1984) Working memory and serial patterns. In: Animal cognition, ed. Roitblat, H., Terrace, H. & Bever, T.. Erlbaum Associates. [WSM]Google Scholar
Olton, D. S., Walker, J. A. & Cage, F. H. (1978) Hippocampal connections and spatial discrimination. Brain Research 139:295308. [taJNPR]Google Scholar
Orbach, J., Milner, B. & Rasmussen, T. (1960) Learning and retention in monkeys after amygdala-hippocampus resection. Archives of Neurology 3:230–51. [taJNPR]Google Scholar
Oscar-Berman, M., Zola-Morgan, S. M., Oberg, R. G. E. & Bonner, R. T. (1982) Comparative neuropsychology and Korsakoff's syndrome: 3. Delayed response, delayed alternation and DRL performance. Neuropsychologia 20:187202. [taJNPR]Google Scholar
Overton, D. A. (1964) State-dependent or “dissociated” learning produced with pentobarbital. Journal of Comparative and Physiological Psychology 57:312. [rJNPR]Google Scholar
Owen, M. J. & Butler, S. R. (1981) Amnesia after transection of the fornix in monkeys: Long-term memory impaired, short-term memory intact. Behavioural Brain Research 3:115–23. [taJNPR]Google Scholar
Parkin, A. J. (1984) Amnesic syndrome: A lesion-specific disorder. Cortex 20:479508. [HJM]Google Scholar
Pavlov, I. P. (1928) Conditioned reflexes. Translated by Gantt, W. H.. Liverwright. [taJNPR]Google Scholar
Pellegrino, L. J. & Clapp, D. F. (1971) Limbic lesions and externally cued DRL performance. Physiology and Behavior 7:863–68. [tarJNPR]Google Scholar
Penfield, W. & Mathieson, G. (1974) Memory: Autopsy findings and comments on the role of hippocampus in experiential recall. Archives of Neurology 31:145–54. [HJM]Google Scholar
Perin, C. T. (1943) A quantitative investigation of the delay-of-reinforcement gradient. Journal of Experimental Psychology 32:3751. [taJNPR]Google Scholar
Poletti, C. E. & Sujatanoud, M. (1980) Evidence for a second hippocampal efferent pathway to hypothalamus and basal forebrain comparable to fornix system: A unit study in the awake monkey. Journal of Neurophysiology 44:514–31. [HJM]Google Scholar
Postman, L. (1969) Mechanisms of interference in forgetting. In: The pathology of memory, ed. Talland, G. A. & Pribram, K.. Academic Press. [LEJ]Google Scholar
Premack, D. (1983) The codes of man and beasts. Behavioral and Brain Sciences 6:125–67. [RHID]Google Scholar
Pribram, K. H. & Bagshaw, M. H. (1953) Further analysis of the temporal lobe syndrome utilizing fronto-temporal ablations. Journal of Comparative Neurology 99:347–75. [taJNPR]Google Scholar
Pribram, K. H., Wilson, W. A. & Connors, J. (1962) Effect of lesions of the medial forebrain on alternation behavior of rhesus monkeys. Experimental Neurology 6:3647. [taJNPR]Google Scholar
Racine, R. J. & Kimble, D. P. (1965) Hippocampal lesions and delayed alternation in the rat. Psychonomic Science 3:285–86. [taJNPR]Google Scholar
Ranck, J. B. Jr. (1978) In: Functions of the septo-hippocampal system, ed. Elliott, K. & Whelan, J.. Ciba Foundation Symposium No. 58 (New Series). Elsevier. [rJNPR]Google Scholar
Rao, G., McNaughton, B. L. & Barnes, C. A. (1984) Retrograde spatial amnesia gradient following hippocampal LTE. Society for Neuroscience Abstracts 10:126. [BLMcN]Google Scholar
Rawlins, J. N. P., Feldon, J. & Butt, S. (1985) The effects of delaying reward on choice preference in rats with hippocampal or selective septal lesions. Behavioural Brain Research 15:191203. [tarJNPR]Google Scholar
Rawlins, J. N. P., Feldon, J. & Gray, J. A. (1980) The effects of hippocampectomy and of fimbria section upon the partial reinforcement extinction effect in rats. Experimental Brain Research 38:273–83. [tarJNPR, DTDJ]Google Scholar
Rawlins, J. N. P., Feldon, J. & Gray, J. A. (1982) Behavioral effects of hippocampectomy depend on inter-event intervals. Society for Neuroscience Abstracts 8:22. [taJNPR]Google Scholar
Rawlins, J. N. P., Feldon, J., Ursin, H. & Gray, J. A. (in press) Resistance to extinction after schedules of partial delay or partial reinforcement in rats with hippocampal lesions. Experimental Brain Research. [taJNPR]Google Scholar
Rawlins, J. N. P. & Creen, K. F. (1977) Lamellar organisation in the rat hippocampus. Experimental Brain Research 28:335–44. [HJM]Google Scholar
Rawlins, J. N. P. & Olton, D. S. (1982) The septo-hippocatnpal system and cognitive mapping. Behavioural Brain Research 5:331–58. [taJNPR]Google Scholar
Rawlins, J. N. P. & Tsaltas, E. (1983) The hippocampus, time and working memory. Behavioural Brain Research 10:233–62. [tarJNPR, JAG, MLW]Google Scholar
Rawlins, J. N. P., Winocur, G. & Cray, J. A. (1983) The hippocampus, collateral behavior and timing. Behavioral Neuroscience 97:857–72. [tarJNPR]Google Scholar
Reed, S. K. & Johnsen, J. A. (1977) Memory for problem solutions. In: The psychology of learning and motivation, vol. II, ed. Bower, C.. Academic Press. [taJNPR]Google Scholar
Revusky, S. (1971) The role of interference in association over a delay. In: Animal memory, ed. Honig, W. K. & James, P. H. R.. Academic Press. [taJNPR]Google Scholar
Rickert, E. J., Bennett, T. L., Anderson, G. J., Corbett, J. & Smith, L. (1973) Differential performance of hippocampally ablated rats on nondiscriminated and discriminated DRL schedules. Behavioral Biology 8:597609. [tarJNPR]Google Scholar
Roberts, W. A. (1974) Short-term memory in the pigeon: Effects of repetition and spacing. Journal of Experimental Psychology 94:7483. [taJNPR]Google Scholar
Roberts, W. A. (1979) Spatial memory in the rat on a hierarchical maze. Learning and Motivation 10:117–40. [RHID, WSM]Google Scholar
Roberts, W. A. (1981) Retroactive inhibition in rat spatial memory. Animal Learning and Behavior 9:566–74. [RHID]Google Scholar
Roberts, W. A. (1984) Some issues in animal spatial memory. In: Animal cognition, ed. Roitblat, H. L.. Bever, T. G. & Terrace, H. S.. Erlbaum Associates. [RHID]Google Scholar
Roberts, W. A. & Dale, R. H. I. (1981) Remembrance of places lasts: Proactive inhibition and patterns of choice in rat spatial memory. Learning and Motivation 12:261–81. [WSM]Google Scholar
Roberts, W. A. & Kraemer, P. J. (1982) Some observations of the effects of intertrial interval and delay on delayed matching to sample in pigeons. Journal of Experimental Psychology: Animal Behavior Processes 8:342–53. [WHM]Google Scholar
Roitblat, H. L. (1982) The meaning of representation in animal memory. Behavioral and Brain Sciences 5:353406. [RHID]Google Scholar
Roitblat, H. L. & Scopatz, R. A. (1983) Sequential effects in pigeon delayed matching-to-sample performance. Journal of Experimental Psychology: Animal Behavior Processes 9:202–21. [taJNPR]Google Scholar
Ross, R. T., Orr, W. B., Holland, P. C. & Berger, T. W. (1984) Hippocampectomy disrupts acquisition and retention of learned conditional responding. Behavioral Neuroscience 98:211–25. [taJNPR, WHM]Google Scholar
Saffran, E. M. & Marin, O. S. M. (1975) Immediate memory for word lists and sentences in a patient with deficient auditory short-term memory. Brain and Language 2:420–33. [taJNPR]Google Scholar
Schenk, F. & Morris, R. G. M. (in press) Dissociation between components of spatial memory in rats after recovery from the effects of retrohippocampal lesions. Experimental Brain Research. [rJNPR, NJC]Google Scholar
Schmaltz, L. W. & Theios, J. (1972) Acquisition and extinction of a classically conditioned response in hippocampectomized rabbits (Oryctolagus cuniculus). Journal of Comparative and Physiological Psychology 79:328–33. [tarJNPR]Google Scholar
Scoville, W. B. & Milner, B. (1957) Loss of recent memory after bilateral hippocampal lesions. Journal of Neurology, Neurosurgery, and Psychiatry 39:1121. [MLW]Google Scholar
Shallice, T. & Warrington, E. K. (1970) Independent functioning of verbal memory stores: A neuropsychological study. Quarterly Journal of Experimental Psychology 22:261–73. [taJNPR]Google Scholar
Sharp, P. E., McNaughton, B. L. & Barnes, C. A. (1983) Spontaneous synaptic enhancement in hippocampi of rates exposed to a spatially complex environment. Society for Neuroscience Abstracts 9:647. [taJNPR, BLMcN]Google Scholar
Sharp, P. E., McNaughton, B. L. & Barnes, C. A. (Unpublished observations). [BLMcN]Google Scholar
Shavalia, D. A., Dodge, A. M. & Beatty, W. M. (1981) Time-dependent effects of ECS on spatial memory in rats. Behavioral and Neural Biology 31:261–73. [WSM]Google Scholar
Shimp, C. P. (1983) The local organization of behavior: A dissociation lxetween a pigeon's behavior and a self-report of that behavior. Journal of the Experimental Analysis of Behavior 39:6168. [CPS]Google Scholar
Shimp, C. P. (1984a) Timing, learning and forgetting. In: Timing and time perception, ed. Gibbon, J. & Allan, L.. NYAS. [CPS]Google Scholar
Shimp, C. P. (1984b) Relations between memory and operant behavior, according to an associative learner (AL). Canadian Journal of Psychology 38:269–84. [CPS]Google Scholar
Sidman, M., Stoddard, L. T. & Mohr, J. P. (1968) Some additional quantitive observations of immediate memory in a patient with bilateral hippocampal lesions. Neuropsychologia 6:245–54. [taJNPR, JAG]Google Scholar
Silva, M., Bouzrara, A., Finger, S. & Almli, C. R. (1984) Effects of early protein undernutrition and later frontal cortex damage on habit acquisition and reversal learning in the rat. Physiological Psychology 12:141–46. [HJM]Google Scholar
Sinden, J. D., Rawlins, J. N. P., Gray, J. A. & Jarrard, L. E. (in press) Selective cytotoxic lesions of the hippocampal formation and DRL performance in rats. Experimental Brain Research. [rJNPR, LEJ]Google Scholar
Smith, M. C. (1968) CS-US interval and US intensity in classical conditioning of the rabbit's nictitating menbrane response. Journal of Comparative and Physiological Psychology 66:679–87. [taJNPR]Google Scholar
Solomon, P. R. (1977) Role of the hippocampus in blocking and conditioned inhibition of the rabbit's nictitating membrane response. Journal of Comparative and Physiological Psychology 91:407–17 [taJNPR]Google Scholar
Solomon, P. R. (1980) A time and a place for everything? Temporal processing views of hippocampal function with special reference to attention. Physiological Psychology 8:254–61. [taJNPR, RHID]Google Scholar
Spence, K. W. (1947) The role of secondary reinforcement in delayed-reward learning. Psychological Review 54:18. [taJNPR]Google Scholar
Squire, L. R. (in press) Memory and the brain. In: Brain, cognition, and education, ed. Friedman, S., Klivington, K. & Peterson, R.. Academic Press. [GJM]Google Scholar
Squire, L. R. & Cohe, N. J. (1979) Hippocampal lesions: Reconciling the findings in rodents and man. Behavioral and Brain Sciences 2:345–46. [HJM]Google Scholar
Squire, L. R. & Cohe, N. J. (1984) Human memory and amnesia. In: Neurobiology of learning and memory, ed. Lynch, G., McGaugh, J. L. & Weinberger, N. M.. Guilford Press. [HJM]Google Scholar
Squire, L. R., Cohen, N. J. & Nadel, L. (1984) The medial temporal region and memory consolidation: A new hypothesis. In Memory Consolidation, ed. Weingartner, H. & Parker, E.. Erlbaum Associates. [GW]Google Scholar
Squire, L. R. & Moore, R. Y. (1979) Dorsal thalamic lesion in a noted case of human memory dysfunction. Annals of Neurology 6:503–6 [HJM]Google Scholar
Squires, K. C., Wickens, C., Squires, N. K. & Donchin, E. (1976) The effect of stimulus sequence on the waveform of the cortical event-related potential. Science 193:1142–46. [SAD]Google Scholar
Staddon, J. E. R. (1983) Adaptive behavior and learning. Cambridge University Press. [RHID]Google Scholar
Stephan, H. (1975) Allocortex. Handbuch der mikroskopischen Anatomic des Menschen, vol. 4, part 9. Springer. [HJM]Google Scholar
Stephan, H. (1983) Evolutionary trends in limbic structures. Neuroscience and Biobehavioral Reviews 7:367–74. [HJM]Google Scholar
Stevens, R. (1973) Probability discrimination learning in hippocampectomized rats. Physiology and Behavior 10:1023–27. [taJNPR]Google Scholar
Stevens, R. & Cowey, A. (1972) Enhanced alternation learning in hippocampectomized rats by means of added light cues. Brain Research 46:122. [rJNPR]Google Scholar
Stevens, R. & Cowey, A. (1973) Effects of dorsal and ventral hippocampal lesions on spontaneous alternation, learned alternation and probability learning in rats. Brain Research 52:203–24. [rJNPR]Google Scholar
Still, A. W. (1974) The effect of ECS upon spontaneous alternation in rats. Physiology and Behavior 12:301–4. [WSM]Google Scholar
Swanson, A. M. & Isaacson, R. L. (1969) Hippocampal lesions and the frustration effect in rats. Journal of Comparative and Physiological Psychology 68:562–67. [NMcN]Google Scholar
Swanson, L. W. (1979) The hippocampus: New anatomical insights. Trends in Neurosciences 2:912. [LEJ]Google Scholar
Teyler, T. J. & DiScenna, P. (1984) The topological anatomy of the hippocampus: A clue to its function. Brain Research Bulletin 12:711–19. [HJM]Google Scholar
Tinklepaugh, O. L. (1928) An experimental study of representative factors in monkeys. Journal of Comparative and Physiological Psychology 8:197236. [taJNPR]Google Scholar
Tinklepaugh, O. L. (1932) Multiple delayed reaction with chimpanzees and monkeys. Journal of Comparative and Physiological Psychology 13:207–43. [taJNPR]Google Scholar
Tulving, E. (1984) Prècis of Elements of Episodic memory. Behavioral and Brain Sciences 7:223–68. [RHID]Google Scholar
Vandercar, D. H. & Schneiderman, N. (1967) Interstimulus interval functions in different response systems during classical discrimination conditioning of rabbits. Psychonomic Science 9:910. [taJNPR, DPK]Google Scholar
Vanderwolf, C. H., Kramis, R., Gillespie, L. A. & Bland, B. H. (1975) Hippocampal rhythmical slow activity and neocortical low voltage fast activity: Relations to behavior. In: The hippocampus, vol. 2. Neurophysiology and behavior, ed. Isaacson, R. L. & Pribram, K. H.. Plenum Press. [RHID]Google Scholar
Wagner, A. R. (1981) SOP: A model of automatic memory processing in animal behavior. In: Information processing in animals: Memory mechanisms, ed. Spear, N. E. & Miller, R. R.. Erlbaum Associates. [WSM]Google Scholar
Wagner, A. R., Rudy, J. W. & Whitlow, J. W. (1973) Rehearsal in animal conditioning. Journal of Experimental Psychology Monograph 97:404–26. [taJNPR]Google Scholar
Walker, D. W., Messer, L. C., Freund, G. & Means, L. W. (1972) Effect of hippocampal lesions and intertrial interval on single-alternation performance in the rat. Journal of Comparative and Physiological Psychology 80:469–77. [taJNPR]Google Scholar
Wallace, J. E., Krauter, E. E. & Campbell, B. A. (1980) Animal models of declining memory in the aged: Short-term and spatial memory in the aged rat. Journal of Gerontology 35:355–63. [ WSM]Google Scholar
Warrington, E. K. & Weiskrantz, L. (1982) Amnesia: A disconnection syndrome? Neuropsychologia 20:233–48. [taJNPR, DPK]Google Scholar
Watanabe, T. & Niki, H. (1985) Hippocampal unit activity and delayed response in the monkey. Brain Research 325:241–54. [HJM]Google Scholar
Waxler, M. & Rosvold, H. E. (1970) Delayed alternation in monkeys after removal of the hippocampus. Neuropsychologia 8:137–49. [taJNPR]Google Scholar
Weiskrantz, L. (1982) Comparative aspects of studies of amnesia. Philosophical Transactions of the Royal Society of London Series B 298:97109. [taJNPR]Google Scholar
Weiskrantz, L. & Warrington, E. K. (1975) The problem of the amnesic syndrome in man and animals. In: The hippocampus, vol. 2. Neurophysiology and behavior, ed. Isaacson, R. L. & Pribram, K. H.. Plenum Press. [rJNPR, DTDJ, LEJ]Google Scholar
Weisz, D. J., Solomon, P. R. & Thompson, R. F. (1980) The hippocampus appears necessary for trace conditioning. Bulletin of the Psychonomic Society Abstracts, 21st Annual Meeting, No. 194. [taJNPR]Google Scholar
West, M. O., Christian, E. P., Robinson, J. H. & Deadwyler, S. A. (1982) Evoked potentials in the dentate gyrus reflect the retention of past sensory events. Neuroscience Letters 28:319–24. [SAD]Google Scholar
Wilson, C. L., Babb, T. L.Halgren, E. & Crandall, P. H. (1983) Visual receptive fields and response properties of neurons in human temporal lobe and visual pathways. Brain 106:473502. [HJM]Google Scholar
Winocur, G. (1979) Effects of interference on discrimination learning and recall by rats with hippocampal lesions. Physiology & Behavior 22:339–45. [LEJ, GW]Google Scholar
Winocur, G. (1980) The hippocampus and cue utilization. Physiological Psychology 8:280–88. [RHID]Google Scholar
Winocur, G. (in press) The hippocampus and thalamus: Their roles in short and long-term memory and effects of interference. Behavioural Brain Research [GW]Google Scholar
Winocur, G. & Bindra, D. (1976) Effects of additional cues on passive avoidance learning and extinction in rats with hippocampal lesions. Physiology and Behavior 17:915–20. [taJNPR]Google Scholar
Winocur, G. & Breckenridge, C. B. (1973) Cue-dependent behavior of hippocampally damaged rats in a complex maze. Journal of Comparative and Physiological Psychology 82:512–22. [taJNPR]Google Scholar
Winocur, G. & Mills, J. A. (1969) Hippocampus and septum in response inhibition. Journal of Comparative and Physiological Psychology 67:352–57. [NMcN]Google Scholar
Winocur, G. & Olds, J. (1978) Effects of context manipulation on memory and reversal learning in rats with hippocampal lesions. Journal of Comparative and Physiological Psychology 92:312–21. [taJNPR, GW]Google Scholar
Winocur, G. & Weiskrantz, L. (1976) An investigation of paired-associate learning in amnesic patients. Neuropsychologia 14:97110. [LEJ]Google Scholar
Woodruff, M. L. & Isaacson, R. L. (1972) Discrimination learning in animals with lesions of hippocampus. Behavioral Biology 7:489501. [rJNPR, MLW]Google Scholar
Woodruff, M. L., Means, L. W. & Isaacson, R. L. (1973) Deficient go, no-go brightness discrimination in rats following hippocampal lesions. Physiological Psychology 1:8588. [rJNPR, MLW]Google Scholar
Woodruff, M. L., Schneiderman, B. & Isaacson, R. L. (1972) Impaired acquisition of a simultaneous brightness discrimination by cortically and hippocampally lesioned rats. Psychonomic Science 27:269–71. [rJNPR]Google Scholar
Woods, B. T., Schoene, W. & Kneisley, L. (1982) Are hippocampal lesions sufficient to cause lasting amnesia? Journal of Neurology. Neurosurgery, and Psychiatry 45:243–47. [HJM]Google Scholar
Woody, C. D. (1982) Memory, learning, and higher function. Springer-Verlag. [SAD]Google Scholar
Worsham, R. W. & D'Amato, M. R. (1973) Ambient light, white noise, and monkey vocalization as sources of interference in visual short-term memory of monkeys. Journal of Experimental Psychology 99:99105. [taJNPR]Google Scholar
Wright, D. K. (1974) Differentiating stimulus and storage hypotheses of state-dependent learning. Federation Proceedings 33:1797–99. [rJNPR]Google Scholar
Wycis, H. T. (1972) The role of stereotaxic surgery in the compulsive state. In: Psychosurgery, ed. Hitchcock, E., Laitinen, L. & Vaerent, K.. C. C. Thomas. [HJM]Google Scholar
Yerkes, R. M. & Yerkes, D. N. (1928) Concerning memory in the chimpanzee. Journal of Comparative and Physiological Psychology 8:237–71. [taJNPR]Google Scholar
Zangwill, O. L. (1946) Some qualitative observations on verbal memory in cases of cerebral lesion. British Journal of Psychology 37:819. [taJNPR]Google Scholar
Zola-Morgan, S., Dabrowska, J., Moss, M. & Mahut, H. (1983) Enhanced preference for perceptual novelty in the monkey after section of the fornix but not after ablation of the hippocampus. Neuropsychologia 21:433–54. [taJNPR]Google Scholar
Zola-Morgan, S., Squire, L. R. & Mishkin, M. (1982) The neuroanatomy of amnesia: Amygdala-hippocampus vs. temporal stem. Science 218:1337–39. [taJNPR]Google Scholar