Abstract
Independent groups of Sprague-Dawley rats were found to acquire a win-stay, but not a win-shift, escape resporse in a circular water maze in each of three experiments that varied with respect to swim time and distance prior to escape following an incorrect first choice. The subjects were given pairs of trials: an information trial and a test trial, separated by 10 min. On the information trial the camouflaged escape platform was randomly placed in one of two positions. On the test trial the platform was placed in the same position for the win-stay task and in the opposite position for the win-shift task. Animals that did not acquire either the stay or the shift response perseverated in their responses, consistently going to the same escape location first on both information and test trials. In the fourth experiment, in which win-shift, win-stay, and perseveration all led to escape, all rats perseverated in their responses. It was concluded that response perseveration and win-stay are more natural responses than win-shift for rats in a water escape situation. This finding contrasts with the spontaneous alternation and readily acquired win-shift behavior previously demonstrated in rodents in exploratory and appetitive situations.
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References
Berlyne, D. P. (1960).Conflict, arousal and curiosity. New York: McGraw-Hill.
Burešová, O., Bureš, J., Oitzl, M. S., &Zahalka, A. (1985). Radial maze in the water tank: An aversively motivated spatial working memory task.Physiology & Behavior,34, 1003–1005.
Dember, W. N., &Earl, R. W. (1957). Analysis of exploratory manipulatory, and curiosity behavior.Psychological Review,64, 91–96.
Douglas, R. J. (1966). Cues for spontaneous alternation.Journal of Comparative & Physiological Psychology,62, 171–183.
Gaffan, E. A., &Davies, J. (1981). The role of exploration in win-shift and win-stay performance on a radial maze.Learning & Motivation,12, 282–299.
Gellermann, L. W. (1933). Chance orders of alternating stimuli in visual discrimination experiments.Journal of Genetic Psychology,42, 206–208.
Glanzer, M. (1958). Curiosity, exploratory drive, and stimulus satiation.Psychological Bulletin,55, 302–315.
Mactutus, C. F., &Murray, D. L. (1986). Spatial memory: Win-stay vs. win-shift strategies.Society for Neuroscience Abstracts,12, 520.
Means, L. W., Harrell, T. H., Mayo, E. S., &Alexander, G. B. (1974). Effects of dorsomedial thalamic lesions on spontaneous alternation, maze activity and runway performance in the rat.Physiology & Behavior,12, 973–979.
Means, L. W., Leander, J. D., &Isaacson, R. L. (1971). The effects of hippocampectomy on alternation behavior and response to novelty.Physiology & Behavior,6, 17–22.
Mitchell, D., Koleszar, A. S., &Scopatz, R. A. (1984). Arousal and T-maze choice behavior in mice: A convergent paradigm for neophobia constructs and optimal arousal.Learning & Motivation,15, 287–301.
Morris, R. G. M. (1981). Spatial localisation does not depend on the presence of local cues.Learning & Motivation,12, 239–260.
Morris, R. (1984). Developments of a water-maze procedure for studying spatial learning in the rat.Journal of Neuroscience Methods,11, 47–60.
Olton, D. S., &Coluson, C. (1979). Intramaze cues and “odor trails” fail to direct choice behavior on an elevated maze.Animal Learning & Behavior,7, 221–223.
Olton, D. S., Handelmann, G. E., &Walker, J. A. (1981). Spatial memory and food searching strategies. In A. C. Kamil & T. Sargent (Eds.),Foraging behavior: Ecological, ethological and psychological approaches. New York: Garland STPM Press.
Olton, D. S., &Schlosberg, P. (1978) Food-searching strategies in young rats. Win-shift predominates over win-stay.Journal of Comparative & Physiological Psychology,92, 609–618.
Sheffield, F. D., &Temmer, H. W. (1950). Relative resistance to extinction of escape training and avoidance training.Journal of Experimental Psychology,40, 287–298.
Solomon, R. L., Kamin, K. J., &Wynne, L. C. (1953). Traumatic avoidance learning: The outcomes of several extinction procedures with dogs.Journal of Abnormal Social Psychology,48, 291–302.
Stanton, M. E., Thomas, G. J., &Brito, G. N. (1984). Posterodorsal septal lesions impair performance on both shift and stay working memory tasks.Behavioral Neuroscience,3, 405–415.
Sutherland, R. J., &Linggard, R. (1982). Being there: A novel demonstration of latent spatial learning in the rat.Behavioral & Neural Biology,36, 103–107.
Sutherland, R. J., Whishaw, I. Q., &Kolb, B. (1983). A behavioural analysis of spatial localization following electolytic, kainate- or colchicine-induced damage to the hippocampal formation in the rat.Behavioural Brain Research,1, 133–153.
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Means, L.W. Rats acquire win-stay more readily than win-shift in a water escape situation. Animal Learning & Behavior 16, 303–311 (1988). https://doi.org/10.3758/BF03209081
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DOI: https://doi.org/10.3758/BF03209081