Abstract
The effects of footshock and various light-spot models on the shuttling activity of mice were examined in a passive avoidance situation. It was found that mild footshocks elicited initial exploration followed by an increased tendency to escape from the compartment in which the shocks were administered. An encounter with models, consisting of various numbers of small yellow lights, without footshock did not cause significant differences in shuttling activity. But if the models were paired with footshock, a tendency to explore during the first trial, high readiness to escape, and avoidance learning were found. These were characterized by a temporary increase in number of gate crossings, a decrease in the time spent in the shocked compartment, and a considerable increase in latency to enter the shocked compartment. The most effective model had two horizontally arranged yellow lights, which may share some characteristics with eye-like patterns.
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References
Altbacker, V., &Csannyi, V. (1990). The role of eyespots in predator recognition and antipredatory behaviour of the paradise fish,Macropodus opercularis L.Ethology,85, 51–57.
Anisman, H., &Wahlsten, D. (1974). Response initiation and directionality as factors influencing avoidance performance.Journal of Comparative & Physiological Psychology,87, 1119–1128.
Arnold, S. J., &Bennett, A. F. (1984). Behavioural variation in natural populations III: Antipredator displays in the garter snakeThamnopis radix.Animal Behaviour,32, 1108–1118.
Blanchard, D. C., &Blanchard, R. J (1990). Effects of ethanol. benzodiazepines and serotonin compounds on ethopharmacological models of anxiety. In N. McNaughton & G. Andrews (Eds.),Anxiety (pp. 188–199). Otago, New Zealand: University of Otago Press.
Blanchard, R. J., &Blanchard, D. C. (1971). Defensive reactions in the albino rat.Learning & Motivation,2, 351–362.
Blanchard, R. J., &Blanchard, D. C. (1989a). Antipredator defensive behaviors in a visible burrow system.Journal of Comparative Psychology,103, 70–82.
Blanchard, R. J., &Blanchard, D. C. (1989b). Attack and defense in rodents as ethoexperimental models for the study of emotion.Psychopharmacology & Biological Psychiatry,13, 3–14.
Blanchard, R. J., Blanchard, D. C., &Hori, K (1989). Ethoexperimental approaches to the study of defensive behavior. In R. J. Blanchard, P. F. Brain, D. C. Blanchard, & S. Panrmigiani (Eds.),Ethoexperimental approaches to the study of behavior (pp. 114–136). Dordrecht: Klüwer.
Bolles, R. C. (1970). Species-specific defense reactions and avoidance learning.Psychological Review,77, 32–48.
Catarelli, M., &Vigouroux, M. (1981). Evaluation of emotional reactions of the rat elicited by biologically meaningful odorants during operant behavior.Physiology & Behavior,27, 445–456.
Chiszar, D. (1975). Laboratory mice (Mus musculus, C57/BL 6J) do not exhibit fear in the presence of a rattlesnake.Bulletin of the Psychonomic Society,6, 377–378.
Coss, R. G. (1978). Perceptual determinations of gaze aversion by the lesser mouse lemur,Microcebus murimus: The role of two facing eyes.Behaviour,64, 248–270.
Coss, R. G. (1979). Delayed plasticity of an instinct: Recognition and avoidance of two facing eyes by the jewel fish.Developmental Psychobiology,12, 335–345.
Coss, R. G. (1991). Evolutionary persistence of memory-like processes.Concepts in Neuroscience,2, 129–168.
Csányi, V. (1985). Ethological analysis of predator avoidance by the paradise fish. (Macropodus opercutaris L.): I. Recognition and learning of predators.Behaviour,92, 227–240.
Csanyi, V. (1986). Ethological analysis of the predator avoidance by the paradise fish (Macropodus opecutaris L.): II. Key stimuli in avoidance learning.Animal Learning & Behavior,14, 101–109.
Csanyi, V., Csizmadia, G., &Miklósi, A. (1989). Long term memory and recognition of another species in the paradise fish.Animal Behaviour,37, 908–911.
Csanyi, V., &Gervai, J. (1986). Behavior-genetic analysis of the paradise fish (Macropodus opercularis): 11. Passive avoidance learning in inbred strains.Behavior Genetics,16, 553–557.
Csányi, V., &Lovász, F. (1987). Key stimuli and the recognition of the physical environment by the paradise fish (Macropodus operculars).Animal Learning & Behavior,15, 379–381
Curio, E. (1975). The functional organization of antipredator behaviour in the pied flycatcher: A study of avian visual perception.Animal Behaviour,23, 1–45.
Curio, E., Ernst, K., &Vieth, W. (1978). The adaptive significance of avia mobbing: II. Cultural transmission of enemy recognition in blackbirds: Effectiveness and some constraints.Zeitschrift für Tierpsychologie,48, 184–202.
Dickman, C. R., &Doncaster, C. P. (1984). Responses of small mammals to red fox (Vulpes vulpes) odor.Journal of Zoology,204. 521–532.
Ewert, J. P., &Traud, R. (1980). Releasing stimuli for anti-predator behaviour in the common toad (Bufo bufo).Behaviour,68, 170–180.
Fanselow, M. S. (1980). Conditional and unconditional components of postshock freezing.Pavlovian Journal of Biological Science,15, 177–182
Fanselow, M. S., &Bolles, R. C. (1979). Triggering of the endorphin analgesia reaction by a cue previously associated with shock: Reversal by naloxone.Bulletin of the Psychonomic Society,14. 88–90.
Fanselow, M S., &Lester, M. S. (1988). A functional behavioristic approach to aversively motivated behavior: Predatory imminence as a determinant of the topography of defensive behavior. In R. C. Bolles & M. B. Beecher (Eds.),Evolution and learning (pp. 185–210). Hillsdale, NJ: Erlbaum.
Gagliardi, G. J., Gallup, G. G., &Boren, J. L. (1976). Effects of different pupil to eye size ratios on tonic immobility in chickens.Bulletin of the Psychonomic Society,8, 58–60.
Garcia, J. (1990). Learning without memory.Journal of Cognitive Neuroscience,2, 282–305.
Hennessy, D. F., &Owings, D. H. (1978). Snake species discrimination and the role of olfactory cues in the snake-directed behaviour of the California ground squirrel.Behaviour,65, 115–124
Herzog, H. A.,&Schwartz, J. M. (1990). Geographical variation in the anti-predator behaviour of neonate garter snakes,Thamnopis sinalis.Animal Behaviour,40, 597–601.
Hinde, R. A. (1954). Factors governing the changes in strength of a partially inborn response, as shown by the mobbing behaviour of the chaffinch (Fringilla coelebs): The nature of the response and the examination of its course.Proceedings of the Royal Society Bulletin,142, 306–331.
Hirsch, S. M., &Bolles, R. C. (1980). On the ability of preys to recognize predators.Zeitschrift fü r Tierpsychologie,54, 71–84.
Jones, R. (1980). Reactions of male domestic chicks to two-dimensional eye-like shapes.Animal Behaviour,28, 212–218.
Kruuk, H. (1976). The biological function of gull’s attraction towards predators.Animal Behaviour,24, 146–153.
Lester, L. S., &Fanselow, M S. (1985). Exposure to a cat produces opioid analgesia in rats.Behavioral Neuroscience,99, 756–759.
O’Brien, T. J., &Dunlap, W. P. (1975). Tonic immobility in the blue crab (Callinectes sapidus, Rathburn): Its relation to threat of predation.Journal of Comparative Physiology & Psychology,98, 86–94.
Owings, D. H., &Coss, R. G. (1977). Snake mobbing by California ground squirrels: Adaptive variation and ontogeny.Behaviour,62, 50–69.
Price, E. O. (1984). Behavioral aspects of animal domestication.Quarterly Review of Biology,59, 1–32.
Scaife, M. (1976a). The response to eye-like shapes by birds. I. The effect of context: A predator and a strange bird.Animal Behaviour,24, 195–199.
Scaife, M. (1976b). The response to eye-like shapes by birds. II. The importance of staring, pairedness and shape.Animal Behaviour,24, 200–206.
Schleidt, W. M., Shalter, M. D., &Carawan, T C (1983). The effect of spatial context on habituation to a predation model.Zeitschrift für Tierpsychologie,61, 67–70.
Smith, R. H. (1978). Selection for shuttle avoidance in wildMus musculus.Behavior Genetics,8, 269–274.
Warren, J. M. (1953). Additivity of cues in visual pattern discriminations by monkeys.Journal of Comparative Physiology & Psychology,46, 484–486.
Weldon, P. J., Divita, F. M., &Middendorf, G. A. (1987) Responses to snake odors by laboratory mice.Behavioral Processes,14, 137–146
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This study was supported by a grant from the Hungarian Academy of Sciences (No. 2315/91).
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Topál, J., Csányi, V. The effect of eye-like schema on shuttling activity of wild house mice (Mus musculus domesticus): Context-dependent threatening aspects of the eyespot patterns. Animal Learning & Behavior 22, 96–102 (1994). https://doi.org/10.3758/BF03199961
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DOI: https://doi.org/10.3758/BF03199961