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Fear and adaptability in poultry: insights, implications and imperatives

Published online by Cambridge University Press:  18 September 2007

R. Bryan Jones
Affiliation:
Division of Environment and Welfare, Roslin Institute (Edinburgh), Roslin, Midlothian EH25 9PS, UK
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Abstract

Fear is now widely regarded as an undesirable state of suffering by many members of the public, the scientific community, welfare and policy groups, as well as by a growing number of farmers. At first glance this view appears to be inconsistent with one based on biological significance, in which fear is regarded as an adaptive state with fear behaviour functioning to protect the animal from injury. Fear is often adaptive in ideal circumstances but neither we nor the animals in our care live in an ideal world. In reality, many farming systems prevent the animals from responding in an adaptive fashion to potentially threatening stimuli. In these circumstances, fear can be a powerful and potentially damaging stressor, particularly if it is intense or persistent. Both acute and chronic fear can seriously harm the welfare and performance of poultry. Certain fear responses, such as violent escape or panic, are inap-propriate in intensive systems and can cause injury, pain or even the death of birds. High levels of underlying fearfulness have also been negatively associated with plumage condition, egg production, egg shell quality, growth, and food conversion efficiency. Furthermore, because fear inhibits all other motivational systems, its elicitation is likely to impair the ability of birds to adapt to environmental change, to interact successfully with each other or with the stock person, and to utilize new resources. Therefore, high fear is clearly undesirable from the bird's and the farmer's viewpoint and its reduction is of major importance. This objective had been hampered because of the complex-ity of the concept of fear and the controversy over its measurement. However, operational definitions of fear and its components are given in this review and a number of tests which have been used to measure fear in poultry are described. Strong intra-individual correlations found between the fear scores afforded in many of these tests suggested that they are measuring the same intervening variable, presumably underlying fearfulness, rather than purely stimulus-specific responses. Two of the commonest and potentially most frightening events encountered by poultry are sudden changes in their physical or social environment and exposure to humans. Other more specific types of alarming stimuli are also listed. Hitherto, the most promising ways of reducing underlying fearfulness and increasing adaptability, at least in the laboratory, involve one or more of the following approaches: environmental enrichment, regular handling or related treatments, vitamin C supplementation of the diet or drinking water, and genetic selection. The potential benefits and short-comings of these remedial measures are discussed, with attention to their practical relevance as well as to their more fundamental implications. Other measures to mask and/or minimize the incidence of frightening events are also briefly mentioned. Our objective should be not only to achieve a balance between maintaining an emotional state that facilitates the avoidance of danger while reducing the likelihood of overreaction and the expression of inap-propriate responses, but also to provide a stimulating, safe but economically viable environment. Continued investigation should enable recommendations to be made concerning the most effective programme, in terms of environmental modification, human-animal interaction, nutritive manipulation, and selective breeding, in order to achieve the optimal levels of fear in poultry, whatever the future trends in the industry.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1996

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References

Aggrey, S.E. and Cheng, K.M. (1994) Animal model analysis of genetic (Co) variances for growth traits in Japanese quail. Poultry Science 73: 18221828CrossRefGoogle ScholarPubMed
Anonymous (1992) NFU responds to EC paper on hen welfare. Poultry Forum July: 4Google Scholar
Anonymous (1994) Music good for chickens. World Poultry – Misset 10(12): 7Google Scholar
Archer, J. (1976) The organization of aggression and fear in vertebrates. In: Perspectives in Ethology (Eds Bateson, P.P.G. and Klopfer, P.H.), Plenum Publishing Corporation, New York, pp. 231298CrossRefGoogle Scholar
Archer, J. (1979) Behavioural aspects of fear. In: Fear in Animals and Man (Ed. Sluckin, W), Van Nostrand Reinhold, New York, pp. 5685Google Scholar
Armstrong, B. and Cermak, J.P. (1989) Review of some developments in animal housing systems – pigs and poultry. British Veterinary Journal 145: 426435CrossRefGoogle ScholarPubMed
Barnett, J.L. and Hemsworth, P.H. (1989) Fear of humans by laying hens in different tiers of a battery: behavioural and physiological responses. British Poultry Science 30: 497502CrossRefGoogle ScholarPubMed
Barnett, J.L., Hemsworth, P.H., Hennessy, D.P., McCallum, T.H. and Newman, E.A. (1994) The effects of modifying the amount of human contact on behavioural, physiological and production responses of laying hens. Applied Animal Behaviour Science 41: 87100CrossRefGoogle Scholar
Barnett, J.L., Hemsworth, P.H. and Newman, E.A. (1992) Fear of humans and its relationships with productivity in laying hens at commercial farms. British Poultry Science 33: 699710CrossRefGoogle ScholarPubMed
Bateson, P. and Horn, G. (1994) Imprinting and recognition memory: a neural net model. Animal Behaviour 48: 695715CrossRefGoogle Scholar
Baumgartner, J. (1994) Japanese quail production, breeding and genetics. World's Poultry Science Journal 50: 227235Google Scholar
Bayne, K. and Dexter, S. (1992) Environmental enrichment for research chimpanzees. In: Chimpanzee Conservation and Public Health: Environments for the Future, Diagnon/Bioqual Inc., Rockville, USA, pp. 147153Google Scholar
Berryman, J., Fullerton, C. and Sluckin, W. (1971) Complexity and colour preferences in chicks of different ages. Quarterly Journal of Experimental Biology 23: 255260Google Scholar
Bessei, W. (1979) Genetische Aspekte der Laufaktivitat beim Huhn und bei der japanischen Wachtel. In: Aktuelle Arbeiten zur artgemassen Tierhaltung (Eds Lachenmaier, F. and Schlichting, M.C.), KTBL, Darmstadt, pp. 142152Google Scholar
Bessei, W. (1984) Genetische Beziehungen zwischen Leistung, Befiederung und Scheu bei Legehennen. Archiv fur Geflugelkunde 48: 231239Google Scholar
Bessei, W., Jones, R.B. and Faure, J.M. (1983) Ease of capture by human beings of Japanese quail (Coturnix coturnix japonica) genetically selected for different activity levels. Archiv fur Geflugelkunde 47: 134137Google Scholar
Beuving, G. and Vonder, G.M.A. (1978) Effect of stressing factors on corticosterone levels in the plasma of laying hens. General and Comparative Endocrinology 35: 153159CrossRefGoogle ScholarPubMed
Beuving, G., Jones, R.B. and Blokhuis, H.J. (1989) Adrenocortical and heterophil/lymphocyte responses to challenge in hens showing short or long tonic immobility reactions. British Poultry Science 30: 175184CrossRefGoogle ScholarPubMed
Blokhuis, H.J. and Beutler, A. (1992) Feather pecking damage and tonic immobility response in two lines of White Leghorn hens. Journal of Animal Science 70(Suppl 1): 170Google Scholar
Boissy, A. (1990) Les reactions emotives chez les bovins domestiques femelles (Bos taurus L.): Quantification et variations sous l'influence de facteurs environnementeaux et hormonaux. PhD Thesis, University of Paris XIIIGoogle Scholar
Boissy, A. (1995) Fear and fearfulness in animals. The Quarterly Review of Biology 70: 165191CrossRefGoogle ScholarPubMed
Book, C.M. and Bradley, F.A. (1990) Behavioral effects of simulated F-4D aircraft overflights on Nicholas turkey poults. Poultry Science 69(Suppl 1): 22Google Scholar
Braastad, B.O. (1990) Effects on behaviour and plumage of a key-stimuli floor and a perch in triple cages for laying hens. Applied Animal Behaviour Science 27: 127139CrossRefGoogle Scholar
Brain, P.F., Kusumorini, N. and Benton, D. (1991) Anxiety in laboratory rodents: a brief review of some recent behavioural developments. Behavioural Processes 25: 7180CrossRefGoogle ScholarPubMed
Brake, J.T. (1987) Hatchability of abnormal broiler breeder eggs. Misset International Poultry 3: 2425Google Scholar
Bredbacka, P. (1988) Relationships between fear, welfare and productive traits in caged White Leghorn hens. In: Proceedings of the International Congress on Applied Ethology in Farm Animals (Eds Unshelm, J., Van Putten, G., Zeeb, K. and Ekesbo, I), European Association for Animal Production, Skara, pp. 7479Google Scholar
Broom, D.M. (1969) Effects of visual complexity during rearing on chicks' reactions to environmental change. Animal Behaviour 17: 773780CrossRefGoogle Scholar
Broom, D.M. (1985) Stress, welfare and the state of equilibrium. In: Proceedings of the Second European Symposium on Poultry Welfare (Ed. Wegner, R-M), Celle, World's Poultry Science Association, pp. 7281Google Scholar
Broom, D.M., Knight, P.G. and Stansfield, S.C. (1986) Hen behaviour and hypothalamic-pituitary-adrenal responses to handling and transport. Applied Animal Behaviour Science 16: 98CrossRefGoogle Scholar
Brown, K.I. and Nestor, K.E. (1974) Implications of selection for high and low adrenal response to stress. Poultry Science 53: 12971306CrossRefGoogle ScholarPubMed
Burt, D.W., Bumstead, N., Bitgood, J.J., Ponce De Leon, F.A. and Crittenden, L.B. (1995) Chicken genome mapping: a new era in avian genetics. Trends in Genetics 11: 190194CrossRefGoogle ScholarPubMed
Candland, D.K., Nagy, Z.M. and Conklyn, D.H. (1963) Emotional behavior in the domestic chicken (White Leghorn) as a function of age and developmental environment. Journal of Comparative and Physiological Psychology 56: 10691073CrossRefGoogle ScholarPubMed
Caron, N., Minvielle, F., Desmarais, M. and Poste, L.M. (1990) Mass selection for 45-day body weight in Japanese quail: selection response, carcass composition, cooking properties and sensory characteristics. Poultry Science 69: 10371045CrossRefGoogle Scholar
Cashman, P.J., Nicol, C.J. and Jones, R.B. (1989) Effects of transportation on the tonic immobility fear reactions of broilers. British Poultry Science 30: 211221CrossRefGoogle Scholar
Chambers 20th Century Dictionary (1983). W & R Chambers, EdinburghGoogle Scholar
Chamove, A.S. (1989) Environmental enrichment: a review. Animal Technology 40: 155178Google Scholar
Chamove, A.S. and Anderson, J.R. (1989) Examining environmental enrichment. In: Housing, Care and Psychological Well-Being of Primates (Ed. Segal, E), Noyes Publications, Philadelphia, pp. 183202Google Scholar
Chamove, A.S. and Moodie, E.M. (1990) Are alarming events good for captive monkeys? Applied Animal Behaviour Science 27: 169176CrossRefGoogle Scholar
Church, J.S. (1992) The effects of environmental enrichment on the behavior and productivity of caged White Leghorn hens, Gallus gallus domesticus. MSc Thesis, Dalhousie University, Halifax, CanadaGoogle Scholar
Command Paper 2386 (1965) Report of the Technical Committee to Enquire into the Welfare of Animals kept under Intensive Livestock Husbandry Systems, HMSO, London, 85 pp.Google Scholar
Collias, N.E. and Collias, E.C. (1967) A field study of the red jungle fowl in North-Central India. Condor 69: 360386CrossRefGoogle Scholar
Collins, J.W. and Siegel, P.B. (1987). Human handling, flock size and responses to an E. coli challenge in young chickens. Applied Animal Behaviour Science 19: 183188CrossRefGoogle Scholar
Craig, J.V., Craig, J.A. and Vargas Vargas, J. (1986) Corticosteroids and other indicators of hens' well-being in four laying-house environments. Poultry Science 65: 856863CrossRefGoogle ScholarPubMed
Craig, J. V., Craig, T. P. and Dayton, A. D. (1983) Fearful behavior by hens of two genetic stocks. Applied Animal Ethology 10: 263273CrossRefGoogle Scholar
Craig, J.V., Kujiyat, S.K. and Dayton, A.D. (1984) Tonic immobility responses of White Leghorn hens affected by induction techniques and genetic stock differences. Poultry Science 63: 110CrossRefGoogle ScholarPubMed
Craig, J.V. and Muir, W.M. (1989) Fearful and associated responses of caged White Leghorn hens: genetic parameter estimates. Poultry Science 68: 10401046CrossRefGoogle Scholar
Craig, J.V. and Swanson, J.C. (1994) Review: welfare perspectives on hens kept for egg production. Poultry Science 73: 921938CrossRefGoogle ScholarPubMed
Craig, J.V., Vargas Vargas, J. and Milliken, G.A. (1986) Fearful and associated responses of White Leghorn hens: effects of cage environments and genetic stocks. Poultry Science 65: 21992207CrossRefGoogle ScholarPubMed
Dantzer, R. and Mormede, P. (1983) Stress in farm animals: a need for reevaluation. Journal of Animal Science 57: 618CrossRefGoogle ScholarPubMed
Davison, T.F. and Powell, P.C. (1987) Corticosterone-induced immunosuppression and its importance in outbreaks of Marek's disease in vaccinated chickens. British Poultry Science 28: 760761Google Scholar
Delsaut, M. (1991) Influence of nonobvious learning on the development of the approach response in chicks (Gallus gallus). International Journal of Comparative Psychology 4: 239251Google Scholar
Denenberg, V.H. (1962) The effects of early experience. In: The Behaviour of Domestic Animals (Ed. Hafez, E.S.E.), Bailliere, Tindall and Cox, London, pp. 109138Google Scholar
Dorminey, R.W., Jones, J.E. and Wilson, H.R. (1965) Influence of cage size and frightening on incidence of body checked eggs. Poultry Science 44: 307308CrossRefGoogle ScholarPubMed
Duncan, I.J.H. (1981) Animal behaviour and welfare. In: Environmental Aspects of Housing for Animal Production (Ed. Clark, J.A.), Butterworths, London, pp. 455470CrossRefGoogle Scholar
Duncan, I.J.H. (1985) How do fearful birds respond? In: Proceedings of the Second European Symposium on Poultry Welfare (Ed. Wegner, R-M.), WPSA, pp. 96106Google Scholar
Duncan, I.J.H. (1990) Reactions of poultry to human beings. In: Social Stress in Domestic Animals (Eds Zayan, R. and Dantzer, R.), Kluwer Academic Publishers, Dordrecht, pp. 121131Google Scholar
Eddy, T.J. and Gallup, G.G. Jr. (1994) Passive socialization to humans: effects on tonic immobility in chickens (Gallus gallus). Animal Learning and Behavior 22: 325331CrossRefGoogle Scholar
Eells, J.F. (1961) Inconsistency of early handling and its effect upon emotionality in the rat. Journal of Comparative and Physiological Psychology 54: 690693CrossRefGoogle ScholarPubMed
Elliott, S.P. (1994) Biosecurity. Pluimvee Poultry Bulletin September: 416419Google Scholar
Evans, C.S. and Marler, P. (1991) On the use of video stimuli as social stimuli in birds: audience effects on alarm calling. Animal Behaviour 41: 1726CrossRefGoogle Scholar
Evans, C.S., Evans, L. and Marler, P. (1993) On the meaning of alarm calls: functional reference in an avian vocal system. Animal Behaviour 46: 2338CrossRefGoogle Scholar
Faure, J.M. (1975) Etude des liaisons entre comportement en open field et emotivite chez le jeune poussin. Annales de Genetique et de Selection Animale 7: 197204Google Scholar
Faure, J.M. (1980) To adapt the environment to the bird or the bird to the environment? In: The Laying Hen and its Environment (Ed. Moss, R.), EEC, Brussels, pp. 1942CrossRefGoogle Scholar
Faure, J.M. (1981) Bidirectional selection for open-field activity in young chicks. Behavior Genetics 11: 135144CrossRefGoogle ScholarPubMed
Faure, J.M., Jones, R.B., and Bessei, W. (1983) Fear and social motivation as factors in open-field behaviour of the domestic chick: a theoretical consideration. Biology of Behaviour 8: 103116Google Scholar
FAWC (1993) Report on Priorities for Animal Welfare Research and Development. Farm Animal Welfare Council, Surbiton, UK, 26 ppGoogle Scholar
Fenster, R. (1992) Ascorbyl-2-polyphosphate: a new product form of vitamin C. Misset World Poultry 8: 17Google Scholar
Ferguson, W. (1968) Abnormal behaviour in domestic birds. In: Abnormal Behavior in Animals (Ed. Fox, M.W.), Saunders, Philadelphia, pp. 188207Google Scholar
Fordyce, G., Goddard, M.E. and Seifert, G.W. (1982) The measurement of temperament in cattle and the effect of experience and genotype. In: Proceedings of the Australian Society of Animal Production 14: 329332Google Scholar
Fordyce, G., Goddard, M.E., Tyler, R., Williams, G., and Toleman, M.A. (1985) Temperament and bruising of Bos indicus cross cattle. Australian Journal of Experimental Agriculture 25: 283288CrossRefGoogle Scholar
Fordyce, G., Wythes, J.R., Shorthose, W.R., Underwood, D.W., and Shepherd, R.K. (1988) Cattle temperaments in extensive beef herds in northern Queensland 2. Effect of temperament on carcass and meat quality. Australian Journal of Experimental Agriculture 28: 689693CrossRefGoogle Scholar
Fraser, D. (1993) Assessing animal well-being: common sense, uncommon science. In: Food Animal Well-Being 1993 – Conference Proceedings and Deliberations, Purdue Research Foundation, West Lafayette, USA, pp. 3754Google Scholar
Gallup, G.G. Jr. (1974) Genetic influence on tonic immobility in chickens. Animal Learning and Behavior 2: 145147CrossRefGoogle Scholar
Gallup, G.G. Jr. (1979) Tonic immobility as a measure of fear in domestic fowl. Animal Behaviour 20: 166169CrossRefGoogle Scholar
Gallup, G.G. Jr. and Suarez, S.D. (1980) An ethological analysis of open-field behaviour in chickens. Animal Behaviour 28: 368378CrossRefGoogle Scholar
Gao, I., Feddes, J.J.R., Robinson, F.E. and Cook, H. (1994) Effect of stocking density on the incidence of usage of enrichment devices by White Leghorn hens. Journal of Applied Poultry Research 3: 336341CrossRefGoogle Scholar
Gentle, M.J., Jones, R.B. and Woolley, S.C. (1989) Physiological changes during tonic immobility in Gallus gallus var domesticus. Physiology and Behavior 46: 843847CrossRefGoogle ScholarPubMed
Gerken, M. and Petersen, J. (1992) Heritabilities for behavioral and production traits in Japanese quail (Coturnix coturnix japonica) bidirectionally selected for dustbathing activity. Poultry Science 71: 779788CrossRefGoogle Scholar
Gilman, T.T., Marcuse, F.L. and Moore, A.U. (1950) Animal hypnosis: a study of the induction of tonic immobility in animals. Journal of Comparative and Physiological Psychology 43: 99111CrossRefGoogle Scholar
Goddard, M.E. and Beilharz, R.G. (1984) A factor analysis of fearfulness in potential guide dogs. Applied Animal Behaviour Science 12: 253265CrossRefGoogle Scholar
Goldstein, S., Halbreich, U., Asnis, G., Endicott, J. and Alvir, J. (1987) The hypothalamic-pituitary-adrenal system in panic disorder. American Journal of Psychiatry 144: 13201323Google ScholarPubMed
Grandin, T. (1991) Handling problems caused by excitable pigs. In: Proceedings of the International Congress of Meat Science and Technology, Volume 1. Kulmbach, GermanyGoogle Scholar
Gray, J.A. (1987) The Psychology of Fear and Stress. 2nd edition, Cambridge University PressGoogle Scholar
Greenlees, T.B. and Duncan, I.J.H. (1993) Effects of enriching the acoustic environment during incubation on hatching of broiler chicks. Poultry Science 72(Suppl 1): 14Google Scholar
Grigor, P.N. (1993) Use of space by laying hens: social and environmental implications for freerange systems. PhD Thesis, University of Edinburgh, 156 ppGoogle Scholar
Gross, W.B. (1990) Effect of exposure to a short-duration sound on the stress response of chickens. Avian Diseases 34: 759761CrossRefGoogle ScholarPubMed
Gross, W.B. and Siegel, P.B. (1982) Socialization as a factor in resistance to disease, feed efficiency, and response to antigen in chickens. American Journal of Veterinary Research 43: 20102012Google Scholar
Gross, W.B. and Siegel, P.B. (1985) Selective breeding of chickens for corticosterone response to social stress. Poultry Science 64: 22302233CrossRefGoogle ScholarPubMed
Gvaryahu, G., Cunningham, D.L. and Van Tienhoven, A. (1989) Filial imprinting, environmental enrichment, and music application effects on behavior and performance of meat strain chickens. Poultry Science 68: 211217CrossRefGoogle Scholar
Gvaryahu, G., Cunningham, D.L. and Van Tienhoven, A. (1990) The effect of environmental enrichment on egg layers – final results of six experiments. In: Proceedings of the 28th Annual Convention, World's Poultry Science Association, Israel Branch, 75 pp.Google Scholar
Gvaryahu, G., Ararat, E., Asaf, E., Lev, M., Weller, J.I., Robinzon, B and Snapir, N. (1994) An enrichment object that reduces aggressiveness and mortality in caged laying hens. Physiology and Behavior 55: 313316CrossRefGoogle ScholarPubMed
Hagedorn, T.K., Satterlee, D.G. and Jones, R.B. (1996) Fear-reducing effects of ascorbyl-2-polyphosphate (Vitamin C) in the Japanese quail. Poultry Science (in press)Google Scholar
Haley, L.E., Abplanalp, H. and Enya, K. (1966) Selection for increased fertility of female quail when mated to male chickens. Evolution 20: 7281CrossRefGoogle ScholarPubMed
Hansen, I., Braastad, B.O., Storbraten, J. and Tofastrud, M. (1992) Tonic immobility responses of laying hens in aviaries and cages. In: Proceedings of the XIXth World's Poultry Congress, World's Poultry Science Association, Amsterdam, pp. 333336Google Scholar
Hansen, R.S. (1976) Nervousness and hysteria of mature female chickens. Poultry Science 55: 531543CrossRefGoogle ScholarPubMed
Harrison, R. (1964) Animal Machines, Vincent Stuart, LondonGoogle Scholar
Hemsworth, P. H. and Barnett, J. L. (1989) Relationships between fear of humans, productivity and cage position of laying hens. British Poultry Science 30: 505518CrossRefGoogle ScholarPubMed
Hemsworth, P.H., Barnett, J.L. and Coleman, G.J. (1993a) The human-animal relationship in agriculture and its consequences for the animal. Animal Welfare 2: 3351CrossRefGoogle Scholar
Hemsworth, P.H., Barnett, J.L. and Jones, R.B. (1993b) Situational factors that influence the level of fear of humans by laying hens. Applied Animal Behaviour Science 36: 197210CrossRefGoogle Scholar
Hemsworth, P.H., Coleman, G.J., Barnett, J.L. and Jones, R.B. (1994) Behavioural responses to humans and the productivity of commercial broiler chickens. Applied Animal Behaviour Science 41: 101114CrossRefGoogle Scholar
Hogan, J.A. (1965) An experimental study of conflict and fear: An analysis of behaviour of young chicks towards a mealworm: Part 1. The behaviour of chicks which do not eat the mealworm. Behaviour 2526: 4595Google Scholar
Hogg, S., Paterson, S., Mills, A.D. and File, S.E. (1994) Receptor binding in Japanese quail selected for long or short tonic immobility. Pharmacology, Biochemistry and Behavior 49: 625628CrossRefGoogle ScholarPubMed
Hughes, B.O. and Black, A.J. (1976) The influence of handling on egg production and avoidance behaviour of hens. British Poultry Science 17: 135144CrossRefGoogle Scholar
Hughes, B.O. and Duncan, I.J.H. (1972) The influence of strain and environmental factors upon feather pecking and cannibalism in fowls. British Poultry Science 13: 525547CrossRefGoogle ScholarPubMed
Hughes, B.O. and Gilbert, A.B. (1984) Induction of egg shell abnormalities in domestic fowls by administration of adrenaline. IRCS Medical Science 12: 969970Google Scholar
Hughes, B.O., Gilbert, A.B. and Brown, M.F. (1986) Categorisation and causes of abnormal egg shells: relationship with stress. British Poultry Science 27: 325337CrossRefGoogle ScholarPubMed
Hurnik, J.F. and Lewis, N. (1978) Visual stimulation of ingestive responses in neonatal turkeys. In: Proceedings of the 1st World Congress on Ethology Applied to Zootechnics, Editorial Garsi, Madrid, p. 89Google Scholar
Jezierski, T.A. and Konecka, A.M. (1996) Handling and rearing results in young rabbits. Applied Animal Behaviour Science 46: 243250CrossRefGoogle Scholar
Job, R.F.S. (1987) Learned helplessness in chickens. Animal Learning and Behavior 15: 347350CrossRefGoogle Scholar
Jones, R.B. (1980) Reactions of male domestic chicks to two-dimensional eye-like shapes. Animal Behaviour 28: 212218CrossRefGoogle Scholar
Jones, R.B. (1982) Effects of early environmental enrichment upon open-field behavior and timidity in the domestic chick. Developmental Psychobiology 15: 105111CrossRefGoogle ScholarPubMed
Jones, R.B. (1984) Experimental novelty and tonic immobility in chickens (Gallus domesticus). Behavioural Processes 9: 255260CrossRefGoogle Scholar
Jones, R.B. (1985a) Fearfulness of hens caged individually or in groups in different tiers of a battery and the effects of translocation between tiers. British Poultry Science 26: 399408CrossRefGoogle ScholarPubMed
Jones, R.B. (1985b) Fearfulness and adaptability in the domestic fowl. IRCS Journal of Medical Science 13: 797800Google Scholar
Jones, R.B. (1986a) Conspecific vocalisations, tonic immobility and fearfulness in the domestic fowl. Behavioural Processes 13: 217225CrossRefGoogle ScholarPubMed
Jones, R.B. (1986b) The tonic immobility reaction of the domestic fowl: a review. World's Poultry Science Journal 42: 8296CrossRefGoogle Scholar
Jones, R.B. (1986c) Responses of domestic chicks to novel food as a function of sex, strain and previous experience. Behavioural Processes 12: 261271CrossRefGoogle ScholarPubMed
Jones, R.B. (1987a) Fear and fear responses: a hypothetical consideration. Medical Science Research 15: 12871290Google Scholar
Jones, R. B. (1987b) The assessment of fear in the domestic fowl. In: Cognitive Aspects of Social Behaviour in the Domestic Fowl (Eds Zayan, R. and Duncan, I.J.H.), Elsevier, Amsterdam, pp. 4081Google Scholar
Jones, R. B. (1987c). Social and environmental aspects of fear in the domestic fowl. In: Cognitive Aspects of Social Behaviour in the Domestic Fowl (Eds Zayan, R. and Duncan, I.J.H.), Elsevier, Amsterdam, pp. 82149Google Scholar
Jones, R.B. (1987d) Food neophobia and olfaction in domestic chicks. Bird Behaviour 7: 7881CrossRefGoogle Scholar
Jones, R.B. (1987e) Open-field behaviour in domestic chicks (Gallus domesticus): the influence of the experimenter. Biology of Behaviour 12: 100115Google Scholar
Jones, R.B. (1987f) The assessment of fear in adult laying hens: correlational analysis of methods and measures. British Poultry Science 28: 319326CrossRefGoogle ScholarPubMed
Jones, R.B. (1988) Repeatability of fear ranks among adult laying hens. Applied Animal Behaviour Science 19: 297304CrossRefGoogle Scholar
Jones, R.B. (1989a) Fear in poultry. In: The Detection and Control of Fear in Animals (Ed Gibson, T.E.), British Veterinary Association, London, pp. 2838Google Scholar
Jones, R.B. (1989b) Avian open-field research and related effects of environmental novelty: an annotated bibliography, 1960–1988. The Psychological Record 39: 397420CrossRefGoogle Scholar
Jones, R.B. (1989c) Chronic stressors, tonic immobility and leucocytic responses in the domestic fowl. Physiology and Behavior 46: 439442CrossRefGoogle ScholarPubMed
Jones, R.B. (1992) The nature of handling immediately prior to test affects tonic immobility fear reactions in laying hens and broilers. Applied Animal Behaviour Science 34: 247254CrossRefGoogle Scholar
Jones, R.B. (1993) Reduction of the domestic chick's fear of humans by regular handling and related treatments. Animal Behaviour 46: 991998CrossRefGoogle Scholar
Jones, R.B. (1995a) Ontogeny of response to humans in handled and non-handled female domestic chicks. Applied Animal Behaviour Science 42: 261269CrossRefGoogle Scholar
Jones, R.B. (1995b) Regular handling and the domestic chick's fear of human beings: generalization of response. Applied Animal Behaviour Science 42: 129143CrossRefGoogle Scholar
Jones, R.B. (1995c) Habituation to human beings via visual contact in docile and flighty strains of domestic chicks. International Journal of Comparative Psychology 8: 8898CrossRefGoogle Scholar
Jones, R.B. (1996) Low flying aircraft and fear in poultry. NFU National Weekly Egg Market Intelligence Report February, 9Google Scholar
Jones, R.B. and Black, A.J. (1979) Behavioral responses of the domestic chick to blood. Behavioral and Neural Biology 27: 319329CrossRefGoogle ScholarPubMed
Jones, R.B. and Faure, J.M. (1981a) Tonic immobility (righting time) in laying hens housed in cages and pens. Applied Animal Ethology 7: 369372CrossRefGoogle Scholar
Jones, R.B. and Faure, J.M. (1981b) The effects of regular handling on fear in the domestic chick. Behavioural Processes 6: 135143CrossRefGoogle ScholarPubMed
Jones, R.B. and Faure, J.M. (1983) A further analysis of the responses of pheasants (Phasianus colchicus) to conspecific blood. IRCS Medical Science 11: 955956Google Scholar
Jones, R.B. and Hughes, B.O. (1981) Effects of regular handling on growth in male and female chicks of broiler and layer strains. British Poultry Science 22: 461465CrossRefGoogle Scholar
Jones, R.B. and Hughes, B.O. (1986) Fearfulness and abnormalities in the chicken's egg shell – is there a link? In: Proceedings of the International Symposium on Applied Ethology in Farm Animals (Ed Czako, J), Hungarian Society of Agricultural Sciences, Budapest, pp. 171175Google Scholar
Jones, R.B. and Mills, A.D. (1983) Estimation of fear in two lines of the domestic chick: Correlations between various methods. Behavioural Processes 8: 243253CrossRefGoogle Scholar
Jones, R.B. and Satterlee, D.G. (1996) Threat-induced behavioural inhibition in Japanese quail genetically selected for contrasting adrenocortical response to mechanical restraint. British Poultry Science 37: 465470CrossRefGoogle ScholarPubMed
Jones, R.B. and Waddington, D. (1992) Modification of fear in domestic chicks, Gallus gallus domesticus, via regular handling and early environmental enrichment. Animal Behaviour 43: 10211033CrossRefGoogle Scholar
Jones, R.B. and Waddington, D. (1993) Attenuation of the domestic chick's fear of human beings via regular handling: in search of a sensitive period. Applied Animal Behaviour Science 36: 185195CrossRefGoogle Scholar
Jones, R.B. and Williams, J.B. (1992) Responses of pair-housed male and female domestic chicks to the removal of a companion. Applied Animal Behaviour Science 32: 375380CrossRefGoogle Scholar
Jones, R.B., Bessei, W. and Faure, J.M. (1982) Aspects of “fear” in Japanese quail chicks (Coturnix coturnix japonica) genetically selected for different levels of locomotor activity. Behavioural Processes 7: 201210CrossRefGoogle ScholarPubMed
Jones, R.B., Beuving, G. and Blokhuis, H.J. (1988) Tonic immobility and heterophil/lymphocyte responses of the domestic fowl to corticosterone infusion. Physiology and Behavior 42: 249253CrossRefGoogle ScholarPubMed
Jones, R.B., Blokhuis, H.J. and Beuving, G. (1995a) Open-field and tonic immobility responses in domestic chicks of two genetic lines differing in their propensity to feather peck. British Poultry Science 36: 525530CrossRefGoogle ScholarPubMed
Jones, R.B., Duncan, I.J.H. and Hughes, B.O. (1981) The assessment of fear in domestic hens exposed to a looming human stimulus. Behavioural Processes 6: 121133CrossRefGoogle ScholarPubMed
Jones, R. B., Hemsworth, P. H. and Barnett, J. L. (1993) Fear of humans and performance in commercial broiler flocks. In: Proceedings of the Fourth European Symposium on Poultry Welfare (Eds Savory, C.J. and Hughes, B.O.), Universities Federation for Animal Welfare, Potters Bar, Herts, UK, pp. 292294Google Scholar
Jones, R.B., Larkins, C. and Hughes, B.O. (1996a) Approach/avoidance responses of domestic chicks to familiar and unfamiliar video images of biologically neutral stimuli. Applied Animal Behaviour Science 48: 8198CrossRefGoogle Scholar
Jones, R.B., Mills, A.D. and Faure, J.M. (1991) Genetic and experiential manipulation of fear-related behavior in Japanese quail chicks (Coturnix coturnix japonica). Journal of Comparative Psychology 105: 1524CrossRefGoogle ScholarPubMed
Jones, R.B., Mills, A.D. and Faure, J.M. (1996b) Social discrimination in Japanese quail Coturnix japonica chicks genetically selected for low or high social reinstatement motivation. Behavioural Processes 36: 117124CrossRefGoogle ScholarPubMed
Jones, R.B., Mills, A.D., Faure, J.M. and Williams, J.B. (1994a) Restraint, fear, and distress in Japanese quail genetically selected for long or short tonic immobility reactions. Physiology and Behavior 56: 529534CrossRefGoogle ScholarPubMed
Jones, R.B., Satterlee, D.G. and Ryder, F.H. (1992a) Fear and distress in Japanese quail chicks of two lines genetically selected for low or high adrenocortical response to immobilization stress. Hormones and Behavior 26: 385393CrossRefGoogle ScholarPubMed
Jones, R.B., Satterlee, D.G. and Ryder, F.H. (1992b) Open-field behaviour of Japanese quail chicks genetically selected for low or high plasma corticosterone response to immobilization stress. Poultry Science 71: 14031407CrossRefGoogle ScholarPubMed
Jones, R.B., Satterlee, D.G. and Ryder, F.H. (1994b) Fear of humans in Japanese quail selected for low or high adrenocortical response. Physiology and Behavior 56: 379383CrossRefGoogle ScholarPubMed
Jones, R.B., Satterlee, D.G., Moreau, J. and Waddington, D. (1996c) Vitamin C supplementation and fear-reduction in Japanese quail: short-term cumulative effects. British Poultry Science 37: 3342CrossRefGoogle ScholarPubMed
Kannan, G. and Mench, J.A. (1996) Influence of different handling methods and crating periods on plasma corticosterone concentrations in broilers. British Poultry Science 37: 2131CrossRefGoogle ScholarPubMed
Keeling, L.J., Hughes, B.O. and Dun, P. (1988) Performance of free-range laying hens in a polythene house and their behaviour on range. Farm Building Progress 94: 2128Google Scholar
Keeling, L.J. and Hurnik, J.F. (1993) Chickens show socially facilitated feeding behaviour in response to a video image of a conspecific. Applied Animal Behaviour Science 36: 223231CrossRefGoogle Scholar
Kendrick, K.M. (1992) Cognition. In: Farm Animals and their Environment (Eds Phillips, C and Piggins, D), CAB International, Wallingford, UK, pp. 209231Google Scholar
Kersten, A.M.P., Meijsser, F.M. and Metz, J.H.M. (1989) Effects of early handling on later open-field behaviour in rabbits. Applied Animal Behaviour Science 24: 157167CrossRefGoogle Scholar
Kilgour, R. and Dalton, C. (1984) Livestock Behaviour, Granada, LondonGoogle Scholar
Komai, T. and Guhl, A.M. (1960) Tameness and its relation to aggressiveness and productivity of the domestic chicken. Poultry Science 39: 817823CrossRefGoogle Scholar
Kovach, J.K. (1974) The behaviour of Japanese quail: Review of literature from a bioethological perspective. Applied Animal Ethology 1: 77102CrossRefGoogle Scholar
Knowles, T.G. and Broom, D.M. (1990) The handling and transport of broilers and spent hens. Applied Animal Behaviour Science 28: 7591CrossRefGoogle Scholar
Kutlu, H.R. and Forbes, J.M. (1993a) Changes in growth and blood parameters in heat-stressed broilers chicks in response to dietary ascorbic acid. Livestock Production Science 36: 335350CrossRefGoogle Scholar
Kutlu, H.R. and Forbes, J.M. (1993b) Self-selection of ascorbic acid in coloured foods by heat-stressed broiler chicks. Physiology and Behavior 53: 103110CrossRefGoogle ScholarPubMed
Ladd, J.K, Albright, J.L., Beck, A.M. and Ladd, B.T. (1992) Behavioral and physiological studies on the effect of music on animals. Journal of Animal Science 70 (Suppl 1): 170.Google Scholar
Launay, F. (1993) Consequences comportementales et physiologiques de selections pour l'emotivite et l'attraction sociale chez la caille japonaise (Coturnix japonica). Thesis, University of Rennes. No. d' Ordre 1011. 167 ppGoogle Scholar
Launay, F., Mills, A.D. and Faure, J.M. (1991) Social motivation in Japanese quail Coturnix coturnix japonica selected for high or low levels of treadmill behaviour. Behavioural Processes 24: 95110CrossRefGoogle ScholarPubMed
Levine, S. (1958) Noxious stimulation in infant and adult rats and consummatory behavior. Journal of Comparative and Physiological Psychology 51: 220233CrossRefGoogle ScholarPubMed
Lyons, D.M., Price, E.O. and Moberg, G.P. (1988) Individual differences in temperament of domestic dairy goats: Constancy and change. Animal Behaviour 36: 13231333CrossRefGoogle Scholar
McBride, G., Parer, I.P. and Foenander, F. (1969) The social organization and behaviour of the feral domestic fowl. Animal Behaviour Monographs 2: 125181CrossRefGoogle Scholar
McKee, J.S. and Harrison, P.C. (1995) Effects of supplemental ascorbic acid on the performance of broiler chickens exposed to multiple concurrent stressors. Poultry Science 74: 17721785CrossRefGoogle ScholarPubMed
McQuoid, L.M. and Galef, B.G. Jr. (1993) Social stimuli influencing feeding behaviour of Burmese fowl: a video analysis. Animal Behaviour 46: 1322CrossRefGoogle Scholar
Markowitz, H. (1982) Behavioral Enrichment in the Zoo. Van Nostrand Reinhold, New YorkGoogle Scholar
Mason, G.J. (1991) Stereotypies: a critical review. Animal Behaviour 41: 10151037CrossRefGoogle Scholar
Mauldin, J.M. and Siegel, P.B. (1979) “Fear”, head shaking and production in five populations of caged chickens. British Poultry Science 20: 3944CrossRefGoogle Scholar
Mauldin, J.M., Siegel, P.B. and Gross, W.B. (1979) Interfacing genetics, behavior and husbandry in White Leghorns presented with E. coli challenge. Applied Animal Ethology 5: 347CrossRefGoogle Scholar
Mench, J.A. (1992) The welfare of poultry in modern production systems. Poultry Science Reviews 4: 107128Google Scholar
Mench, J.A. (1994) Environmental enrichment and exploration. Lab Animal February, 3841Google Scholar
Mench, J.A. (1995) A theoretical basis for enrichment: the role of exploration. In: Proceedings of the First Conference on Environmental Enrichment (Eds Shepherdson, D., Mellen, J. and Hutchins, M.), Smithsonian Press, WashingtonGoogle Scholar
Mickley, L.D. and Fox, M.W. (1986) The case against intensive farming of food animals. In: Advances in Animal Welfare Science (Eds Fox, M.W. and Mickley, L.D.), The Humane Society of the United States, Washington, pp. 257272Google Scholar
Mills, A.D. and Faure, J.M. (1986) The estimation of fear in domestic quail: correlations between various methods and measures. Biology of Behaviour 11: 235243Google Scholar
Mills, A. D. and Faure, J. M. (1990) Panic and hysteria in domestic fowl: a review. In: Social Stress in Domestic Animals (Eds Zayan, R. and Dantzer, R), Kluwer Academic Publishers, Dordrecht, pp. 248272Google Scholar
Mills, A.D. and Faure, J.M. (1991) Divergent selection for duration of tonic immobility and social reinstatement behavior in Japanese quail chicks. Journal of Comparative Psychology 105: 2538CrossRefGoogle Scholar
Mills, A.D. and Faure, J.M. (1992) The behaviour of domestic quail. In: Nutztierethologie (Ed. Nichelmann, M.), Gustav Fisher Verlag, Jena, pp. 116Google Scholar
Mills, D.S. and Nicol, C.J. (1990) Tonic immobility in spent hens after catching and transport. Veterinary Record 126: 210212CrossRefGoogle ScholarPubMed
Mills, A.D., Launay, F., Turro, I., Jones, R.B.Williams, J.B. and Faure, J.M. (1993a) Selection divergente sur la peur et la sociabilite chez la caille japonaise Coturnix japonica. Reponses et consequences. In: Le point sur: Comportement et Adaptation des Animaux Domestiques aux Contraintes de l'Elevage: Bases du Bien-Etre (Eds Picard, M., Porter, R. and Signoret, J.P.) Institut National de la Recherche Agronomique, Paris, pp. 127139Google Scholar
Mills, A.D., Jones, R.B., Faure, J.M. and Williams, J.B. (1993b) Responses to isolation in Japanese quail genetically selected for high or low sociality. Physiology and Behavior 53: 183189CrossRefGoogle ScholarPubMed
Mills, A.D., Jones, R.B. and Faure, J.M. (1995) Species specificity of social reinstatement in Japanese quail Coturnix japonica genetically selected for high or low levels of social reinstatement behaviour. Behavioural Processes 34: 1322CrossRefGoogle ScholarPubMed
Mills, A.D., Nys, Y., Gautron, J. and Zawadski, J. (1991) Whitening of brown shelled eggs: individual variation and relationship with age, fearfulness, oviposition interval and stress. British Poultry Science 32: 117129CrossRefGoogle Scholar
Montevecchi, W.A. and Noel, P.E. (1978) Temporal effects of mirror-image stimulation on pecking and peeping in isolate, pair- and group-reared domestic chicks. Behavioral Biology 23: 531535CrossRefGoogle Scholar
Newberry, R.C. (1995) Environmental enrichment: increasing the biological relevance of captive environments. Applied Animal Behaviour Science 44: 229243CrossRefGoogle Scholar
Nicol, C.J. (1992) Effects of environmental enrichment and gentle handling on behaviour and fear responses of transported broilers. Applied Animal Behaviour Science 33: 367380CrossRefGoogle Scholar
Nicol, C.J. and Scott, G.B. (1990) Pre-slaughter handling and transport of broiler chickens. Applied Animal Behaviour Science 28: 5773CrossRefGoogle Scholar
Norgaard-Nielsen, G., Vestergaard, K., and Simonsen, H.B. (1993). Effects of rearing experience and stimulus enrichment on feather damage in laying hens. Applied Animal Behaviour Science 38: 345352CrossRefGoogle Scholar
Okpokho, N.A., Craig, J.V. and Milliken, G.A. (1987) Density and group size effects on caged hens of two genetic stocks differing in escape and avoidance behavior. Poultry Science 66: 19051910CrossRefGoogle ScholarPubMed
Olson, R.D., Kastin, A.J., Lahost, G.J., Olson, G.A. and Coy, D.H. (1979) Possible nonnarcotic component to action of opiate peptides on tonic immobility. Pharmacology Biochemistry and Behavior 11: 705708CrossRefGoogle ScholarPubMed
O'Neill, P. (1989) A room with a view for captive primates: issues, goals, related research and strategies. In: Housing, Care and Psychological Wellbeing of Captive and Laboratory Primates (Ed. Segal, E), Noyes Publications, Park Ridge, NJ, pp. 135160Google Scholar
Ouart, M.DAdams, A.W. (1982) Effects of cage design and bird density on layers. 1. Productivity, feathering, and nervousness. Poultry Science 61: 16061613CrossRefGoogle Scholar
Pardue, S.L. and Brake, J.T. (1991) Relative availability and physiological modulatory effects of two phosphorylated ascorbic acid compounds. Poultry Science 70(Suppl 1): 91Google Scholar
Pardue, S.L. and Thaxton, J.P. (1986) Ascorbic acid in poultry: a review. World's Poultry Science Journal 42: 107123CrossRefGoogle Scholar
Pare, W.P. (1994) Open field, learned helplessness, conditioned defensive burying, and forced swim tests in WKY rats. Physiology and Behavior 55: 433439CrossRefGoogle ScholarPubMed
Paterson, A.M. and Pearce, G.P. (1989) Fear-induced puberty in gilts handled pleasantly or unpleasantly during rearing. Applied Animal Behaviour Science 22: 225233CrossRefGoogle Scholar
Patterson-Kane, E., Nicol, C.J., Foster, T.M. and Temple, W. (1995) The perception of video images by laying hens. In: Proceedings of the 29th International Congress of the International Society for Applied Ethology (Eds Rutter, S.M., Rushen, J., Randle, H.D. and Eddison, J.C.), UFAW, Potters Bar, pp. 3940Google Scholar
Pedersen, V. (1994) Long-term effects of different handling procedures on behavioural, physiological, and production-related parameters in silver foxes. Applied Animal Behaviour Science 40: 285296CrossRefGoogle Scholar
Petitte, J.N. and Etches, R.J. (1991) Daily infusion of corticosterone and reproductive function in the domestic hen. General and Comparative Endocrinology 83: 397405CrossRefGoogle ScholarPubMed
Price, E.O. (1984) Behavioral aspects of animal domestication. Quarterly Review of Biology 59: 132CrossRefGoogle Scholar
Rajecki, D.W. (1974) Effects of prenatal exposure to auditory or visual stimulation on postnatal distress vocalizations in birds. Behavioural Biology 11: 525536CrossRefGoogle ScholarPubMed
Reed, H.J., Wilkins, L.J., Austin, S.D. and Gregory, N.G. (1993) The effect of environmental enrichment during rearing on fear reactions and depopulation trauma in adult caged hens. Applied Animal Behaviour Science 36: 3946CrossRefGoogle Scholar
Renner, M.J. and Rosenzweig, M.R. (1987) Enriched and Impoverished Environments, Effects on Brain and Behavior. Springer-Verlag, New YorkCrossRefGoogle Scholar
Rogers, L.J. (1995) The Development of Brain and Behaviour in the Chicken. CAB International, Wallingford, UKCrossRefGoogle Scholar
Rogers, L.J. and Workman, L. (1989) Light exposure during incubation affects competitive behaviour in domestic chicks. Applied Animal Behaviour Science 23: 187198CrossRefGoogle Scholar
Romeyer, A. and Bouissou, M.F. (1992) Assessment of fear reactions in domestic sheep, and influence of breed and rearing conditions. Applied Animal Behaviour Science 34: 93119CrossRefGoogle Scholar
Roque, L. and Soares, M.C. (1994) Effects of eggshell quality and broiler breeder age on hatchability. Poultry Science 73: 18381845CrossRefGoogle ScholarPubMed
Rosales, A.G. (1994) Managing stress in broiler breeders: a review. Journal of Applied Poultry Research 3: 199207CrossRefGoogle Scholar
Romanoff, A.L. and Romanoff, A.J. (1949) The Avian Egg. John Wiley and Sons, Inc., New YorkGoogle Scholar
Rovee-Collier, C., Kupersmidt, J., O'Brien, L., Collier, G. and Tepper, V. (1991) Behavioral thermoregulation and immobilization: conflicting demands for survival. Journal of Comparative Psychology 105: 232242CrossRefGoogle ScholarPubMed
Rowan, A.N. (1988) Animal anxiety and animal suffering. Applied Animal Behaviour Science 20: 135142CrossRefGoogle Scholar
Rumbaugh, D.M., Washburn, D. and Savage-Rumbaugh, E.S. (1989) On the care of captive chimpanzees: methods of enrichment. In: Housing, Care and Psychological Wellbeing of Captive and Laboratory Primates (Ed. Segal, E), Noyes Publications, Park Ridge, NJ, pp. 357375Google Scholar
Rushen, J. and de Passille, A.M.B. (1992) The scientific assessment of the impact of housing on animal welfare: a critical review. Canadian Journal of Animal Science 72: 721743CrossRefGoogle Scholar
Russell, P.A. (1979) Fear-evoking stimuli. In: Fear in Animals and Man (Ed. Sluckin, W), Van Nostrand Reinhold Co., New York, pp. 86124Google Scholar
Russell, P.A. (1983) Psychological studies of exploration in animals: a reappraisal. In: Exploration in Animals and Humans (Eds Archer, J. and Birke, L.), Van Nostrand Reinhold Co., London, pp. 2254Google Scholar
Rutter, S.M. (1989) Fear in the domestic fowl: can aversion be measured? PhD Thesis, University of Edinburgh, 194 ppGoogle Scholar
Salzen, E.A. (1979) The ontogeny of fear in animals. In: Fear in Animals and Man (Ed Sluckin, W), Van Nostrand Reinhold Co., New York, pp. 125163Google Scholar
Satterlee, D.G. and Edens, F.W. (1987) Plasma catecholamine releases post-immobilization in Japanese quail high and low blood corticosterone response lines. Poultry Science 66(Suppl 1): 3839Google Scholar
Satterlee, D.G. and Johnson, W.A. (1985) Metabolic traits in Japanese quail selected for high or low corticosterone response to stress. Poultry Science 64(Suppl 1): 176Google Scholar
Satterlee, D.G. and Johnson, W.A. (1988) Selection of Japanese quail for contrasting blood corticosterone response to immobilization. Poultry Science 67: 2532CrossRefGoogle ScholarPubMed
Satterlee, D.G. and Jones, R.B. (1995). Timidity in Japanese quail divergently selected for low or high adrenocortical response to immobilization stress. Poultry Science 74(Suppl 1): 116Google Scholar
Satterlee, D.G. and Roberts, E.D. (1990) The influence of stress treatment on femur cortical bone porosity and medullary bone status in Japanese quail selected for high and low blood corticosterone response to stress. Comparative Biochemistry and Physiology 95A: 401405CrossRefGoogle Scholar
Satterlee, D.G., Aguilera-Quintana, I., Munn, B.J. and Krautmann, B.A. (1989) Vitamin C amelioration of the adrenal stress response in broiler chickens being prepared for slaughter. Comparative Biochemistry and Physiology 94A: 569574CrossRefGoogle Scholar
Satterlee, D.G., Castille, S.A. and Jones, R.B. (1996) Selection of Japanese quail for reduced adrenocortical responsiveness does not compromise their ease of capture. Poultry Science (in press)Google Scholar
Satterlee, D.G., Jones, R.B. and Ryder, F.H. (1993) Effects of Vitamin C supplementation on the adrenocortical and tonic immobility fear reactions of Japanese quail genetically selected for high corticosterone response to stress. Applied Animal Behaviour Science 35: 347357CrossRefGoogle Scholar
Satterlee, D.G., Jones, R.B. and Ryder, F.H. (1994) Effects of ascorbyl-2-polyphosphate on adrenocortical activation and fear-related behavior in broiler chickens. Poultry Science 73: 194201CrossRefGoogle ScholarPubMed
Schiff, W. (1965) Perception of impending collision: a study of visually directed avoidance behaviour. Psychological Monographs 79: 11, Whole No. 604CrossRefGoogle Scholar
Schjelderup-Ebbe, T. (1922) Beitrage zur Sozialpsychologie des Haushuhns. Zeitschrift fur Psychologie 88: 225252Google Scholar
Scott, G.B. and Moran, P. (1993) Fear levels in laying hens carried by hand and by mechanical conveyors. Applied Animal Behaviour Science 36: 337345CrossRefGoogle Scholar
Sefton, A.E. (1976) The interactions of cage size, cage level, social density, fearfulness, and production of single comb White Leghorns. Poultry Science 55: 19221926CrossRefGoogle Scholar
Sefton, A.E. and Crober, D.C. (1976) Social and physical environmental influences on caged single comb White Leghorns. Canadian Journal of Animal Science 56: 733738CrossRefGoogle Scholar
Shabalina, A.T. (1984) Dominance rank, fear scores and reproduction in cockerels. British Poultry Science 25: 297301CrossRefGoogle ScholarPubMed
Shanawany, M.M. (1990) Acceleration of embryonic development and hatching time by photoperiodic stimulation. Archiv fur Geflugelkunde 54: 187189Google Scholar
Shapiro, L.J. (1980) The attractiveness of Plexiglas, a mirror, or an age mate to Peking ducklings and the relevance of these findings to imprinting experiments. Bulletin of the Psychonomic Society 16: 3436CrossRefGoogle Scholar
Sherwin, C.M. (1991) The preference of hens for pecking simple objects of different colurs. In: Applied Animal Behaviour: Past, Present and Future. (Eds Appleby, M.C.Horrell, R.I.Petherick, J.C.Rutter, S.M.), Universities Federation for Animal Welfare, Potters Bar, UK, pp. 155156Google Scholar
Sherwin, C.M. (1993) Pecking behaviour of laying hens provided with a simple motorised environmental enrichment device. British Poultry Science 34: 235240CrossRefGoogle Scholar
Sherwin, C.M. (1995) Environmental enrichment for laying hens – spherical objects in the feed trough. Animal Welfare 4: 4151CrossRefGoogle Scholar
Shorter Oxford English Dictionary (1973) Third Edition, Clarendon Press, Oxford. p. 733Google Scholar
Siegel, H.S. and Van Kampen, M. (1984) Energy relationships in growing chickens given daily injections of corticosterone. British Poultry Science 25: 477485CrossRefGoogle ScholarPubMed
Siegel, P.B. (1993a) Opportunities for science and technology to improve production systems to assure animal well-being and economic viability. In: Food Animal Well-Being 1993 – Conference Proceedings and Deliberations, Purdue Research Foundation, West Lafayette, USA, pp. 7988Google Scholar
Siegel, P.B. (1993b) Behavior-genetic analyses and poultry husbandry. Poultry Science 72: 16CrossRefGoogle Scholar
Suarez, S.D. and Gallup, G.G. Jr. (1981) Predatory overtones of open-field testing in chickens. Animal Learning and Behavior 9: 153163CrossRefGoogle Scholar
Suarez, S.D. and Gallup, G.G. Jr. (1982) Open-field behavior in chickens: the experimenter is a predator. Journal of Comparative and Physiological Psychology 96: 432439CrossRefGoogle Scholar
Suarez, S.D. and Gallup, G.G. Jr. (1983) Emotionality and fear in birds: a selected review and reinterpretation. Bird Behaviour 5: 2230Google Scholar
Tachibana, T. (1980) The open-field test: an approach from multivariate analysis. Animal Learning and Behavior 8: 465467CrossRefGoogle Scholar
Tachibana, T. (1982) A comment on confusion in open-field studies: Abuse of null hypothesis significance test. Physiology and Behavior 25: 159161CrossRefGoogle Scholar
Tanida, H., Miura, A., Tanaka, T. and Yoshimoto, T. (1994) The role of handling in communication between humans and weanling pigs. Applied Animal Behaviour Science 40: 219228CrossRefGoogle Scholar
Thaxton, J.P. and Pardue, S.L. (1984) Ascorbic acid and physiological stress. In: Ascorbic Acid in Domestic Animals (Eds Wegger, I., Tagwerker, F.J. and Moustgaard, J.), Royal Danish Agricultural Society, Copenhagen, pp. 2531Google Scholar
Thompson, C.I. (1976) Growth in the Hubbard broiler: increased size following early handling. Developmental Psychobiology 9: 459464CrossRefGoogle ScholarPubMed
Thompson, R.K.R. and Liebreich, M. (1987) Adult chicken alarm calls enhance tonic immobility in chicks. Behavioural Processes 14: 4961CrossRefGoogle ScholarPubMed
Toates, F.M. (1980) Animal Behaviour – a Systems Approach. John Wiley and Sons, Chichester, UKGoogle Scholar
Toubas, P.L., Abla, K.A., Cao, W., Logan, L.G. and Seale, T.W. (1990) Latency to enter a mirrored chamber: a novel behavioral assay for anxiolytic agents. Pharmacology, Biochemistry and Behavior 35: 121126CrossRefGoogle Scholar
Ulrich, R. (1984) View through a window may influence recovery from surgery. Science 224: 420CrossRefGoogle ScholarPubMed
Van Der Staay, F.J., Kerbusch, S. and Raaijmakers, W. (1990) Genetic correlations in validating emotionality. Behaviour Genetics 20: 5162CrossRefGoogle ScholarPubMed
Vince, M.A. (1980) The posthatching consequences of prehatching stimulation: changes with amount of prehatching and posthatching exposure. Behaviour 75: 3653CrossRefGoogle Scholar
Vince, M.A. and Toosey, F.M. (1980) Posthatching effects of repeated prehatching stimulation with an alien sound. Behaviour 72: 6576CrossRefGoogle Scholar
Vestergaard, K. (1989) Environmental influences on the development of behaviour and their relation to welfare. In: Proceedings of the Third European Symposium on Poultry Welfare (Eds. Faure, J.M. and Mills, A.D.), Worlds Poultry Science Association, Tours, France, pp. 109122Google Scholar
Vestergaard, K.S., Kruijt, J.P. and Hogan, J.A. (1993) Feather pecking and chronic fear in groups of red junglefowl: their relations to dustbathing, rearing environment and social status. Animal Behaviour 45: 11271140CrossRefGoogle Scholar
Walsh, R.N. and Cummins, R.A. (1976) The open-field tests: A critical review. Psychological Bulletin 83: 482504CrossRefGoogle ScholarPubMed
Webb, M.L. and Mashaly, M.M. (1984) Effect of adaptation to handling on the circulating corticosterone concentration of laying hens. British Poultry Science 25: 425427CrossRefGoogle ScholarPubMed
Webster, A.J.F. and Nicol, C.J. (1988) The case for welfare. In: Cages for the Future. Cambridge Poultry Conference, ADAS, pp. 1121Google Scholar
Wemesfelder, F. (1993) Animal boredom. Towards an empirical approach of animal subjectivity. PhD Thesis, University of Leiden, 195 ppGoogle Scholar
Williams, J.B., Etches, R.J. and Rzasa, J. (1985) Induction of a pause in laying by corticosterone infusion or dietary alterations: effects on the reproductive system, food consumption and body weight. British Poultry Science 26: 2534CrossRefGoogle ScholarPubMed
Wood-Gush, D.G.M. (1971) The Behaviour of the Domestic Fowl, Heinemann, LondonGoogle Scholar
Wood-Gush, D.G.M. and Vestergaard, K. (1991) The seeking of novelty and its relation to play. Animal Behaviour 42: 599606CrossRefGoogle Scholar
Yasutomi, M. and Adachi, N. (1987) Effects of playthings on prevention of cannibalism in rearing chickens. Japanese Poultry Science 24: 372373CrossRefGoogle Scholar
Zulkifli, I, and Siegel, P.B. (1995) Is there a positive side to stress? World's Poultry Science Journal 51: 6376CrossRefGoogle Scholar
Zulkifli, I.Dunnington, E.A. and Siegel, P.B. (1995) Age and psychogenic factors in response to food deprivation and refeeding in White Leghorn chickens. Archiv fur Geflugelkunde 59: 175181Google Scholar