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Roles of taste and learning in water regulation

Published online by Cambridge University Press:  19 May 2011

Robert C. Beck
Affiliation:
Department of Psychology, Wake Forest University, Winston-Salem, N.C. 27109

Abstract

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Copyright © Cambridge University Press 1979

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References

COMMENTARY AND RESPONSE REFERENCES

Adolph, E. F.Thirst and its inhibition in the stomach. American Journal of Physiology. 161: 374386, 1950. [EA]CrossRefGoogle ScholarPubMed
Regulation of water intake in relation to body water content. In: Handbook of Physiology, Section 6: Volume 1, American Physiological Society, Washington D.C., p. 163, 1967. [DR]Google Scholar
Barker, J. P., & Hoy, P. A.Multiple factors in thirst. American Journal of Physiology. 178:538562, 1954. [EA]Google Scholar
Alcock, J.Animal Behaviour – An Evolutionary Approach. Sinauer, Sunder-land, Mass. 1975. [FT]Google Scholar
Allison, J.Contrast, induction, facilitation, suppression, and conservation. Journal of the Experimental Analysis of Behavior. 25: 185198, 1976.CrossRefGoogle ScholarPubMed
Miller, M., & Wozny, M.Conservation in behavior. Journal of Experimental Psychology: General. In press, 1978. [SL, JS]Google Scholar
Bare, J. K. & Cicala, G.Deprivation and time of testing as determinants of food intake. Journal of Comparative and Physiological Psychology. 53: 151154, 1960. [CS]CrossRefGoogle ScholarPubMed
Bartoshuk, L. M., Harned, M. A., & Parks, L. H.Taste of water in the cat: effects on sucrose preference. Science. 171: 699701, 1971. [WW]CrossRefGoogle ScholarPubMed
Beck, R. C.The rat's adaptation to a 23.5-hour water deprivation schedule. Journal of Comparative and Physiological Psychology. 55: 646648, 1962. [RBe]CrossRefGoogle ScholarPubMed
Some effects of restricted water intake on consummatory behavior in the rat. In: Wayner, M. J. (ed.), Thirst. Pergamon, Elmsford, N.Y., 1964. [RW]Google ScholarPubMed
Motivation Theories and Principles. Prentice-Hall, Englewood Cliffs, 1978. [RBe, RW]Google Scholar
Nash, R., Viernstein, L., & Gordon, L.Sucrose preferences of hungry and thirsty rats as a function of duration of presentation of test solutions. Journal of Comparative and Physiological Psychology. 78:4050, 1972. [RBe]Google Scholar
Bentley, P. J.Endocrines and Osmoregulation. Springer-Verlag, Berlin, Heidelberg, and New York, 1971. [TH]Google Scholar
Bernard, C.Leçons de Physiologie Experimentale Appliquée à la Medicine Faites au Collège de France, Vol. II. Bailliere, Paris, 1856. [DV]Google Scholar
Leçon sur les Phénomènes de la Vie Communs aux Animaux et aux Vegetaux. Bailliére et Fils, Paris, 1878. [TS]Google Scholar
Bichat, M. F. X.Recherches Physiologiques sur la Vie et la Mort. Brosson, Paris, 1800. [TS]Google Scholar
Boice, R.Excessive water intake in captive Norway rats with scar-markings. Physiology and Behaviour. 7:723–25, 1971. [FT]CrossRefGoogle ScholarPubMed
Bolles, R. C.Theory of motivation (2nd Ed.) Harper & Row, New York, 1975. [RBe, RBo]Google Scholar
Booth, D. A. Approaches to feeding control. In: Silverstone, T. (ed.), Appetite and Food Intake. Dahlem Konferenzen, Berlin, pp. 417478, 1976. [DB, JPa, FT]Google Scholar
Appetite and satiety as metabolic expectancies. In: Katsuki, Y., Sato, M., Takagi, S. F., & Oomura, Y. (eds.), Food Intake and Chemical Senses. University of Tokyo Press, Tokyo, pp. 317330, 1977. [FT]Google Scholar
Hunger Models: Computable Theory of Feeding Control. Academic Press, London, 1978. [JPa]Google Scholar
Acquired behavior controlling energy intake and output. Psychiatric Clinics of North America 1, 1978b. [DB, FT]CrossRefGoogle Scholar
Metabolism and the control of feeding in man and animals. In: Brown, K. & Cooper, S. J. (eds.) Chemical Influences on Behaviour. Academic Press, London, 1979. [DB]Google Scholar
Lovett, D., & McSherry, G. M.Postingestive modulation of the sweetness preference gradient in the rat. Journal of Comparative and Physiological Psychology. 78:485512, 1972. [DB]Google Scholar
Stoloff, R., & Nicholls, J.Dietary acceptance in infant rats established by association with effects of nutrient composition. Physiological Psychology. 2:313319, 1974. [DB]Google Scholar
Toates, F. M., & Platt, S. V. Control system for hunger and its implications in animals and man. In: Novin, D., Wyrwicka, W., & Bray, G. (eds.), Hunger: Basic Mechanisms and Clinical Implications. Raven Press, New York, pp. 127143, 1976. [FT]Google Scholar
Borer, K. T., Rowland, N., Mirow, A., Borer, R. C. Jr., & Kelch, R. P.Physiological and behavioral responses to starvation in the golden hamster. American Journal of Physiology (in press). 1979. [NR]Google ScholarPubMed
Bridge, J. G. Unit activity in the septal nuclei during water deprivation, drinking, and rehydration. In: DeFrance, J. F. (ed.), The Septal Nuclei. Plenum Press, New York, pp. 229239, 1976. [GH]CrossRefGoogle Scholar
Brobeck, J. R. Exchange, control, and regulation. In: Yamamoto, W. S. & Brobeck, J. R. (eds.) Physiological Controls and Regulations. W. B. Saunders Co., Philadelphia, pp. 113, 1965. [AJ]Google Scholar
Bruce, H. M. & Kennedy, G. C.The central nervous control of food and water intake. Proc. Royal Soc. London (Ser. B). 138: 528544, 1951.Google ScholarPubMed
Calhoun, J. B.The Ecology and Sociology of the Norway Rat. U.S. Department of Health, Education, and Welfare, Bethesda, Md., 1962. [NR]Google Scholar
Cannon, W. B. & Lieb, C. W.The receptive relaxation of the stomach. American Journal of Physiology. 27: 267273, 1911. [JAD]CrossRefGoogle Scholar
Cheng, M., Rozin, P., & Teitelbaum, P.Starvation retards development of food and water regulation. Journal of Comparative and Physiological Psychology. 76: 206218, 1971. [NM]CrossRefGoogle Scholar
Chiang, H. M. & Wilson, W. A.Some tests of the diluted-water hyphothesis of saline consumption in rats. Journal of Comparative and Physiological Psychology. 56: 660665, 1963. [FT]CrossRefGoogle Scholar
Cohen, P. S. & Tokeida, F.Sucrose-water preference reversal in the water-deprived rat. Journal of Comparative and Physiological Psychology. 79: 254258, 1972. [RBe]CrossRefGoogle ScholarPubMed
Corbit, J. D.Osmotic thirst: theoretical and experimental analysis. Journal of Comparative and Physiological Psychology. 67: 314, 1969. [RBo]CrossRefGoogle ScholarPubMed
Corey, D. T., Walton, A., & Wiener, N. I.Development of carbohydrate preference during water rationing: A specific hunger? Physiology and Behaviour. 20: 547552, 1978. [FT]CrossRefGoogle ScholarPubMed
Cytawa, J., Luszawska, D., Schoenborn, R., & Zajac, M.Lack of instrumental conditioning with intragastric reinforcement in normal experimental procedure. Acta Neurobiologiae Experimental. 32: 767772, 1972. [WW]Google ScholarPubMed
Dare, P. J.Seasonal changes in the body weight of Oystercatchers Haematopus ostralegus. Acta Neurobiologiae Experimental. 119: 494506, 1977. [RM]Google Scholar
Davis, J. D. & Wirtshafter, D.Set-points or settling points for body weight? A reply to Mrosovsky and Powley. Behavioural Biology. 24: 405411, 1978. [FT]CrossRefGoogle ScholarPubMed
Dawkins, M. & Dawkins, R. Some descriptive and explanatory stochastic models of decision-making. In: McFarland, D. J. (ed.), Motivational Control Systems Analysis. Academic Press, London, 1974. [IH]Google Scholar
Dawkins, R.Replicator selection and the extended phenotype. Zeitschrift für Tierpsychologie. 47: 6176, 1978. [AH]CrossRefGoogle ScholarPubMed
de Jong, A., Strubbe, J. H., & Steffens, A. B.Hypothalamic influence on insulin and glucagon release in the rat. American Journal of Physiology. 233: E380–E388, 1977. [AS]Google ScholarPubMed
Deutsch, J. A.A new type of behavior theory. British Journal of Psychology. 44: 304317, 1953. [JAD]Google Scholar
The Structural Basis of Behavior. University of Chicago Press, Chicago, 1960. [JAD]Google Scholar
Molina, F. & Puerto, A.Conditioned taste aversion caused by palatable non-toxic nutrients. Behavioral Biology. 16:161174, 1976. [JAD]Google Scholar
Puerto, A., & Wang, Ming-Li. The pyloric sphincter and differential food preference. Behavioral Biology. 19: 543547, 1977. [JAD]Google Scholar
Devenport, L. D.Aversion to a palatable saline solution in rats: Interactions of physiology and experience. Journal of Comparative and Physiological Psychology. 83: 98105, 1973. [FT]CrossRefGoogle ScholarPubMed
Epstein, A. N. Epilogue: Retrospect and Prognosis. In: Epstein, A. N., Kis-sileff, H. R., and Stellar, E. (eds.), The Neuropsychology of Thirst: New Findings and Advances in Concepts. V. H. Winston & Sons, Washington, D.C., pp. 315321, 1973. [DV]Google Scholar
Ernitz, T. & Corbit, J. D.Taste as a dipsogenic stimulus. Journal of Comparative and Physiological Psychology. 83: 2731, 1973. [WW]CrossRefGoogle Scholar
Evans, P. R. & Smith, P. C.Fat and pectoral muscle as indicators of body condition in the Bar-tailed Godwit. Wildfowl 26: 6476, 1975, [RM]Google Scholar
Falk, J. L.Conditions producing psychogenic polydipsia in animals. Annals of the New York Academy of Sciences. 157: 569593, 1969. [JW]CrossRefGoogle ScholarPubMed
The nature and determinants of adjunctive behavior. Psychology and Behavior. 6:577588, 1971. [JW]CrossRefGoogle Scholar
Fibiger, H. C., Zis, A. P. & McGeer, E. G.Feeding and drinking deficits after 6-hydroxydopamine administration in the rat: similarities to the lateral hypothalamic syndrome. Brain Besearch. 55:135148, 1973. [NR]CrossRefGoogle Scholar
Fitzsimons, J. T. Some Historical Perspectives in the Physiology of Thirst. In: Epstein, A. N., Kissileff, H. R. and Stellar, E. (eds.), The Neuropsychology of Thirst: New Findings and Advances in Concepts. V. H. Winston & Sons, Washington, D.C., pp. 2529, 1973. [DV]Google Scholar
The physiological basis of thirst. Kidney International. 10:311, 1976. [FT]CrossRefGoogle Scholar
Forgus, R. H. & Hutchings, D. E.Effects of early experience on flavour preference. Psychological Reports. 6:410, 1960, [FT]CrossRefGoogle Scholar
Fumoux, F., Arnauld, E., Czernichow, P., & Vincent, J. D.Inhibition of periodically firing supraoptic neurons in relation with inhibition of vasopres-sin secretion induced by drinking. XXVIIe International Congress of Physiological Sciences, Paris, pp. 248249, 1977. [JV]Google Scholar
Garcia, J., Ervin, F. R., & Koelling, R. A.Learning with prolonged delay of reinforcement. Psychonomic Science. 5: 121122, 1966. [SW]CrossRefGoogle Scholar
Garcia, J., McGowan, B. K., Ervin, F. R., & Koelling, R. A.Cues: Their relative effectiveness as a function of the reinforcer. Science. 160: 794795, 1968. [SW]CrossRefGoogle ScholarPubMed
Gibbs, J., Falasco, J. D., & McHugh, P. R.Cholecystokinin-decreased food intake in rhesus monkeys. American Journal of Physiology. 230: 1518, 1976. [SW]CrossRefGoogle ScholarPubMed
Gibbs, J., Young, R. C., & Smith, G. P.Cholecystokinin decreases food intake of rats. Journal of Comparative and Physiological Psychology. 84: 488495, 1973. [SW]CrossRefGoogle Scholar
Gold, R. M., Kapatos, G., Prowse, J., Quackerbusch, P. M., & Oxford, T. W.Role of water temperature in the regulation of water intake. Journal of Comparative and Physiological Psychology. 85: 5263, 1973. [WW]CrossRefGoogle ScholarPubMed
Gould, S. J.Sociobiology: the art of story-telling. New Scientist 80: 530533, 1978. [RM]Google Scholar
Gutman, Y. & Krausz, M.Regulation of food and water intake in rats as related to plasma osmolality and volume. Physiology and Behavior. 4: 311313, 1969. [JW]CrossRefGoogle Scholar
Guyton, A.A Textbook of Medical Physiology. Saunders, Phila., Pa., 1976. [FT]Google Scholar
Hamilton, C. L.Problems of refeeding after starvation in the rat. Annals of the New York Academy of Sciences. 157: 10041017, 1969. [JW]CrossRefGoogle ScholarPubMed
Hamilton, W. D.The genetical theory of social behaviour. I and II. Journal of Theoretical Biology. 7: 152, 1964. [AH]CrossRefGoogle Scholar
Hansen, B. W., DeSomery, C. H., Hagedorn, P. K., & Kalnasy, L. W.Effects of enleral and parenteral nutrition on appetite in monkeys. Journal of Parenteral and Enteral Nutrition. 1: 8388, 1977. [SW]CrossRefGoogle ScholarPubMed
Harrison, M. F.Effect of starvation on the composition of the liver cell. Journal of Biochemistry. 55: 204211, 1953. [JW]CrossRefGoogle ScholarPubMed
Hatton, G. I.Nucleus circularis: is it an osmoreceptor in the brain? Brain Research Bulletin. 1: 123131, 1976. [GH]CrossRefGoogle ScholarPubMed
Hatton, G. I. & Walters, J. K.Induced multiple nucleoli, nucleolar margination, and cell size changes in supraaoptic neurons during dehydration and rehy-dration in the rat. Brain Research. 59: 137154, 1973. [GH]CrossRefGoogle ScholarPubMed
Hinde, R. A.Animal Behaviour: A Synthesis of Ethology and Comparative Psychology. McGraw-Hill, New York, 1970. [FT]Google Scholar
Hirano, T.Some factors regulating water intake by the eel, Anguilla japonica. Journal of Experimental Biology. 61: 737747, 1974. [TH]CrossRefGoogle ScholarPubMed
Satou, M., & Utida, S.Central nervous system control of osmoregulation in the eel (Anguilla japonica). Comparative Biochemistry and Physiology. 43A:537547, 1972. [TH]Google Scholar
Takei, Y., & Kobayashi, H. Angiotensin and drinking in the eel and the frog. In: Jørgensen, C. B. & Skadhauge, E. (eds.), Osmotic and Volume Regulation. Munksgaard, Copenhagen, pp. 123134, 1978. [TH]Google Scholar
Hoebel, B. G. Feeding: Neural control of intake. In: Hall, V. E., Giese, A. C., & Sonnenschein, R. (eds.), Annual Review of Physiology (Vol. 33), Annual Reviews, Palo Alto, Calif, 1971. [RBe]Google Scholar
Holmes, J. H. & Montgomery, V.Relation of route of administration and types of fluid to satisfaction of thirst in the dog. American Journal of Physiology 199: 907911, 1960. [EA]CrossRefGoogle ScholarPubMed
Houston, A. I., Halliday, T. R., & McFarland, D. J.Towards a model of courtship of the smooth newt, Triturus vulgaris, with special emphasis on problems of observability in the simulation of behaviour. Medical and Biological Engineering and Computing. 15: 4961, 1977. [RM]CrossRefGoogle Scholar
Hsiao, S. & Rasmussen, C.Why does a variety of measures of thirst yield different results? An explanation developed by studying the effect of an aversive factor on liquid intake in rats. Psychonomic Science. 10: 9798, 1968. [TS]CrossRefGoogle Scholar
Hull, C. L.Principles of Behavior. Appleton-Century-Crofts, New York, 1943. [JWP]Google Scholar
Huth, E. J. & Elkinton, J. R.Effect of acute fasting in the rat on water and electrolyte content of serum and muscle and on total body composition. American Journal of Physiology. 196: 299302, 1959. [JW]CrossRefGoogle ScholarPubMed
Jones, P. J. & Ward, P.The level of reserve protein as the proximate factor controlling the timing of breeding and clutch-size in the Red-billed Quelea Quelea quelea. American Journal of Physiology. 118: 547575, 1976. [AH]Google Scholar
Kakolewski, J. W. & Valenstein, E. S. Antidiuresis associated with the ingestion of food substances. In: Pfaffman, C. (ed), Olfaction and Taste. Rockefeller University Press, New York, pp. 593600, 1969. [FT]Google Scholar
Kennedy, J. M. & Baldwin, B. A.Taste preferences in pigs for nutritive and non-nutritive sweet solutions. Animal Behaviour. 20: 706718, 1972. [WW]CrossRefGoogle ScholarPubMed
Kenney, N. J. & Mook, D. G.Effects of ovariectomy on meal pattern in the albino rat. Journal of Comparative and Physiological Psychology. 87: 302309, 1974. [SW]CrossRefGoogle ScholarPubMed
Kenny, J. T., Wright, J. W., & Reynolds, T. J.Schedule-induced polydipsia: the role of oral and plasma factors. Physiology and Behavior. 17: 939945, 1976. [JW]CrossRefGoogle ScholarPubMed
Kissileff, H. R.Free feeding in normal and “recovered lateral” rats monitored by a pellet-detecting eatometer. Physiology and Behavior 5: 163173, 1970. [NR]CrossRefGoogle ScholarPubMed
Krasnegor, N. A. (ed.), Behavioral Tolerance: Besearch and Treatment Implications. U. S. Government Printing Office, Washington, D.C., 1978. [DO]Google Scholar
Krebs, J. R., Ashcroft, R., & Webber, M.Song repertoires and territory defence in the great tit. Nature. 271: 539542, 1978. [AH]CrossRefGoogle Scholar
Kulkosky, P. J., Breckenridge, C., Krinsky, R., & Woods, S. C.Satiety elicited by the C-terminal octapeptide of cholecystokinin-pancreozymin in normal and VMH-lesioned rats. Behavioral Biology. 18: 227234, 1976. [SW]CrossRefGoogle ScholarPubMed
Kutscher, C. L.Species differences in the interaction of feeding and drinking. Annals of the New York Academy of Sciences. 157: 539552, 1969. [FT]CrossRefGoogle ScholarPubMed
Food-deprivation polydipsia in gerbils: Lack of adaptive value and termination with carbohydrate feeding. Physiological Psychology. 1.125128, 1973. [JW]CrossRefGoogle Scholar
Kutscher, C. L. & Miller, D. G.Age-dependent polydipsia in the SWR/J Mouse. Physiology and Behavior. 13:7179, 1974. [CK]CrossRefGoogle ScholarPubMed
Kutscher, C. L. & Schmalbach, N. L.Effects of water deprivation, NaCl injection, and seven aversive taste stimuli on drinking in two normal mouse strains and one with diabetes insipidus. Physiology and Behavior. 15: 659667, 1975. [CK]CrossRefGoogle ScholarPubMed
Kutscher, C. L. & Wright, W. A.Drinking characteristics of normal rats and rats heterozygous or homozygous for diabetes insipidus. Physiology and Behavior. 18: 833839, 1977. [CK]CrossRefGoogle ScholarPubMed
Lancaster, K.Change and innovation in the technology of consumption. American Economic Review. 56:(2) 1423, 1966. [SL]Google Scholar
Larkin, S. & McFarland, D. J.The cost of changing from one activity to another. Animal Behaviour. 26: 12371246, 1978. [AH, FT]CrossRefGoogle Scholar
LeMagnen, J. & Tallon, S.Enregistrement et analyse preliminaire de la “periodicite alimentaire spontanée” chez le rat blanc. Journal of Physiologie (Paris). 55: 286287, 1963. [DV]Google Scholar
La periodicite spontanee de la prise d'ailments ad libitum du rat blanc. Journal de Physiologie. 58:323349, 1966. [SW]Google Scholar
L'Effet due jeûne préable sur les caracteristiques temporelles de la prise d'aliments chez le rat. Journal de Physiologie. 60:143154, 1968. [DB]Google Scholar
Levitsky, D. A.Feeding conditions and intermeal relationships. Physiology and Behavior. 12:779787, 1974. [SW]CrossRefGoogle ScholarPubMed
Lewontin, R. C.Adaptation. Scientific American 239:156169, 1978. [RM]Google ScholarPubMed
Ludlow, A. R.The behaviour of a model animal. Behaviour. 58: 131172, 1976. [AL, FT]CrossRefGoogle Scholar
Mach, E.The Science of Mechanics. Open Court, LaSalle, 111. 1960. [FT]Google Scholar
Manning, A.An Introduction to Animal Behaviour. Edward Arnold, London, 1979. [FT]Google Scholar
Marshall, A.Principles of Economics. (Eighth Edition) London: Macmillan, 1974. [JS]Google Scholar
Marwine, A. and Collier, G.The rat at the water hole. Journal of Comparative and Physiological Psychology, (in press) 1979. [NR]CrossRefGoogle Scholar
McCleery, R. H. Optimal behaviour sequences and decision making. In: Krebs, J. R. & Davies, N. B. (eds.) Behavioural Ecology, Blackwells, Oxford, 1978. [AH, RM]Google Scholar
McFarland, D. J.Interaction of hunger and thirst in the Barbary dove. Journal of Comparative and Physiological Psychology. 58: 174179, 1964. [FT]CrossRefGoogle ScholarPubMed
Decision-making in animals. Nature (London) 269:1521, 1977. [RM]CrossRefGoogle Scholar
McMurray, T. M. & Snowdon, C. T.Sodium preferences and responses to sodium deficiency in rhesus monkeys. Physiological Psychology. 5:477482, 1977. [CS]CrossRefGoogle Scholar
Mendelson, J. & Chillag, D.Tongue cooling: a new reward for thirsty rodents. Science. 170: 14181421, 1970. [WW]CrossRefGoogle Scholar
Milinski, M. & Heller, R.Influence of a predator on the optimal foraging behaviour of sticklebacks (Gasterosteus aculeatus). Nature. 275: 642644, 1978. [AH]CrossRefGoogle Scholar
Miller, D. G. & Kutscher, C. L.Effects of nutritive and bulk intake on the suppression of food-deprivation polydipsia in the gerbil. Physiology and Behavior. 14: 791794, 1975. [CK]CrossRefGoogle ScholarPubMed
Moll, R. P.Drive and maturation effects in the development of consummatory behavior. Psychological Reports. 15: 295302, 1964. [RW]CrossRefGoogle Scholar
Mowrer, O. H.Learning Theory and Behavior. Wiley, New York, 1960. [RBe]CrossRefGoogle Scholar
Mueller, K. & Hsiao, S. Consistency of cholecystokinin satiety effect across deprivation levels and motivational states. Physiology and Behavior. In press, 1979. [TS]CrossRefGoogle Scholar
Murton, R. K. & Westwood, N. J.Avian Breeding Cycles. Oxford University Press, Oxford, 1977. [RM]Google Scholar
Nicolaïdis, S.Responses des unites osmosensibles hypothalamiques aux stimulations salienes et aqueuses de la langue. Comptes Rendus Hebdomadaires des Seances de l'Academie des Sciences. Series C. 267:23522355, 1968. [DV]Google Scholar
Early systemic responses to orogastric stimulation in the regulation of food and water balance: functional and electrophysiological data. Annals of the New York Academy of Sciences. 157:11761203, 1969. [GH, FT, JV]CrossRefGoogle Scholar
Rôle des récepteurs internes et externes dans la prise d'eau régulatrice et non régulatrice. Rein, Foie, Maladies de la Nutrition. 16B: 159174, 1974. [SN]Google Scholar
Nicolaïdis, S. & Rowland, N.Regulatory Drinking in Rats with permanent access to a bitter fluid source. Physiology and Behavior. 14:819824, 1975. [SN, JWP, FT]CrossRefGoogle ScholarPubMed
Oatley, K.Brain mechanisms and motivation. Nature. 225:797801, 1970. [FT]CrossRefGoogle ScholarPubMed
Brain Mechanisms and Mind. Thames and Hudson, London, 1972a. [FT]Google Scholar
Book review. Quarterly Journal of Experimental Psychology. 24:553554, 1972b. [FT]Google Scholar
Oatley, K. & Toates, F. M.Osmotic inhibition of eating as a subtractive process. Journal of Comparative and Physiological Psychology. 82:268277, 1973. [FT]CrossRefGoogle ScholarPubMed
Overstreet, D. H., Schiller, G. D., Biggins, J. G., & Crane, G.Dipsogenic effects of intra- and extra-cellular thirst stimuli before and after chronic DFP treatment. Psychopharmacology Communications. 1:157164, 1975. [DO]Google Scholar
Panksepp, J.Reanalysis of feeding patterns in the rat. Journal of Comparative and Physiological Psychology. 82: 7894, 1973. [SW]CrossRefGoogle ScholarPubMed
On the nature of feeding patterns – primarily in rats. In: Novin, D., Wyrwicka, W., & Bray, G. A. (eds.), Hunger: Basic Mechanisms and Clinical Implications. Raven Press, New York, pp. 369382, 1976. [JPa]Google Scholar
Panksepp, J. & Ritter, M.Mathematical analysis of energy regulatory patterns of normal and diabetic rats. Journal of Comparative and Physiological Psychology. 89: 10191028, 1975. [SW]CrossRefGoogle ScholarPubMed
Toates, F. M., & Oatley, K.Extinction induced drinking in hungry rats. Animal Behavior. 20: 493498, 1972. [JPa]Google Scholar
Peck, J. W.Rats defend different body weights depending on palatability and accessibility of their food. Journal of Comparative and Physiological Psychology. 92: 555570, 1978a. [JWP, TS]CrossRefGoogle ScholarPubMed
Rats drinking quinine- or caffeine-adultera ted water defend lean body weights against caloric and osmotic stress. Physiology & Behavior. 21:599607, 1978b. [JWP]CrossRefGoogle Scholar
Peck, J. W. & Blass, E. M.Localization of thirst and antidiuretic osmoreceptors by intra-cranial injections in rats. American Journal of Physiology. 228:15011509, 1975. [JV]CrossRefGoogle Scholar
Peters, R. S.The Concept of Motivation. Routledge Kegan Paul, London, 1958. [RM]Google Scholar
Pieron, H. L'évolution du comportement dans ses rapports avec l'instinct. In: L'Instinct dans le Comportement des Animaux et de l'Homme. pp. 677704, 1956. [SN]Google Scholar
Porter, J. H. & Bryant, W. E.Acquisition of schedule-induced polydipsia in the Mongolian Gerbil. Physiology and Behaviour. 21:825827, 1978. [FT]CrossRefGoogle ScholarPubMed
Powers, W. T.Quantitative analysis of purposive systems: Some spadework at the foundations of scientific psychology. Psychological Review. 85: 417435, 1978. [FT]CrossRefGoogle Scholar
Quartermain, D., Kissileff, M., Shapiro, R., & Miller, N. E.Suppression of food intake with intragastric loading: relation to natural feeding cycle. Science. 173: 941943, 1971. [JAD, CS]CrossRefGoogle ScholarPubMed
Rabe, E. F.Relationship between absolute body-fluid deficits and fluid intake in the rat. Journal of Comparative and Physiological Psychology. 89: 468477, 1975. [FT]CrossRefGoogle ScholarPubMed
Ramsay, D. J., Rolls, B. J., & Wood, R. J.Thirst following water deprivation in dogs. American Journal of Physiology. 232: R93–R100, 1977a. [BR, DR]Google ScholarPubMed
Body fluid changes which influence drinking in the water-deprived rat. Journal of Physiology (London). 266:453469, 1977b. [BR]CrossRefGoogle Scholar
Revusky, S.Retention of a learned increase in the preference for a flavoured solution. Behavioural Biology. 11:121125, 1974. [FT]CrossRefGoogle ScholarPubMed
Richter, C. P.Animal behaviour and internal drives. Quarterly Review of Biology. 2: 307343, 1927. [RM, JPa]CrossRefGoogle Scholar
Riley, A. L. & Baril, L. L.Conditioned taste aversions: A bibliography. Animal Learning and Behavior. 4: 15135, 1976. [SW]CrossRefGoogle Scholar
Rolls, B. J. & Wood, R. J.Excretion following drinking in the dog. Journal of Physiology (London). 272: 7374P, 1977. [BR]Google ScholarPubMed
Rolls, B. J., Wood, R. J., & Rolls, E. T. Thirst: the initiation, maintenance, and termination of drinking. Progress in Psychobiology and Physiological Psychology. New York: Academic Press, In press. [BR]Google Scholar
Sanderson, J. D. & VanderWeele, D. A.Analysis of feeding patterns in normal and vagotomized rabbits. Physiology and Behavior. 15: 357364, 1975. [DV]CrossRefGoogle ScholarPubMed
Satinoff, E.Neural organization and evolution of thermal regulation in mammals. Science. 201: 1622, 1978. [TS]CrossRefGoogle ScholarPubMed
Schallert, T.Reactivity to food odors during hypothalamic stimulation in rats not experienced with stimulation-induced eating. Physiology and Behavior. 18: 10611066, 1977. [TS]CrossRefGoogle Scholar
Whishaw, I. Q., DeRyck, M., & Teitelbaum, P.The postures of catecholamine-depletion catalepsy: their possible adaptive value in thermoregulation. Physiology and Behavior. 21: 817820, 1978. [TS]Google Scholar
Schnorr, J. A. & Brookshire, K. H.Distilled water and tap water as factors in taste preference experimentation. Psychological Reports. 17: 191194, 1965. [FT]CrossRefGoogle ScholarPubMed
Sclafani, A. & Springer, D.Dietary obesity in adult rats: similarities to hypothalamic and human obesity syndromes. Physiology and Behavior. 17: 461471, 1976. [TS]CrossRefGoogle ScholarPubMed
Seguin, A. & Lavoisier, A. L.Premier memoire sur la transpiration des animaux. Memoires de l'Académie des Sciences de Paris. 7782, 1970. [TS]Google Scholar
Sibly, R. M. & McFarland, D. J. A state-space approach to motivation. In: McFarland, D. J. (ed.) Motivational Control Systems Analysis. Academic Press, London, 1974. [AH, RM]Google Scholar
On the fitness of behaviour sequences. American Naturalist. 110:601617, 1976. [AH]CrossRefGoogle Scholar
Silverman, H. J. & Zucker, I.Absence of post-fast food compensation in the golden hamster (Mesocricetus auratus). Physiology and Behavior. 17:271285, 1976. [NR]CrossRefGoogle ScholarPubMed
Simonnet, G., Rodriguez, F., Fumoux, F.Czernichow, P., & Vincent, J. D.Vasopressin release and drinking induced by intracranial injection of angio-tensin II in the monkey. American Journal of Physiology, (in press) 1979. [JV]Google Scholar
Sinclair, J. D. & Bender, D. O.Compensatory behaviors: suggestion for a common basis from deficits in hamsters. Life Sciences. 22: 14071412, 1978. [NR]CrossRefGoogle ScholarPubMed
Slater, P. J. B.A simple model for competition between behaviour patterns. Behaviour. In press, 1979. [AL]Google Scholar
Snowdon, C. T.Motivation, regulation, and the control of meal parameters with oral and intragastric feeding. Journal of Comparative and Physiological Psychology. 69: 91100, 1969. [CS]CrossRefGoogle ScholarPubMed
A nutritional basis for lead pica. Physiology and Behavior. 18:885893, 1977. [CS]CrossRefGoogle Scholar
Snowdon, C. T. & Wampler, R. S.Effects of lateral hypothalamic lesions and vagotomy on meal patterns in rats. Journal of Comparative and Physiological Psychology. 87:399409, 1974. [CS]CrossRefGoogle ScholarPubMed
Spence, K. W.Behavior Theory and Conditioning. Yale University Press, New Haven, 1956. [JWP]CrossRefGoogle Scholar
Staddon, J. E. R. Regulation and time allocation: a commentary on “conservation in behavior.” Journal of Experimental Psychology: General. In press, 1978a. [JS]Google Scholar
Adaptive behavior and learning. Unpublished MS, 1978b. [JS]Google Scholar
Steffens, A. B.Influence of reversible obesity on eating behavior, blood glucose and insulin release in the rat. American Journal of Physiology. 228:17381744, 1975. [AS]CrossRefGoogle Scholar
The influence of the oral cavity on the release of insulin in the rat. American Journal of Physiology. 230:14111415, 1976. [AS]CrossRefGoogle Scholar
Steinbaum, E. A. & Miller, N. E.Obesity from eating elicited by daily stimulation of hypothalamus. American Journal of Physiology. 228:15, 1965. [AS]CrossRefGoogle ScholarPubMed
Stevenson, J. A. F.The control of water intake. An invited lecture. Proceedings of the International Union of Physiological Sciences. 6: 4345, 1968. [PW]Google Scholar
Strieker, E. M.Extracellular fluid volume and thirst. American Journal of Physiology. 211: 232238, 1966. [RBo]CrossRefGoogle Scholar
Some physiological and motivational properties of the hypovolemic stimulus for thirst. Physiology and Behavior. 3:379385, 1968. [JW]CrossRefGoogle Scholar
Osmoregulation and volume regulation in rats: Inhibition of hypovolemic thirst by water. American Journal of Physiology. 217:98105, 1969. [DV, JW]CrossRefGoogle Scholar
Strieker, E. M. & Adair, E. R.Body fluid balance, taste and postprandial factors in schedule-induced polydipsia. Journal of Comparative and Physiological Psychology. 62:449454, 1966. [JW]Google Scholar
Strotz, R. H.The empirical implications of a utility tree. Econometrica. 25:269280, 1957. [SL]CrossRefGoogle Scholar
Strubbe, J. H. & Steffens, A. B.Rapid insulin release after ingestion of a meal in the unanaesthetized rat. American Journal of Physiology. 229: 10191022, 1975. [AS]CrossRefGoogle Scholar
Blood glucose levels in the portal and peripheral circulation and their relation to food intake. Physiological Behavior. 19:303307, 1977. [AS]CrossRefGoogle Scholar
Strubbe, J. H., Steffens, A. B., & de Ruiter, L.Plasma insulin and the time pattern of feeding. Physiological Behavior. 18:8186, 1977. [AS]CrossRefGoogle ScholarPubMed
Tang, M. & Collier, G.Effect of successive deprivations and recoveries on the level of instrumental performance in the rat. Journal of Comparative and Physiological Psychology. 74: 108114, 1971. [RBe]CrossRefGoogle ScholarPubMed
Taylor, N. B.Basic Physiology and Anatomy. Putnam's Sons, New York, 1965. [TS]Google Scholar
Teitelbaum, P. & Epstein, A. N.The lateral hypothalamic syndrome: recovery of feeding and drinking after lateral hypothalamic lesions. Psychological Review. 69: 7490, 1962. [TS]CrossRefGoogle ScholarPubMed
Theios, J., Derivera, J., & Aronson, E.Modification of the rat's specific intake gradient by experience with specific concentrations. Psychological Reports. 10: 487490, 1962. [FT]CrossRefGoogle Scholar
Tinbergen, L.The natural control of insects in pinewoods. 1. Factors influencing the intensity of predation by songbirds. Archives Neerlandischen Zoologie. 13: 265343, 1960. [CS]CrossRefGoogle Scholar
Toates, F. M. Thirst and body fluid regulation in the rat. D Phil thesis, University of Sussex, 1971. [FT]Google Scholar
Toates, F. M. & Ewart, B.Gerbil drinking patterns. Animal Behaviour 25: 782, 1977. [FT]CrossRefGoogle Scholar
Toates, F. M. & Booth, D. A.Control of food intake by energy supply. Nature. 251: 710711, 1974. [DB]CrossRefGoogle ScholarPubMed
Tracy, R. C.A model of the dynamic exchanges of water and energy between a terrestrial amphibian and its environment. Ecological Monographs. 46: 293326, 1976. [AH]CrossRefGoogle Scholar
VanderWeele, D. A.The effects of taste adulteration, hypertonic, and hyperoncotic solutions on water ingestion in the gerbil. Animal Learning and Behavior. 2: 309312, 1974. [DV]CrossRefGoogle Scholar
Schiffer, K., & Esparza, D. L.Food deprivation-induced polydipsia in two species of kangaroo rats. Psychological Reports. 36: 645646, 1975. [DV]Google Scholar
Vasquez, B. J., Overstreet, D. H., & Russell, R. W.Psychopharmacological evidence for increase in receptor sensitivity following chronic morphine treatment. Psychopharmacologia. 36: 287302, 1974. [DO]CrossRefGoogle Scholar
Vincent, J. D., Arnauld, E., & Bioulac, B.Activity of osmosensitive single cells in the hypothalamus of the behaving monkey during drinking. Brain Research. 44: 371384, 1972. [GH]CrossRefGoogle ScholarPubMed
Walsh, L. L. and Grossman, S. P.Zona incerta lesions: disruption of regulatory water intake. Physiology and Behavior. 11: 885887, 1973. [NR]CrossRefGoogle ScholarPubMed
Wayner, M. J.Motor control functions of the lateral hypthalamus and adjunc-tive behavior. Physiology and Behavior. 5: 13191325, 1970. [JW]CrossRefGoogle Scholar
Specificity of behavior regulation. Physiology and Behavior. 12:851869, 1974. [JW]CrossRefGoogle Scholar
Wells, G. P.The lugworm (Arenicola) - a study in adaptation. Netherlands Journal of Sea Research 3:294313, 1966. [RM]CrossRefGoogle Scholar
Wenger, J. R., Porte, J., Eakin, L., Boyce, J. and Woods, S. C. Meal-feeding patterns are eliminated in a semi-natural environment. In preparation. [SW]Google Scholar
Whishaw, I. Q. & Schallert, T.Hippocampal RSA (theta), apnea, bradycardia and effects of atropine during underwater swimming in the rat. EEG and Clinical Neurophysiology. 42:389396, 1977. [TS]CrossRefGoogle ScholarPubMed
Wike, E. L. & Casey, A.The secondary reinforcing value of food for thirsty rats. Journal of Comparative and Physiological Psychology. 47: 240243, 1954. [FT]CrossRefGoogle Scholar
Williams, R. A.Effects of repeated food deprivations and repeated feeding tests on feeding behavior. Journal of Comparative and Physiological Psychology. 65: 222226, 1968. [RBe]CrossRefGoogle ScholarPubMed
Wolf, A. V.Thirst. Thomas, Springfield, Mass., 1958. [EA]Google Scholar
Wolf, K.Properties of multiple conditioned reflex type II activity. Acta Biologiae Experimentalis. 23.133150, 1963. [WW]Google ScholarPubMed
Wong, R.Motivation: A Biobehavioral Analysis of Consummatory Activities. Macmillan, New York, 1976. [RW]Google Scholar
Adaptation to long-term saline consumption and later saline preference. Behavioural Biology. 19:389393, 1977. [FT]CrossRefGoogle Scholar
Wright, J. W. & O'Kelly, L. I.Deviations in body fluids during fasting in rats: failure of ADH treatment and nonnutritive bulk in preventing the occurrence of plasma hypovolemia. Physiology and Behavior. 11:791800, 1973. [FT, JW, VW]CrossRefGoogle ScholarPubMed
Wright, J. W., Reynolds, T. J., & Kenny, J. T.Plasma hyperosmolality at the onset of drinking during starvation induced hypovolemia. Physiology and Behaviour. 17: 651657, 1976. [FT]CrossRefGoogle ScholarPubMed
Wright, J. W., Gubernick, D. J., & Reynolds, T. J.Intravascular, carcass and gut fluid changes induced by food deprivation in xeric and mesic adapted rodents. Comparative Biochemistry and Physiology. 58A:137142, 1977. [JW]CrossRefGoogle Scholar
Wright, J. W., Reynolds, T. J., Kenny, J. T., & Donlon, K.Inhibition of food deprivation induced hypovolemia by saline consumption in rats. Physiology and Behavior. 21: 215221, 1978. [FT, JW]CrossRefGoogle ScholarPubMed
Wyrwicka, W.The sensory nature of reward in instrumental behavior. Pavlovian Journal of Biological Science. 10: 2351, 1975. [WW]CrossRefGoogle ScholarPubMed
Wyrwicka, W. & Clemente, C. D.Acceptance of high concentration saccharin solutions by cats after hypothalamic lesions. Experimental Neurology. 40: 367376, 1973. [WW]CrossRefGoogle ScholarPubMed
Yehuda, S. & Wurtman, R. J.Paradoxical effects of d-amphetamine on behavioral thermoregulation - possible mediation by brain dopamine. Journal of Pharmacology and Experimental Therapeutics. 190: 118122, 1974. [DO]Google ScholarPubMed
Young, P. T.The role of affective processes in learning and motivation. Psychological Review. 66: 104125, 1959. [TS]CrossRefGoogle ScholarPubMed