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References

Published online by Cambridge University Press:  26 October 2017

Jerry A. Hogan
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University of Toronto
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The Study of Behavior
Organization, Methods, and Principles
, pp. 327 - 362
Publisher: Cambridge University Press
Print publication year: 2017

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References

Adams, C. D. & Dickinson, A. (1981). Instrumental Responding Following Reinforcer Devaluation. Quarterly Journal of Experimental Psychology, 33B, 109122.CrossRefGoogle Scholar
Adler, N. T & Hogan, J. A. (1963). Classical Conditioning and Punishment of an Instinctive Response in Betta splendens. Animal Behaviour, 11, 351354.CrossRefGoogle Scholar
Adrian, E. D., Cattell, M. & Hoagland, H. (1931). Sensory Discharges in Single Cutaneous Nerve Fibres. Journal of Physiology, 72, 377391.CrossRefGoogle ScholarPubMed
Agnvall, B., Katajamaa, R., Altimiras, J. & Jensen, P. (2015). Biology Letters, 11, 20150509.CrossRefGoogle Scholar
Akers, K. G. et al. (2014). Hippocampal Neurogenesis Regulates Forgetting during Adulthood and Infancy. Science, 344, 598602.CrossRefGoogle ScholarPubMed
Alcock, J. S. (1989). Animal Behavior: An Evolutionary Approach. Sunderland, MA: Sinauer.Google Scholar
Alem, S., Perry, C. J., Zhu, X., Loukola, O. J., Ingraham, T., Søvika, E. & Chittka, L. (2016). Associative Mechanisms Allow for Social Learning and Cultural Transmission of String Pulling in an Insect. PLoS Biology, 14(10).Google ScholarPubMed
Allport, G. (1937). Personality: A Psychological Interpretation. New York: Holt, Rinehart & Winston.Google Scholar
Andrew, R. J. (1966). Precocious Adult Behaviour in the Young Chick. Animal Behaviour, 14, 485500.CrossRefGoogle ScholarPubMed
Andrews, P. W., Gangestad, S. W. & Matthews, D. (2002). Adaptationism – How to Carry out an Exaptationist Program. Behavioral and Brain Sciences, 25, 489553.CrossRefGoogle ScholarPubMed
Armitage, K. B. (1986). Individuality, Social Behavior, and Reproductive Success in Yellow-Bellied Marmots. Ecology, 67, 11861193.CrossRefGoogle Scholar
Armstrong, E. A. (1954). Bird Display and Behaviour. Cambridge, UK: Cambridge University Press.Google Scholar
Aronson, L. R., Tobach, E., Lehrman, D. S. & Rosenblatt, J. S. (Eds.). (1970). Development and Evolution of Behavior. San Francisco: Freeman.Google Scholar
Aschoff, J. (1960). Exogenous and Endogenous Components in Circadian Rhythms. Cold Spring Harbor Symposia on Quantitative Biology, 25, 1128.CrossRefGoogle ScholarPubMed
Aschoff, J. (1989). Temporal Organization: Circadian Clocks in Animals and Humans. Animal Behaviour, 37, 881896.CrossRefGoogle Scholar
Ashton, M. C. (2013). Individual Differences and Personality, 2nd ed. San Diego, CA: Academic Press.Google Scholar
Ashton, M. C. (2015). Hogan’s Framework for the Study of Behavior as Applied to Personality Psychology. Behavioural Processes, 117, 4851.CrossRefGoogle Scholar
Aslin, R. N. (2014). Infant Learning: Historical, Conceptual, and Methodological Challenges. Infancy, 19, 227.CrossRefGoogle ScholarPubMed
Avarguès-Weber, A., Dyer, A. G., Combe, M. & Giurfa, M. (2012). Simultaneous Mastering of Two Abstract Concepts by the Miniature Brain of Bees. Proceedings of the National Academy of Sciences, 109, 74817486.CrossRefGoogle ScholarPubMed
Baerends, G. P. (1941). Fortpflanzungsverhalten und Orientierung der Grabwespe Ammophila campestris. Tijdschrift voor Entomologie, 84, 81275.Google Scholar
Baerends, G. P. (1958). Comparative Methods and the Concept of Homology in the Study of Behaviour. Archives Néerlandaises de Zoologie, 13, Suppl 1, pp. 401417.Google Scholar
Baerends, G. P. (1970). A Model of the Functional Organization of Incubation Behaviour. Behaviour, Suppl. 17, pp. 263312.Google Scholar
Baerends, G. P. (1975). An Evaluation of the Conflict Hypothesis as an Explanatory Principle for the Evolution of Displays. In Baerends et al., pp. 187227.Google Scholar
Baerends, G. P. (1976). The Functional Organization of Behaviour. Animal Behaviour, 24, 726738.CrossRefGoogle Scholar
Baerends, G. P. (1982). The Relative Effectiveness of Different Egg-features in Responses Other Than Egg-retrieval. Behaviour, 82, 225246.CrossRefGoogle Scholar
Baerends, G. P. & Kruijt, J. P. (1973). Stimulus Selection. In Hinde, & Stevenson-Hinde, , pp. 2349.Google Scholar
Baerends, G. P. & Drent, R. H. (Eds.). (1982). The Herring Gull and Its Eggs. Behaviour, 82, 1416.CrossRefGoogle Scholar
Baerends, G. P., Beer, C. & Manning, A. (Eds.). (1975). Function and Evolution in Behaviour. London: Oxford University Press.Google Scholar
Baerends, G. P., Brouwer, R. & Waterbolk, H. T. (1955). Ethological Studies on Lebistes reticulatus: 1. An Analysis of the Male Courtship Pattern. Behaviour, 8, 249334.CrossRefGoogle Scholar
Baerends-van Roon, J. M. & Baerends, G. P. (1979). The Morphogenesis of the Behaviour of the Domestic Cat, with a Special Emphasis on the Development of Prey-catching. Verhandelingen der Koninklijke Nederlandse Akademie van Wetenschappen, Afd. Natuurkunde, Tweede Reeks (Proceedings of the Royal Netherlands Academy of Sciences, Section Physics, Second Series), Part 72.Google Scholar
Baker, J. R. (1938). The Evolution of Breeding Seasons. In de Beer, G. R. (Ed.), Evolution: Essays on Aspects of Evolutionary Theory. Oxford: Oxford University Press, pp. 161171.Google Scholar
Balleine, B. W. & O’Doherty, J. P. (2010). Human and Rodent Homologies in Action Control: Corticostriatal Determinants of Goal-directed and Habitual Action. Neuropsychopharmacology, 35, 4869.CrossRefGoogle ScholarPubMed
Balsam, P. D & Silver, R. (1994). Behavioral Change as a Result of Experience: Toward Principles of Learning and Development. In Hogan, & Bolhuis, , pp. 327357.CrossRefGoogle Scholar
Balsam, P. D., Graf, J. S. & Silver, R. (1992). Operant and Pavlovian Contributions to the Ontogeny of Pecking in Ring Doves. Developmental Psychobiology, 25, 389410.CrossRefGoogle Scholar
Baptista, L. F. & Gaunt, S. L. L. (1997). Social Interaction and Vocal Development in Birds. In Snowdon, & Hausberger, , pp. 2340.CrossRefGoogle Scholar
Barbour, M. A. & Clark, R. W. (2012). Ground Squirrel Tail-flag Displays Alter Both Predatory Strike and Ambush Site Selection Behaviours of Rattlesnakes. Proceedings of the Royal Society B, 279, 38273833.CrossRefGoogle ScholarPubMed
Barlow, G. W. (1968). Ethological Units of Behavior. In Ingle, D. (Ed.), Central Nervous System and Fish Behavior. Chicago: University of Chicago Press, pp. 217232.Google Scholar
Barnard, C. J. (2004). Animal Behaviour: Mechanism, Development, Function and Evolution. London: Pearson Education Ltd./Prentice-Hall.Google Scholar
Barnard, C. J. & Sibly, R. M. (1981). Producers and Scroungers: A General Model and Its Application to Captive Flocks of House Sparrows. Animal Behaviour, 29, 543550.CrossRefGoogle Scholar
Barrett, H. C. & Kurzban, R. (2006). Modularity in Cognition: Framing the Debate. Psychological Review, 113, 628647.CrossRefGoogle ScholarPubMed
Barrett, L. F. (2013). Psychological Construction: The Darwinian Approach to the Science of Emotion. Emotion Review, 5, 379389.CrossRefGoogle Scholar
Barrett, L. F. & Russell, J. A. (Eds.). (2015). The Psychological Construction of Emotion. New York: Guilford Press.Google Scholar
Bateson, P. P. G. (1979). How Do Sensitive Periods Arise and What Are They For? Animal Behaviour, 27, 470486.CrossRefGoogle Scholar
Bateson, P. P. G. (1987). Imprinting as a Process of Competitive Exclusion. In Rauschecker, J. P. & Marler, P. (Eds.), Imprinting and Cortical Plasticity. New York: Wiley, pp. 151168.Google Scholar
Bateson, P. P. G. (1999). Foreword. In Bolhuis, & Hogan, , pp. ixxi.Google Scholar
Bateson, P. P. G. & Hinde, R. A. (1987). Developmental Changes in Sensitivity to Experience. In Bornstein, M. H. (Ed.), Sensitive Periods in Development. Hillsdale, NJ: Erlbaum, pp. 1934. (Reprinted in Bolhuis & Hogan, 1999.)Google Scholar
Bateson, P. P. G. & Laland, K. N. (2013). Tinbergen’s Four Questions: An Appreciation and an Update. Trends in Ecology and Evolution, 28, 712718.CrossRefGoogle ScholarPubMed
Battley, P. F. et al. (2012). Contrasting Extreme Long-distance Migration Patterns in Bar-tailed Godwits Limosa Lapponica. Journal of Avian Biology, 43, 112.CrossRefGoogle Scholar
Baylis, J. R. (1982). Avian Vocal Mimicry: Its Function and Evolution. In Kroodsma, D. E., Miller, E. H. & Ouellet, H. (Eds.), Acoustic Communication in Birds, vol. 2. New York: Academic Press, pp. 5183.Google Scholar
Beach, F. A. (1942). Analysis of Factors Involved in the Arousal, Maintenance, and Manifestation of Sexual Excitement in Male Animals. Psychosomatic Medicine, 4, 173198.CrossRefGoogle Scholar
Beach, F. A. (1948). Hormones and Behavior. New York: Hoeber.Google Scholar
Beach, F. A. (1955). The Descent of Instinct. Psychological Review, 62, 401410.CrossRefGoogle ScholarPubMed
Beach, F. A. (1956). Characteristics of the Masculine “Sex Drive”. In Jones, M. R. (Ed.), The Nebraska Symposium on Motivation. Lincoln, NE: University of Nebraska Press, pp. 132.Google Scholar
Beer, C. G. (1975). Multiple Functions and Gull Displays. In Baerends, et al., pp. 1654.Google Scholar
Bergerud, A. T. & Mossop, D. H. (1984). The Pair Bond in Ptarmigan. Canadian Journal of Zoology, 62, 21292141.CrossRefGoogle Scholar
Berlyne, D. E. (1960). Conflict, Arousal, and Curiosity. New York: McGraw-Hill.CrossRefGoogle Scholar
Berridge, K. C. (1990). Comparative Fine Structure of Action: Rules of Form and Sequence in the Grooming Patterns of Six Rodent Species. Behaviour, 113, 2156.CrossRefGoogle Scholar
Berridge, K. C. (1994). The Development of Action Patterns. In Hogan, & Bolhuis, , pp. 147180.CrossRefGoogle Scholar
Berridge, K. C. (2004). Motivation Concepts in Behavioral Neuroscience. Physiology and Behavior, 81, 179209.CrossRefGoogle ScholarPubMed
Berridge, K. C. (2012). From Prediction Error to Incentive Salience: Mesolimbic Computation of Reward Motivation. European Journal of Neuroscience, 35, pp. 11241143.CrossRefGoogle ScholarPubMed
Berridge, K. C., Fentress, J. C. & Parr, H. (1987). Natural Syntax Rules Control Action Sequence of Rats. Behavioural Brain Research, 23, 5968.CrossRefGoogle ScholarPubMed
Berridge, K. C. & Robinson, T. E. (2003). Parsing Reward. Trends in Neurosciences, 26, 507513.CrossRefGoogle ScholarPubMed
Berry, C. S. (1908). An Experimental Study of Imitation in Cats. Journal of Comparative Neurology and Physiology, 18, 112.Google Scholar
Berthold, P. (1973). Relationships between Migratory Restlessness and Migration Distance in Six Sylvia Species. Ibis, 115, 594599.CrossRefGoogle Scholar
Berwick, R. C., Friederici, A. D., Chomsky, N. & Bolhuis, J. J. (2013). Evolution, Brain, and the Nature of Language. Trends in Cognitive Sciences, 17, 8998.CrossRefGoogle ScholarPubMed
Bijleveld, A. I., Folmer, E. O. & Piersma, T. (2012). Experimental Evidence for Cryptic Interference among Socially Foraging Shorebirds. Behavioral Ecology, 23, 806814.CrossRefGoogle Scholar
Bijleveld, A. I., van Gils, J. A., Jouta, J. & Piersma, T. (2015). Benefits of Foraging in Small Groups: An Experimental Study on Public Information Use in Red Knots Calidris canutus. Behavioural Processes, 117, 7481.CrossRefGoogle Scholar
Bischof, H.-J. (1994). Sexual Imprinting as a Two-stage Process. In Hogan, & Bolhuis, , pp. 8297.CrossRefGoogle Scholar
Bissonette, G. B., Bryden, D. W. & Roesch, M. R. (2014). You Won’t Regret Reading This. Nature Neuroscience, 17, 892893.CrossRefGoogle Scholar
Blaisdell, A., Sawa, K., Leising, K. J. & Waldmann, M. R. (2006). Causal Reasoning in Rats. Science, 311, 10201022.CrossRefGoogle ScholarPubMed
Blakemore, C. (1973). Environmental Constraints on Development in the Visual System. In Hinde, & Stevenson-Hinde, , pp. 5173.Google Scholar
Blankenship, A. G. & Feller, M. B. (2010). Mechanisms Underlying Spontaneous Patterned Activity in Developing Neural Circuits. Nature Reviews Neuroscience, 11, 1829.CrossRefGoogle ScholarPubMed
Blass, E. M. (1999). The Ontogeny of Human Infant Face Recognition: Orogustatory, Visual, and Social Influences. In Rochat, P. (Ed.), Early Social Cognition. Mahway, NJ: Erlbaum, pp. 3565.Google Scholar
Blass, E. M. (2015). Energy Conservation in Infants. Behavioural Processes, 117, 3541.CrossRefGoogle ScholarPubMed
Blass, E. M., Ganchrow, J. R. & Steiner, J. E. (1984). Classical Conditioning in Newborn Humans 2–48 Hours of Age. Infant Behavior and Development, 7, 125134.CrossRefGoogle Scholar
Blass, E. M., Hall, W. G. & Teicher, M. H. (1979). The Ontogeny of Suckling and Ingestive Behaviors. Progress in Psychobiology and Physiological Psychology, 8, 243299.Google Scholar
Blest, A. D. (1957). The Function of Eyespot Patterns in the Lepidoptera. Behaviour, 11, 209256.CrossRefGoogle Scholar
Bloch, G., Barnes, B. M., Gerkema, M. P. & Helm, B. (2013). Animal Activity around the Clock with No Overt Circadian Rhythms: Patterns, Mechanisms and Adaptive Value. Proceedings of the Royal Society B, 280, 30130019.Google ScholarPubMed
Blüm, V. & Fiedler, K. (1965). Hormonal Control of Reproductive Behavior in Some Cichlid Fish. General and Comparative Endocrinology, 5, 186196.CrossRefGoogle Scholar
Blumstein, D. T. (2007). The Evolution, Function, and Meaning of Marmot Alarm Communication. Advances in the Study of Behavior, 37, 371401.CrossRefGoogle Scholar
Boakes, R. (1984). From Darwin to Behaviourism. Cambridge, UK: Cambridge University Press.Google Scholar
Bock, W. J. & von Wahlert, G. (1965). Adaptation and the Form-Function Complex. Evolution, 19, 269299.CrossRefGoogle Scholar
Bohacek, J. & Mansuy, I. M. (2015). Molecular Insights into Transgenerational Non-genetic Inheritance of Acquired Behaviours. Nature Reviews Genetics, 16, 641652.CrossRefGoogle ScholarPubMed
Bolhuis, J. J. (1991). Mechanisms of Avian Imprinting: A Review. Biological Reviews, 66, 303345.CrossRefGoogle ScholarPubMed
Bolhuis, J. J. (1994). Neurobiological Analyses of Behavioural Mechanisms in Development. In Hogan, & Bolhuis, , pp. 1646.CrossRefGoogle Scholar
Bolhuis, J. J. (1996). Development of Perceptual Mechanisms in Birds: Predispositions and Imprinting. In Moss, C. F. & Shettleworth, S. J. (Eds.), Neuroethological Studies of Cognitive and Perceptual Processes. Boulder, CO: Westview Press, pp. 158184. (Reprinted in Bolhuis & Hogan, 1999.)Google Scholar
Bolhuis, J. J. (2009). Function and Mechanism in Neuroecology: Looking for Clues. In Bolhuis, J. J. & Verhulst, S. (Eds.), Tinbergen’s Legacy. Cambridge, UK: Cambridge University Press, pp. 163196.CrossRefGoogle Scholar
Bolhuis, J. J. (2015). Evolution Cannot Explain How Minds Work. Behavioural Processes, 117, 8291.CrossRefGoogle ScholarPubMed
Bolhuis, J. J. & Eda-Fujiwara, H. (2003). Bird Brains and Songs: Neural Mechanisms of Birdsong Perception and Memory. Animal Biology, 53, 129145.CrossRefGoogle Scholar
Bolhuis, J. J. & Everaert, M. (Eds.). (2013). Birdsong, Speech, and Language. Cambridge, MA: MIT Press.CrossRefGoogle Scholar
Bolhuis, J. J. & Giraldeau, L.-A. (2005). The Behavior of Animals. New York: Wiley.Google Scholar
Bolhuis, J. J. & Giraldeau, L.-A. (in press). The Behavior of Animals, 2nd edn. New York: Wiley.Google Scholar
Bolhuis, J. J. & Hogan, J. A. (1999). The Development of Animal Behaviour: A Reader. Oxford: Blackwell.Google Scholar
Bolhuis, J. J. & Wynne, C. D. L. (2009). Can Evolution Explain How Minds Work? Nature, 458, 832833.CrossRefGoogle ScholarPubMed
Bolhuis, J. J., Tattersall, I., Chomsky, N. & Berwick, R. C. (2014). How Could Language Have Evolved? PLoS Biology, 12(8).CrossRefGoogle ScholarPubMed
Bolhuis, J. J., Zijlstra, G. G. O., den Boer-Visser, A. M. & van der Zee, E. A. (2000). Localised Neuronal Activation in the Zebra Finch Brain Is Related to the Strength of Song Learning. Proceedings of the National Academy of Sciences, 97, 22822285.CrossRefGoogle Scholar
Bolhuis, J.J., Brown, G.R., Richardson, R.C. & Laland, K.N. (2011). Darwin in Mind: New Opportunities for Evolutionary Psychology. PLoS Biology, 9(7).CrossRefGoogle ScholarPubMed
Bolles, R. C. (1967). Theory of Motivation. New York: Harper & Row.Google Scholar
Bols, R. J. (1977). Display Reinforcement in the Siamese Fighting Fish, Betta splendens: Aggression Motivation or Curiosity? Journal of Comparative and Physiological Psychology, 91, 233244.CrossRefGoogle ScholarPubMed
Bonner, J. T. (1980). The Evolution of Culture in Animals. Princeton: Princeton University Press.CrossRefGoogle Scholar
Borbély, A. A. (1982). A Two-process Model of Sleep. Human Neurobiology, 1, 195204.Google ScholarPubMed
Borbély, A. A., Dijk, D.-J., Achermann, P. & Tobler, I. (2001). Processes Underlying the Regulation of the Sleep-wake Cycle. In Takahashi, J. S., Turek, F. W. & Moore, R. Y. (Eds.), Handbook of Behavioral Neurobiology, vol. 12: Circadian Clocks. New York: Kluwer Academic/Plenum, pp. 458479.Google Scholar
Borchelt, P. L. (1975). The Organization of Dustbathing Components in Bobwhite Quail (Colinus virginianus). Behaviour, 53, 217237.CrossRefGoogle Scholar
Bowlby, J. (1991). Ethological Light on Psychoanalytical Problems. In Bateson, P. (Ed.), The Development and Integration of Behaviour. Cambridge, UK: Cambridge University Press, pp. 301313.Google Scholar
Boyd, R. & Richerson, P. J. (1985). Culture and the Evolutionary Process. Chicago: Chicago University Press.Google Scholar
Brainard, M. S. & Doupe, A. J. (2000). Auditory Feedback in Learning and Maintenance of Vocal Behaviour. Nature Reviews Neuroscience, 1, 3140.CrossRefGoogle ScholarPubMed
Brembs, B. (2009). The Importance of Being Active. Journal of Neurogenetics, 23, 120126.CrossRefGoogle ScholarPubMed
Bronstein, P. M. (1981). Commitments to Aggression and Nest Sites in Male Betta splendens. Journal of Comparative and Physiological Psychology, 95, 436449.CrossRefGoogle ScholarPubMed
Brown, J. S. (1948). Gradients of Approach and Avoidance Responses and Their Relation to Level of Motivation. Journal of Comparative and Physiological Psychology, 41, 450485.CrossRefGoogle ScholarPubMed
Brown, M. C., Hopkins, W. G. & Keynes, R. J. (1991). Essentials of Neural Development. Cambridge, UK: Cambridge University Press.Google Scholar
Bruce, R. H. (1935). A Further Study of the Effect of Reward and Drive upon the Maze Performance of Rats. Journal of Comparative Psychology, 20, 157182.CrossRefGoogle Scholar
Buhusi, C. V. & Meck, W. H. (2005). What Makes Us Tick? Functional and Neural Mechanisms of Interval Timing. Nature Reviews Neuroscience, 6, 755765.CrossRefGoogle ScholarPubMed
Buntin, J. D. (1996). Neural and Hormonal Control of Parental Behavior in Birds. Advances in the Study of Behavior, 25, 161213.CrossRefGoogle Scholar
Burghagen, H. & Ewert, J.-P. (in press). Stimulus Perception. In Bolhuis, & Giraldeau, , 2nd edn.Google Scholar
Burghardt, G. M. (2001). Play: Attributes and Neural Substrates. In Blass, E. M. (Ed.), Handbook of Behavioral Neurobiology, Vol. 13:7 Developmental Psychobiology, New York: Kluwer Academic/Plenum, pp. 317356.Google Scholar
Buss, D. M. et al. (1998). Adaptations, Exaptations, and Spandrels. American Psychologist, 53, 533548.CrossRefGoogle ScholarPubMed
Buss, R. R., Sun, W. & Oppenheim, R. W. (2006). Adaptive Roles of Programmed Cell Death during Nervous System Development. Annual Review of Neuroscience, 29, 135.CrossRefGoogle ScholarPubMed
Butler, R. A. & Harlow, H. F. (1954). Persistence of Visual Exploration in Monkeys. Journal of Comparative and Physiological Psychology, 47, 257263.CrossRefGoogle ScholarPubMed
Caldwell., C. A. & Millen, A. E. (2008). Studying Cumulative Cultural Evolution in the Laboratory. Philosophical Transactions of the Royal Society B, 363, 35293539.CrossRefGoogle ScholarPubMed
Cannon, W. B. (1927). The James-Lange Theory of Emotions: A Critical Examination and an Alternative Theory. American Journal of Psychology, 39, 106124.CrossRefGoogle Scholar
Cannon, W. B. (1929). Organization for Physiological Homeostasis. Physiological Reviews, 9, 399431.CrossRefGoogle Scholar
Cannon, W. B. (1932). The Wisdom of the Body. New York: Norton.CrossRefGoogle Scholar
Capranica, R. R. (1965). The Evoked Vocal Response of the Bullfrog: A Study of Communication by Sound. Cambridge, MA: MIT Press.Google Scholar
Caro, T. (2005). Antipredator Defences in Birds and Mammals. Chicago: University of Chicago Press.Google Scholar
Carroll, S. B. (2008). Evo-Devo and an Expanding Evolutionary Synthesis: A Genetic Theory of Morphological Evolution. Cell, 134, 2536.CrossRefGoogle Scholar
Carter, A. J., Feeney, W. E., Marshall, H. H., Cowlishaw, G. & Heinsohn, R. (2013). Animal Personality: What Are Behavioural Ecologists Measuring? Biological Reviews, 88, 465475.CrossRefGoogle ScholarPubMed
Cartwright, B. A. & Collett, T. S. (1982). How Honey Bees Use Landmarks to Guide Their Return to a Food Source. Nature, 295, 560564.CrossRefGoogle Scholar
Cäsar, C., Zuberbühler, K., Young, R. J. & Byrne, R. W. (2013). Titi Monkey Call Sequences Vary with Predator Location and Type. Biology Letters, 9, 20130535.CrossRefGoogle ScholarPubMed
Catchpole, C. K. & Slater, P. J. B. (2008). Bird Song: Biological Themes and Variations. Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
Cavalli-Sforza, L. L. & Feldman, M. W. (1981). Cultural Transmission and Evolution: A Quantitative Approach. Princeton: Princeton University Press.Google ScholarPubMed
Chase, I. D. (1982). Dynamics of Hierarchy Formation: The Sequential Development of Dominance Relationships. Behaviour, 80, 218240.CrossRefGoogle Scholar
Chittka, L. & Niven, J. (2009). Are Bigger Brains Better? Current Biology, 19, R995R1008.CrossRefGoogle ScholarPubMed
Chomsky, N. (1965). Aspects of the Theory of Syntax. Cambridge, MA: MIT Press.Google Scholar
Chomsky, N. (2012). The Science of Language. Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
Chow, A. & Hogan, J. A. (2005). The Development of Feather Pecking in Burmese Red Junglefowl: The Influence of Early Experience with Exploratory-rich Environments. Applied Animal Behaviour Science, 93, 283294.CrossRefGoogle Scholar
Clayton, N. S. (2015). Ways of Thinking: From Crows to Children and Back Again. Quarterly Journal of Experimental Psychology, 68, 209241.CrossRefGoogle Scholar
Clutton-Brock, J. (1995). Origins of the Dog: Domestication and Early History. In Serpell, J. (Ed.), The Domestic Dog. Cambridge, UK: Cambridge University Press, pp. 720.Google Scholar
Colgan, P. (1989). Animal Motivation. London: Chapman & Hall.CrossRefGoogle Scholar
Collett, M. & Collett, T. S. (2000). How Do Insects Use Path Integration for Their Navigation? Biological Cybernetics, 83, 245259.CrossRefGoogle ScholarPubMed
Collett, M., Chittka, L. & Collett, T. S. (2013). Spatial Memory in Insect Navigation. Current Biology, 23, R789R800.CrossRefGoogle ScholarPubMed
Collett, T. S. & Collett, M. (2002). Memory Use in Insect Visual Navigation. Nature Reviews Neuroscience, 3, 542552.CrossRefGoogle ScholarPubMed
Colonnese, M. T., Stallman, E. L. & Berridge, K. C. (1996). Ontogeny of Action Syntax in Altricial and Precocial Rodents: Grooming Sequences of Rat and Guinea Pig Pups. Behaviour, 133, 11651195.CrossRefGoogle Scholar
Colwill, R. C. & Rescorla, R. A. (1985). Postconditioning Devaluation of a Reinforcer Affects Instrumental Responding. Journal of Experimental Psychology: Animal Behavior Processes, 11, 120132.Google Scholar
Coppinger, R. & Schneider, R. (1995). Evolution of Working Dogs. In Serpell, J. (Ed.), The Domestic Dog. Cambridge, UK: Cambridge University Press, pp. 2147.Google Scholar
Coss, R. G. & Biardi, J. E. (1997). Individual Variation in the Antisnake Behavior of California Ground Squirrels (Spermophilus beecheyi). Journal of Mammalogy, 73, 294310.CrossRefGoogle Scholar
Craig, W. (1918). Appetites and Aversions as Constituents of Instincts. Biological Bulletin, 34, 91107.CrossRefGoogle Scholar
Cramer, C. P. & Blass, E. M. (1983). Mechanisms of Control of Milk Intake in Suckling Rats. American Journal of Physiology, 245, R154R159.Google ScholarPubMed
Crews, D. & Groothuis, T. (2009). Tinbergen’s Fourth Question, Ontogeny: Sexual and Individual Differentiation. In Bolhuis, J. J. & Verhulst, S. (Eds.), Tinbergen’s Legacy. Cambridge, UK: Cambridge University Press, pp. 5481.CrossRefGoogle Scholar
Cullen, E. (1957). Adaptations in the Kittiwake to Cliff-nesting. Ibis, 99, 275302.CrossRefGoogle Scholar
Curio, E., Ernst, U. & Vieth, W. (1978). Cultural Transmission of Enemy Recognition: One Function of Mobbing. Science, 202, 899901.CrossRefGoogle ScholarPubMed
Cuthill, I. (2009). The Study of Function in Behavioral Ecology. In Bolhuis, J J. & Verhulst, S. (Eds.), Tinbergen’s Legacy. Cambridge, UK: Cambridge University Press, pp. 107126.CrossRefGoogle Scholar
Czeisler, C. A. & Dijk, D.-J. (2001). Human Circadian Physiology and Sleep-Wake Regulation. In Takahashi, J. S., Turek, F. W. & Moore, R. Y. (Eds.), Handbook of Behavioral Neurobiology, vol. 4: Circadian Clocks. New York: Plenum, pp. 531569.CrossRefGoogle Scholar
Daan, S. (2000). Learning and Circadian Behavior. Journal of Biological Rhythms, 15, 296299.CrossRefGoogle ScholarPubMed
Daan, S., Dijkstra, C. & Tinbergen, J. M. (1990). Family Planning in the Kestrel (Falco tinnunculus): The Ultimate Control of Covariance of Laying Date and Clutch Size. Behaviour, 114, 83116.CrossRefGoogle Scholar
Daly, M. (1977). Some Experimental Tests of the Functional Significance of Scent-marking by Gerbils (Meriones unguiculatus). Journal of Compartive and Physiological Psychology, 91, 10821094.CrossRefGoogle Scholar
Daly, M. (1979). Why Don’t Male Mammals Lactate? Journal of Theoretical Biology, 78, 325345.CrossRefGoogle ScholarPubMed
Daly, M. (2015). On Function, Cause, and Being Jerry Hogan’s Student. Behavioural Processes, 117, 7073.CrossRefGoogle ScholarPubMed
Daly, M. (2016). Killing the Competition. New Brunswick, NJ: TransactionGoogle Scholar
Daly, M. & Daly, S. (1974). Spatial Distribution of a Leaf-eating Saharan Gerbil (Psammomys obesus) in Relation to Its Food. Mammalia, 38, 591603.CrossRefGoogle Scholar
Daly, M. & Wilson, M. (1978). Sex, Evolution, and Behavior. Scituate, MA: Duxbury Press.Google Scholar
Daly, M. & Wilson, M. (1983). Sex, Evolution, and Behavior, 2nd edn. Boston, MA: Willard Grant Press.Google Scholar
Daly, M. & Wilson, M. (1999). Human Evolutionary Psychology and Animal Behaviour. Animal Behaviour, 57, 509519.CrossRefGoogle ScholarPubMed
Darwin, C. (1845). Journal of Researches into the Natural History and Geology of the Countries Visited during the Voyage of H. M. S. Beagle Round the World, 2nd edn. London: Murray.Google Scholar
Darwin, C. (1859). On the Origin of Species. London: Murray.Google Scholar
Darwin, C. (1868). The Variation of Animals and Plants under Domestication. London: Murray.Google Scholar
Darwin, C. (1872). The Expression of the Emotions in Man and Animals. London: Murray.CrossRefGoogle Scholar
Darwin, C. (1873). Origin of Certain Instincts. Nature, 7, 417418.CrossRefGoogle Scholar
Darwin, C. (1896). The Descent of Man and Selection in Relation to Sex, 2nd ed. New York: D. Appleton and Company.Google Scholar
Davies, N. B. (2011). Cuckoo Adaptations: Trickery and Tuning. Journal of Zoology (London), 284, 114.CrossRefGoogle Scholar
Davies, N. B. Krebs, J. R. & West, S. A. (2012). An Introduction to Behavioural Ecology. Chichester: Wiley-Blackwell.Google Scholar
Davis, F. C. & Reppert, S. M. (2001). Development of Mammalian Rhythms. In Takahashi, J. S., Turek, F. W. & Moore, R. Y (Eds.). (2001). Handbook of Behavioral Neurobiology. Vol. 12: Circadian Clocks. New York: Kluwer Academic/Plenum, pp. 247290.CrossRefGoogle Scholar
Dawkins, M. S. (2008). The Science of Animal Suffering. Ethology, 114, 937945.CrossRefGoogle Scholar
Dawkins, M. S. (2015). Animal Welfare and the Paradox of Animal Consciousness. Advances in the Study of Behavior, 47, 537.CrossRefGoogle Scholar
Dawkins, M. S. & Guilford, T. (1995). An Exaggerated Preference for Simple Neural Network Models of Signal Evolution? Proceedings of the Royal Society of London B, 261, 357360.Google ScholarPubMed
Dawkins, R. (1976a). Hierarchical Organization: A Candidate Principle for Ethology. In Bateson, P. P. G. & Hinde, R. A. (Eds.), Growing Points in Ethology. Cambridge, UK: Cambridge University Press, pp. 754.Google Scholar
Dawkins, R. (1976b). The Selfish Gene. Oxford: Oxford University Press.Google Scholar
Dawkins, R. & Krebs, J. R. (1978). Animal Signals: Information or Manipulation? In Krebs, J. R. & Davies, N. B. (Eds.), Behavioural Ecology. Oxford: Blackwell, pp. 282309.Google Scholar
De Bruyn, P. J. N., Tosh, C. A., Bester, M. N. et al. (2011). Sex at Sea: Alternative Mating System in an Extremely Polygynous Mammal. Animal Behaviour, 82, 445451.CrossRefGoogle Scholar
Dean, L. G., Kendal, R. L., Schapiro, S. J., Thierry, B. & Laland, K. N. (2012). Identification of the Social Processes underlying Human Cumulative Culture. Science, 335, 11141118.CrossRefGoogle ScholarPubMed
Dewsbury, D. A. (1992). On the Problems Studied in Ethology, Comparative Psychology, and Animal Behavior. Ethology, 92, 89107.CrossRefGoogle Scholar
Dewsbury, D. A. (1994). On the Utility of the Proximate-Ultimate Distinction in the Study of Animal Behavior. Ethology, 96, 6368.CrossRefGoogle Scholar
Dewsbury, D. A. (1999). The Proximate and the Ultimate: Past, Present, and Future. Behavioural Processes, 46, 189199.CrossRefGoogle ScholarPubMed
Dezfouli, A. & Balleine, B. W. (2012). Habits, Action Sequences and Reinforcement Learning. European Journal of Neuroscience, 35, 10361051.CrossRefGoogle ScholarPubMed
Dickinson, A. (1980). Contemporary Animal Learning Theory. Cambridge, UK: Cambridge University Press.Google Scholar
Dickinson, A. (1994). Instrumental Conditioning. In Mackintosh, , pp. 4579.CrossRefGoogle Scholar
Dickinson, A. & Balleine, B. W. (1994). Motivational Control of Goal-directed Action. Animal Learning and Behavior, 22, 118.CrossRefGoogle Scholar
Diedrichsen, J. & Kornysheva, K. (2015). Motor Skill Learning between Selection and Execution. Trends in Cognitive Sciences, 19, 227233.CrossRefGoogle ScholarPubMed
Diekelmann, S. & Born, J. (2010). The Memory Function of Sleep. Nature Reviews Neuroscience, 11, 115126.CrossRefGoogle ScholarPubMed
Dijk, D.-J. & von Schantz, M. (2005). Timing and Consolidation of Human Sleep, Wakefulness, and Performance by a Symphony of Oscillators. Journal of Biological Rhythms, 20, 279290.CrossRefGoogle ScholarPubMed
Dijk, D.-J. & Archer, S. N. (2009). Light, Sleep, and Circadian Rhythms: Together Again. PLoS Biology, 7(6).CrossRefGoogle Scholar
Dijk, D.-J., Duffy, J. F. & Czeisler, C. A. (1992). Circadian and Sleep/Wake Dependent Aspects of Subjective Alertness and Cognitive Performance. Journal of Sleep Research, 1, 112117.CrossRefGoogle ScholarPubMed
Dijkstra, C., Bult, A. Bijlsma, S., Daan, S., Meijer, T & Zijlstra, M. (1990). Brood Size Manipulations in the Kestrel (Falco tinnunculus): Effects on Offspring and Parent Survival. Journal of Animal Ecology, 59, 269285.CrossRefGoogle Scholar
Dingemanse, N, J., Both, C., Drent, P. J. & Tinbergen, J. M. (2004). Fitness Consequences of Avian Personalities in a Fluctuating Environment. Proceedings of the Royal Society of London B, 271, 847852.CrossRefGoogle Scholar
Dingle, H. & Drake, V. A. (2007). What Is Migration? BioScience, 57, 113121.CrossRefGoogle Scholar
Dollard, J. & Miller, N. E. (1950). Personality and Psychotherapy. New York: McGraw-Hill.Google Scholar
Domjan, M. & Holloway, K. S. (1998). Sexual Learning. In Greenberg, G. & Haraway, M. M. (Eds.), Comparative Psychology: A Handbook. New York: Garland, pp. 602613.Google Scholar
Domjan, M., Cusato, B. & Krause, M. (2004). Learning with Arbitrary versus Ecological Conditioned Stimuli: Evidence from Sexual Conditioning. Psychological Bulletin and Review, 11, 232246.CrossRefGoogle ScholarPubMed
Doty, R. W. (1976). The Concept of Neural Centers. In Fentress, J. C. (Ed.), Simpler Networks and Behavior. Sunderland, MA: Sinauer, pp. 251265.Google Scholar
Doupe, A. J. & Kuhl, P. K. (1999). Birdsong and Human Speech: Common Themes and Mechanisms. Annual Review of Neuroscience, 22, 567631.CrossRefGoogle ScholarPubMed
Drachman, D. B. & Sokoloff, L. (1966). The role of Movement in Embryonic Joint Development. Developmental Biology, 14, 401420.CrossRefGoogle Scholar
Duncan, I. J. H., Widowski, T. M., Malleau, A. E., Lindberg, A. C. & Petherick, J. C. (1988). External Factors and Causation of Dustbathing in Domestic Hens. Behavioural Processes, 43, 219228.CrossRefGoogle Scholar
Durkin, J. M. & Aton, S. J. (2016). Sleep-dependent Potentiation in the Visual System Is at Odds with the Synaptic Homeostasis Hypothesis. Sleep, 39, 155159.CrossRefGoogle ScholarPubMed
Eibl-Eibesfeldt, I. (1972). Similarities and Differences between Cultures in Expressive Movements. In Hinde, R. A. (Ed.), Non-verbal Communication. Cambridge, UK: Cambridge University Press, pp. 297311.Google Scholar
Eimas, P. D., Miller, J. L. & Jusczyk, P. W. (1987). On Infant Speech Perception and the Acquisition of Language. In Harnad, S. (Ed.), Categorical Perception. Cambridge, UK: Cambridge University Press, pp. 161195.Google Scholar
Eimas, P. D., Siqueland, P., Jusczyk, P. & Vigorito, J. (1971). Speech Perception in Infants. Science, 171, 303306.CrossRefGoogle ScholarPubMed
Ekman, P. (1982). Emotion in the Human Face, 2nd edn. Cambridge, UK: Cambridge University Press.Google Scholar
Ekman, P. & Davidson, R. J. (Eds.). (1994). The Nature of Emotion: Fundamental Questions. New York: Oxford University Press.Google Scholar
Elliot, A. J., Eder, A. B. & Harmon-Jones, E. (2013). Avoidance Motivation and Emotion: Convergency and Divergence. Emotion Review, 5, 308311.CrossRefGoogle Scholar
Emlen, S. T. (1967). Migratory Orientation in the Indigo Bunting, Passerina cyanea. Auk, 84, 309342, 463489.CrossRefGoogle Scholar
Emlen, S. T. (1969). Bird Migration: Influence of Physiological State upon Celestial Orientation. Science, 165, 716718.CrossRefGoogle ScholarPubMed
Enquist, M. & Arak, A. (1993). Selection of Exaggerated Male Traits by Female Aesthetic Senses. Nature, 361, 446448.CrossRefGoogle ScholarPubMed
Enquist, M. & Ghirlanda, S. (2005). Neural Networks and Animal Behavior. Princeton, NJ: Princeton University Press.Google Scholar
Enquist, M. & Ghirlanda, S. (2007). Evolution of Social Learning Does Not Explain the Origin of Human Cumulative Culture. Journal of Theoretical Biology, 246, 129135,CrossRefGoogle ScholarPubMed
Enquist, M. & Leimar, O. (1983). Evolution of Fighting Behaviour: Decision Rules and Assessment of Relative Strength. Journal of Theoretical Biology, 102, 387410.CrossRefGoogle Scholar
Enquist, M. Leimar, O., Ljungberg, T., Mallner, Y. & Segerdahl, N. (1990). A Test of the Sequential Game: Fighting in the Cichlid Fish Nannacara anomala. Animal Behaviour, 40, 114.CrossRefGoogle Scholar
Etienne, A. S. & Jeffery, K. J. (2004). Path Integration in Mammals. Hippocampus, 14, 180192.CrossRefGoogle ScholarPubMed
Etienne, A. S., Maurer, R. & Séguinot, V. (1996). Path Integration in Mammals and Its Interaction with Visual Landmarks. Journal of Experimental Biology, 199, 201209.CrossRefGoogle ScholarPubMed
Evans, R. M. (1968). Early Aggressive Responses in Domestic Chicks. Animal Behaviour, 16, 2428.CrossRefGoogle ScholarPubMed
Ewert, J.-P. (1997). Neural Correlates of Key Stimulus and Releasing Mechanism. Trends in Neurosciences, 20, 332339.Google ScholarPubMed
Ewing, A. W. & Miyan, J. A. (1986). Sexual Selection, Sexual Isolation and the Evolution of Song in the Drosophila repleta Group of Species. Animal Behaviour, 34, 421429.CrossRefGoogle Scholar
Falk, J. L. (1961). Production of Polydipsia in Normal Rats by an Intermittent Food Schedule. Science, 133, 195196.CrossRefGoogle Scholar
Falk, J. L. (1966). Schedule-induced Polydipsia as a Function of Fixed Interval Length. Journal of the Experimental Analysis of Behavior, 9, 3739.CrossRefGoogle ScholarPubMed
Falk, J. L. (1971). The Nature and Determinants of Adjunctive Behavior. Physiology and Behavior, 6, 577588.CrossRefGoogle ScholarPubMed
Falótico, T. & Ottoni, E. B. (2014). Sexual Bias in Probe Tool Manufacture and Use by Wild Bearded Capuchin Monkeys. Behavioural Processes, 108, 117122.CrossRefGoogle ScholarPubMed
Falótico, T. & Ottoni, E. B. (2016). The Manifold Use of Pounding Stone Tools by Wild Capuchin Monkeys of Serra da Capivara National Park, Brazil. Behaviour, 153, 421442.CrossRefGoogle Scholar
Fanselow, M. S. (1994). Neural Organization of the Defensive Behavior System Responsible for Fear. Psychonomic Bulletin and Review, 1, 429438.CrossRefGoogle ScholarPubMed
Fanselow, M. S. & De Oca, B. M. (1988). Defensive Behaviors. In Greenberg, G. & Haraway, M. M. (Eds.), Comparative Psychology: A Handbook. New York: Garland, pp. 653665.Google Scholar
Fantz, R. L. (1957). Form Preferences in Newly Hatched Chicks. Journal of Comparative and Physiological Psychology, 50, 422430.CrossRefGoogle ScholarPubMed
Farris, H. E. (1967). Classical Conditioning of Courting Behavior in the Japanese Quail (Coturnix c. japonica). Journal of the Experimental Analysis of Behavior, 10, 213217.CrossRefGoogle Scholar
Fawcett, T. W., Hamblin, S. & Giraldeau, L.-A. (2013). Exposing the Behavioral Gambit: The Evolution of Learning and Decision Rules. Behavioral Ecology, 24, 211.CrossRefGoogle Scholar
Feekes, F. (1972). “Irrelevant” Ground Pecking in Agonistic Situations in Burmese Red Junglefowl (Gallus gallus spadiceus). Behaviour, 43, 186326.CrossRefGoogle ScholarPubMed
Fehér, O. & Tchernichovski, O. (2013). Vocal Culture in Songbirds: An Experimental Approach to Cultural Evolution. In Bolhuis, & Everaert, , pp. 143156.CrossRefGoogle Scholar
Fentress, J. C. & Gadbois, S. (2001). The Development of Action Sequences. In Blass, E. M. (Ed.), Handbook of Behavioral Neurobiology, Vol. 13: Developmental Psychobiology. New York: Kluwer Academic/Plenum, pp. 393431.Google Scholar
Fentress, J. C. & Stilwell, F. P. (1973). Grammar of a Movement Sequence in Inbred Mice. Nature, 224, 5253.CrossRefGoogle Scholar
Field, T. M., Woodson, R., Greenberg, R. & Cohen, D. (1982). Discrimination and Imitation of Facial Expressions by Neonates. Science, 218, 179181.CrossRefGoogle ScholarPubMed
Finn, A. S. et al. (2016). Developmental Dissociation between the Maturation of Procedural Memory and Declarative Memory. Journal of Experimental Child Psychology, 142, 212220.CrossRefGoogle ScholarPubMed
Fleming, A. S. & Blass, E. M. (1994). Psychobiology of the Early Mother-Young Relationship. In Hogan, & Bolhuis, , pp. 212241.CrossRefGoogle Scholar
Fleming, A. S., Ruble, D., Krieger, H. & Wong, P. Y. (1997). Hormonal and Experiential Correlates of Maternal Responsiveness during Pregnancy and the Puerperium in Human Mothers. Hormones and Behavior, 31, 145158.CrossRefGoogle ScholarPubMed
Fraenkel, G. S. & Gunn, D. L. (1940/1961). The Orientation of Animals. New York: Dover.Google Scholar
Francis, R. C. (1990). Causes, Proximate and Ultimate. Biology and Philosophy, 5, 401415.CrossRefGoogle Scholar
Frankland, P. W., Kōhler, S. & Josselyn, S. A. (2013). Hippocampal Neurogenesis and Forgetting. Trends in Neuroscience, 36, 497503.CrossRefGoogle ScholarPubMed
Freedman, A. H. et al. (2014). Genome Sequencing Highlights the Dynamic Early History of Dogs. PLoS Genetics, 10(1).CrossRefGoogle ScholarPubMed
Freud, S. (1905). Three Contributions to the Theory of Sexuality. London: Hogarth Press.Google Scholar
Freud, S. (1915). Instincts and Their Vicissitudes. London: Hogarth Press.Google Scholar
Freud, S. (1940/1949). An Outline of Psycho-analysis. New York: Norton.Google Scholar
Frishkopf, L. S. & Goldstein, M. H. Jr. (1963). Responses to Acoustic Stimuli from Single Units in the Eighth Nerve of the Bullfrog. Journal of the Acoustical Society of America, 35, 12191228.CrossRefGoogle Scholar
Fugazza, C, Pogány, Á. & Miklósi, Á. (2016). Recall of Others’ Actions after Incidental Encoding Reveals Episodic-like Memory in Dogs. Current Biology, 26, 15.CrossRefGoogle ScholarPubMed
Gadbois, S., Sievert, O., Reeve, C., Harrington, F. H. & Fentress, J. C. (2015). Revisiting the Concept of Behavior Patterns in Animal Behavior with an Example from Food-caching Sequences in Wolves (Canis lupus), Coyotes (Canis latrans), and Red Foxes (Vulpes vulpes). Behavioural Processes, 110, 314.CrossRefGoogle Scholar
Galef, B. G. Jr. (1988). Imitation in Animals: History, Definition and Interpretation of Data from the Psychological Laboratory. In Zentall, T. R. & Galef, B. G. Jr. (Eds.), Social Learning: Psychological and Biological Perspectives. Hillsdale, NJ: Erlbaum, pp. 328.Google Scholar
Galef, B. G. Jr. (1996). Social Enhancement of Food Preferences in Norway Rats. In Heyes, C. M. & Galef, B. G. Jr. (Eds.), Social Learning in Animals: The Roots of Culture. New York: Academic Press, pp. 4964.CrossRefGoogle Scholar
Galef, B. G. Jr. (2013). Imitation and Local Enhancement: Detrimental Effects of Consensus Definitions on Analyses of Social Learning in Animals. Behavioural Processes, 100, 123130.CrossRefGoogle ScholarPubMed
Gallistel, C. R. (1973). Self-stimulation: The Neurophysiology of Reward and Motivation. In Deutsch, J. A. (Ed.), The Physiological Basis of Memory. New York: Academic Press, pp. 175267.Google Scholar
Gallistel, C. R. (1980). The Organization of Action. Hillsdale, NJ: Erlbaum.Google Scholar
Gallistel, C. R. (1981). Précis of Gallistel’s The Organization of Action: A New Synthesis. Behavioral and Brain Sciences, 4, 609650.CrossRefGoogle Scholar
Gallistel, C. R. (1990a). Representations in Animal Cognition: An Introduction. Cognition, 37, 122.CrossRefGoogle ScholarPubMed
Gallistel, C. R. (1990b). The Organization of Learning. Cambridge, MA: MIT Press.Google Scholar
Gallistel, C. R. & Matzel, L. D. (2013). The Neuroscience of Learning: Beyond the Hebbian Synapse. Annual Review of Psychology, 63, 169200.CrossRefGoogle Scholar
Gendron, M. & Barrett, L. F. (2009). Reconstructing the Past: A Century of Ideas about Emotion in Psychology. Emotion Review, 1, 316339.CrossRefGoogle Scholar
Gerhardt, H. C. (2001). Acoustic Communication in Two Groups of Closely Related Treefrogs. Advances in the Study of Behavior, 30, 99167.CrossRefGoogle Scholar
Ghirlanda, S. & Enquist, M. (2003). A Century of Generalization. Animal Behaviour, 66, 1536.CrossRefGoogle Scholar
Ghirlanda, S., Jansson, L. & Enquist, M. (2002). Chickens Prefer Beautiful Humans. Human Nature, 13, 383389.CrossRefGoogle ScholarPubMed
Gil, S. A. & Bierema, A. M. K. (2013). On the Meaning of Alarm Calls: A Review of Functional Reference in Avian Alarm Calling. Ethology, 119, 449461.CrossRefGoogle Scholar
Gilbert, S. F. (2012). Ecological Developmental Biology: Environmental Signals for Normal Animal Development. Evolution and Development, 14, 2028.CrossRefGoogle ScholarPubMed
Giraldeau, L.-A. (2005). The Function of Behavior. In Bolhuis, & Giraldeau, , pp. 199225.Google Scholar
Giraldeau, L.-A. & Dubois, F. (2008). Social Foraging and the Study of Exploitative Behaviour. Advances in the Study of Behavior, 38, 59104.CrossRefGoogle Scholar
Giraldeau, L.-A. & Kramer, D. L. (1982). The Marginal Value Theorem: A Quantitative Test Using Load Size Variation in a Central Place Forager the Eastern Chipmunk, Tamias striatus. Animal Behaviour, 30, 10361042.CrossRefGoogle Scholar
Glickman, S. E. (1973). Responses and Reinforcement. In Hinde, & Stevenson-Hinde, , pp. 207241.Google Scholar
Glickman, S. E. & Schiff, B. B. (1967). A Biological Theory of Reinforcement. Psychological Review, 74, 81109.CrossRefGoogle ScholarPubMed
Glimcher, P. W. (2011). Understanding Dopamine and Reinforcement Learning: The Dopamine Reward Prediction Error Hypothesis. Proceedings of the National Academy of Sciences, 108, 1564715654.CrossRefGoogle ScholarPubMed
Gobes, M. H., Fritz, J. B. & Bolhuis, J. J. (2013). Neural Mechanisms of Auditory Learning in Songbirds and Mammals. In Bolhuis, & Everaert, , pp. 295315.CrossRefGoogle Scholar
Goldin-Meadow, S. (1997). The Resilience of Language in Humans. In Snowdon, & Hausberger, , pp. 293311.CrossRefGoogle Scholar
Gosling, S. D. (2001). From Mice to Men: What Can We Learn about Personality from Animal Research? Psychological Bulletin, 127, 4586.CrossRefGoogle ScholarPubMed
Gottlieb, G. (1978). Development of Species Identification in Ducklings: IV. Change in Species-specific Perception Caused by Auditory Deprivation. Journal of Comparative and Physiological Psychology, 92, 375387.CrossRefGoogle ScholarPubMed
Gottlieb, G. (1980). Development of Species Identification in Ducklings: VI. Specific Embryonic Experience Required to Maintain Species-typical Perception in Peking Ducklings. Journal of Comparative and Physiological Psychology, 94, 579587. (Reprinted in Bolhuis & Hogan, 1999.)CrossRefGoogle Scholar
Gottlieb, G. (1992). Individual Development and Evolution: The Genesis of Novel Behavior. New York: Oxford University Press.Google Scholar
Gottlieb, G. (1997). Synthesizing Nature-Nurture: Prenatal Roots of Instinctive Behavior. Mahwah, NJ: Erlbaum.Google Scholar
Gould, S. J. & Lewontin, R. C. (1979). The Spandrels of San Marco and the Panglossian Paradigm: A Critique of the Adaptationist Programme. Proceedings of the Royal Society of London B, 205, 581598.Google Scholar
Gould, S. J. & Vrba, E. S. (1988). Exaptation-A Missing Term in the Science of Form. Paleobiology, 8, 415.CrossRefGoogle Scholar
Graf, J. S., Balsam, P. D. & Silver, R. (1985). Associative Factors and the Development of Pecking in the Ring Dove. Developmental Psychobiology, 18, 447460.CrossRefGoogle ScholarPubMed
Grant, P. R. & Grant, B. R. (2006). Evolution of Character Displacement in Darwin’s Finches. Science, 313, 224226.CrossRefGoogle ScholarPubMed
Gray, R. D., Atkinson, Q. D. & Greenhill, S. J. (2011). Language Evolution and Human History: What a Difference a Day Makes. Philosophical Transactions of the Royal Society B, 366, 10901100.CrossRefGoogle Scholar
Graybiel, A. M. & Smith, K. S. (2014). Good Habits, Bad Habits. Scientific American, 310, 3843.CrossRefGoogle ScholarPubMed
Greenough, W. T., Black, J. E. & Wallace, C. S. (1987). Experience and Brain Development. Child Development, 58, 539559.CrossRefGoogle ScholarPubMed
Griesemer, J. (2000). Development, Culture, and the Units of Inheritance. Philosophy of Science, 67 (Suppl.), S348S368.CrossRefGoogle Scholar
Groothuis, T. G. G. (1992). The Influence of Social Experience on the Development and Fixation of the Form of Displays in the Black-headed Gull. Animal Behaviour, 43, 114.CrossRefGoogle Scholar
Groothuis, T. G. G. (1994). The Ontogeny of Social Displays: Interplay between Motor Development, Development of Motivational Systems and Social Experience. In Hogan, & Bolhuis, , pp. 183211.CrossRefGoogle Scholar
Groothuis, T. G. G. & Meeuwissen, G. (1992). The Influence of Testosterone on the Development and Fixation of the Form of Displays in Two Age Classes of Young Black-headed Gulls. Animal Behaviour, 43, 189208.CrossRefGoogle Scholar
Gross, C. T. & Canteras, N S. (2012). The Many Paths to Fear. Nature Reviews Neuroscience, 13, 651658.CrossRefGoogle ScholarPubMed
Grossman, S. P. (1967). A Textbook of Physiological Psychology. New York: Wiley.Google Scholar
Gwinner, E. (1986). Circannual Rhythms in the Control of Avian Migrations. Advances in the Study of Behavior, 16, 191228.CrossRefGoogle Scholar
Gwinner, E. (1996). Circadian and Circannual Programmes in Avian Migration. Journal of Experimental Biology, 199, 3948.CrossRefGoogle ScholarPubMed
Gwinner, E. & Brandstätter, R. (2001). Complex Bird Clocks. Philosophical Transactions of the Royal Society London B, 356, 18011810.CrossRefGoogle ScholarPubMed
Hafting, T., Fyhn, M., Molden, S. Moser, M.-B. & Moser, E. I. (2005). Microstructure of a Spatial Map in the Entorhinal Cortex. Nature, 436, 801806.CrossRefGoogle ScholarPubMed
Hale, C. & Green, L. (1979). Effect of Initial Pecking Consequences on Subsequent Pecking in Young Chicks. Journal of Comparative and Physiological Psychology, 93, 730735.CrossRefGoogle Scholar
Hall, C. S. (1934). Emotional Behavior in the Rat: 1. Defecation and Urination as Measures of Individual Differences in Emotionality. Journal of Comparative Psychology, 18, 385403.CrossRefGoogle Scholar
Hall, W. G. & Browde, J. A. (1986). The Ontogeny of Independent Ingestion in Mice: Or, Why Won’t Infant Mice Feed? Developmental Psychobiology, 19, 211222.CrossRefGoogle ScholarPubMed
Hall, W. G. & Williams, C. L. (1983). Suckling Isn’t Feeding, or Is It? A Search for Developmental Continuities. Advances in the Study of Behavior, 13, 219254.CrossRefGoogle Scholar
Hamburger, V. (1973). Anatomical and Physiological Basis of Embryonic Motility in Birds and Mammals. In Gottlieb, G. (Ed.), Behavioral Embryology. New York: Academic Press, pp. 5276.Google Scholar
Hamilton, W. D. (1964). The Genetical Evolution of Social Behaviour. I & II. Journal of Theoretical Biology, 7, 152.CrossRefGoogle ScholarPubMed
Hamilton, W. D. (1971). Geometry for the Selfish Herd. Journal of Theoretical Biology, 31, 295311.CrossRefGoogle ScholarPubMed
Harlow, H. F. (1950). Learning and Satiation of Response in Intrinsically Motivated Complex Puzzle Performance by Monkeys. Journal of Comparative and Physiological Psychology, 43, 289294.CrossRefGoogle ScholarPubMed
Harlow, H. F. & Harlow, M. K. (1962). Social Deprivation in Monkeys. Scientific American, Nov. (Reprinted in Bolhuis, & Hogan, , 1999.)Google Scholar
Harlow, H. F. & Harlow, M. K. (1965). The Affectional Systems. In Schrier, A. M., Harlow, H. F. & Stollnitz, F. (Eds.), Behavior of Nonhuman Primates, Vol. 2. New York: Academic Press.Google Scholar
Harlow, H. F. & Suomi, S. J. (1971). Social Recovery by Isolation-reared Monkeys. Proceedings of the National Academy of Sciences, 68, 15341538.CrossRefGoogle ScholarPubMed
Hart, B. L. (1995). Analysing Breed and Gender Differences in Behaviour. In Serpell, J. (Ed.), The Domestic Dog. Cambridge, UK: Cambridge University Press, pp. 6577.Google Scholar
Haslam, M., Luncz, L. V. & Falótico, T. (2016). Pre-Columbian Monkey Tools. Current Biology, 26, R515R522.CrossRefGoogle ScholarPubMed
Hauser, M. D. (1996). The Evolution of Communication. Cambridge, MA: MIT Press.CrossRefGoogle Scholar
Hauser, M.D., Yang, C., Berwick, R. C., Tattersall, I., Ryan, M. J., Watumull, J., Chomsky, N. & Lewontin, R. C. (2014). The Mystery of Language Evolution. Frontiers in Psychology, 5, May, article 401.CrossRefGoogle ScholarPubMed
Hebb, D. O. (1946). On the Nature of Fear. Psychological Review, 53, 259276.CrossRefGoogle ScholarPubMed
Hebb, D. O. (1949). The Organization of Behavior. New York: Wiley.Google Scholar
Heiligenberg, W. (1974). Processes Governing Behavioral States of Readiness. Advances in the Study of Behavior, 5, 173200.CrossRefGoogle Scholar
Heinroth, O. (1911). Beiträge zur Biologie: namentlich Ethologie und Psychologie der Anatiden. Verhandlungen des 5. Internationalen Ornitologen-Kongresses in Berlin, 1910, pp. 389702.Google Scholar
Henning, F. & Meyer, A. (2014). The Evolutionary Genomics of Cichlid Fishes: Explosive Speciation and Adaptation in the Postgenomic Era. Annual Review of Genomics and Human Genetics, 15, 417441.CrossRefGoogle ScholarPubMed
Herrnstein, R. J. (1977). The Evolution of Behaviorism. American Psychologist, 32, 593603.CrossRefGoogle Scholar
Hess, E. H. (1956). Natural Preferences of Chicks and Ducklings for Objects of Different Colors. Psychological Reports, 2, 477483.CrossRefGoogle Scholar
Heyes, C. M. (2012). New Thinking: The Evolution of Human Cognition. Philosophical Transactions of the Royal Society B, 367, 20912096.CrossRefGoogle ScholarPubMed
Heyes, C. M. (1994). Social Learning in Animals: Categories and Mechanisms. Biological Reviews, 69, 207231.CrossRefGoogle ScholarPubMed
Heyes, C. M. (2012). What’s Social about Social Learning? Journal of Comparative Psychology, 126, 109113.CrossRefGoogle ScholarPubMed
Hills, T. T., Todd, P. M., Lazer, D. et al. (2015). Exploration versus Exploitation in Space, Mind, and Society. Trends in Cognitive Sciences, 19, 4654.CrossRefGoogle ScholarPubMed
Hinde, R. A. (1959). Unitary Drives. Animal Behaviour, 7, 130141.CrossRefGoogle Scholar
Hinde, R. A. (1960). Energy Models of Motivation. Symposia of the Society for Experimental Biology, 14, 199213.Google ScholarPubMed
Hinde, R. A. (1970). Animal Behavior, 2nd edn. New York: McGraw-Hill.Google Scholar
Hinde, R. A. (1975). The Concept of Function. In Baerends, et al., pp. 215.Google Scholar
Hinde, R. A. (1977). Mother-Infant Separation and the Nature of Inter-individual Relationships: Experiments with Rhesus Monkeys. Proceedings of the Royal Society of London B, 196, 2950. (Reprinted in Bolhuis, & Hogan, , 1999.)Google ScholarPubMed
Hinde, R. A. & Stevenson-Hinde, J. G. (Eds.). (1973). Constraints on Learning. London: Academic Press.Google Scholar
Hodos, W. & Campbell, C. B. G. (1969). Scala Naturae: Why There Is No Theory in Comparative Psychology. Psychological Review, 76, 337350.CrossRefGoogle Scholar
Hofer, M. A. (1987). Early Social Relationships: A Psychobiologist’s View. Child Development, 58, 633647.CrossRefGoogle ScholarPubMed
Hofer, M. A. (1996). On the Nature and Consequences of Early Loss. Psychosomatic Medicine, 58, 570581.CrossRefGoogle ScholarPubMed
Hogan, J. A. (1961). Motivational Aspects of Instinctive Behavior in Betta splendens. Ph.D. thesis, Harvard University.Google Scholar
Hogan, J. A. (1964). Operant Control of Preening in Pigeons. Journal of the Experimental Analysis of Behavior, 7, 351354.CrossRefGoogle ScholarPubMed
Hogan, J. A. (1965). An Experimental Study of Conflict and Fear: An Analysis of Behavior of Young Chicks to a Mealworm. Part I: The Behavior of Chicks Which Do Not Eat the Mealworm. Behaviour, 25, 4597.CrossRefGoogle Scholar
Hogan, J. A. (1966). An Experimental Study of Conflict and Fear: An Analysis of Behavior of Young Chicks to a Mealworm. Part II: The Behavior of Chicks Which Eat the Mealworm. Behaviour, 27, 273289.CrossRefGoogle Scholar
Hogan, J. A. (1971). The Development of a Hunger System in Young Chicks. Behaviour, 39, 128201.CrossRefGoogle ScholarPubMed
Hogan, J. A. (1973). How Young Chicks Learn to Recognize Food. In Hinde, & Stevenson-Hinde, , pp. 119139.Google Scholar
Hogan, J. A. (1974). Responses in Pavlovian Conditioning Studies. Science, 186, 156157.CrossRefGoogle ScholarPubMed
Hogan, J. A. (1977). The Ontogeny of Food Preferences in Chicks and Other Animals. In Barker, L. M., Best, M. & Domjan, M. (Eds.), Learning Mechanisms in Food Selection. Waco, TX: Baylor University Press.Google Scholar
Hogan, J. A. (1978). An Eccentric View of Development: A Review of The Dynamics of Behavior Development by Zing-Yang Kuo. Contemporary Psychology, 23, 690691.CrossRefGoogle Scholar
Hogan, J. A. (1980). Homeostasis and Behaviour. In Toates, F. M. & Halliday, T. R. (Eds.), Analysis of Motivational Processes. London: Academic Press, pp. 321.Google Scholar
Hogan, J. A. (1981). Hierarchy and Behavior. Behavioral and Brain Sciences, 4, 625.CrossRefGoogle Scholar
Hogan, J. A. (1984a). Cause, Function, and the Analysis of Behavior. Mexican Journal of Behavior Analysis, 10, 6571.Google Scholar
Hogan, J. A. (1984b). Pecking and Feeding in Chicks. Learning and Motivation, 15, 360376.CrossRefGoogle Scholar
Hogan, J. A. (1988). Cause and Function in the Development of Behavior Systems. In Blass, E. M. (Ed.), Handbook of Behavioral Neurobiology, vol. 9. New York: Plenum, pp. 63105.Google Scholar
Hogan, J. A. (1989). The Interaction of Incubation and Feeding in Broody Junglefowl Hens. Animal Behaviour, 38, 121128.CrossRefGoogle Scholar
Hogan, J. A. (1994a). The Concept of Cause in the Study of Behavior. In Hogan, & Bolhuis, , pp. 315.CrossRefGoogle Scholar
Hogan, J. A. (1994b). Development of Behavior Systems. In Hogan, & Bolhuis, , pp. 242264.CrossRefGoogle Scholar
Hogan, J. A. (1994c). Structure and Development of Behavior Systems. Psychonomic Bulletin and Review, 1, 439450.CrossRefGoogle ScholarPubMed
Hogan, J. A. (1997). Energy Models of Motivation: A Reconsideration. Applied Animal Behaviour Science, 53, 89105.CrossRefGoogle Scholar
Hogan, J. A. (1998). Motivation. In Greenberg, G. & Haraway, M. M. (Eds.), Comparative Psychology: A Handbook, pp. 164175. New York: Garland.Google Scholar
Hogan, J. A. (2001). Development of Behavior Systems. In Blass, E. M. (Ed.), Handbook of Behavioral Neurobiology, Vol. 13: Developmental Psychobiology, New York: Kluwer Academic/Plenum, pp. 229279.Google Scholar
Hogan, J. A. (2005). Motivation. In Bolhuis, & Giraldeau, , pp. 4170.Google Scholar
Hogan, J. A. (2015). A Framework for the Study of Behavior. Behavioural Processes, 117, 105113.CrossRefGoogle Scholar
Hogan, J. A. & Bolhuis, J. J. (2009). Tinbergen’s Four Questions and Contemporary Behavioral Biology. In Bolhuis, J. J. & Verhulst, S. (Eds.), Tinbergen’s Legacy. Cambridge, UK: Cambridge University Press, pp. 2534.CrossRefGoogle Scholar
Hogan, J. A. & Bolhuis, J. J. (Eds.). (1994). Causal Mechanisms of Behavioural Development. Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
Hogan, J. A. & Bols, R. J. (1980). Priming of Aggressive Motivation in Betta splendens. Animal Behaviour, 28, 135142.CrossRefGoogle Scholar
Hogan, J. A. & Roper, T. J. (1978). A Comparison of the Properties of Different Reinforcers. Advances in the Study of Behavior, 8, 155255.CrossRefGoogle Scholar
Hogan, J. A. & van Boxel, F. (1993). Causal Factors Controlling Dustbathing in Burmese Red Junglefowl: Some Results and a Model. Animal Behaviour, 46, 627635.CrossRefGoogle Scholar
Hogan, J. A., Hogan-Warburg, A. J., Panning, L. & Moffatt, C. A. (1998). Causal Factors Controlling the Brooding Cycle of Broody Junglefowl Hens with Chicks. Behaviour, 135, 957980.CrossRefGoogle Scholar
Hogan, J. A., Honrado, G. I. & Vestergaard, K. S. (1991). Development of a Behavior System: Dustbathing in the Burmese Red Junglefowl (Gallus gallus spadiceus): II. Internal Factors. Journal of Comparative Psychology, 195, 269273.CrossRefGoogle Scholar
Hogan-Warburg, A. J. (1966). Social Behavior of the Ruff, Philomachus pugnax (L.). Ardea, 54, 109229.Google Scholar
Hogan-Warburg, A. J. (1992). Female Choice and the Evolution of Mating Strategies in the Ruff Philomachus pugnax (L.). Ardea, 80, 395403.Google Scholar
Hogan-Warburg, A. J. & Hogan, J. A. (1981). Feeding Strategies in the Development of Food Recognition in Young Chicks. Animal Behaviour, 29, 143154.CrossRefGoogle Scholar
Hogan-Warburg, A. J., Hogan, J. A. & Ashton, M. C. (1995). Locomotion and Grooming in Crickets: Competition or Time Sharing? Animal Behaviour, 49, 531533.CrossRefGoogle Scholar
Hogan-Warburg, A. J., Panning, L. & Hogan, J. A. (1993). Analysis of the Brooding Cycle of Broody Junglefowl Hens with Chicks. Behaviour, 125, 2137.CrossRefGoogle Scholar
Hollis, K. L. (1984). The Biological Function of Pavlovian Conditioning: The Best Defence Is a Good Offence. Journal of Experimental Psychology: Animal Behavior Processes, 10, 413425.Google Scholar
Hollis, K. L., ten Cate, C. & Bateson, P. (1991). Stimulus Representation: A Subprocess of Imprinting and Conditioning. Journal of Comparative Psychology, 105, 307317.CrossRefGoogle ScholarPubMed
Hopkins, B. & Butterworth, G. (1990). Concepts of Causality in Explanations of Development. In Butterworth, G. & Bryant, P. (Eds.), Causes of Development, London: Harvester Wheatsheaf, pp. 333.Google Scholar
Horn, G. (1985). Memory, Imprinting, and the Brain. Oxford: Oxford University Press.CrossRefGoogle Scholar
Hughes, G. M. (Ed.). (1964). Symposia of the Society for Experimental Biology: Homeostasis and Feedback Mechanisms, vol.18. Cambridge, UK: Cambridge University Press.Google Scholar
Hull, C. L. (1933). Differential Habituation to Internal Stimuli in the Albino Rat. Journal of Comparative Psychology, 16, 255273.CrossRefGoogle Scholar
Hull, C. L. (1943). Principles of Behavior. New York: Appleton-Century-Crofts.Google Scholar
Hultsch, H. (1993). Tracing the Memory Mechanisms in the Song Acquisition of Nightingales. Netherlands Journal of Zoology, 43, 155171.CrossRefGoogle Scholar
Huxley, J. S. (1923). Courtship Activities in the Red-throated Diver (Colymbus stellatus Pontopp.); Together with a Discussion of the Evolution of Courtship in Birds. Zoological Journal of the Linnean Society of London, 35, 253292.CrossRefGoogle Scholar
Huxley, J. S. (1942). Evolution: The Modern Synthesis. London: Allen & Unwin.Google Scholar
Huxley, T. H. (1893). Collected Essays, Vol. 1, Method and Results. London: Macmillan.CrossRefGoogle Scholar
Ibbotson, P. & Tomasello, M. (2016). Language in a New Key. Scientific American, 315(5), 7075.Google Scholar
Immelmann, K. (1972). The Influence of Early Experience upon the Development of Social Behaviour in Estrildine Finches. In Voous, K. H. (Ed.), Proceedings of the XV International Ornithological Congress, Den Haag, 1970. Leiden: Brill, pp. 316338.Google Scholar
Immelmann, K., Lassek, R., Pröve, R. & Bischof, H.-J. (1991). Influence of Adult Courtship Experience on the Development of Sexual Preferences in Zebra Finch Males. Animal Behaviour, 42, 8389.CrossRefGoogle Scholar
Ince, S. A., Slater, P. J. B. & Weismann, C. (1980). Changes with Time in the Songs of a Population of Chaffinches. Condor, 82, 285290.CrossRefGoogle Scholar
Ingold, T. (2004). Beyond Biology and Culture. The Meaning of Evolution in a Relational World. Social Anthropology, 12, 209221.CrossRefGoogle Scholar
Insel, N. & Frankland, P. W. (2015). Mechanism, Function, and Computation in Neural Systems. Behavioural Processes, 117, 411.CrossRefGoogle ScholarPubMed
Jablonka, E. & Lamb, M. J. (2014). Evolution in Four Dimensions, revised edn. Cambridge, MA: MIT Press.CrossRefGoogle Scholar
Jackson, R. R. & Cross, F. R. (2011). Spider Cognition. Advances in Insect Physiology, 41, 115174.CrossRefGoogle Scholar
Jackson, R. R. & Wilcox, R. S. (1998). Spider-eating Spiders. American Scientist, 86, 350357.CrossRefGoogle Scholar
James, W. (1890). Principles of Psychology, vol. 2. New York: Holt.Google Scholar
Japyassú, H. F. & Malange, J. (2014). Plasticity, Stereotypy, Intro-individual Variability and Personality: Handle with Care. Behavioural Processes, 109, 4047.CrossRefGoogle Scholar
Jarvis, E. D. & Nottebohm, F. (1997). Motor-driven Gene Expression. Proceedings of the National Academy of Sciences, 94, 40974102.CrossRefGoogle ScholarPubMed
Johanson, I. B. & Terry, L. M. (1988). Learning in Infancy: A Mechanism of Behavioral Change in Development. In Blass, E. M. (Ed.), Handbook of Behavioral Neurobiology, vol. 9. New York: Plenum, pp. 245281.Google Scholar
Johnson, A. & Redish, A. D. (2007). Neural Ensembles in CA3 Transiently Encode Paths Forward of the Animal at a Decision Point. Journal of Neuroscience, 27, 1217612189.CrossRefGoogle Scholar
Johnson, K. P. (2000). The Evolution of Courtship Display Repertoire Size in the Dabbling Ducks (Anatini). Journal of Evolutionary Biology, 13, 634644.CrossRefGoogle Scholar
Johnson, M. H. & Bolhuis, J. J. (2000). Predispositions in Perceptual and Cognitive Development. In Bolhuis, J. J. (Ed.), Brain, Perception, Memory: Advances in Cognitive Neuroscience. Oxford: Oxford University Press, pp. 6984.CrossRefGoogle Scholar
Johnson, M. H., Bolhuis, J. J. & Horn, G. (1985). Interaction between Acquired Preferences and Developing Predispositions during Imprinting. Animal Behaviour, 33, 10001006.CrossRefGoogle Scholar
Johnson, M. H., Davies, D. C. & Horn, G. (1989). A Critical Period for the Development of a Predisposition in the Chick. Animal Behaviour, 37, 10441046.CrossRefGoogle Scholar
Johnson, R. N. & Johnson, L. D. (1973). Intra- and Interspecific Social and Aggressive Behaviour in the Siamese Fighting Fish, Betta splendens. Animal Behaviour, 21, 665672.CrossRefGoogle ScholarPubMed
Josselyn, S. A., Köhler, S. & Frankland, P. W. (2015). Finding the Engram. Nature Reviews Neuroscience, 16, 521534.CrossRefGoogle ScholarPubMed
Josselyn, S. A., Kōhler, S. & Frankland, P. W. (2017). Heroes of the Engram. Journal of Neuroscience, 17, 46474657.CrossRefGoogle Scholar
Jukema, J. & Piersma, T. (2006). Permanent Female Mimics in a Lekking Shorebird. Biology Letters, 2, 161164.CrossRefGoogle Scholar
Jusczyk, P. W. (1997). Finding and Remembering Words: Some Beginnings by English-learning Infants. Current Directions in Psychological Science, 6, 170174.CrossRefGoogle Scholar
Kacelnik, A. (1984). Central-place Foraging in Starlings (Sturnus vulgaris). I. Patch Residence Time. Journal of Animal Ecology, 53, 283299.CrossRefGoogle Scholar
Kahneman, D. (2011). Thinking Fast and Slow. Canada: Doubleday.Google Scholar
Karmiloff-Smith, A. (1992). Beyond Modularity: A Developmental Perspective on Cognitive Science. Cambridge, MA: MIT Press.CrossRefGoogle Scholar
Karmiloff-Smith, A. (1998). Development Itself Is the Key to Understanding Developmental Disorders. Trends in Cognitive Sciences, 2, 389398.CrossRefGoogle Scholar
Kellman, P. J. (2002). Perceptual Learning. In Gallistel, C. R. (Ed.), Stevens’ Handbook of Experimental Psychology, vol. 3: Learning, Motivation, and Emotion. New York: Wiley, pp. 259299.Google Scholar
Kenny, J. T., Stoloff, M. L., Bruno, J. P. & Blass, E. M. (1979). The Ontogeny of Preferences for Nutritive over Nonnutritive Suckling in the Albino Rat. Journal of Comparative and Physiological Psychology, 93,752759.CrossRefGoogle Scholar
King, A. P. & West, M. J. (1977). Species Identification in the North American Cowbird: Appropriate Responses to Abnormal Song. Science, 195, 10021004.CrossRefGoogle ScholarPubMed
Kirkpatrick, K. & Hall, G. (2005). Learning and Memory. In Bolhuis, & Giraldeau, , pp. 146169.Google Scholar
Kish, G. B. (1966). Studies of Sensory Reinforcement. In Honig, W. K. (Ed.), Operant Behavior: Areas of Research and Application. New York: Appleton, pp. 109159.Google Scholar
Kissileff, H. R. (1969). Food-associated drinking in the rat. Journal of Comparative and Physiological Psychology, 67, 284300.CrossRefGoogle ScholarPubMed
Konishi, M. (1965). The Role of Auditory Feedback in the Control of Vocalizations in the White-crowned Sparrow. Zeitschrift für Tierpsychologie, 22, 770783.CrossRefGoogle ScholarPubMed
Kortlandt, A. (1940). Wechselwirkung zwischen Instinkten. Archives Néerlandaises de Zoologie, 4, 443520.CrossRefGoogle Scholar
Kraemer, G. W. (1992). A Psychobiological Theory of Attachment. Behavioral and Brain Sciences, 15, 493511.CrossRefGoogle ScholarPubMed
Kramer, D. L. & Bonenfant, M. (1997). Direction of Predator Approach and the Decision to Flee to a Refuge. Animal Behaviour, 54, 289295.CrossRefGoogle ScholarPubMed
Kramer, G. (1952). Experiments on bird orientation. Ibis, 94, 265285.CrossRefGoogle Scholar
Krebs, J. R., Erichsen, J. T., Webber, M. I. & Charnov, E. L. (1977). Optimal Prey-selection by the Great Tit (Parus major). Animal Behaviour, 25, 3038.CrossRefGoogle Scholar
Kristiansen., M. & Ham, J. (2014). Programmed Cell Death during Neuronal Development: The Sympathetic Neuron Model. Cell Death and Differentiation, 21, 10251035.CrossRefGoogle ScholarPubMed
Kruijt, J. P. (1962a). On the Evolutionary Derivation of Wing Display in Burmese Red Junglefowl and Other Gallinaceous Birds. Symposia of the Zoological Society, London, 8, 2535.Google Scholar
Kruijt, J. P. (1962b). Imprinting in Relation to Drive Interactions in Burmese Red Junglefowl. Symposia of the Zoological Society, London, 8, 219226.Google Scholar
Kruijt, J. P. (1964). Ontogeny of Social Behaviour in Burmese Red Junglefowl (Gallus gallus spadiceus). Behaviour (Suppl. 9).Google Scholar
Kruijt, J. P. (1985). On the Development of Social Attachments in Birds. Netherlands Journal of Zoology, 35, 4562.CrossRefGoogle Scholar
Kruijt, J. P. & Hogan, J. A. (1967). Social Behavior on the Lek in Black Grouse, Lyrurus tetrix tetrix (L.). Ardea, 55, 203240.Google Scholar
Kruijt, J. P. & Meeuwissen, G. B. (1991). Sexual Preferences of Male Zebra Finches: Effects of Early Adult Experience. Animal Behaviour, 42, 91102.CrossRefGoogle Scholar
Kruijt, J. P. & Meeuwissen, G. B. (1993). Consolidation and Modification of Sexual Preferences in Adult Male Zebra Finches. Netherlands Journal of Zoology, 43, 6879.CrossRefGoogle Scholar
Kruuk, H. (1964). Predators and Anti-predator Behaviour of the Black-headed Gull, Larus ridibundus. Behaviour (Suppl. 11), 1129.Google Scholar
Kuhl, P. K. (1994). Learning and Representation in Speech and Language. Current Opinion in Neurobiology, 4, 812822.CrossRefGoogle ScholarPubMed
Kuhl, P. K. (2004). Early Language Acquisition: Cracking the Speech Code. Nature Reviews Neuroscience, 5, 831843.CrossRefGoogle ScholarPubMed
Kuhl, P. K. (2015). How Babies Learn Language. Scientific American, 313(5).Google Scholar
Kuhl, P. K., Williams, K. A., Lacerda, R., Stevens, K. N. & Lindblom, B. (1992). Linguistic Experience Alters Phonetic Perception in Infants by 6 Months of Age. Science, 255, 606608.CrossRefGoogle ScholarPubMed
Kühn, A. (1919). Die Orientierung der Tiere im Raum. Jena.Google Scholar
Kuo, Z. Y. (1921). Giving up Instincts in Psychology. Journal of Philosophy, 18, 645664.CrossRefGoogle Scholar
Kuo, Z. Y. (1967). The Dynamics of Behavioral Development. New York: Random House. (Excerpt reprinted in Bolhuis, & Hogan, , 1999.)Google Scholar
Küpper, C., Stocks, M., Risse, J. E. et al. (2016). A Supergene Determines Highly Divergent Male Reproductive Morphs in the Ruff. Nature Genetics, 48, 7983.CrossRefGoogle ScholarPubMed
Lack, D. (1954). The Natural Regulation of Animal Numbers. Oxford: Oxford University Press.Google Scholar
Lack., D. (1947). Darwin’s Finches. Cambridge, UK: Cambridge University Press.Google Scholar
Laland, K. N. (2015). On Evolutionary Causes and Evolutionary Processes. Behavioural Processes, 117, 97104.CrossRefGoogle ScholarPubMed
Laland, K. N. & Brown, G. R. (2011). Sense and Nonsense: Evolutionary Perspectives on Human Behaviour, 2nd edn. Oxford: Oxford University Press.Google Scholar
Laland, K. N. & Galef, B. G. Jr (Eds.). (2009). The Question of Animal Culture. Cambridge, MA: Harvard University Press.CrossRefGoogle Scholar
Laland, K. N. et al. (2014). Does Evolutionary Theory Need a Rethink? Yes, Urgently. Nature, 514, 161164.CrossRefGoogle Scholar
Laland, K. N., Sterelny, K., Odling-Smee, J., Hoppitt, W. & Uller, T. (2011). Cause and Effect in Biology Revisited: Is Mayr’s Proximate-Ultimate Dichotomy Still Useful? Science, 334, 15121516.CrossRefGoogle ScholarPubMed
Land, M. F. (2014). Do We Have an Internal Model of the Outside World? Philosophical Transactions of the Royal Society B, 369 (doi: 20130045).CrossRefGoogle ScholarPubMed
Langtimm, C. A. & Dewsbury, D. A. (1991). Phylogeny and Evolution of Rodent Copulatory Behaviour. Animal Behaviour, 41, 217225.CrossRefGoogle Scholar
Lank, D. B., Smith, C. M., Hanotte, O., Burke, T. & Cooke, F. (1995). Genetic Polymorphism for Alternative Mating Behaviour in Lekking Male Ruff Philomachus pugnax. Nature, 378, 5962.CrossRefGoogle Scholar
Larsen, B. H., Hogan, J. A. & Vestergaard, K. S. (2000). Development of Dustbathing Behavior Sequences in the Domestic Fowl: The Significance of Functional Experience. Developmental Psychobiology, 37, 512.3.0.CO;2-8>CrossRefGoogle ScholarPubMed
Larson, G. & Fuller, D. Q. (2014). The Evolution of Animal Domestication. Annual Review of Ecology, Evolution, and Systematics, 45, 115136.CrossRefGoogle Scholar
Lashley, K. S. (1938). Experimental Analysis of Instinctive Behavior. Psychological Review, 45, 445471.CrossRefGoogle Scholar
Lashley, K. S. (1950). In Search of the Engram. Symposia of the Society for Experimental Biology, 4, 454482.Google Scholar
Lashley, K. S. (1951). The Problem of Serial Order in Behavior. In Jeffress, L. A. (Ed.), Cerebral Mechanisms in Behavior. New York: Wiley, pp. 112136.Google Scholar
Leadbeater, E. (2015). What Evolves in the Evolution of Social Learning. Journal of Zoology, 295, 411.CrossRefGoogle Scholar
Leadbeater, E. & Chittka, L. (2007). Social Learning in Insects – From Miniature Brains to Consensus Building. Current Biology, 17, R703R713.CrossRefGoogle ScholarPubMed
LeBeouf, B. J. (1974). Male-male Competition and Reproductive Success in Elephant Seals. American Zoologist, 14, 163176.Google Scholar
LeDoux, J. (2012). Rethinking the Emotional Brain. Neuron, 73, 653676.CrossRefGoogle ScholarPubMed
Lefebvre, L. (2015). Should Neuroecologists Separate Tinbergen’s Four Questions? Behavioural Processes, 117, 9296.CrossRefGoogle ScholarPubMed
Lehrman, D. S. (1953). A Critique of Konrad Lorenz’s Theory of Instinctive Behaviour. Quarterly Review of Biology, 28, 337363.CrossRefGoogle Scholar
Lehrman, D. S. (1955). The Physiological Basis of Parental Feeding Behaviour in the Ring Dove (Streptopelia risoria). Behaviour, 7, 241286.CrossRefGoogle Scholar
Lehrman, D. S. (1965). Interaction between Internal and External Environments in the Regulation of the Reproductive Cycle of the Ring Dove. In Beach, F. A. (Ed.), Sex and Behavior. New York: Wiley, pp. 355380.Google Scholar
Lehrman, D. S. (1970). Semantic and Conceptual Issues in the Nature-Nurture Problem. In Aronson, et al., pp. 1752. (Reprinted in Bolhuis, & Hogan, , 1999.)Google Scholar
Lenneberg, E. H. (1967). Biological Foundations of Language. New York: Wiley.CrossRefGoogle Scholar
Lettvin, J. Y., Maturana, H. R., McCulloch, W. S. & Pitts, W. H. (1959). What the Frog’s Eye Tells the Frog’s Brain. Proceedings of the Institute of Radio Engineers, 47, 19401951.Google Scholar
Levinson, S. C. & Gray, R. D. (2012). Tools from Evolutionary Biology Shed New Light on the Diversification of Languages. Trends in Cognitive Sciences, 16, 167173.CrossRefGoogle ScholarPubMed
Lewontin, R. C. (1970). The Units of Selection. Annual Review of Ecology and Systematics, 1, 118.CrossRefGoogle Scholar
Lieberman, P. (2016). The Evolution of Language and Thought. Journal of Anthropological Sciences, 94, 127146.Google ScholarPubMed
Locke, J. L. (1993). The Child’s Path to Spoken Language. Cambridge, MA: Harvard University Press.Google Scholar
Locke, J. L. (1994). The Biological Building Blocks of Spoken Language. In Hogan, & Bolhuis, , pp. 300324.CrossRefGoogle Scholar
Locke, J. L. & Snow, C. (1997). Social Influences on Vocal Learning in Human and Nonhuman Primates. In Snowdon, & Hausberger, , pp. 274292.CrossRefGoogle Scholar
Loeb, J. (1918). Forced Movements, Tropisms and Animal Conduct. Philadelphia: Lippincott.Google Scholar
Logan, C. A. (1983). Biological Diversity in Avian Vocal Learning. In Zeiler, M. D. & Harzem, P. (Eds.), Advances in Analysis of Behavior, vol. 3: Biological Factors in Learning. Chichester, UK: Wiley.Google Scholar
Lorenz, K. (1935). Der Kumpan in der Umwelt des Vogels. Journal für Ornithologie, 83, 137213, 289413. [Tr. as: Companions as Factors in the Bird’s Environment. In Lorenz, , 1970, pp. 101–258 – excerpt reprinted in Bolhuis, & Hogan, , 1999.]CrossRefGoogle Scholar
Lorenz, K. (1937). Über die Bildung des Instinktbegriffes. Naturwissenschaften, 25, 289300, 307318, 324331. [Tr. as: The Establishment of the Instinct Concept. In Lorenz, , 1970, pp. 259–315.]CrossRefGoogle Scholar
Lorenz, K. (1941). Vergleichende Bewegungstudien an Anatinen. Journal für Ornithologie, 89, Sonderheft. (Tr. by Martin, R. D. as: Comparative Studies of the Motor Patterns of Anatinae. In Lorenz, (1971). Studies in Animal and Human Behaviour, vol. 2. London: Methuen, pp. 14114.)Google Scholar
Lorenz, K. (1950). The Comparative Method in Studying Innate Behaviour Patterns. Symposia of the Society for Experimental Biology, 4, 221268.Google Scholar
Lorenz, K. (1956). Plays and Vacuum Activities. In L’instinct dans le comportement des animaux et de l‘homme. Paris: Masson, pp. 633637.Google Scholar
Lorenz, K. (1961). Phylogenetische Anpassung und adaptive Modifikation des Verhaltens. Zeitschrift für Tierpsychologie, 18, 139187.CrossRefGoogle Scholar
Lorenz, K. (1965). Evolution and Modification of Behavior. Chicago: University of Chicago Press. (Excerpt reprinted in Bolhuis, & Hogan, , 1999.)Google Scholar
Lorenz, K. (1966). On Aggression. London: Methuen.Google Scholar
Lorenz, K. (1970). Studies in Animal and Human Behaviour, vol. 1. (Tr. by Martin, R.). London: Methuen.Google Scholar
Lorenz, K. (1981). The Foundations of Ethology. New York: Springer.CrossRefGoogle Scholar
Lorenz, K. & Tinbergen, N. (1939). Taxis und Instinkthandlung in der Eirollbewegung der Graugans. Zeitschrift für Tierpsychologie, 2, 129. [Tr. as: Taxis and Instinctive Behavior Pattern in Egg-rolling by the Greylag Goose. In Lorenz, , 1970, pp. 316–350.]CrossRefGoogle Scholar
Losos, J. B. (2010). Adaptive Radiation, Ecological Opportunity, and Evolutionary Determinism. American Naturalist, 175, 623639.CrossRefGoogle ScholarPubMed
Lotem, A. (1993). Learning to Recognize Nestlings Is Maladaptive for Cuckoo Cuculus canorus Hosts. Nature, 362, 743745.CrossRefGoogle Scholar
Lovic, V. & Fleming, A. S. (2015). Propagation of Maternal Behavior across Generations Is Associated with Changes in Non-maternal Cognitive and Behavioral Processes. Behavioural Processes, 117, 4247.CrossRefGoogle ScholarPubMed
Lowe, P. R. (1936). The Finches of the Galapagos in Relation to Darwin’s Conception of Species. Ibis, 78, 310321.CrossRefGoogle Scholar
Macedonia, J. M. & Evans, C. S. (1993). Variation among Mammalian Alarm Call Systems and the Problem of Meaning in Animal Signals. Ethology, 93, 177197.CrossRefGoogle Scholar
Macintosh, N. J. (1994). Animal Learning and Cognition. San Diego, CA: Academic Press.Google Scholar
Marler, P. (1955). Characteristics of Some Animal Calls. Nature, 176, 68.CrossRefGoogle Scholar
Marler, P. (1970a). A Comparative Approach to Vocal Learning: Song Development in White-crowned Sparrows. Journal of Comparative and Physiological Psychology (monograph suppl.), 71, 125.CrossRefGoogle Scholar
Marler, P. (1970b). Birdsong and Speech Development: Could There Be Parallels? American Scientist, 58, 669673.Google ScholarPubMed
Marler, P. (1976). Sensory Templates in Species-specific Behavior. In Fentress, J. C. (Ed.), Simpler Networks and Behavior. Sunderland, MA: Sinauer, pp. 314329. (Reprinted in Bolhuis, & Hogan, , 1999.)Google Scholar
Marler, P. (1984). Song Learning: Innate Species Differences in the Learning Process. In Marler, P. & Terrace, H. S. (Eds.), The Biology of Learning. Dahlem Workshop Reports-Life Sciences Research Report 29. Berlin: Springer.CrossRefGoogle Scholar
Marler, P. (1991). Song Learning Behavior: The Interface with Neuroethology. Trends in Neurosciences, 14, 199206.CrossRefGoogle ScholarPubMed
Marler, P. & Evans, C. (1996). Bird Calls: Just Emotional Displays or Something More? Ibis, 138, 2633.CrossRefGoogle Scholar
Marler, P. & Peters, S. (1982). Subsong and Plastic Song: Their Role in the Vocal Learning Process. In Kroodsma, D. E. & Miller, E. H. (Eds.), Acoustic Communication in Birds, vol. 2. New York: Academic Press, pp. 2550.Google Scholar
Marler, P. & Tamura, M. (1964). Culturally Transmitted Patterns of Vocal Behavior in Sparrows. Science, 146, 14831486.CrossRefGoogle ScholarPubMed
Marr, D. (1982). Vision. New York: FreemanGoogle Scholar
Martin, P. & Caro, T. M. (1985). On the Functions of Play and Its Role in Behavioral Development. Advances in the Study of Behavior, 15, 59103.CrossRefGoogle Scholar
Mason, G. J. (2010). Species Differences in Responses to Captivity: Stress, Welfare and the Comparative Method. Trends in Ecology and Evolution, 25, 713721.CrossRefGoogle ScholarPubMed
Maye, J., Werker, J. F. & Gerken, L. (2002). Infant Sensitivity to Distributional Information Can Affect Phonetic Discrimination. Cognition, 82, B101B111.CrossRefGoogle ScholarPubMed
Maynard Smith, J. (1964). Group Selection and Kin Selection. Nature, 201, 11451147.CrossRefGoogle Scholar
Maynard Smith, J. & Price, G. R. (1973). The logic of Animal Conflict. Nature, 246, 1518.CrossRefGoogle Scholar
Mayr, E. (1961). Cause and Effect in Biology. Science, 134, 15011506.CrossRefGoogle ScholarPubMed
Mayr, E. (1982). The Growth of Biological Thought: Diversity, Evolution, and Inheritance. Cambridge, MA: Harvard University Press.Google Scholar
Mayr, E. (1988). The Multiple Meanings of Teleological. Toward a New Philosophy of Biology. Cambridge, MA: Harvard University Press, pp. 3866.Google Scholar
Mayr, E. (1993). Proximate and Ultimate Causations. Biology and Philosophy, 8, 9394.CrossRefGoogle Scholar
McAleer, K. & Giraldeau, L.-A. (2006). Testing Central Place Foraging in Eastern Chipmunks, Tamias Striatus, by Altering Loading Functions. Animal Behaviour, 71, 14471453.CrossRefGoogle Scholar
McDougall, W. (1923). An Outline of Psychology. London: Methuen.Google Scholar
McFarland, D. J. (1970). Behavioural Aspects of Homeostasis. Advances in the Study of Behavior, 3, 126.Google Scholar
McFarland, D. J. (1974). Time-sharing as a Behavioral Phenomenon. Advances in the Study of Behavior, 5, 201225.CrossRefGoogle Scholar
McFarland, D. J. & Houston, A. (1981). Quantitative Ethology: The State Space Approach. London: Pitman.Google Scholar
McKeon, R. (Ed.). (1947). Introduction to Aristotle. New York: Random House.Google Scholar
McKinney, F. (1975). The Evolution of Duck Displays. In Baerends, et al., pp. 331357.Google Scholar
McLaren, I. P. L. (1994). Representation Development in Associative Systems. In Hogan, & Bolhuis, , pp. 377402.CrossRefGoogle Scholar
McNamara, J. M. & Houston, A. I. (2009). Integrating Function and Mechanism. Trends in Ecology and Evolution, 24, 670675.CrossRefGoogle ScholarPubMed
McNamara, J. M., Houston, A. I. & Collins, E. J. (2001). Optimality Models in Behavioral Biology. SIAM Review, 42, 413466.CrossRefGoogle Scholar
Meijer, T., Daan, S. & Hall, M. (1990). Family Planning in the Kestrel (Falco tinnunculus): The Proximate Control of Covariation of Laying Date and Clutch Size. Behaviour, 114, 117160.CrossRefGoogle Scholar
Mendl, M. T., Burman, O. H. P. & Paul, E. S. (2010). An Integrative and Functional Framework for the Study of Animal Emotion and Mood. Proceedings of the Royal Society B, 277, 28952904.CrossRefGoogle Scholar
Mendl, M. T. & Paul, E. S. (2016). Bee Happy. Science, 353, 14991500.CrossRefGoogle ScholarPubMed
Menzel, R. & Fischer, J. (2011). Animal Thinking: Contemporary Issues in Comparative Cognition. Cambridge, MA: MIT Press.CrossRefGoogle Scholar
Meyer, A. (1993). Phylogenetic Relationships and Evolutionary Processes in East African Cichlid Fishes. Trends in Ecology and Evolution, 8, 279284.CrossRefGoogle ScholarPubMed
Meyer, A. (2015). Extreme Evolution. Scientific American, 313(4), 7075.CrossRefGoogle Scholar
Miller, N. E. (1957). Experiments on Motivation. Science, 126, 12711278.CrossRefGoogle ScholarPubMed
Miller, N. E. (1959). Liberalization of Basic S-R Concepts: Extensions to Conflict Behavior, Motivation, and Social Learning. In Koch, S. (Ed.), Psychology: A Study of a Science, vol. 2, pp. 196292. New York: McGraw-Hill.Google Scholar
Ming, G. & Song, H. (2011). Adult Neurogenesis in the Mammalian Brain: Significant Answers and Significant Questions. Neuron, 70, 687702.CrossRefGoogle ScholarPubMed
Mirmiran, M., Maas, Y. G. H. & Ariagno, R. L. (2003). Development of Fetal and Neonatal Sleep and Circadian Rhythms. Sleep Medicine Reviews, 7, 321334.CrossRefGoogle ScholarPubMed
Mistleberger, R. E. (2011). Neurobiology of Food Anticipatory Circadian Rhythms. Physiology and Behavior, 104, 535545.CrossRefGoogle Scholar
Mistleberger, R. E. & Rusak, B. (2005). Biological Rhythms and Behavior. In Bolhuis, & Giraldeau, , pp. 7196.Google Scholar
Mittelstaedt, M.-L. & Mittelstaedt, H. (1980). Homing by Path Integration in a Mammal. Naturwissenschaften, 67, 566567.CrossRefGoogle Scholar
Moczek, A. P. et al. (2015). The Significance and Scope of Evolutionary Developmental Biology: A Vision for the 21st Century. Evolution and Development, 17, 198219.CrossRefGoogle ScholarPubMed
Moffatt, C. A. & Hogan, J. A. (1992). Ontogeny of Chick Responses to Maternal Food Calls in the Burmese Red Junglefowl (Gallus gallus spadiceus). Journal of Comparative Psychology, 106, 9296.CrossRefGoogle ScholarPubMed
Møller, A. P. (1988). Female Choice Selects for Male Sexual Tail Ornaments in a Swallow. Nature, 332, 640642.CrossRefGoogle Scholar
Møller, A. P. & de Lope, F. (1994). Differential Costs of a Secondary Sexual Character: An Experimental Test of the Handicap Principle. Evolution, 48, 16761683.CrossRefGoogle Scholar
Montgomerie, R., Lyon, B. & Holder, K. (2001). Dirty Ptarmigan: Behavioral Modification of Conspicuous Male Plumage. Behavioral Ecology, 12, 429438.CrossRefGoogle Scholar
Mook, D. G. (1987). Motivation: The Organization of Action. New York: Norton.Google Scholar
Moore, B. R. (1973). The Role of Directed Pavlovian Reactions in Simple Instrumental Learning in the Pigeon. In Hinde, & Stevenson-Hinde, , pp. 159188.Google Scholar
Moran, T. H. (1986). Environmental and Neural Determinants of Behavior in Development. In Gazzaniga, M. S. (Ed.), Handbook of Behavioral Neurobiology, vol. 2: Neuropsychology. New York: Plenum, pp. 99128.Google Scholar
Morand-Ferron, J. & Giraldeau, L.-A. (2010). Behavioral Ecology, 21, 343348.CrossRefGoogle Scholar
Morgan, C. L. (1896). Habit and Instinct. London: Arnold.Google Scholar
Morgan, T. J. H., Rendell, L. E., Ehn, M., Hoppitt, W. & Laland, K. N. (2012). The Evolutionary Basis of Human Social Learning. Procedings of the Royal Society B, 279, 653662.Google ScholarPubMed
Moro, A. (2014). On the Similarity between Syntax and Actions. Trends in Cognitive Sciences, 18, 109110.CrossRefGoogle ScholarPubMed
Moro, A. (2014). Response to Pulvermüller: The Syntax of Actions and Other Metaphors. Trends in Cognitive Sciences, 18, 221.CrossRefGoogle ScholarPubMed
Morris, D. (1956). [Discussion following Lorenz] In L’instinct dans le comportement des animaux et de I’homme. Paris: Masson, pp. 642643.Google Scholar
Morris, W. (Ed.). (1969). The American Heritage Dictionary of the English Language. New York: Houghton Mifflin.Google Scholar
Moser, M-B. & Moser, E. I. (2016). Where Am I? Where Am I Going? Scientific American, 314(1), pp. 2633.CrossRefGoogle Scholar
Mulder, C. K., Gerkema, M. P. & Van der Zee, E. A. (2013). Circadian Clocks and Memory: Time-Place Learning. Frontiers in Molecular Neuroscience, 6, article 8.CrossRefGoogle ScholarPubMed
Neill, S. R. & Cullen, J. M. (1974). Experiments on Whether Schooling by Their Prey Affects the Hunting Behaviour of Cephalopods and Fish Predators. Journal of Zoology, 172, 549569.CrossRefGoogle Scholar
Nelson, D. A. (1997). Social Interaction and Sensitive Phases for Song Learning: A Critical Review. In Snowdon, & Hausberger, , pp. 722.CrossRefGoogle Scholar
Nelson, K. (1964). The Temporal Patterning of Courtship Behaviour in the Glandulocaudine Fishes. Behaviour, 24, 90146.CrossRefGoogle Scholar
Nelson, R. J. (2016). An Introduction to Behavioral Endocrinology, 4th edn. Sunderland, MA: Sinauer.Google Scholar
Newman, A. J., Supalla, T., Fernandez, N., Newport, E. L. & Bavelier, D. (2015). Neural Systems Supporting Linguistic Structure, Linguistic Experience, and Symbolic Communication in Sign Language and Gesture. Proceedings of the National Academy of Sciences, 112, 1168411689.CrossRefGoogle ScholarPubMed
Novak, M. & Harlow, H. F. (1975). Social Recovery of Monkeys Isolated for the First Year of Life: I. Rehabilitation and Therapy. Developmental Psychology, 11, 453465.CrossRefGoogle Scholar
O’Keefe, J. & Nadel, L. (1978). The Hippocampus as a Cognitive Map. Oxford: Clarendon.Google Scholar
Odling-Smee, F. J., Laland, K. N. & Feldman, M. W. (1996). Niche Construction. American Naturalist, 147, 641648.CrossRefGoogle Scholar
Olkowicz, S, Kocourek, M., Lučan, R. K. et al. (2016). Birds have Primate-like Numbers of Neurons in the Forebrain. Proceedings of the National Academy of Sciences, 113, 72557260.CrossRefGoogle ScholarPubMed
Olds, J. (1958). Self-stimulation of the Brain. Science, 127, 315324.CrossRefGoogle ScholarPubMed
Oppenheim, R. W. (1974). The Ontogeny of Behavior in the Chick Embryo. Advances in the Study of Behavior, 5, 133172.CrossRefGoogle Scholar
Oppenheim, R. W. (1981). Ontogenetic Adaptations and Retrogressive Processes in the Development of the Nervous System and Behaviour: A Neuroembryological Perspective. In Connolly, K. J. & Prechtl, H. F. R. (Eds.), Maturation and Development: Biological and Psychological Perspectives. Philadelphia: Lippincott, pp. 73109. (Reprinted in Bolhuis, & Hogan, , 1999.)Google Scholar
Oppenheim, R. W. (1991). Cell Death during Development of the Nervous System. Annual Review of Neuroscience, 14, 453501.CrossRefGoogle ScholarPubMed
Orr, H. A. (2009). Fitness and Its Role in Evolutionary Genetics. Nature Reviews Genetics, 10, 531539.CrossRefGoogle ScholarPubMed
Oster, H. (1978). Facial Expression and Affect Development. In Lewis, M. & Rosenblum, L. A. (Eds.), The Development of Affect. New York: Plenum, pp. 4376.CrossRefGoogle Scholar
Ottoni, E. B. & Izar, P. (2008). Capuchin Monkey Tool Use: Overview and Implications. Evolutionary Anthropology, 17, 171178.CrossRefGoogle Scholar
Oyama, S. (1985). The Ontogeny of Information: Developmental Systems and Evolution. Cambridge, UK: Cambridge University Press.Google Scholar
Oyama, S., Griffiths, P. E. & Gray, R. D. (2001). Cycles of Contingency: Developmental Systems and Evolution. Cambridge, MA: MIT Press.Google Scholar
Pagel, M., Atkinson, Q. D. & Meade, A. (2007). Frequency of Word-use Predicts Rates of Lexical Evolution throughout European History. Nature, 449, 717720.CrossRefGoogle ScholarPubMed
Pagnotta, M. (2014). On the Controversy over Non-human Culture: The Reasons for Disagreement and Possible Directions toward Consensus. Behavioural Processes 109, 95100.CrossRefGoogle ScholarPubMed
Palameta, B. & Lefebvre, L. (1985). The social Transmission of a Food-finding Technique in Pigeons: What Is Learned? Animal Behaviour, 33, 892896.CrossRefGoogle Scholar
Panksepp, J. (2005). Affective Consciousness: Core Emotional Feelings in Animals and Humans. Consciousness and Cognition, 14, 3080.CrossRefGoogle Scholar
Panksepp, J. (2010). Affective Consciousness in Animals: Perspectives on Dimensional and Primary Process Emotion Approaches. Proceedings of the Royal Society B, 277, 29052907.CrossRefGoogle ScholarPubMed
Paul, E. S., Harding, E. J. & Mendl, M. (2005). Measuring Emotional Processes in Animals: The Utility of a Cognitive Approach. Neuroscience and Biobehavioral Reviews, 29, 469491.CrossRefGoogle ScholarPubMed
Pavlov, I. P. (1927). Conditioned Reflexes. Oxford: Oxford University Press.Google Scholar
Payne, R. B., Thompson, W. L., Fiala, K. L. & Sweany, L. L. (1981). Local Song Traditions in Indigo Buntings: Cultural Transmission of Behaviour Patterns across Generations. Behaviour, 77, 199221.CrossRefGoogle Scholar
Pennisi, E. (2016a). Tracking how Humans Evolve in Real Time. Science, 352, 876877.CrossRefGoogle ScholarPubMed
Pennisi, E. (2016b). Fossil Fishes Challenge “Urban Legend” of Evolution. Science, 353, 14831484.CrossRefGoogle ScholarPubMed
Petherick, J. C., Seawright, E., Waddington, D., Duncan, I. J. H. & Murphy, L. B. (1995). The Role of Perception in the Causation of Dustbathing Behaviour in Domestic Fowl. Animal Behaviour, 49, 15211530.CrossRefGoogle Scholar
Petitto, L. A. & Marentette, P. F. (1991). Babbling in the Manual Mode: Evidence for the Ontogeny of lLnguage. Science, 251, 14931496.CrossRefGoogle Scholar
Pfaffmann, C. (1960). The Pleasures of Sensation. Psychological Review, 67, 253268.CrossRefGoogle ScholarPubMed
Phelps, S. M., Ryan, M. J. & Rand, A. S. (2001). Vestigial Preference Functions in Neural Networks and Túngara Frogs. Proceedings of the National Academy of Sciences, 98, 13161134166.CrossRefGoogle ScholarPubMed
Piersma, T. & van Gils, J. A. (2011). The Flexible Phenotype. Oxford: Oxford University Press.Google Scholar
Pievani, T. & Serrelli, E. (2011). Exaptation in Human Evolution: How to Test Adaptive vs Exaptive Evolutionary Hypotheses. Journal of Anthropological Sciences, 89, 923.Google Scholar
Pinker, S. (1994). The Language Instinct. New York: William Morrow.CrossRefGoogle Scholar
Pinker, S. (2007). The Stuff of Thought. New York: Viking Penguin.Google Scholar
Pittendrigh, C. S. (1958). Adaptation, Natural Selection, and Behavior. In Roe, A. & Simpson, G. G. (Eds.), Behavior and Evolution. New Haven, CT: Yale University Press, pp. 390416.Google Scholar
Polsky, R. H. (1975). Hunger, Prey Feeding, and Predatory Aggression. Behavioral Biology, 13, 8193.CrossRefGoogle ScholarPubMed
Pulvermüller, F. & Fadiga, L. (2010). Active Perception: Sensorimotor Circuits as a Cortical Basis for Language. Nature Reviews Neuroscience, 11, 351360.CrossRefGoogle ScholarPubMed
Raby, C. R., Alexisi, D. M., Dickinson, A. & Clayton, N. S. (2007). Planning for the Future by Western Scrub-Jays. Nature, 445, 919921.CrossRefGoogle ScholarPubMed
Raff, R. A. (2000). Evo-Devo: The Evolution of a New Discipline. Nature Reviews Genetics, 1, 7479.CrossRefGoogle ScholarPubMed
Rasa, O. A. E. (1971). Appetence for Aggression in Juvenile Damsel Fish. Zeitschrift für Tierpsychologie, Beiheft, 7.Google Scholar
Réale, D, Reader, S. M., Sol, D., McDougall, P. T. & Dingemanse, N. J. (2007). Integrating Animal Temperament within Ecology and Evolution. Biological Reviews, 82, 291318.CrossRefGoogle ScholarPubMed
Redish, A. D. (2001). The Hippocampal Debate: Are We Asking the Right Questions? Behavioral Brain Research, 127, 8198.CrossRefGoogle ScholarPubMed
Reisbick, S. H. (1973). Development of Food Preferences in Newborn Guinea Pigs. Journal of Comparative and Physiological Psychology, 85, 427442.CrossRefGoogle ScholarPubMed
Rendell, L. et al. (2011). Cognitive Culture: Theoretical and Empirical Insights into Social Learning Strategies. Trends in Cognitive Sciences, 15, 6876.CrossRefGoogle ScholarPubMed
Rescorla, R. A. (1967). Pavlovian Conditioning and Its Proper Control Procedures. Psychological Review, 74, 7180.CrossRefGoogle ScholarPubMed
Rescorla, R. A. (1988). Behavioral Studies of Pavlovian Conditioning. Annual Review of Neuroscience, 11, 329352.CrossRefGoogle ScholarPubMed
Rescorla, R. A. & Wagner, A. R. (1972). A Theory of Pavlovian Conditioning. In Black, A. H. & Prokasy, W.F. (Eds.), Classical Conditioning II. New York: Appleton-Century-Crofts, pp. 6499.Google Scholar
Resende, B. D., Nagy-Reis, M. B., Lacerda, F. N., Pagnotta, M. & Savalli, C. (2014). Tufted Capuchin Monkeys (Sapajus sp.) Learning how to Crack Nuts: Does Variability Decline throughout Development? Behavioural Processes, 109, 8994.CrossRefGoogle ScholarPubMed
Rhoad, K. D., Kalat, J. W. & Klopfer, P. (1975). Aggression and Avoidance by Betta splendens toward Natural and Artificial Stimuli. Animal Learning and Behavior, 3, 271276.CrossRefGoogle Scholar
Rial, R. V. et al. (2010). Evolution of Wakefulness, Sleep and Hibernation: From Reptiles to Mammals. Neuroscience and Biobehavioral Reviews, 34, 11441160.CrossRefGoogle ScholarPubMed
Rice, J. C. (1978). Effects of Learning Constraints and Behavioural Organization on the Association of Vocalizations and Hunger in Burmese Red Junglefowl Chicks. Behaviour, 67, 259298.CrossRefGoogle ScholarPubMed
Richards, R. J. (1992). The Meaning of Evolution. Chicago, University of Chicago Press.CrossRefGoogle Scholar
Richerson, P. J. & Boyd, R. (2005). Not by Genes Alone: How Culture Transformed Human Evolution. Chicago: University of Chicago Press.Google Scholar
Richter, C. P. (1942). Total Self Regulatory Functions in Animals and Human Beings. The Harvey Lectures Series, 38, 63103.Google Scholar
Riebel, K. (2003). The “Mute” Sex Revisited; Vocal Production and Perception Learning in Female Songbirds. Advances in the Study of Behavior, 33, 4986.CrossRefGoogle Scholar
Rivkees, S. A. (2003). Developing Circadian Rhythmicity in Infants. Pediatrics, 112, 373381.CrossRefGoogle ScholarPubMed
Rizzolatti, G. & Craighero, L. (2004). The Mirror-neuron System. Annual Review of Neuroscience, 27, 169192.CrossRefGoogle ScholarPubMed
Roberts, E. P. & Weigl, P. D. (1984). Habitat Preference in the Dark-eyed Junco (Junco hyemalis): The Role of Photoperiod and Dominance. Animal Behaviour, 32, 709714.CrossRefGoogle Scholar
Rodenburg, T. B. et al. (2004). Feather Pecking in Laying Hens: New Insights and Directions for Research? Applied Animal Behaviour Science, 86, 291298.CrossRefGoogle Scholar
Roeder, K. D. (1967). Nerve Cells and Insect Behavior, revised edn. Cambridge, MA: Harvard University Press.Google Scholar
Roesch, M. R., Esber, G. R., Li, J., Daw, N. D. & Schoenbaum, G. (2013). Surprise! Neural Correlates of Pearce-Hall and Rescorla-Wagner Coexist within the Brain. European Journal of Neuroscience, 35, pp. 11901200.CrossRefGoogle Scholar
Romanes, G. J. R. (1883). Mental Evolution in Animals. London: Kegan Paul, Trench.Google Scholar
Roper, T. J. (1973). Nesting Material as a Reinforcer for Female Mice. Animal Behaviour, 21, 733740.CrossRefGoogle Scholar
Roper, T. J. (1975). Nest Material and Food as Reinforcers for Fixed-ratio Responding in Mice. Learning and Motivation, 6, 327343.CrossRefGoogle Scholar
Rozin, P. (1976). The Selection of Foods by Rats, Humans, and other Animals. Advances in the Study of Behavior, 6, 2176.CrossRefGoogle Scholar
Rozin, P. (1984). The Acquisition of Food Habits and Preferences. In Matarazzo, J. D., Weiss, S. M., Herd, J. A., Miller, N. E. & Weiss, S. M. (Eds.), Behavioral Health: A Handbook of Health Enhancement and Disease Prevention. New York: Wiley.Google Scholar
Russell, J. A. (2003). Core Affect and the Psychological Construction of Emotion. Psychological Review, 110, 145172.CrossRefGoogle ScholarPubMed
Rutter, M. (1991). A Fresh Look at “Maternal Deprivation.” In Bateson, P. (Ed.), The Development and Integration of Behaviour. Cambridge, UK: Cambridge University Press, pp. 331374.Google Scholar
Rutter, M. (2002). Nature, Nurture, and Development: From Evangelism through Science toward Policy and Practice. Child Development, 73, 121.CrossRefGoogle ScholarPubMed
Ryan, M. J. (2009). The Evolution of Behavior, and Integrating It towards a Complete and Correct Understanding of Behavioral Biology. In Bolhuis, J. J. & Verhulst, S. (Eds.), Tinbergen’s Legacy. Cambridge, UK: Cambridge University Press, pp. 127146.CrossRefGoogle Scholar
Ryan, M. J. (2005). Evolution of Behavior. In Bolhuis, & Giraldeau, , pp. 294314.Google Scholar
Ryan, M. J. & Cummings, M. E. (2003). Perceptual Biases and Mate Choice. Annual Review of Ecology, Evolution, and Systematics, 44, 437459.CrossRefGoogle Scholar
Ryan, M. J. & Rand, A. S. (1999). Phylogenetic Influences on Mating Call Preferences in Female Túngara Frogs (Physalaemus pustulosus). Animal Behaviour, 57, 945956.CrossRefGoogle ScholarPubMed
Sachs, B. D. & Barfield, R, J. (1976). Functional Analysis of Masculine Copulatory Behavior in the Rat. Advances in the Study of Behavior, 7, 92154.Google Scholar
Sackett, G. P. (1970). Unlearned Responses, Differential Rearing Experiences, and the Development of Social Attachments by Rhesus Monkeys. In Rosenblum, L. A. (Ed.), Primate Behavior. New York: Academic Press.Google Scholar
Saffran, J. R. (2002). Constraints on Statistical Language Learning. Journal of Memory and Language, 47, 172196.CrossRefGoogle Scholar
Sahay, A., Wilson, D. A. & Hen, R. (2011). Pattern Separation: A Common Function for New Neurons in Hippocampus and Olfactory Bulb. Neuron, 70, 582588.CrossRefGoogle ScholarPubMed
Sanotra, G. S., Vestergaard, K. S., Agger, J. F. & Lawson, L. G. (1995). The Relative Preferences for Feathers, Straw, Wood-shavings and Sand for Dustbathing, Pecking and Scratching in Domestic Chicks. Applied Animal Behaviour Science, 43, 263277.CrossRefGoogle Scholar
Savory, C. J. (1979). Changes in Food Intake and Body Weight of Bantam Hens during Breeding. Applied Animal Ethology, 5, 283288.CrossRefGoogle Scholar
Schachter, S. & Singer, J. E. (1962). Cognitive, Social, and Physiological Determinants of Emotional State. Psychological Review, 69, 379399.CrossRefGoogle ScholarPubMed
Schacter, D. L. (2009). Memory Systems, Neural Basis Of. In Bayne, T., Clemens, A. & Wilken, P. (Eds.), The Oxford Companion to Consciousness. Oxford: Oxford University Press, pp. 432436.Google Scholar
Schacter, D. L. & Tulving, E. (Eds.). (1994). Memory Systems. Cambridge, MA: MIT Press.Google Scholar
Schiller, P. H. (1957). Manipulative Patterns in the Chimpanzee (1949). In Schiller, C. H. (Ed.), Instinctive Behavior. New York: International Universities Press, pp. 264287.Google Scholar
Schjelderup-Ebbe, Th. (1922). Beiträge zur Social-psychologie des Haushuhns. Zeitschrift für Psychologie, 92, 225252.Google Scholar
Schluter, D. (1996). Ecological Causes of Adaptive Radiation. American Naturalist, 148 (Suppl.), S40S64.CrossRefGoogle Scholar
Schmid-Hempel, P., Kacelnik, A. & Houston, A. I. (1985). Honeybees Maximise Efficiency by Not Filling Their Crop. Behavioral Ecology and Sociobiology, 17, 6166.CrossRefGoogle Scholar
Schneirla, T. C. (1949). Levels in the Psychological Capacities of Animals. In Sellars, R. W., McGill, V. J. & Farber, M. (Eds.), Philosophy for the Future: The Quest for Modern Materialism. New York: Macmillan.Google Scholar
Schneirla, T. C. (1956). Interrelationships of the “Innate” and the “Acquired” in Instinctive Behavior. In L’instinct dans le comportement des animaux et de 1’homme. Paris: Masson.Google Scholar
Schneirla, T. C. (1965). Aspects of Stimulation and Organization in Approach/Withdrawal Processes Underlying Vertebrate Behavioral Development. Advances in the Study of Behavior, 1, 174.CrossRefGoogle Scholar
Schneirla, T. C. & Rosenblatt, J. S. (1961). Behavioral Organization and Genesis of the Social Bond in Insects and Mammals. American Journal of Orthopsychiatry, 31, 223253.CrossRefGoogle ScholarPubMed
Schneirla, T. C., Rosenblatt, J. S. & Tobach, E. (1963). Maternal Behavior in the Cat. In Rheingold, H. (Ed.), Maternal Behavior in Mammals. New York: Wiley.Google Scholar
Schultz, W. (2006). Behavioral Theories and the Neurophysiology of Reward. Annual Review of Psychology, 57, 87115.CrossRefGoogle ScholarPubMed
Sevenster, P. (1961). A Causal Analysis of a Displacement Activity (Fanning in Gasterosteus aculeatus L.). Behaviour, Suppl. 9, 1170.Google Scholar
Sevenster, P. (1968). Motivation and Learning in Sticklebacks. In Ingle, D. (Ed.), Central Nervous System and Fish Behaviour. Chicago: University of Chicago Press, pp. 233245.Google Scholar
Sevenster, P. (1973). Incompatibility of Response and Reward. In Hinde, & Stevenson-Hinde, , pp. 265283.Google Scholar
Sevenster, P. & van Roosmalen, M. E. (1985). Cognition in Sticklebacks: Some Experiments on Operant Conditioning. Behaviour93, 170183.CrossRefGoogle Scholar
Sevenster-Bol, A. C. A. (1962). On the Causation of Drive Reduction after a Consummatory Act. Archive Néerlandaises de Zoologie, 15, 175236.CrossRefGoogle Scholar
Seyfarth, R. M., Cheney, D. L. & Marler, P. (1980). Vervet Monkey Alarm Calls: Semantic Communication in a Free-ranging Primate. Animal Behaviour, 28, 10701094.CrossRefGoogle Scholar
Shatz, C. J. (1992). The Developing Brain. Scientific American, 267, 6067. (Reprinted in Bolhuis, & Hogan, , 1999.)CrossRefGoogle ScholarPubMed
Sheffield, F. D. (1966). A Drive Induction Theory of Reinforcement. In Haber, R. N. (Ed.), Current Research in Motivation. New York: Holt, pp. 98111.Google Scholar
Shelton, J. R. & Caramazza, A. (1999). Deficits in Lexical and Semantic Processing. Implications for Models of Normal Language. Psychonomic Bulletin and Review, 6, 527.CrossRefGoogle ScholarPubMed
Sherman, P. W. (1988). The Levels of Analysis. Animal Behaviour, 36, 616619.CrossRefGoogle Scholar
Sherry, D. F. (1977). Parental Food-calling and the Role of the Young in the Burmese Red Junglefowl (Gallus g. spadiceus). Animal Behaviour, 25, 594601.CrossRefGoogle Scholar
Sherry, D. F. (1981). Parental Care and Development of Thermoregulation in Red Junglefowl. Behaviour, 76, 250279.CrossRefGoogle Scholar
Sherry, D. F. (1985). Food Storage by Birds and Mammals. Advances in the Study of Behavior, 15, 153188.CrossRefGoogle Scholar
Sherry, D. F. (2009). Do Ideas about Function Help in the Study of Causation? In Bolhuis, J. J. & Verhulst, S. (Eds.), Tinbergen’s Legacy. Cambridge, UK: Cambridge University Press, pp. 147162.CrossRefGoogle Scholar
Sherry, D. F. & Duff, S. J. (1996). Behavioural and Neural Bases of Orientation in Food-storing Birds. Journal of Experimental Biology, 199, 165171.CrossRefGoogle ScholarPubMed
Sherry, D. F. & Schacter, D. L. (1987). The Evolution of Multiple Memory Systems. Psychological Review, 94, 439454.CrossRefGoogle Scholar
Sherry, D. F. & Strang, C. G. (2015). Contrasting Styles in Cognition and Behaviour in Bumblebees and Honeybees. Behavioural Processes, 117, 5969.CrossRefGoogle ScholarPubMed
Sherry, D. F. & Vaccarino, A. L. (1989). Hippocampus and Memory for Food Caches in Black-capped Chickadees. Behavioral Neuroscience, 103, 308318.CrossRefGoogle Scholar
Sherry, D. F., Mrosovsky, N. & Hogan, J. A. (1980). Weight Loss and Anorexia during Incubation in Birds. Journal of Comparative and Physiological Psychology, 94, 8998.CrossRefGoogle Scholar
Shettleworth, S. J. (1972). Constraints on Learning. Advances in the Study of Behavior, 4, 168.CrossRefGoogle Scholar
Shettleworth, S. J. (1975). Reinforcement and the Organization of Behavior in Golden Hamsters. Journal of Experimental Psychology: Animal Behavior Processes, 1, 5687.Google Scholar
Shettleworth, S. J. (2010). Cognition, Evolution, and Behavior. New York: Oxford University Press.Google Scholar
Shubin, N., Tabin, C. & Carroll, S. (2009). Deep Homology and the Origins of Evolutionary Novelty. Nature, 457, 818823.CrossRefGoogle ScholarPubMed
Sih, A., Bell, A. & Johnson, J. C. (2004). Behavioral Syndromes: An Ecological and Evolutionary Overview. Trends in Ecology and Evolution, 19, 372378.CrossRefGoogle ScholarPubMed
Silver, R. (1990). Biological Timing Mechanisms with Special Emphasis on the Parental Behavior of Doves. In Dewsbury, D. A. (Ed.), Contemporary Issues in Comparative Psychology. Sunderland, MA: Sinauer, pp. 252277.CrossRefGoogle Scholar
Skinner, B. F. (1938). The Behavior of Organisms. New York: Appleton-Century-Crofts.Google Scholar
Skinner, B. F. (1950). Are Theories of Learning Necessary? Psychological Review, 57, 193216.CrossRefGoogle ScholarPubMed
Skinner, B. F. (1953). Science and Human Behavior. New York: Macmillan.Google Scholar
Slack, J. M. W. (1991). From Egg to Embryo. Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
Slater, P. J. B. (1981). Individual Differences in Animal Behavior. In Bateson, P. P. G. & Klopfer, P. H. (Eds.), Perspectives in Ethology, vol. 4. New York: Plenum, pp. 3549.CrossRefGoogle Scholar
Slater, P. J. B. (1986). The Cultural Transmission of Bird Song. Trends in Ecology and Evolution, 1, 9497.CrossRefGoogle ScholarPubMed
Smith, K. S. & Graybiel, A. M. (2013). A Dual Operator View of Habitual Behavior Reflecting Cortical and Striatal Dynamics. Neuron, 79, 361374.CrossRefGoogle ScholarPubMed
Snell-Rood, E. C. (2013). An Overview of the Evolutionary Causes and Consequences of Behavioural Plasticity. Animal Behaviour, 85, 10441011.CrossRefGoogle Scholar
Snowdon, C. T. & Hausberger, M. (Eds.). (1997). Social Influences on Vocal Development. Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
Sober, E. (2001). The Two Faces of Fitness. In Singh, R. S. et al. (Eds.), Thinking about Evolution, vol. 2. Cambridge, UK: Cambridge University Press, pp. 309321.Google Scholar
Sokolowski, M. B. (2001). Drosophila: Genetics Meets Behaviour. Nature Reviews Genetics, 2, 879890.CrossRefGoogle ScholarPubMed
Sokolowski, M. B. (2010). Social Interactions in “Simple” Model Systems. Neuron, 65, 780794.CrossRefGoogle ScholarPubMed
Sol, D., Bacher, S., Reader, S. M. & Lefebvre, L. (2008). Brain Size Predicts the Success of Mammal Species Introduced into Novel Environments. American Naturalist, 172, S63S71.CrossRefGoogle ScholarPubMed
Spalding, D. A. (1873/1954). Instinct with Original Observations on Young Animals. British Journal of Animal Behaviour, 2, 211.CrossRefGoogle Scholar
Speirs, A. L. (1962). Thalidomide and Congenital Abnormalities. Lancet, 279, 303305.CrossRefGoogle Scholar
Spencer, H. (1864). Principles of Biology. London.Google Scholar
Staddon, J. E. R. & Ayres, S. L. (1976). Sequential and Temporal Properties of Behavior Induced by a Schedule of Periodic Food Delivery. Behaviour, 54, 2649.CrossRefGoogle Scholar
Staddon, J. E. R. & Cerutti, D. T. (2003). Operant Conditioning. Annual Review of Psychology, 54, 115144.CrossRefGoogle ScholarPubMed
Staddon, J. E. R. & Simmelhag, V. L. (1971). The “Superstition” Experiment: A Reexamination of Its Implication for the Principles of Adaptive Behavior. Psychological Review, 78, 343.CrossRefGoogle Scholar
Stamps, J. A. (2016). Individual Differences in Behavioural Plasticities. Biological Reviews, 91, 534567.CrossRefGoogle ScholarPubMed
Stamps, J. A. & Groothuis, T. G. G. (2010). Developmental Perspectives on Personality: Implications for Ecological and Evolutionary Studies of Individual Differences. Philosophical Transactions of the Royal Society B, 365, 40294041.CrossRefGoogle ScholarPubMed
Steiner, A. P. & Redish, A. (2014). Behavioral and Neurophysiological Correlates of Regret in Rat Decision-making on a Neuroeconomic Task. Nature Neuroscience, 17, 9951002.CrossRefGoogle ScholarPubMed
Steiner, J. E. (1979). Human Facial Expressions in Response to Taste and Smell Stimulation. Advances in Child Development and Behavior, 13, 257295.CrossRefGoogle ScholarPubMed
Stellar, E. (1960). Drive and Motivation. In Field, J., Magoun, H. W. & Hall, V. E. (Eds.), Handbook of Physiology (Section 1, Vol. 3). Washington, DC: American Psychological Association, pp. 15011528.Google Scholar
Stephan, F. K. (2001). Food-entrainable Oscillators in Mammals. In Takahashi, J. S., Turek, F. W. & Moore, R. Y. (Eds.), Handbook of Behavioral Neurobiology, vol. 12: Circadian Clocks. New York: Kluwer Academic/Plenum, pp. 223246.CrossRefGoogle Scholar
Stevens, M. (2005). The Role of Eyespots as Anti-predator Mechanisms, Principally Demonstrated in the Lepidoptera. Biological Reviews, 80, 573588.CrossRefGoogle ScholarPubMed
Stevens, M. (2013). Sensory Ecology, Behaviour, and Evolution. Oxford: Oxford University Press.CrossRefGoogle Scholar
Stevens, M., Hardman, C. J. & Stubbins, C. L. (2008). Conspicuousness, Not Eye Mimicry, Makes ‘Eyespots’ Effective Antipredator Signals. Behavioral Ecology, 19, 525531.CrossRefGoogle Scholar
Stevenson, J. G. (1967). Reinforcing Effects of Chaffinch Song. Animal Behaviour, 15, 427432.CrossRefGoogle ScholarPubMed
Struhsaker, T. T. (1967). Social Structure among Vervet Monkeys (Cercopithecus aethiops). Behaviour, 29, 6121.CrossRefGoogle ScholarPubMed
Suboski, M. D. & Bartashunas, C. (1984). Mechanisms for the Social Transmission of Pecking Preferences in Neonatal Chicks. Journal of Experimental Psychology: Animal Behavior Processes, 10, 182194.Google Scholar
Sutherland, N. S. (1964). The Learning of Discriminations by Animals. Endeavour, 23, 148152.CrossRefGoogle ScholarPubMed
Tarsitano, M. & Andrew, R. (1999). Scanning and Route Selection in the Jumping Spider Portia Labiata. Animal Behaviour, 58, 255265.CrossRefGoogle ScholarPubMed
ten Cate, C. (1984). The Influence of Social Relations on the Development of Species Recognition in Zebra Finch Males. Behaviour, 91, 263285.CrossRefGoogle Scholar
ten Cate, C. (1986). Sexual Preferences in Zebra Finch Males Exposed to Two Species. I. A Case of Double Imprinting. Journal of Comparative Psychology, 100, 248252.CrossRefGoogle Scholar
ten Cate, C. (1987). Sexual Preferences in Zebra Finch Males Exposed to Two Species. II. The Internal Representation Resulting from Double Imprinting. Animal Behaviour, 35, 321330.CrossRefGoogle Scholar
ten Cate, C. (1994). Perceptual Mechanisms in Imprinting and Song Learning. In Hogan, & Bolhuis, , pp. 116146.Google Scholar
ten Cate, C. (1991). Behaviour-contingent Exposure to Song and Zebra Finch Song Learning. Animal Behaviour, 42, 857859.CrossRefGoogle Scholar
Terman, M. (1983). Behavioral Analysis and Circadian Rhythms. In Zeiler, M. D. & Harzen, P. (Eds.), Advances in Analysis of Behavior, vol. 3: Biological Factors in Learning. New York: Wiley, pp. 103141.Google Scholar
Thelen, E. (1985). Expression as Action: A Motor Perspective on the Transition from Spontaneous to Instrumental Behaviors. In Zivin, G. (Ed.), The Development of Expressive Behavior. Orlando, FL: Academic Press, pp. 221267.CrossRefGoogle Scholar
Thelen, E. (1995). Motor Development: A New Synthesis. American Psychologist, 50, 7995.CrossRefGoogle ScholarPubMed
Thelen, E. & Fisher, C. M. (1992). Newborn Stepping: An Explanation for a “Disappearing Reflex.” Developmental Psychology, 18, 760775.CrossRefGoogle Scholar
Thompson, T. I. (1963). Visual Reinforcement in Siamese Fighting Fish. Science, 141, 5557.CrossRefGoogle ScholarPubMed
Thorndike, E. L. (1898). Animal Intelligence. Psychological Review, Monograph suppl. 2, 1113.Google Scholar
Thorndike, E. L. (1911). Animal Intelligence. New York: Macmillan.Google Scholar
Thorndike, E. L. (1931). Human Learning. New York: Century.CrossRefGoogle Scholar
Thorpe, W. H. (1956). Learning and Instinct in Animals. London: Methuen.Google Scholar
Thorpe, W. H. (1958). The Learning of Song Patterns by Birds, with Especial Reference to the Song of the Chaffinch (Fringilla coelebs). Ibis, 100, 535570.CrossRefGoogle Scholar
Thorpe, W. H. (1961). Bird Song. Cambridge, UK: Cambridge University Press.Google Scholar
Thorpe, W. H. & Jones, F. G. W. (1937). Olfactory Conditioning and Its Relation to the Problem of Host Selection. Proceedings of the Royal Society, Series B, 124, 5681.Google Scholar
Timberlake, W. (1994). Behavior Systems, Associationism, and Pavlovian Conditioning. Psychonomic Bulletin and Review, 1, 405420.CrossRefGoogle ScholarPubMed
Timberlake, W. (2004). Is Operant Contingency Enough for a Science of Purposive Behavior? Behavior and Philosophy, 32, 197229.Google Scholar
Tinbergen, J. M. (1981). Foraging Decisions in Starlings (Sturnus vulgaris). Ardea, 69, 167.Google Scholar
Tinbergen, J. M. & Daan, S. (1990). Family Planning in the Great Tit (Parus major): Optimal Clutch Size as Integration of Parent and Offspring Fitness. Behaviour, 114, 161190.CrossRefGoogle Scholar
Tinbergen, N. (1932/1972). On the Orientation of the Digger Wasp Philanthus triangulum Fabr. In Tinbergen, N. (Ed.), The Animal in Its World, vol. 1. London: George Allen & Unwin, pp. 103127.Google Scholar
Tinbergen, N. (1940). Die Übersprungbewegung. Zeitschrift für Tierpsychologie, 4, 140.CrossRefGoogle Scholar
Tinbergen, N. (1942). An Objectivistic Study of the Innate Behaviour of Animals. Bibliotheca Biotheoretica, 1, 3998.Google Scholar
Tinbergen, N. (1951). The Study of Instinct. Oxford: Oxford University Press.Google Scholar
Tinbergen, N. (1952). Derived Activities: Their Causation, Biological Significance, Origin and Emancipation during Evolution. Quarterly Review of Biology, 27, 132.CrossRefGoogle ScholarPubMed
Tinbergen, N. (1959). Comparative Studies of the Behaviour of Gulls (Laridae): A Progress Report. Behaviour, 15, 170.CrossRefGoogle Scholar
Tinbergen, N. (1963). On Aims and Methods of Ethology. Zeitschrift für Tierpsychologie, 20, 410433.CrossRefGoogle Scholar
Tinbergen, N. (1965). Animal Behavior. New York: Time, Inc.Google Scholar
Tinbergen, N. (1972). Ethology (1969). In The Animal in Its World, Vol. 2. London: Allen and Unwin, pp. 130160.Google Scholar
Tinbergen, N., Broekhuysen, G. J., Feekes, F., Houghton, J. C. W., Kruuk, H. & Szulc, E. (1963). Egg Shell Removal by the Black-headed Gull, Larus ridibundus L.; A Behaviour Component of Camouflage. Behaviour, 19, 74117.Google Scholar
Toates, F. M. (1983). Animal Behaviour – A Systems Approach. Chichester: Wiley.Google Scholar
Toates, F. M. & Jensen, P. (1991). Ethological and Psychological Models of Motivation: Towards a Synthesis. In Meyer, J.-A. & Wilson, S. (Eds.), From Animals to Animats, pp. 194205. Cambridge, MA: MIT Press.CrossRefGoogle Scholar
Tolman, E. C. (1948). Cognitive Maps in Rats and Men. Psychological Review, 55, 189208.CrossRefGoogle ScholarPubMed
Tomasello, M. (1995). Language Is Not an Instinct. Cognitive Development, 10, 131156.CrossRefGoogle Scholar
Tracy, J. L. & Randles, D. (2011). Four Models of Basic Emotions: A Review of Ekman and Cordaro, Izard, Levenson, and Panksepp and Watt. Emotion Review, 3, 397405.CrossRefGoogle Scholar
Trivers, R. (1974). Parent-Offspring Conflict. American Zoologist, 14, 249264.CrossRefGoogle Scholar
Trivers, R. (1972). Parental Investment and Sexual Selection. In Campbell, B. (Ed.), Sexual Selection and the Descent of Man. Chicago: Aldine, pp. 139179.Google Scholar
Trut, L. N. (1999). Early Canid Domestication: The Farm-Fox Experiment. American Scientist, 87, 160169.CrossRefGoogle Scholar
Trut, L. N., Oskins, I. & Khariamova, A. (2009). Animal Evolution during Domestication: The Domesticated Fox as a Model. BioEssays, 31, 349360.CrossRefGoogle ScholarPubMed
Underwood, H. (2001). Circadian Organization in Nonmammalian Vertebrates. In Takahashi, J. S., Turek, F. W. & Moore, R. Y. (Eds.), Handbook of Behavioral Neurobiology, vol. 12: Circadian Clocks. New York: Kluwer Academic/Plenum, pp. 247290.Google Scholar
Van der Kooy, D. & Hogan, J. A. (1978). Priming Effects with Food and Water Reinforcers in Hamsters. Learning and Motivation, 9, 332346.CrossRefGoogle Scholar
van der Meer, M. A. A. & Redish, A. D. (2010). Expectancies in Decision Making, Reinforcement Learning, and Ventral Striatum. Frontiers in Neuroscience, 4, 2937.Google ScholarPubMed
van der Zee, E. A., et al. (2008). Circadian Time-Place Learning in Mice Depends on Cry Genes. Current Biology, 18, 844848.CrossRefGoogle ScholarPubMed
van Gils, J. A., Schenk, I. W., Bos, O. & Piersma, T. (2003). Incompletely Informed Shorebirds that Face a Digestive Constraint Maximize Net Energy Gain when Exploiting Patches. American Naturalist, 161, 777793.CrossRefGoogle Scholar
van Iersel, J. J. A. (1953). An Analysis of the Parental Behaviour of the Three-spined Stickleback (Gasterosteus aculeatus L.). Behaviour, Suppl. 3, 1159.Google Scholar
van Iersel, J. J. A. & Bol, A. C. A. (1958). Preening of Two Tern Species. A study on Displacement Activities. Behaviour, 13, 188.CrossRefGoogle Scholar
van Kampen, H. S. (1996). A Framework for the Study of Filial Imprinting and the Development of Attachment. Psychonomic Bulletin and Review, 3, 320.CrossRefGoogle Scholar
van Kampen, H. S. (1997). Courtship Food-calling in Burmese Red Junglefowl: II. Sexual Conditioning and the Role of the Female. Behaviour, 134, 775787.CrossRefGoogle Scholar
van Kampen, H. S. (2015). Violated Expectancies: Cause and Function of Exploration, Fear, and Aggression. Behavioural Processes, 117, 1228.CrossRefGoogle ScholarPubMed
van Kampen, H. S. & Bolhuis, J. J. (1991). Auditory Learning and Filial Imprinting in the Chick. Behaviour, 117, 303339.Google Scholar
van Lawick-Goodall, J. (1970). Tool Using in Primates and Other Vertebrates. Advances in the Study of Behavior, 3, 195249.CrossRefGoogle Scholar
van Liere, D. W. (1992). The Significance of Fowls’ Bathing in Dust. Animal Welfare, 1, 187202.CrossRefGoogle Scholar
van Liere, D. W. & Bokma, S. (1987). Short Term Feather Maintenance as a Function of Dustbathing in Laying Hens. Applied Animal Behaviour Science, 18, 197204.CrossRefGoogle Scholar
van Rhijn, J. G. (1991). The Ruff. London: Poyser.Google Scholar
van Schaik, C. P. et al. (2003). Orangutan Cultures and the Evolution of Material Culture. Science, 299, 102105.CrossRefGoogle ScholarPubMed
Verkuil, Y. I. (2010). The Ephemeral Shorebird: Population History of Ruffs. Ph.D. thesis, Rijksuniversiteit Groningen.Google Scholar
Verkuil, Y. I. et al. (2012). Losing a Staging Area: Eastward Redistribution of Afro-Eurasian Ruffs Is Associated with Deteriorating Fuelling Conditions along the Western Flyway. Biological Conservation, 149, 5159.CrossRefGoogle Scholar
Vestergaard, K. S. (1982). Dust-bathing in the Domestic Fowl: Diurnal Rhythm and Dust Deprivation. Applied Animal Ethology, 8, 487495.CrossRefGoogle Scholar
Vestergaard, K. S. & Baranyiova, E. (1996). Pecking and Scratching in the Development of Dust Perception in Young Chicks. Acta Veterinaria Brno, 65, 133142.CrossRefGoogle Scholar
Vestergaard, K. S. & Hogan, J. A. (1992). The Development of a Behavior System: Dustbathing in the Burmese Red Junglefowl. III. Effects of Experience on Stimulus Preference. Behaviour, 121, 215230.CrossRefGoogle Scholar
Vestergaard, K. S., Damm, B. I., Abbot, U. K. & Bildsøe, M. (1999). Regulation of Dustbathing in Feathered and Featherless Domestic Chicks: The Lorenzian Model Revisited. Animal Behaviour, 58, 10171025.CrossRefGoogle ScholarPubMed
Vestergaard, K. S., Hogan, J. A. & Kruijt, J. P. (1990). The Development of a Behavior System: Dustbathing in the Burmese Red Junglefowl: I. The Influence of the Rearing Environment on the Organization of Dustbathing. Behaviour, 112, 99116.CrossRefGoogle Scholar
Vestergaard, K. S., Kruijt, J. P. & Hogan, J. A. (1993). Feather Pecking and Chronic Fear in Groups of Red Junglefowl: Its Relations to Dustbathing, Rearing Environment and Social Status. Animal Behaviour, 45, 11271140.CrossRefGoogle Scholar
von Frisch, K. (1955). The Dancing Bees. New York: Harcourt, Brace.Google Scholar
von Helmholtz, H. (1878). Lecture: The Facts of Perception. Selected Writings of Hermann Helmholtz. Middletown, CT: Wesleyan University Press.Google Scholar
von Holst, E. (1935). Über den Prozess der zentralnervösen Koordination. Pflügers Archiv für die gesamte Physiologie, 236, 149158.CrossRefGoogle Scholar
von Holst, E. (1937). Vom Wesen der Ordnung im Zentralnervensystem. Naturwissenschaften, 25, 625631, 641647. [Tr. as: On the Nature of Order in the Central Nervous System. In von Holst, , 1973, pp. 3–32.]CrossRefGoogle Scholar
von Holst, E. (1954). Relations between the Central Nervous System and the Peripheral Organs. British Journal of Animal Behaviour, 2, 8994.CrossRefGoogle Scholar
von Holst, E. (1973). The Selected Papers of Erich von Holst, vol. 1. (Tr. by Martin, R.). London: Methuen.Google Scholar
von Holst, E. & Mittelstaedt, H. (1950). Das Reafferenzprinzip. Naturwissenschaften, 37, 464476. [Tr. as: The Reafference Principle. In von Holst, , 1973, pp. 139–173.]CrossRefGoogle Scholar
von Holst, E. & Saint Paul, U. von. (1960). Vom Wirkungsgefüge der Triebe. Naturwissenschaften, 47, 409422. [Tr. as: On the Functional Organisation of Drives. Animal Behaviour, 1963, 11, 1–20; also in von Holst, , 1973, pp. 220–258.]CrossRefGoogle Scholar
von Uexküll, J. (1921). Umwelt und Innenwelt der Tiere. Berlin.CrossRefGoogle Scholar
von Uexküll, J. (1934). Streifzüge durch die Umwelten von Tieren und Menschen. Berlin: Springer. [Tr. as: A Stroll through the World of Animals and Men. In Schiller, C. H. (Ed.), Instinctive Behavior. New York: International Universities Press, 1957, pp. 580.]CrossRefGoogle Scholar
Vygotsky, L. (1934/1988). Thought and Language. (Tr. by Kozulin, A.). Cambridge, MA: MIT Press.Google Scholar
Waddington, C. H. (1942). Canalization of Development and the Inheritance of Acquired Characters. Nature, 150, pp. 563565.CrossRefGoogle Scholar
Waddington, C. H. (1953). Genetic Assimilation of an Acquired Character. Evolution, 7, 118126.CrossRefGoogle Scholar
Waddington, C. H. (1959a). Evolutionary Systems – Animal and Human. Nature, 183, 16341638.CrossRefGoogle ScholarPubMed
Waddington, C. H. (1959b). Canalization of Development and Genetic Assimilation of Acquired Characters. Nature, 183, 16541655.CrossRefGoogle ScholarPubMed
Waddington, C. H. (1966). Principles of Development and Differentiation. New York: Macmillan. (Excerpt reprinted in Bolhuis, & Hogan, , 1999.)Google Scholar
Walker, S. (1983). Animal Thought. London: Routledge & Kegan Paul.Google Scholar
Warden, C. J., Warner, H. C. & Jenkins, T. N. (1931). Animal Motivation: Experimental Studies on the Albino Rat. New York: Columbia University Press.Google Scholar
Wasserman, E. A. (1973). Pavlovian Conditioning with Heat Reinforcement Produces Stimulus-directed Pecking in Chicks. Science, 181, 875877.CrossRefGoogle ScholarPubMed
Watkins, C. (1969). The Indo-European Origin of English. In Morris, W. (Ed.), The American Heritage Dictionary of the English Language. Boston, MA: Houghton Mifflin, pp. xixxx.Google Scholar
Watson, A. (1973). Moults of Wild Scottish Ptarmigan, Lagopus mutus, in Relation to Sex, Climate and Status. Journal of Zoology (London) 171, 207223.CrossRefGoogle Scholar
Watson, J. B. (1908). The behavior of Noddy and Sooty Terns. Papers from the Tortugas Laboratory of the Carnegie Institution of Washington, 2, 187255.Google Scholar
Watson, J. B. (1919). Psychology from the Standpoint of a Behaviorist. Philadelphia: Lippincott.CrossRefGoogle Scholar
Wauters, A. M., Richard-Yris, M. A. & Talec, N. (2002). Maternal Influences on Feeding and General Activity in Domestic Chicks. Ethology, 108, 529540.CrossRefGoogle Scholar
Wayne, R. K. & vonHoldt, B. (2012). Evolutionary Genomics of Dog Domestication. Mammalian Genome, 23, 318.CrossRefGoogle ScholarPubMed
Webb, W. B. (1998). Sleep. In Greenberg, G. & Haraway, M. M. (Eds.), Comparative Psychology: A Handbook. New York: Garland, pp. 327331.Google Scholar
Wehner, R. & Menzel, R. (1990). Do Insects Have Cognitive Maps? Annual Review of Neuroscience, 13, 403414.CrossRefGoogle ScholarPubMed
Werker, J. F. & Tees, R. C. (1992). The Organization and Reorganization of Human Speech Perception. Annual Review of Neuroscience, 15, 377402.CrossRefGoogle ScholarPubMed
West-Eberhard, M. J. (2003). Development Plasticity and Evolution. Oxford: Oxford University Press.CrossRefGoogle Scholar
West, M. J. & King, A. P. (1988). Female Visual Display Affects the Development of Males Song in the Cowbird. Nature, 334, 244246.CrossRefGoogle Scholar
Whiten, A. et al. (2001). Charting Cultural Variation in Chimpanzees. Behaviour, 138, 14811516.CrossRefGoogle Scholar
Whiten, A., Goodall, J., McGrew, W. C., Nishida, T., Reynolds, V., Sugiyama, Y., Tutin, C. E. G., Wrangham, R. W. & Boesch, C. (1999). Cultures in Chimpanzees. Nature, 399, 682685.CrossRefGoogle ScholarPubMed
Whitman, C. O. (1911). The Behavior of Pigeons. Washington, DC: Carnegie Institute, Publication, 257, pp. 1161.Google Scholar
Wiesel, T. N. (1982). Postnatal Development of the Visual Cortex and the Influence of the Environment. Nature, 299, 583591.CrossRefGoogle Scholar
Wilczynski, W. Rand, A. S. & Ryan, M. J. (2001). Evolution of Calls and Auditory Tuning in the Physalaemus pustulosus Species Group. Brain, Behavior and Evolution, 58, 137151.CrossRefGoogle ScholarPubMed
Williams, C. L. (1991). Development of a Sexually Dimorphic Behavior: Hormonal and Neural Controls. In Shair, H. N., Barr, G. A. & Hofer, M. A. (Eds.), Developmental Psychobiology: New Methods and Changing Concepts. New York: Oxford University Press, pp. 206222.Google Scholar
Williams, G. C. (1966). Adaptation and Natural Selection: A Critique of Some Current Evolutionary Thought. Princeton: Princeton University Press.Google Scholar
Wilson, D. M. (1966). Central Nervous Mechanisms for the Generation of Rhythmic Behaviour in Arthropods. Symposia of the Society for Experimental Biology, 20, 199228.Google ScholarPubMed
Wilson, D. S. & Wilson, E. O. (2007). Rethinking the Theoretical Foundation of Sociobiology. Quarterly Review of Biology, 82, 327348.CrossRefGoogle ScholarPubMed
Wilson, E. O. (1971). The Insect Societies. Cambridge, MA: Harvard University Press.Google Scholar
Wilson, E. O. (1975). Sociobiology: The New Synthesis. Cambridge, MA: Harvard University Press.Google Scholar
Wiltschko, R. & Wiltschko, W. (2003). Avian Navigation: From Historical to Modern Concepts. Animal Behaviour, 65, 257272.CrossRefGoogle Scholar
Wise, R.A. (2004). Dopamine, Learning and Motivation. Nature Reviews Neuroscience, 5, 483494.CrossRefGoogle ScholarPubMed
Wolpert, D. M., Diedrichsen, J. & Flanagan, J. R. (2011). Principles of Sensorimotor Learning. Nature Reviews Neuroscience, 12, 739751.CrossRefGoogle ScholarPubMed
Wood-Gush, D. G. M. (1971). The Behaviour of the Domestic Fowl. London: Heinemann.Google Scholar
Wouters, A. G. (2003). Four Notions of Biological Function. Studies in History and Philosophy of Biological and Biomedical Sciences, 34, 633668.CrossRefGoogle Scholar
Wray, G. A. et al. (2014). Does Evolutionary Theory Need a Rethink? No, All Is Well. Nature, 514, 161164.Google Scholar
Wynne, C. D. L. (2004). Do Animals Think? Princeton: Princeton University Press.CrossRefGoogle Scholar
Xie, L. et al. (2013). Sleep Drives Metabolite Clearance from the Adult Brain. Science, 342, 373377.CrossRefGoogle ScholarPubMed
Young, P. T. (1961). Motivation and Emotion. New York: Wiley.Google Scholar
Zahavi, A. (1975). Mate Selection – A Selection for a Handicap. Journal of Theoretical Biology, 53, 205214.CrossRefGoogle ScholarPubMed
Zeder, M. A. (2012). The Domestication of Animals. Journal of Anthropological Research, 68, 161190.CrossRefGoogle Scholar
Zeiler, M. D. (1992). On Immediate Function. Journal of the Experimental Analysis of Behavior, 57, 417427.CrossRefGoogle ScholarPubMed
Zuberbühler, K. (2000). Referential Labeling in Diana Monkeys. Animal Behaviour, 59, 917927.CrossRefGoogle ScholarPubMed
Zuberbühler, K. (2009). Survivor Signals: The Biology and Psychology of Animal Alarm Calling. Advances in the Study of Behavior, 40, 277322.CrossRefGoogle Scholar

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  • References
  • Jerry A. Hogan, University of Toronto
  • Book: The Study of Behavior
  • Online publication: 26 October 2017
  • Chapter DOI: https://doi.org/10.1017/CBO9781108123792.013
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  • References
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  • References
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  • Book: The Study of Behavior
  • Online publication: 26 October 2017
  • Chapter DOI: https://doi.org/10.1017/CBO9781108123792.013
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