The nervous system/behavior interface: Levels of organization and levels of approach
暂无分享,去创建一个
[1] M. Frey. Physiologie der Sinnesorgane der menschlichen Haut , 1910 .
[2] C. Judson Herrick,et al. The amphibian forebrain. VIII. Cerebral hemispheres and pallial primordia , 1933 .
[3] Hugh B. Cott,et al. The Effectiveness of Protective Adaptations in the Hive Bee, illustrated by Experiments on the Feeding Reactions, Habit Formation, and Memory of the Common Toad (Bufo bufo bufo) , 1936 .
[4] E. Holst. Die relative Koordination , 1939 .
[5] H. K. Hartline,et al. THE RECEPTIVE FIELDS OF OPTIC NERVE FIBERS , 1940 .
[6] J. Gibson. The perception of the visual world , 1951 .
[7] J. Gibson. What is a form? , 1951, Psychological review.
[8] Irenäus Eibl-Eibesfeldt. Nahrungserwerb Und Beuteschema Der Erdkröte (Bufo Bufo L.) , 1951 .
[9] William Rowan,et al. The Study of Instinct , 1953 .
[10] H. Barlow. Summation and inhibition in the frog's retina , 1953, The Journal of physiology.
[11] L. A. Jeffress,et al. Cerebral Mechanisms in Behavior , 1953 .
[12] D. Schneider,et al. Beitrag zu einer Analyse des Beute- und Fluchtverhaltens einheimischer Anuren , 1954 .
[13] E. Stellar,et al. The physiology of motivation. , 1954, Psychological review.
[14] R. Hinde. Changes in responsiveness to a constant stimulus , 1954 .
[15] V. Mountcastle. Modality and topographic properties of single neurons of cat's somatic sensory cortex. , 1957, Journal of neurophysiology.
[16] R. M. Gaze. The representation of the retina on the optic lobe of the frog. , 1958, Quarterly journal of experimental physiology and cognate medical sciences.
[17] W. Pitts,et al. What the Frog's Eye Tells the Frog's Brain , 1959, Proceedings of the IRE.
[18] W. Pitts,et al. Anatomy and Physiology of Vision in the Frog (Rana pipiens) , 1960, The Journal of general physiology.
[19] L. Brower,et al. Experimental Studies of Mimicry. 5. The Reactions of Toads (Bufo terrestris) to Bumblebees (Bombus americanorum) and Their Robberfly Mimics (Mallophora bomboides), with a Discussion of Aggressive Mimicry , 1960, The American Naturalist.
[20] D. Hubel,et al. Receptive fields, binocular interaction and functional architecture in the cat's visual cortex , 1962, The Journal of physiology.
[21] Koch Sigmund Ed,et al. Psychology: A Study of A Science , 1962 .
[22] G. Székely. Functional specificity of spinal cord segments in the control of limb movements. , 1963, Journal of embryology and experimental morphology.
[23] C. Wiersma,et al. INTERNEURONS COMMANDING SWIMMERET MOVEMENTS IN THE CRAYFISH, PROCAMBARUS CLARKI (GIRARD). , 1964, Comparative biochemistry and physiology.
[24] D H HUBEL,et al. RECEPTIVE FIELDS AND FUNCTIONAL ARCHITECTURE IN TWO NONSTRIATE VISUAL AREAS (18 AND 19) OF THE CAT. , 1965, Journal of neurophysiology.
[25] R. F. Thompson,et al. Habituation: a model phenomenon for the study of neuronal substrates of behavior. , 1966, Psychological review.
[26] W. R. Garner. To perceive is to know. , 1966 .
[27] J. Sprague,et al. Interaction of Cortex and Superior Colliculus in Mediation of Visually Guided Behavior in the Cat , 1966, Science.
[28] Ewert Jp. Electric stimulation of the retinal projection field in the midbrain of the terrestrial toad (Bufo bufo L.) , 1967 .
[29] A. Manning,et al. An introduction to animal behaviour , 1967 .
[30] R. Descartes,et al. The Philosophical Works of Descartes , 1967 .
[31] J. Konorski. Integrative activity of the brain , 1967 .
[32] K. Rubinson. Projections of the Tectum Opticum of the Frog; pp. 529–544 , 1968 .
[33] D. Ingle. Visual Releasers of Prey-Catching Behavior in Frogs and Toads , 1968 .
[34] C. H. WADDINGTON,et al. Towards a Theoretical Biology , 1968, Nature.
[35] G. Schneider. Two visual systems. , 1969, Science.
[36] G. Lázár. Efferent pathways of the optic tectum in the frog. , 1969, Acta biologica Academiae Scientiarum Hungaricae.
[37] J. Ewert,et al. Quantitative Analyse Der Reiz-Reaktionsbeziehungen Bei Visuellem Auslösen Des Fluchtverhaltens Der Wechselkröte (Bufo Viridis Laur.) , 1969 .
[38] K. Dierickx. Hypothalamo-hypophysial regulation of food intake in Rana temporaria. , 1969, General and comparative endocrinology.
[39] Irving Kupfermann,et al. Neuronal Correlates of Habituation and Dishabituation of the Gill-Withdrawal Reflex in Aplysia , 1970, Science.
[40] I. Eibl-Eibesfeldt. Ethology, the biology of behavior , 1970 .
[41] J. Lettvin,et al. Multiple meaning in single visual units. , 1970, Brain, behavior and evolution.
[42] L. Zusne. Visual perception of form , 1970 .
[43] Walle J. H. Nauta,et al. Contemporary Research Methods in Neuroanatomy , 1970, Springer Berlin Heidelberg.
[44] Werner Von Seelen,et al. On Information Processing in the Visual System of Vertebrates. I. , 1970 .
[45] G. Lázár. The projection of the retinal quadrants on the optic centres in the frog. A terminal degeneration study. , 1971, Acta morphologica Academiae Scientiarum Hungaricae.
[46] G. Székely,et al. Activity of spinal cord fragments and limbs deplanted in the dorsal fin of urodele larvae. , 1971, Acta physiologica Academiae Scientiarum Hungaricae.
[47] D. Ingle. Prey-catching behavior of anurans toward moving and stationary objects. , 1971, Vision research.
[48] G. Lázár. Role of the accessory optic system in the optokinetic nystagmus of the frog. , 1972, Brain, behavior and evolution.
[49] K. Kirschfeld. [Neural superposition eye]. , 1973, Fortschritte der Zoologie.
[50] D. Ingle,et al. Receptive field changes produced in frog thalamic units by lesions of the optic tectum. , 1973, Brain research.
[51] A. Parent. Distribution of monoamine‐containing neurons in the brain stem of the frog, Rana temporaria , 1973, Journal of morphology.
[52] R Wehner,et al. [Coordination system of the visual field in arthropods]. , 1973, Fortschritte der Zoologie.
[53] K. Brändle,et al. The control of alternating coordination of limb pairs in the newt (Triturus vulgaris). , 1973, Brain, behavior and evolution.
[54] D. Ingle,et al. Two Visual Systems in the Frog , 1973, Science.
[55] D. Ingle. Size preferences for prey-catching in frogs: relationship to motivational state. , 1973, Behavioral Biology.
[56] D. Ingle,et al. Disinhibition of Tectal Neurons by Pretectal Lesions in the Frog , 1973, Science.
[57] W von Seelen,et al. [Neurobiology and system theory of a visual pattern recognition mechanism in the toad]. , 1973, Kybernetik.
[58] J. Ewert. The neural basis of visually guided behavior. , 1974, Scientific American.
[59] W M Schleidt,et al. How "fixed" is the fixed action pattern? , 2010, Zeitschrift fur Tierpsychologie.
[60] T. Nagel. What is it like to be a Bat , 1974 .
[61] D. Ingle,et al. Thalamo-tectal projections in the frog. , 1974, Brain research.
[62] J T McIlwain,et al. Visual receptive fields and their images in superior colliculus of the cat. , 1975, Journal of neurophysiology.
[63] J. Fodor. The Language of Thought , 1980 .
[64] M. Sanders. Handbook of Sensory Physiology , 1975 .
[65] Orlov OIu,et al. Contancy of color perception in the grey toad , 1975 .
[66] D. Ingle. Focal attention in the frog: behavioral and physiological correlates. , 1975, Science.
[67] W. F. Blair,et al. The Amphibian visual system : a multidisciplinary approach , 1976 .
[68] G. Benedek,et al. RECENT DEVELOPMENTS OF NEUROBIOLOGY IN HUNGARY , 1976 .
[69] G. Baerends. The functional organization of behaviour , 1976, Animal Behaviour.
[70] J. C. Fentress. Simpler networks and behavior , 1976 .
[71] J. Disterhoft,et al. Differentiated short latency response increases after conditioning in inferior colliculus neurons of alert rat , 1977, Brain Research.
[72] R. Northcutt,et al. Afferents to the optic tectum of the leopard frog: An HRP study , 1977, The Journal of comparative neurology.
[73] Thomas A. Sebeok,et al. How Animals Communicate , 1979 .
[74] T. Collett. Stereopsis in toads , 1977, Nature.
[75] G. Hoyle,et al. Identified Neurons and Behavior of Arthropods , 1977, Springer US.
[76] D. Ingle. Detection of stationary objects by frogs (Rana pipiens) after ablation of optic tectum. , 1977, Journal of comparative and physiological psychology.
[77] A. Graybiel. A satellite system of the superior colliculus: the parabigeminal nucleus and its projections to the superficial collicular layers , 1978, Brain Research.
[78] K. R. Weiss,et al. The command neuron concept , 1978, Behavioral and Brain Sciences.
[79] E. John,et al. The neurophysiology of information processing and cognition. , 1978, Annual review of psychology.
[80] D. Ingle,et al. Effects of stimulus configuration on elicited prey catching by the marine toad (Bufo marinus) , 1978, Animal Behaviour.
[81] Hans Schneider,et al. Modification of prey-catching behavior by learning in the common toad (Bufo b. bufo [L], Anura, Amphibia): Changes in responses to visual objects and effects of auditory stimuli , 1978, Behavioural Processes.
[82] W. Davis,et al. Neural correlate of behavioral plasticity in command neurons of Pleurobranchaea. , 1978, Science.
[83] D. F. Russell,et al. Bursting neural networks: a reexamination. , 1978, Science.
[84] S. Udin,et al. Topographic projections between the nucleus isthmi and the tectum of the frog rana pipiens , 1978, The Journal of comparative neurology.
[85] M. Kovac,et al. Command neurons in Pleurobranchaea receive synaptic feedback from the motor network they excite. , 1978, Science.
[86] A. Grinnell,et al. Introduction to Nervous Systems , 1978 .
[87] Timothy ed. Teyler. Brain and learning , 1978 .
[88] Jörg-Peter Ewert,et al. Releasing Stimuli for Antipredator Behaviour in the Common Toad Bufo b uFo (L.) , 1979 .
[89] E. Kandel. Small systems of neurons. , 1979, Scientific American.
[90] J. Ewert,et al. Invariants in configurational prey selection by Bufo bufo (L.). , 1979, Brain, behavior and evolution.
[91] J. Ewert,et al. Configurational prey selection by Bufo, Alytes, Bombina and Hyla. , 1979, Brain, behavior and evolution.
[92] J. Ewert,et al. Correlation between behavioral and neuronal activities of toads Bufo bufo (L.) in response to moving configurational prey stimuli , 1979, Behavioural Processes.
[93] J. Ewert,et al. Ontogenetic aspects on visual "size-constancy" phenomena in the midwife toad Alytes obstetricans (Laur.). , 1979, Brain, behavior and evolution.
[94] C. R. Fourtner,et al. Flight Activity Initiated via Giant Interneurons of the Cockroach: Evidence for Bifunctional Trigger Interneurons , 1980, Science.
[95] A. Routtenberg,et al. Neural Mechanisms in Behavior , 1980, Springer New York.
[96] Allen I. Selverston,et al. Are central pattern generators understandable? , 1980, Behavioral and Brain Sciences.
[97] H. Whiting,et al. Motor development in children : aspects of coordination and control , 1986 .
[98] D. Ingle. Some effects of pretectum lesions on the frogs' detection of stationary objects , 1980, Behavioural Brain Research.
[99] S. Ebbesson,et al. An ultrastructural study of the normal synaptic organization of the optic tectum and the degenerating tectal afferents from retina, telencephalon, and contralateral tectum in a teleost, holocentrus rufus , 1980, The Journal of comparative neurology.
[100] J. Lettvin,et al. Anatomy and physiology of a binocular system in the frograna pipiens , 1980, Brain Research.
[101] H. Karten,et al. Basal ganglionic pathways to the tectum: Studies in reptiles , 1980, The Journal of comparative neurology.
[102] J. Fodor. Methodological solipsism considered as a research strategy in cognitive psychology , 1980, Behavioral and Brain Sciences.
[103] Sven O. E. Ebbesson,et al. Comparative Neurology of the Telencephalon , 2011, Springer US.
[104] William P. Alston,et al. Knowledge and the Flow of Information , 1985 .
[105] Jack Sklansky,et al. Pattern Classifiers and Trainable Machines , 1981 .
[106] M. Kovac,et al. The command neuron and the organization of movement , 1981, Trends in Neurosciences.
[107] E. Kandel,et al. Associative learning in Aplysia: cellular correlates supporting a conditioned fear hypothesis. , 1981, Science.
[108] D. Broom. The Biology of Behaviour. , 1981 .
[109] D. Hood,et al. The Frog Ganglion Cell: Not a Feature Detector and Not a Monkey Cortical Cell , 1981, Perception.
[110] G. Baerends,et al. THE HERRING GULL AND ITS EGG .2. THE RESPONSIVENESS TO EGG-FEATURES , 1982 .
[111] H. Karten,et al. Laminar organization of peptide‐like immunoreactivity in the anuran optictectum , 1982, The Journal of comparative neurology.
[112] J. Ewert,et al. Neuroethology , 1980, Springer Berlin Heidelberg.
[113] Steven P. Miller,et al. Brain Stem Control of Spinal Mechanisms , 1982 .
[114] C. Gallistel. The Organization of Action: A New Synthesis , 1982 .
[115] G. Baerends,et al. The External Morphology of the Egg and Its Variability , 1982 .
[116] A. Butler. Brain Mechanisms of Behavior in Lower Vertebrates edited by P. R. Laming, Cambridge University Press, 1981.£25 (hard cover) £11 (paperback) (x + 318 pages) ISBN 0 521 28168 7 , 1982, Trends in Neurosciences.
[117] J. Ewert,et al. Question of “head preference” in response to worm-like dummies during prey-capture of toads, Bufo bufo , 1982, Behavioural Processes.
[118] D. Bliss. The Biology of Crustacea , 1982 .
[119] Paul Grobstein,et al. Visual orienting deficits in frogs with various unilateral lesions , 1982, Behavioural Brain Research.
[120] R. Mansfield,et al. Analysis of visual behavior , 1982 .
[121] H. Karten,et al. Enkephalin‐mediated basal ganglia influences over the optic tectum: Immunohistochemistry of the tectum and the lateral spiriform nucleus in pigeon , 1982, The Journal of comparative neurology.
[122] J. Ewert. Advances in vertebrate neuroethology , 1982, Trends in Neurosciences.
[123] S. Amari,et al. Competition and Cooperation in Neural Nets , 1982 .
[124] J. Ewert,et al. The effects of pretectal lesions on neuronal, sustained potential shift and electroencephalographic responses of the toad tectum to presentation of a visual stimulus , 1983 .
[125] R. Northcutt,et al. Connections of the bullfrog striatum: Efferent projections , 1983, The Journal of comparative neurology.
[126] P. Grobstein. Analysis of Visual Behavior, David J. Ingle, Melvyn A. Goodale, Richard J.W. Mansfield (Eds.). MIT press, Cambridge, MA and London (1982), 834 , 1983 .
[127] G. Lázár,et al. Morphology and location of tectal projection neurons in frogs: A study with hrp and cobalt‐filling , 1983, The Journal of comparative neurology.
[128] J. Massion,et al. Neural coding of motor performance , 1983 .
[129] George Adrian Horridge,et al. Neuron function and behaviour: Which explains which? , 1983 .
[130] Arnold J. Mandell,et al. Synergetics of the Brain , 1983 .
[131] R. Northcutt,et al. Connections of the bullfrog striatum: Afferent organization , 1983, The Journal of comparative neurology.
[132] R. Northcutt,et al. Nuclear organization of the bullfrog diencephalon , 1983, The Journal of comparative neurology.
[133] P. Grobstein,et al. The nucleus isthmi as an intertectal relay for the ipsilateral oculotectal projection in the frog, Rana pipiens , 1983, The Journal of comparative neurology.
[134] P. Laming,et al. Brain mechanisms of behaviour in lower vertebrates , 1983 .
[135] Terry E. Robinson,et al. Behavioral approaches to brain research , 1983 .
[136] Harvey J. Karten,et al. Evolution of the amniote basal ganglia , 1984, Trends in Neurosciences.
[137] H. Vanegas,et al. Comparative neurology of the optic tectum , 1984 .
[138] Toshiya Matsushima,et al. Neuronal Pathways from the Tectal "Snapping-Evoking Area" to the Tongue-Muscle-Controlling Motoneurons in the Japanese Toad : Evidence of the Intervention of Excitatory Interneurons(COMMUNICATION)(Physiology) , 1984 .
[139] Henning Scheich,et al. Functional activation in the auditory system of the rat produced by arousing reticular stimulation: a 2-deoxyglucose study , 1984, Brain Research.
[140] R. F. Thompson,et al. Cerebellum: essential involvement in the classically conditioned eyelid response. , 1984, Science.
[141] R. Neuman,et al. Selective accumulation of hydroxytryptamines by frog tectal neurones , 1984, Neuroscience.
[142] R. R. Sturrock,et al. Neural Origin of Rhythmic Movements , 1984 .
[143] Gerald M. Edelman,et al. Dynamic aspects of neocortical function , 1984 .
[144] Robert C. Eaton,et al. Neural Mechanisms of Startle Behavior , 1984 .
[145] S. Ebbesson. Evolution and ontogeny of neural circuits , 1984, Behavioral and Brain Sciences.
[146] R. Hoy,et al. Initiation of behavior by single neurons: the role of behavioral context. , 1984, Science.
[147] J. Ewert. Behavioral selectivity based on thalamotectal interactions: Ontogenetic and phylogenetic aspects in amphibians , 1984, Behavioral and Brain Sciences.
[148] Jeffrey M. Camhi,et al. Neuroethology: Nerve Cells and the Natural Behavior of Animals , 1984 .
[149] G. Hoyle. The scope of neuroethology , 1984, Behavioral and Brain Sciences.
[150] J. Ewert. Concepts in vertebrate neuroethology , 1985, Animal Behaviour.
[151] M. Gladden,et al. Feedback and Motor Control in Invertebrates and Vertebrates , 1985, Springer Netherlands.
[152] Edward R. Gruberg,et al. Ablation of nucleus isthmi leads to loss of specific visually elicited behaviors in the frog Rana pipiens , 1985, Neuroscience Letters.
[153] J C Fentress,et al. Early ontogeny of face grooming in mice. , 1985, Developmental psychobiology.
[154] G. Horn. Memory, imprinting, and the brain : an inquiry into mechanisms , 1985 .
[155] H. Barlow. The Role of Nature, Nurture, and Intelligence in Pattern Recognition , 1985 .
[156] R. C. Eaton,et al. Command and the neural causation of behavior: a theoretical analysis of the necessity and sufficiency paradigm. , 1985, Brain, behavior and evolution.
[157] M. Konishi,et al. Birdsong: from behavior to neuron. , 1985, Annual review of neuroscience.
[158] Allen I. Selverston,et al. Model Neural Networks and Behavior , 1985, Springer US.
[159] H. Barlow. The Twelfth Bartlett Memorial Lecture: The Role of Single Neurons in the Psychology of Perception , 1985, The Quarterly journal of experimental psychology. A, Human experimental psychology.
[160] S. Emerson. SKULL SHAPE IN FROGS-CORRELATIONS WITH DIET , 1985 .
[161] A. Fuchs,et al. Brainstem control of saccadic eye movements. , 1985, Annual review of neuroscience.
[162] T. Reuter,et al. Chromatic properties of the retinal afferents in the thalamus and the tectum of the frog (Rana temporaria) , 1985, Vision Research.
[163] Herbert Lin,et al. The development of software for ballistic-missile defense , 1985 .
[164] G. Baerends. DO THE DUMMY EXPERIMENTS WITH STICKLEBACKS SUPPORT THE IRM-CONCEPT , 1985 .
[165] Franz Huber,et al. Cricket auditory communication , 1985 .
[166] G. Lázár,et al. Morphology of the cells of origin of descending pathways to the spinal cord in Rana esculenta. A tracing study using cobaltic-lysine complex. , 1985, Journal fur Hirnforschung.
[167] J. Allman,et al. Stimulus specific responses from beyond the classical receptive field: neurophysiological mechanisms for local-global comparisons in visual neurons. , 1985, Annual review of neuroscience.
[168] Judea Pearl,et al. Structuring causal trees , 1986, J. Complex..
[169] G. Székely,et al. Tectal neurons of the frog: Intracellular recording and labeling with cobalt electrodes , 1986, The Journal of comparative neurology.
[170] D L Sparks,et al. Translation of sensory signals into commands for control of saccadic eye movements: role of primate superior colliculus. , 1986, Physiological reviews.
[171] J. T. Hackett,et al. The behavioral role of the Mauthner neuron impulse , 1986, Behavioral and Brain Sciences.
[172] B. Stein,et al. Visual, auditory, and somatosensory convergence on cells in superior colliculus results in multisensory integration. , 1986, Journal of neurophysiology.
[173] W. O. Friesen,et al. From Stimulation to Undulation: A Neuronal Pathway for the Control of Swimming in the Leech , 1986, Science.
[174] O. I. Fukson,et al. Adaptability of innate motor patterns and motor control mechanisms , 1986, Behavioral and Brain Sciences.
[175] R. Llinás,et al. Oscillatory properties of guinea‐pig inferior olivary neurones and their pharmacological modulation: an in vitro study. , 1986, The Journal of physiology.
[176] R. Murphey. The myth of the inflexible invertebrate: competition and synaptic remodelling in the development of invertebrate nervous systems. , 1986, Journal of neurobiology.
[177] J C Fentress,et al. Contextual control of trigeminal sensorimotor function , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[178] R. C. Eaton,et al. The command neuron concept: Good in theory, difficult to justify in practice , 1986, Behavioral and Brain Sciences.
[179] P. Grobstein. The Brain Machine: The Development of Neurophysiological Thought , 1986 .
[180] James L. McClelland,et al. Parallel distributed processing: explorations in the microstructure of cognition, vol. 1: foundations , 1986 .
[181] J. Ewert,et al. Modulation of tectal functions by prosencephalic loops in amphibians , 1987, Behavioral and Brain Sciences.
[182] P. Grobstein,et al. Neuronal organization underlying visually elicited prey orienting in the frog—III. Evidence for the existence of an uncrossed descending tectofugal pathway , 1987, Neuroscience.
[183] J. L. Gould,et al. Learning by Instinct , 1987 .
[184] P. Grobstein,et al. Neuronal organization underlying visually elicited prey orienting in the frog—II. Anatomical studies on the laterality of central projections , 1987, Neuroscience.
[185] C. Thinus-Blanc,et al. Cognitive Processes and Spatial Orientation in Animal and Man , 1987 .
[186] N. Foreman,et al. Relationships between the superior colliculus and hippocampus: Neural and behavioral considerations , 1987, Behavioral and Brain Sciences.
[187] P. Grobstein,et al. Neuronal organization underlying visually elicited prey orienting in the frog—I. Effects of various unilateral lesions , 1987, Neuroscience.
[188] D. Dennett. The Intentional Stance. , 1987 .
[189] D. O. Hebb,et al. The organization of behavior , 1988 .
[190] J. Ewert,et al. Influence of stationary and moving textured backgrounds on the response of visual neurons in toads (Bufo bufo L.). , 1988, Brain, behavior and evolution.
[191] R. C. Eaton,et al. Seven principles for command and the neural causation of behavior. , 1988, Brain, behavior and evolution.
[192] E. Blass. Handbook of behavioral neurobiology , 1988 .
[193] P. Grobstein. Between the retinotectal projection and directed movement: topography of a sensorimotor interface. , 1988, Brain, behavior and evolution.