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Sensorimotor Maps in the Tectum

Bibliographic reference Roucoux, André ; Crommelinck, Marc. Sensorimotor Maps in the Tectum. In: Behavioral and Brain Sciences : an international journal of current research and theory with open peer commentary, Vol. 10, no. 3, p. 386-387 (1987)
Permanent URL http://hdl.handle.net/2078.1/53371
  1. Akert, Helvetica Physiologica Pharmacologica Acta, 7, 112 (1949)
  2. Akins, On piranhas, narcissim, and mental representation (1986)
  3. Allman J, Miezin F, McGuinness E, Stimulus Specific Responses from Beyond the Classical Receptive Field: Neurophysiological Mechanisms for Local-Global Comparisons in Visual Neurons, 10.1146/annurev.ne.08.030185.002203
  4. an der Heiden, Synergetics of the brain (1983)
  5. Antal M., Matsumoto N., Székely G., Tectal neurons of the frog: Intracellular recording and labeling with cobalt electrodes : LABELING OF TECTAL NEURONS WITH COBALT ELECTRODES, 10.1002/cne.902460208
  6. Arbib, Competition and cooperation in neural nets (1982)
  7. Atkins Gordon, Ligman Scott, Burghardt Frederick, Stout John F., Changes in phonotaxis by the female cricketAcheta domesticus L. after killing identified acoustic interneurons, 10.1007/bf00610680
  8. Autrum Hansjochem, Das Fehlen unwillk�rlicher Augenbewegungen beim Frosch, 10.1007/bf00599326
  9. Baerends Gerard P., The functional organization of behaviour, 10.1016/s0003-3472(76)80002-4
  10. Baerends Gerard P., Do the Dummy Experiments With Sticklebacks Support the Irm-Concept?, 10.1163/156853986x00928
  11. Baerends G.P., Hogan-Warburg A.J., The External Morphology of the Egg and Its Variability, 10.1163/156853982x00599
  12. Barlow, How animals communicate (1977)
  13. Barlow H. B., Summation and inhibition in the frog's retina, 10.1113/jphysiol.1953.sp004829
  14. Barlow, Quarterly Journal of Experimental Biology, 37, 121 (1985)
  15. Bechterev, Pflügers Archiv der gesamten Physiologie des Menschen und der Tiere, 73, 501 (1884)
  16. Beck A., Ewert J. -P., Prey selection by Toads (Bufo bufo L.) in response to configurational stimuli moved in the visual field z,y-coordinates, 10.1007/bf00657655
  17. Berkinblit, Behavioral and Brain Sciences, 9, 585 (1986)
  18. Berridge, Journal of Neuroscience, 6, 325 (1986)
  19. Bieger D., Neuman R.S., Selective accumulation of hydroxytryptamines by frog tectal neurones, 10.1016/0306-4522(84)90011-3
  20. Birukow Georg, Meng Mathilde, Eine neue Methode zur Pr�fung des Gesichtssinnes bei Amphibien, 10.1007/bf00622399
  21. Bohm, Towards a theoretical biology, 2 (1969)
  22. Borchers, Progress in biocybernetics and systems research, 9 (1982)
  23. Borchers H. -W., Burghagen H., Ewert J. -P., Key stimuli of prey for toads (Bufo bufo L.): Configuration and movement patterns, 10.1007/bf00656851
  24. Borchers H.-W., Ewert J.-P., Correlation between behavioral and neuronal activities of toads Bufo bufo (L.) in response to moving configurational prey stimuli, 10.1016/0376-6357(79)90026-3
  25. Borchers, Advances in vertebrate neuroethology (1983)
  26. Borchers, Neuroscience Letters Supplement, 14, 36 (1983)
  27. Brändle K., Székely G., The Control of Alternating Coordination of Limb Pairs in the Newt (Triturus vulgaris), 10.1159/000124364
  28. BRODFUEHRER P. D., FRIESEN W. O., From Stimulation to Undulation: A Neuronal Pathway for the Control of Swimming in the Leech, 10.1126/science.234.4779.1002
  29. Broom, Biology of behaviour; Mechanisms, functions and applications (1981)
  30. Brower Lincoln P., Westcott Peter W., 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, 10.1086/282137
  31. Brown William Ted, Ingle David, Receptive field changes produced in frog thalamic units by lesions of the optic tectum, 10.1016/0006-8993(73)90281-3
  32. Brzoska Josef, Schneider Hans, 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, 10.1016/0376-6357(78)90039-6
  33. Bullock, Sensory communication (1961)
  34. Bullock, Advances in vertebrate neuroethology (1983)
  35. Bullock, Neural coding, 6/3 (1968)
  36. Burghagen Harald, Ewert Jörg-Peter, Question of “head preference” in response to worm-like dummies during prey-capture of toads, Bufo bufo, 10.1016/0376-6357(82)90002-x
  37. Burghagen H., Ewert J. -P., Influence of the background for discriminating object motion from self-induced motion in toadsBufo bufo (L.), 10.1007/bf00611188
  38. Caine Hanan S., Gruberg Edward R., Ablation of nucleus isthmi leads to loss of specific visually elicited behaviors in the frog Rana pipiens, 10.1016/s0304-3940(85)80096-3
  39. Camhi, Neuroethology: Nerve cells and the natural behavior of animals (1984)
  40. Capranica, Advances in vertebrate neuroethology (1983)
  41. Capranica, Advances in vertebrate neuroethology (1983)
  42. Carew T., Walters E., Kandel E., Associative learning in Aplysia: cellular correlates supporting a conditioned fear hypothesis, 10.1126/science.7455692
  43. Changeux, Neural and molecular mechanisms of learning (1986)
  44. Chevalier G., Vacher S., Deniau J.M., Inhibitory nigral influence on tectospinal neurons, a possible implication of basal ganglia in orienting behavior, 10.1007/bf00238161
  45. Chung Shin-Ho, Raymond S.A., Lettvin J.Y., Multiple Meaning in Single Visual Units, 10.1159/000125464
  46. Clairambault, Frog neurobiology (1976)
  47. Creutzfeldt Otto Detlev, Cortex Cerebri, ISBN:9783642689635, 10.1007/978-3-642-68962-8
  48. COLLETT T., Stereopsis in toads, 10.1038/267349a0
  49. Collett, Advances in vertebrate neuroethology (1983)
  50. Comer Christopher, Grobstein Paul, Involvement of midbrain structures in tactually and visually elicited prey acquisition behavior in the frog,Rana pipiens, 10.1007/bf00605733
  51. Comer, Society for Neuroscience Abstracts, 11, 289 (1985)
  52. Cott, Proceedings of the Zoological Society (London), 1, 113 (1936)
  53. Biologie, ISBN:9783642965203, 10.1007/978-3-642-96519-7
  54. Davis W., Gillette R, Neural correlate of behavioral plasticity in command neurons of Pleurobranchaea, 10.1126/science.622572
  55. Davis W.J., Kovac Mark P., The command neuron and the organization of movement, 10.1016/0166-2236(81)90025-4
  56. Dennett, American Philosophical Quarterly, 15, 249 (1978)
  57. Dennett, The intentional stance (1987)
  58. Desan, Society for Neuroscience Abstracts, 12, 109 (1986)
  59. Diebschlag, Zeitschrift für vergleichende Physiologie, 21, 343 (1935)
  60. Dierickx K., Hypothalamo-hypophysial regulation of food intake in Rana temporaria, 10.1016/0016-6480(69)90258-5
  61. Dieringer N., Daunicht W. J., Image fading ? a problem for frogs?, 10.1007/bf00451484
  62. Dieringer, Experimental Brain Research, 47, 394 (1982)
  63. Dieringer, Experimental Brain Research, 47, 407 (1982)
  64. Disterhoft John F., Stuart Duncan K., Differentiated short latency response increases after conditioning in inferior colliculus neurons of alert rat, 10.1016/0006-8993(77)90278-5
  65. Doty, Simpler networks and behavior (1976)
  66. Dretske, Knowledge and the flow of information (1981)
  67. Eaton, Advances in vertebrate neuroethology (1983)
  68. Eaton Robert C., DiDomenico Randolf, Command and the Neural Causation of Behavior: A Theoretical Analysis of the Necessity and Sufficiency Paradigm; pp. 132–148, 10.1159/000118726
  69. Neural Mechanisms of Startle Behavior, ISBN:9781489922885, 10.1007/978-1-4899-2286-1
  70. Eaton Robert C., Nissanov Jonathan, Wieland Chris M., Differential activation of Mauthner and non-Mauthner startle circuits in the zebrafish: Implications for functional substitution, 10.1007/bf00611598
  71. Eaton, Behavioral and Brain Sciences, 9, 725 (1986)
  72. Ebbesson, Contemporary research methods in neuroanatomy (1970)
  73. Ebbesson, Frog neurobiology (1976)
  74. Ebbesson, Cell and Tissue Research, 213, 179 (1980)
  75. Ebbesson, Brain mechanisms of behavior in lower vertebrates (1981)
  76. Ebbesson, Behavioral and Brain Sciences, 7, 321 (1984)
  77. Ebbesson, Theoretical and controversial issues in recovery after brain damage
  78. Eibl-Eibesfeldt Irenäus, Nahrungserwerb Und Beuteschema Der Erdkröte (Bufo Bufo L.), 10.1163/156853951x00016
  79. Eibl-Eibesfeldt, Ethology, the biology of behavior (1979)
  80. Eikmanns Karl-Heinz, Verhaltensphysiologische Untersuchungen über den Beutefang und das Bewegungssehen der Erdkröte (Bufo bufo L.), 10.1111/j.1439-0310.1955.tb01525.x
  81. Emerson, Herpetologica, 41, 177 (1985)
  82. Ewert J�rg-Peter, Untersuchungen �ber die Anteile zentralnerv�ser Aktionen an der taxisspezifischen Erm�dung beim Beutefang der Erdkr�te (Bufo bufo L.), 10.1007/bf00303000
  83. Ewert J�rg-Peter, Aktivierung der Verhaltensfolge beim Beutefang der Erdkr�te (Bufo bufo L.) durch elektrische Mittelhirn-Reizung, 10.1007/bf00298232
  84. Ewert J�rg-Peter, Elektrische Reizung des retinalen Projektionsfeldes im Mittelhirn der Erdkr�te (Bufo bufo L.), 10.1007/bf00363907
  85. Ewert, Zeitschrift für vergleichende Physiologie, 61, 41 (1968)
  86. Ewert J�rg-Peter, Quantitative Analyse von Reiz-Reaktionsbeziehungen bei visuellem Ausl�sen der Beutefang-Wendereaktion der Erdkr�te (Bufo bufo L.), 10.1007/bf00586556
  87. Ewert J�rg-Peter, Das Beuteverhalten Zwischenhirn-defekter Erdkr�ten (Bufo bufo L.) gegen�ber bewegten und ruhenden visuellen Mustern, 10.1007/bf00592432
  88. Ewert J. -P., Single unit response of the Toad's (Bufo americanus) caudal thalamus to visual objects, 10.1007/bf00297792
  89. Ewert, Scientific American, 230, 34 (1974)
  90. Ewert, Neuroethology. An introduction to the neurophysiological fundamentals of behavior (1980)
  91. Ewert, Brain mechanisms of behaviour in lower vertebrates (1981)
  92. Ewert, Comparative neurology of the optic tectum (1984)
  93. Ewert, Behavioral and Brain Sciences, 7, 337 (1984)
  94. Ewert J.-P., Concepts in vertebrate neuroethology, 10.1016/s0003-3472(85)80116-0
  95. Ewert, Cognitive processes and spatial orientation in animal and man (1987)
  96. Ewert J.-P., Arend B., Becker V., Borchers H.-W., Invariants in Configurational Prey Selection by Bufo bufo (L.), 10.1159/000121822
  97. Ewert J. P., Borchers H. W., Reaktionscharakteristik von Neuronen aus dem Tectum opticum und Subtectum der Erdkr�te Bufo bufo (L.), 10.1007/bf00297976
  98. Ewert J. -P., Borchers H. -W., Wietersheim A. v., Question of prey feature detectors in the toad'sBufo bufo (L.) visual system: A correlation analysis, 10.1007/bf01342649
  99. Ewert J. -P., Borchers H. -W., Wietersheim A. v., Directional sensitivity, invariance and variability of tectal T5 neurons in response to moving configurational stimuli in the toadBufo bufo (L.), 10.1007/bf00614490
  100. Ewert J.-P., Burghagen H., Ontogenetic Aspects on Visual 'Size-Constancy' Phenomena in the Midwife Toad Alytes obstetricans (Laur.), 10.1159/000121830
  101. Ewert J.-P., Burghagen H., Configurational Prey Selection by Bufo, Alytes, Bombina and Hyla, 10.1159/000121834
  102. Ewert J. -P., Burghagen H., Albrecht L., Kepper J., Effects of background structure on the discrimination of configurational moving prey dummies by toadsBufo bufo (L.), 10.1007/bf00609842
  103. Advances in Vertebrate Neuroethology, ISBN:9781468444148, 10.1007/978-1-4684-4412-4
  104. Ewert, Advances in vertebrate neuroethology (1983)
  105. Ewert, Behavioral and Brain Sciences, 10, 122 (1987)
  106. Ewert J. -P., Gebauer L., Größenkonstanzphänomene im Beutefangverhalten der Erdkröte (Bufo bufo L.), 10.1007/bf00694236
  107. Zeil W., Diercksen G., Eichler J., Bauser H., Wolter H., Bornkamm R., M�ller G., M�ller German, Bode H., Druckrey H., Netter H., Moritz K., Schilling E., Steiner M., Buchbesprechungen, 10.1007/bf00606233
  108. Ewert J. -P., H�eter H. -A., Der hemmende Einflu� gleichzeitig bewegter Beuteattrappen auf das Beutefangverhalten der Erdkr�te (Bufo bufo L.), 10.1007/bf00297943
  109. Ewert J.-P., Hock F., Movement-sensitive neurones in the toad's retina, 10.1007/bf00233373
  110. Ewert J. -P., Hock F. J., von Wietersheim A., Thalamus, Praetectum, Tectum: Retinale Topographie und physiologische Interaktionen bei der KröteBufo bufo (L.), 10.1007/bf00694706
  111. Ewert, Gestalt perception in the common toad, I: Innate prey recognition (1982)
  112. Ewert J. -P., Kehl W., Configurational prey-selection by individual experience in the toadBufo bufo, 10.1007/bf00666362
  113. Ewert J. -P., Matsumoto N., Schwippert W. W., Morphological identification of prey-selective neurons in the grass frog's optic tectum, 10.1007/bf00497442
  114. Ewert J.-P., Rehn B., Quantitative Analyse Der Reiz-Reaktionsbeziehungen Bei Visuellem Auslösen Des Fluchtverhaltens Der Wechselkröte (Bufo Viridis Laur.), 10.1163/156853969x00206
  115. Ewert J. -P., Sch�rg-Pfeiffer E., Weerasuriya A., Neurophysiological data regarding motor pattern generation in the medulla oblongata of toads, 10.1007/bf01189189
  116. Ewert J. -P., Speckhardt I., Amelang W., Visuelle Inhibition und Exzitation im Beutefangverhalten der Erdkr�te Bufo bufo (L.), 10.1007/bf00297814
  117. Ewert J.-P., Traud R., Releasing Stimuli for Antipredator Behaviour in the Common Toad Bufo b uFo (L.), 10.1163/156853979x00296
  118. Ewert J. -P., Seelen W. v., Neurobiologie und System-Theorie eines visuellen Muster-Erkennungsmechanismus bei Kr�ten, 10.1007/bf00288919
  119. Ewert J. -P., von Wietersheim A., Musterauswertung durch Tectum- und Thalamus/Praetectum-Neurone im visuellen System der KröteBufo bufo (L.), 10.1007/bf00694502
  120. Ewert J. -P., von Wietersheim A., Einfluß von Thalamus/Praetectum-Defekten auf die Antwort von Tectum-Neuronen gegenüber bewegten visuellen Mustern bei der KröteBufo bufo (L.), 10.1007/bf00694503
  121. Feigenbaum, International Congress of Neuroethology Abstracts, 1, 83 (1986)
  122. Fentress, Advances in vertebrate neuroethology (1983)
  123. Fentress, Motor development in children: Aspects of coordination and control (1986)
  124. Fentress, Handbook of neurvbiology: Developmental processes in psychobiology and neurobiology (1986)
  125. Finkenst�dt T., Adler N. T., Allen T. O., Ebbesson S. O. E., Ewert J. -P., Mapping of brain activity in mesencephalic and diencephalic structures of toads during presentation of visual key stimuli: a computer assisted analysis of (14C)2DG autoradiographs, 10.1007/bf00613968
  126. Finkenst�dt T., Adler N. T., Allen T. O., Ewert J. -P., Regional distribution of glucose utilization in the telencephalon of toads in response to configurational visual stimuli: a14C-2DG study, 10.1007/bf00603792
  127. Finkenst�dt T., Ewert J. -P., Processing of area dimensions of visual key stimuli by tectal neurons inSalamandra salamandra, 10.1007/bf00610346
  128. Finkenst�dt T., Ewert J. -P., Visual pattern discrimination through interactions of neural networks: a combined electrical brain stimulation, brain lesion, and extracellular recording study inSalamandra salamandra, 10.1007/bf00610347
  129. Finkenst�dt Th., Ewert J. -P., Glucose utilization in the toad's brain during anesthesia and stimulation of the ascending reticular arousal system : A 14C-2-deoxyglucose study, 10.1007/bf00490409
  130. Fite, Society for Neuroscience Abstracts, 9, 818 (1983)
  131. Fite, The amphibian visual system: A multidisciplinary approach (1976)
  132. Fodor, The language of thought (1975)
  133. Fodor, Behavioral and Brain Sciences, 3, 63 (1980)
  134. Foreman, Behavioral and Brain Sciences, 10, 101 (1987)
  135. Freeman, Comparative neurology of the optic tectum (1984)
  136. Freisling, Osterreichische Zoologische Zeitschrift (Wien), 1, 383 (1948)
  137. Frost, Analysis of visual behavior (1982)
  138. Fuchs A F, Kaneko C R S, Scudder C A, Brainstem Control of Saccadic Eye Movements, 10.1146/annurev.ne.08.030185.001515
  139. Fukushima Kunihiko, A neural network model for selective attention in visual pattern recognition, 10.1007/bf00363973
  140. Gaillard F., Galand G., Diencephalic binocular wide field neurons in the frog, 10.1007/bf00239146
  141. gallistel, The organization of action: A new synthesis (1980)
  142. Gans, Natural History, 70, 26 (1961)
  143. Garner W. R., To perceive is to know., 10.1037/h0023192
  144. Gaze R. M., THE REPRESENTATION OF THE RETINA ON THE OPTIC LOBE OF THE FROG, 10.1113/expphysiol.1958.sp001318
  145. Gerhardt H. Carl, Mating call recognition in the green treefrog (Hyla cinerea): Importance of two frequency bands as a function of sound pressure level, 10.1007/bf00612792
  146. Getting, Model neural networks and behavior (1985)
  147. Gibson, The perception of the visual world (1950)
  148. Gibson James J., What is a form?, 10.1037/h0055232
  149. Gillette R, Kovac M., Davis W., Command neurons in Pleurobranchaea receive synaptic feedback from the motor network they excite, 10.1126/science.622571
  150. Gilson, René Descartes discours de la méthode: Texte et commentaire (1962)
  151. Gnyubkin, Mechanisms of vision of animals (1978)
  152. Gnyubkin, Biofizika, 20, 725 (1975)
  153. Golani Ilan, Fentress John C., Early ontogeny of face grooming in mice, 10.1002/dev.420180609
  154. Gonzalez-Lima Francisco, Scheich Henning, Functional activation in the auditory system of the rat produced by arousing reticular stimulation: a 2-deoxyglucose study, 10.1016/0006-8993(84)90702-9
  155. Goodale, Behavioral approaches to brain research (1983)
  156. Goodale, Spatially oriented behavior (1983)
  157. Goodale, Analysis of visual behavior (1982)
  158. Gordon, The amphibian visual system: A multidisciplinary approach (1976)
  159. Gould, Scientific American, 256, 62 (1987)
  160. Graybiel Ann M., A satellite system of the superior colliculus: the parabigeminal nucleus and its projections to the superficial collicular layers, 10.1016/0006-8993(78)90870-3
  161. Grobstein Paul, Book reviews, 10.1016/s0003-3472(83)80093-1
  162. Grobstein Paul, The Brain Machine: The Development of Neurophysiological Thought, 10.1001/jama.1986.03370190161043
  163. Grobstein, Advances in neural and behavioral development, 3
  164. Grobstein Paul, Comer Christopher, The nucleus isthmi as an intertectal relay for the ipsilateral oculotectal projection in the frog,Rana pipiens, 10.1002/cne.902170106
  165. Grobstein, Advances in vertebrate neuroethology (1983)
  166. Grobstein, Society for Neuroscience Abstracts, 12, 684 (1986)
  167. Gruberg Edward R., Lettvin Jerome Y., Anatomy and physiology of a binocular system in the frograna pipiens, 10.1016/0006-8993(80)90886-0
  168. Gruberg Edward R., Udin Susan B., Topographic projections between the nucleus isthmi and the tectum of the frog rana pipiens, 10.1002/cne.901790303
  169. Gr�sser O. -J., Gr�sser-Cornehls Ursula, Neurophysiologische Grundlagen visueller angeborener Ausl�semechanismen beim Frosch, 10.1007/bf00298808
  170. Grüsser, Verhandlungen der Deutschen Zoologischen Gesellschaft in Köln, 64, 201 (1970)
  171. Grüsser, Frog neurobiology (1976)
  172. Grüsser-Cornehls, Comparative neurology of the optic tectum (1984)
  173. Guha Kallol, J∅osrgensen C. Barker, Larsen Lis Olesen, Relationship between nutritional state and testes function, together with observations on patterns of feeding, in the toad, Bufo bufo bufo, 10.1111/j.1469-7998.1980.tb04226.x
  174. Guitton D., Crommelinck M., Roucoux A., Stimulation of the superior colliculus in the alert cat : I. Eye movements and neck EMG activity evoked when the head is restrained, 10.1007/bf00237070
  175. Hackett, Behavioral and Brain Sciences, 9, 729 (1986)
  176. Haldane, The philosophical works of Descartes, 2 (1967)
  177. Hanke, Frog neurobiology (1976)
  178. Harnad, Categorical perception: The groundwork of cognition (1987)
  179. Harnad, Categorical perception: The groundwork of cognition (1987)
  180. Hartline, American Journal of Physiology, 130, 690 (1940)
  181. Hebb, The organization of behavior (1949)
  182. Hebb, Psychology: A study of a science, 1 (1959)
  183. Heiligenberg, Advances in vertebrate neuroethology (1983)
  184. Herrick C. Judson, The amphibian forebrain. VIII. Cerebral hemispheres and pallial primordia, 10.1002/cne.900580308
  185. Heusser, Biologisches Zentralblatt, 88, 457 (1959)
  186. Himstedt, Analysis of visual behavior (1982)
  187. Himstedt W., Freidank U., Singer E., Die Veränderung eines Auslösemechanismus im Beutefangverhalten während der Entwicklung von Salamandra salamandra (L.)1, 10.1111/j.1439-0310.1976.tb00480.x
  188. Hinde, Behaviour, 2, 41 (1954)
  189. Hinsche, Zoologischer Anzeiger, 111, 113 (1935)
  190. Hood Donald C, Gordon James, The Frog Ganglion Cell: Not a Feature Detector and Not a Monkey Cortical Cell, 10.1068/p100421
  191. Horn Gabriel, Memory, Imprinting, and the Brain, ISBN:9780198521563, 10.1093/acprof:oso/9780198521563.001.0001
  192. Horridge, Interneurons (1968)
  193. Horridge, Fortschritte der Zoologie, 28, 369 (1983)
  194. Hoyle, Neural theory and modeling (1964)
  195. Identified Neurons and Behavior of Arthropods, ISBN:9781468469691, 10.1007/978-1-4684-6967-7
  196. Hoyle, Behavioral and Brain Sciences, 7, 367 (1984)
  197. Hubel D. H., Wiesel T. N., Receptive fields, binocular interaction and functional architecture in the cat's visual cortex, 10.1113/jphysiol.1962.sp006837
  198. Hubel, Journal of Neurophysiology, 28, 229 (1965)
  199. Huber, Advances in vertebrate neuroethology (1983)
  200. Huber, Scientific American, 253, 46 (1985)
  201. Ingle David, Visual Releasers of Prey-Catching Behavior in Frogs and Toads, 10.1159/000125522
  202. Ingle David J., Prey-catching behavior of anurans toward moving and stationary objects, 10.1016/0042-6989(71)90057-5
  203. Ingle D., Disinhibition of Tectal Neurons by Pretectal Lesions in the Frog, 10.1126/science.180.4084.422
  204. Ingle David, Size preferences for prey-catching in frogs: Relationship to motivational state, 10.1016/s0091-6773(73)80067-7
  205. Ingle D., Two Visual Systems in the Frog, 10.1126/science.181.4104.1053
  206. Ingle D, Focal attention in the frog: behavioral and physiological correlates, 10.1126/science.1170636
  207. Ingle, The amphibian visual system: A multidisciplinary approach (1976)
  208. Ingle David, Detection of stationary objects by frogs (Rana pipiens) after ablation of optic tectum., 10.1037/h0077415
  209. Ingle David J., Some effects of pretectum lesions on the frogs' detection of stationary objects, 10.1016/s0166-4328(80)80054-4
  210. Ingle, Advances in vertebrate neuroethology (1983)
  211. Ingle, Handbook of behavioral neurobiology, 6 (1983)
  212. Ingle, Morphology of tectal efferent neurons: A frog vs. toad comparison (1986)
  213. Ingle David, McKinley David, Effects of stimulus configuration on elicited prey catching by the marine toad (Bufo marinus), 10.1016/0003-3472(78)90154-9
  214. Ingle, Society for Neuroscience Abstracts, 8, 406 (1982)
  215. Ito Hironobu, Butler Albert B., Ebbesson Sven O. E., 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, 10.1002/cne.901910409
  216. Jeannerod Marc, The Brain Machine : The Development of Neurophysiological Thought, ISBN:9780674181205, 10.4159/harvard.9780674181205
  217. John E R, Schwartz E L, The Neurophysiology of Information Processing and Cognition, 10.1146/annurev.ps.29.020178.000245
  218. Jung, Handbuch der inneren Medizin, Vol VII Neurologie I (1953)
  219. Kandel, Neurosciences research program bulletin 17: Cellular mechanisms in the selection and modulation of behavior (1979)
  220. Karten, Cytological methods in neuroanatomy (1982)
  221. Katte Oliver, Hoffmann Klaus -Peter, Direction specific neurons in the pretectum of the frog (Rana esculenta), 10.1007/bf00613747
  222. Kicliter, Frog neurobiology (1976)
  223. Kirschfeldt, Fortschritte der Zoologie, 21, 229 (1973)
  224. Kondrashev, Akademija Nank, Zoologisheskij Zhurnal, 55, 1576 (1976)
  225. Kondrashev, Problems of herpetology. Proceedings of the 6th All-Union Herpetological Conference (1985)
  226. Kondrashev, Mechanisms of vision of animals (1978)
  227. Kondrashev, Zoologicheskij Zhurnal, 55, 1027 (1976)
  228. Konishi M, Birdsong: From Behavior to Neuron, 10.1146/annurev.ne.08.030185.001013
  229. Konorski, Integrative activity of the brain (1967)
  230. Kostyk Sandra K., Grobstein Paul, Visual orienting deficits in frogs with various unilateral lesions, 10.1016/0166-4328(82)90019-5
  231. Kuljis Rodrigo O., Karten Harvey J., Laminar organization of peptide-like immunoreactivity in the anuran optictectum, 10.1002/cne.902120208
  232. Kupfermann I., Castellucci V., Pinsker H., Kandel E., Neuronal Correlates of Habituation and Dishabituation of the Gill-Withdrawal Reflex in Aplysia, 10.1126/science.167.3926.1743
  233. Kupfermann, Behavioral and Brain Sciences, 1, 3 (1978)
  234. Laming Peter Richard, Ewert Jörg Peter, The effects of pretectal lesions on neuronal, sustained potential shift and electroencephalographic responses of the toad tectum to presentation of a visual stimulus, 10.1016/0300-9629(83)90322-5
  235. Lara Rolando, Arbib Michael A., A model of the neural mechanisms responsible for pattern recognition and stimulus specific habituation in toads, 10.1007/bf00337148
  236. Lara, Competition and cooperation in neural nets (1982)
  237. Lashley, Cerebral mechanisms in behavior (1951)
  238. Lázár, Acta Biologica Academiae Scientiarum Hungaricae, 20, 171 (1969)
  239. Lázár, Acta Morphologica Academiae Scientiarum Hungaricae, 19, 325 (1971)
  240. Lázár G., Role of the Accessory Optic System in the Optokinetic Nystagmus of the Frog, 10.1159/000123761
  241. Lázár, Recent development of biology in Hungary, 8 (1979)
  242. Lázár, Comparative neurology of the optic tectum (1984)
  243. Lázár Gy., Tóth P., Csank Gy., Kicliter E., Morphology and location of tectal projection neurons in frogs: A study with hrp and cobalt-filling : MORPHOLOGY OF FROG TECTAL PROJECTION NEURONS, 10.1002/cne.902150109
  244. Lettvin, Proceedings of the Institute of Radio Engineers, 47, 1940 (1959)
  245. Lettvin, Sensory communication (1961)
  246. Llinás R, Yarom Y, Oscillatory properties of guinea-pig inferior olivary neurones and their pharmacological modulation: an in vitro study., 10.1113/jphysiol.1986.sp016147
  247. Lorenz Konrad, Der Kumpan in der Umwelt des Vogels : Der Artgenosse als auslösendes Moment sozialer Verhaltungsweisen, 10.1007/bf01905355
  248. Lorenz Konrad, Die angeborenen Formen möglicher Erfahrung, 10.1111/j.1439-0310.1943.tb00655.x
  249. Manning, An introduction to animal behaviour (1979)
  250. Tung, Worte des Vorsitzenden (1971)
  251. Masino, Society for Neuroscience Abstracts, 11, 289 (1985)
  252. Masino, Society for Neuroscience Abstracts, 12, 684 (1986)
  253. Neural Coding of Motor Performance, ISBN:9783642689178, 10.1007/978-3-642-68915-4
  254. Matsumoto, Proceedings of the 6th Annual Meeting of the Japanese Society for General Comparative Physiology Abstract, 6, 169 (1984)
  255. Matsumoto N., Schwippert W. W., Ewert J. -P., Intracellular activity of morphologically identified neurons of the grass frog's optic tectum in response to moving configurational visual stimuli, 10.1007/bf00603726
  256. Maturana H. R., Anatomy and Physiology of Vision in the Frog (Rana pipiens), 10.1085/jgp.43.6.129
  257. Maximov Vadim V., Orlov Oleg Yu., Reuter Tom, Chromatic properties of the retinal afferents in the thalamus and the tectum of the frog (Rana temporaria), 10.1016/0042-6989(85)90092-6
  258. McCormick D., Thompson R., Cerebellum: essential involvement in the classically conditioned eyelid response, 10.1126/science.6701513
  259. Mcllwain, Journal of Neurophysiology, 38, 219 (1975)
  260. Megela A. L., Borchers H. -W., Ewert J. -P., Relation between activity of tectal neurons and prey-catching behavior in toads Bufo bufo, 10.1007/bf00365516
  261. Meredith, Journal of Neurophysiology, 56, 640 (1986)
  262. Milson, British Journal of Pharmacology, 59, 484P (1977)
  263. Mountcastle, Journal of Neurophysiology, 20, 403 (1957)
  264. Mufson, Society for Neuroscience Abstracts, 11, 1238 (1985)
  265. Murphey, Journal of Comparative Physiology A, 158, 585 (1986)
  266. Nagel Thomas, What Is It Like to Be a Bat?, 10.2307/2183914
  267. Neary Timothy J., Northcutt R. Glenn, Nuclear organization of the bullfrog diencephalon, 10.1002/cne.902130303
  268. Nieuwenhuys, Frog neurobiology (1976)
  269. Nolen T., Hoy R., Initiation of behavior by single neurons: the role of behavioral context, 10.1126/science.6505681
  270. Northcutt, Comparative neurology of the telencephalon (1980)
  271. Orlov, Mechanisms of vision of animals (1978)
  272. Orlov, Sensory systems (1982)
  273. Parent A., Distribution of monoamine-containing neurons in the brain stem of the frog,Rana temporaria, 10.1002/jmor.1051390105
  274. Patton, Society for Neuroscience Abstracts, 12, 106 (1986)
  275. Pearl Judea, Tarsi Michael, Structuring causal trees, 10.1016/0885-064x(86)90023-3
  276. Pearson, Feedback and motor control in invertebrates and vertebrates (1985)
  277. Perrett, Advances in vertebrate neuroethology (1983)
  278. Pilleri, Brain pathology, 1 (1984)
  279. Porter, Herpetology (1972)
  280. Ramon y Cajal, Die Retina der Wirbeltiere (1894)
  281. Reiner Anton, Brauth Steven E, Karten Harvey J., Evolution of the amniote basal ganglia, 10.1016/s0166-2236(84)80080-6
  282. Reiner Anton, Brauth Steven E., Kitt Cheryl A., Karten Harvey J., Basal ganglionic pathways to the tectum: Studies in reptiles, 10.1002/cne.901930217
  283. Reiner Anton, Karten Harvey J., Brecha Nicholas C., Enkephalin-mediated basal ganglia influences over the optic tectum: Immunohistochemistry of the tectum and the lateral spiriform nucleus in pigeon, 10.1002/cne.902080104
  284. Ritzmann Roy E., Pollack Alan J., Identification of thoracic interneurons that mediate giant interneuron-to-motor pathways in the cockroach, 10.1007/bf00612037
  285. RITZMANN R. E., TOBIAS M. L., FOURTNER C. R., Flight Activity Initiated via Giant Interneurons of the Cockroach: Evidence for Bifunctional Trigger Interneurons, 10.1126/science.210.4468.443
  286. Roberts, Neural origin of rhythmic movements (1983)
  287. Roeder, Smithsonian Miscellaneous Collections, 137, 287 (1959)
  288. Rolls, New frontiers in brain research (1987)
  289. Rose, Society for Neuroscience Abstracts, 12, 200 (1986)
  290. Roth Gerhard, Experimental analysis of the prey catching behavior ofHydromantes italicus Dunn (Amphibia, Plethodontidae), 10.1007/bf00663434
  291. Roth G., Responses in the optic tectum of the salamanderHydromantes italicus to moving prey stimuli, 10.1007/bf01208598
  292. Roth, Predator-prey relationships (1986)
  293. Roth Gerhard, Visual Behavior in Salamanders, ISBN:9783642727153, 10.1007/978-3-642-72713-9
  294. Roth G., Jordan M., Response characteristics and stratification of tectal neurons in the toadBufo bufo (L.), 10.1007/bf01208599
  295. Roucoux A., Guitton D., Crommelinck M., Stimulation of the superior colliculus in the alert cat : II. Eye and head movements evoked when the head is unrestrained, 10.1007/bf00237071
  296. Rubinson Kalman, Projections of the Tectum Opticum of the Frog; pp. 529–544, 10.1159/000125524
  297. Rumelhart, Parallel distributed processing (1986)
  298. Russell D., Hartline D., Bursting neural networks: a reexamination, 10.1126/science.644309
  299. Satou M., Ewert J. -P., Specification of tecto-motor outflow in toads by antidromic stimulation of tecto-bulbar/spinal pathways, 10.1007/bf00365991
  300. Satou Masahiko, Ewert J�rg -Peter, The antidromic activation of tectal neurons by electrical stimuli applied to the caudal medulla oblongata in the toad,Bufo bufo L., 10.1007/bf01350071
  301. Satou, Zoological Science, 1, 829 (1984)
  302. Scalia, Frog neurobiology (1976)
  303. Scheich, Advances in vertebrate neuroethology (1983)
  304. Schildberger Klaus, Temporal selectivity of identified auditory neurons in the cricket brain, 10.1007/bf00612635
  305. Schleidt Wolfgang M., Reaktionen von Truthühnern auf fliegende Raubvögel und Versuche zur Analyse ihrer AAM's, 10.1111/j.1439-0310.1961.tb00241.x
  306. Schleidt Wolfgang, Die historische Entwicklung der Begriffe „Angeborenes auslösendes Schema” und „Angeborener Auslösemechanismus” in der Ethologie, 10.1111/j.1439-0310.1962.tb00800.x
  307. Schleidt Wolfgang M., How “Fixed” is the Fixed Action Pattern?, 10.1111/j.1439-0310.1974.tb02131.x
  308. Schneider, Biologisches Zentralblatt, 73, 225 (1954)
  309. Schneider G. E., Two Visual Systems, 10.1126/science.163.3870.895
  310. Sch�rg-Pfeiffer E., Ewert J. -P., Investigation of neurons involved in the analysis of gestalt prey features in the frogRana temporaria, 10.1007/bf01342660
  311. Schippert, New frontiers in brain research (1987)
  312. Selverston, Behavioral and Brain Sciences, 3, 535 (1980)
  313. Shinn, Herpetologia, 34, 167 (1978)
  314. Sjölund, Brain stem control of spinal mechanisms (1982)
  315. Sklansky Jack, Wassel Gustav N., Pattern Classifiers and Trainable Machines, ISBN:9781461258407, 10.1007/978-1-4612-5838-4
  316. Sparks, Physiological Reviews, 66, 118 (1986)
  317. Sprague J. M., Interaction of Cortex and Superior Colliculus in Mediation of Visually Guided Behavior in the Cat, 10.1126/science.153.3743.1544
  318. Stellar Eliot, The physiology of motivation., 10.1037/h0060347
  319. Suga, Dynamic aspects of neocortical function (1984)
  320. Székely, Journal of Embryology and Experimental Morphology, 11, 431 (1963)
  321. Székely, Handbook of sensory physiology, 7 (1973)
  322. Székely, Acta Physiologica Academiae Sdentiarum Hungaricae, 40, 303 (1971)
  323. Székely, Frog neurobiology (1976)
  324. Székely, Frog neurobiology (1976)
  325. Székely, Experimental Brain Research, 53, 109 (1983)
  326. Szentágothai, Recent developments of neurobiology in Hungary, 1 (1967)
  327. Szentágothai, Neurosdences research program bulletin (1974)
  328. Thompson, Neural mechanisms in behavior, II (1980)
  329. Thompson, Brain and learning (1978)
  330. Thompson Richard F., Spencer William A., Habituation: A model phenomenon for the study of neuronal substrates of behavior., 10.1037/h0022681
  331. Tinbergen, Wilson Bulletin, 60, 6 (1948)
  332. Tinbergen, The study of instinct (1951)
  333. Tinbergen N., Kuenen D. J., Über die auslösenden und die richtunggebenden Keiz-situationen der Sperrbewegung von jungen Drosseln (Turdus m. merula L. und T. e. ericetorum Turton)1, 10.1111/j.1439-0310.1939.tb00603.x
  334. Tóth, Journal fur Hirnforschung, 26, 365 (1985)
  335. Trachtenberg M.C., Ingle D., Thalamo-tectal projections in the frog, 10.1016/0006-8993(74)90439-9
  336. Tsai H. J., Ewert J. -P., Edge preference of retinal and tectal neurons in common toads (Bufo bufo) in response to worm-like moving stripes: the question of behaviorally relevant ?position indicators?, 10.1007/bf00615249
  337. von Frey M., Physiologie der Sinnesorgane der menschlichen Haut, 10.1007/bf02321130
  338. von Hoist, Ergebnisse der Physiologie, 13, 228 (1939)
  339. von Holst Erich, Mittelstaedt Horst, Das Reafferenzprinzip : Wechselwirkungen zwischen Zentralnervensystem und Peripherie, 10.1007/bf00622503
  340. von Seelen, Kybernetik, 7, 43 (1970)
  341. von Seelen, Biokybernetik V (1973)
  342. von Uexküll, Umtvelt und Innenwelt der Tiere (1909)
  343. v. Wietersheim A., Ewert J. -P., Neurons of the toad's (Bufo bufo L.) visual system sensitive to moving configurational stimuli: A statistical analysis, 10.1007/bf01342648
  344. Weerasuriya, Advances in vertebrate neuroethology (1983)
  345. Weerasuriya A., Ewert J. -P., Prey-selective neurons in the toad's optic tectum and sensorimotor interfacing: HRP studies and recording experiments, 10.1007/bf01326828
  346. Weerasuriya, Society for Neuroscience Abstracts, 9, 536 (1983)
  347. Wehner, Fortschritte der Zoologie, 21, 258 (1973)
  348. Wiersma C.A.G., Ikeda K., Interneurons commanding swimmeret movements in the crayfish, Procambarus clarki (girard), 10.1016/0010-406x(64)90153-7
  349. Wilczynski Walt, Northcutt R. Glenn, Afferents to the optic tectum of the leopard frog: An HRP study, 10.1002/cne.901730202
  350. Wilczynski Walter, Northcutt R. Glenn, Connections of the bullfrog striatum: Efferent projections, 10.1002/cne.902140310
  351. Wilczynski Walter, Northcutt R. Glenn, Connections of the bullfrog striatum: Afferent organization, 10.1002/cne.902140309
  352. Wine, The biology of Crustacea, 4 (1982)
  353. Wurtz, Neurosdences research program bulletin, 17 (1979)
  354. Zucker, Handbook of behavioral neurobiology, 6 (1983)
  355. Zusne, Visual perception of form (1970)