Основы сенсорной физиологии - Тамар Г.
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281, 109—121 (1964).
158. Гусельникова К¦ Г., Воронков Г. С., Ортодромный потенциал и вызванная ритмическая активность обонятельной луковицы лягушки, Биол. иаука, 4, 101—105 (1966).
159. Гусельникова К. Г., Воронков Г. С., Цитоловский Л. Е., Энговатов В. В., Внутриклеточное и фармакологическое исследование вызванных волн обонятельной луковицы лягушки, Биол. наука, 10, 28—34 (1968).
160. Haft J. S., Harman P. J., Evidence for central inhibition of retinal function, Vision Res., 7, 499—501 (1967).
161. Hall J. L., Binaural interaction in the accessory superior-olivary nucleus of the cat, J. Acoust. Soc. Amer., 37, 814—823 (1965).
162^ Halt, II J. L., Goldstein М. H., Jr., Representation of binaural stimuli by single units in primary auditory cortex of unanesthetized cats, J. Acoust. Soc. Amer., 43, 456—461 (1968).
163. Halpem B. P., Some Relationspips Between Electrophysilogy and Behavior in Taste, in: Kare M. R., Mailer O. (eds.). The Chemical Senses and Nutrition, Baltimore, Johns Hopkins, pp. 213—241, 1967.
164. Halpem B. P., Nelson L. М., Bulbar gustatory responses to anterior and to posterior tongue stimulation in the rat, Amer. J. Physiol., 209, 105—110 (1965).
165. Halpem B. P., Postles D. H., Facilitation of gustatory responses in the frog, Fed. Proc., 26, 544 (1967).
166. Hammond P., Spectral properties of dark-adapted retinal ganglion cells in the plaice (Pleuronectes platessa L.), J. Physiol. (London), 195, 535— 556 (1968).
167. Нага T. J., Electrophysiological studies of the olfactory system of the goldfish, Carassius auratus L.-II. Response patterns of the olfactory bulb neurones to chemical stimulation and their centrifugal control, Comp. Biochem. Physiol., 22, 199—208 (1967).
168. Harris G. G., Flock A., Spontaneous and Evoked Activity from the Xeno-pus laevis Lateral Line, in: Cahn P. H. (ed.), Lateral Line Detectors. Bloomington, Indiana U. Pr., pp. 135—161 (1967).
169. Hartline H. K., Visual receptors and retinal interaction. Science, 164, 270— 278 (1969).
170. Hartline H, K-, Ratliff F., Miller W. H., Inhibitory Interaction in the Retina and Its Significance in Vision, in: Florey E. (ed.), Nervous Inhibition Proceedings Second Friday Harbor Symposium, Oxford, Pergamon, pp. 241—284, 1961.
171. Heimer L., Synaptic distribution of centripetal and centrifugal nerve fibres in the olfactory system of the rat. An experimental anatomical study, J. Anat., 103, 413—432 (1968).
172. Hellekant G., Inhibitory processes in gustation, Acta Physiol. Scand.. 75, 39—48 (1969).
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173. Hendrickson A., Landolt’s club in the amphibian retina: A Golgi and electron microscope study, Invest. Ophthal., 5, 484—496 (1966).
174. Hernandez-Peon R., Scherrer H., Jouvet М., Modification of electric activity in cochlear nucleus during «attention» in unanesthetized cats, Science,
123, 331—332 (1956).
175. Herrick C. J., The amphibian forebrain. 11. The olfactory bulb of Ambysto-ma, J. Comp. Neurol., 37, 373—396 (1924).
176. Hind J. E., Anderson D. Brugge J. F., Rose J. E., Coding of information pertaining to paired low-frequency tones in single auditory nerve fibers of the squirrel monkey, J. Neurophysiol., 30, 794—816 (1967).
177. Hiwatashi K., Yasuda М., Nagata S., A model of the receptive fields in the vertebrate visual system, Digest, 7th Int. Conf. Med. Biol. Eng., Stockholm, 36—5, 478 (1967).
178. Holden A. L., Two possible visual functions for centrifugal fibres to the retina, Nature, 212, 837—838 (1966a).
179. Holden A. L., An investigation of the centrifugal pathway to the pigeon retina, J. Physiol. (London), 186, 133P (1966b).
180. Holden A. L., Antidromic activation of the isthmooptic nucleus, J. Physiol. (London), 197, 183—198 (1968a).
181. Holden A. L., The Centrifugal system running to the pigeon retina, J. Physiol. (London), 197, 199—219 (1968b).
182. Hofta Т., Kameda K., Interactions between somatic and visual or auditory responses in the thalamus of the cat, Exp. Neurol., 8, 1 (1963).
183. Hubei D. H., The visual cortex of the brain, Sci. Amer., 209, 54—62
(1963).
184. Hubei D. H., Wisel T. N., Receptive fields, binocular interaction and functional architecture in the cat’s visual cortex, J. Physiol. (London), 160, 106—154 (1962).
185. Hubei D. H., Wiesel T. N., Responses of monkey geniculate cells to monochromatic and white spots of light, Physiologist, 7, 162—163 (1964).
186. Hubei D. H., Wisel T. N,, Receptive fields and functional architecture of monkey striate cortex, J. Physiol. (London), 195, 215—243 (1968).
187. Huggins S. E., Parsons L. C., Pena R. V., Further study of the spontaneous electrical activity of the brain of Caiman sclerops; Olfactory lobes, Physiol. Zool., 41, 371—383 (1968).
187a. Hughes G. W., Maffei L., Retinal ganglion cell response to sinusoidal light stimulation, J. Neurophysiol., 29, 333—352 (1966).
188. Hughes J. R., Hendrix D. E., Wetzel N., Evidence from the Human Olfactory Bulb for the Frequency Component Hypothesis, in: Tanyola? N. N. (ed.), Theories of Odor and Odor Measurement, Tanyola? N. N., Robert College Research Center, Bebek, Istanbul, pp. 87—111 (1968).
