Skip to main content Accessibility help
×
Home

The parcellation theory: What does the evidence tell us?

  • Walter Wilczynski (a1)

Abstract

  • An abstract is not available for this content so a preview has been provided below. Please use the Get access link above for information on how to access this content.

Copyright

References

Hide All
Alberch, P. (1982a) The generative and regulatory role of development in evolution. In: Environmental adaptation and evolution, ed. Mossakowski, D. & Roth, G.. Stuttgart: Gustav Fisher. [PA]
Alberch, P. (1982b) Developmental constraints in evolutionary processes. In: Evolution and development, ed. Bonner, J. T.. Dahlem Conference Report no. 20. [PA]
Allman, J. M. & Kaas, J. H. (1971) A representation of the visual field in the posterior third of the middle temporal gyrus of the owl monkey (Aotus trivirgatus). Brain Research 31: 85105. [JHK]
Ariëns Kappers, C. U., Huber, G. C. & Crosby, E. C. (1960) The comparative anatomy of the nervous system of vertebrates, including man. Hafner; original 1936. [DF]
Armstrong, E. & Falk, D., eds. (1982) Primate brain evolution: Methods and concepts. Plenum Publishers. [DF]
Bell, C. (1811) Idea of a new anatomy of the brain submitted for the observations of my friends. London: Strahan and Preston. [ER-M]
Bergmann, G. (1958) Philosophy of science. University of Wisconsin Press. [CBGC]
Berkley, K. J. (1975) Different targets of different neurons in nucleus gracilis of the cat. Journal of Comparative Neurology 163: 285304. [rSOEE]
Bishop, G. H. (1959) The relation between nerve fiber size and sensory modality: Phylogenetic implications of the afferent innervation of cortex. Journal of Nervous and Mental Disease 128: 89114. [ITD, rSOEE]
Bock, W. J. (1981) Functional-adaptive analysis in evolutionary classification. American Zoologist 21: 520. [LSD]
Bohn, R. C. & Stelzner, D. J. (1979) Aberrant retino-retinal pathway during early stages of regeneration in adult Rana pipiens. Brain Research 160: 139–44. [JHK]
Brickner, R. M. (1929) A description and interpretation of certain parts of the teleostean midbrain and thalamus. Journal of Comparative Neurology 47: 225–82. [HI]
Bunt, S. M., Lund, R. D. & Land, P. W. (1983) Prenatal development of the optic projection in albino and hooded rats. Developmental Brain Research 6: 149–68. [PGHC]
Butler, A. B. (1974) Retinal projections in the night lizard, Xantusia vigilis Baird. Brain Research 80: 116–21. [taSOEE]
Butler, A. B. & Ebbesson, S. O. E. (1975) A Golgi study of the optic tectum of the Tegu lizard, Tupinambis nigropunctatus. Journal of Morphology 146: 215–28. [taSOEE]
Butler, A. B. & Northcutt, R. G. (1978) New thalamic visual nuclei in lizards. Brain Research 149: 469–76. [rSOEE, WW]
Calvin, W. H. (1983a) The throwing madonna: Essays on the brain. McGraw-Hill. [WHC]
Calvin, W. H. (1983b) A stone's throw and its launch window: Timing precision and its implications for language and hominid brains. Journal of Theoretical Biology 104: 121–35. [WHC]
Calvin, W. H. (1984) Why bigger brains? Hominid throwing and the Law of Large Numbers (submitted for publication). [WHC]
Campbell, C. B. G. (1972) Evolutionary patterns in mammalian diencephalic visual nuclei and their fiber connections. Brain, Behavior and Evolution 6: 218–36. [rSOEE]
Campbell, C. B. G., Jane, J. A. & Yashon, D. (1967) The retinal projections of the tree shrew and hedgehog. Brain Research 5: 406–18. [taSOEE]
Campbell, N. (1952) What is science? Dover. [CBG]
Carstens, E. & Trevino, D. L. (1978a) Anatomical and physiologicalproperties of ipsilaterally projecting spinothalamic neurons in the second cervical segment of the cat's spinal cord. Journal of Comparative Neurology 182: 157–84. [WDW]
Carstens, E. & Trevino, D. L. (1978b) Laminar origins of spinothalamic projections in the cat as determined by the retrograde transport of horseradish peroxidase. Journal of Comparative Neurology 182: 151–66. [WDW]
Cassirer, E. (1955) The philosophy of symbolic forms. Volume 1: Language. Yale University Press. [JJK]
Cavalcante, L. A. & Rocha-Miranda, C. E. (1978) Postnatal development of retinogeniculate, retinopretectal and retinotectal projections in the opossum. Brain Research 146: 231–48. [taSOEE]
Chow, K. L., Baumbach, H. D. & Lawson, R. (1981) Callosal projections of the striate cortex in the neonatal rabbit. Experimental Brain Research 42: 122–26. [GMI]
Chung, S.-H & Cooke, J. (1975) Polarity of structure and of ordered nerve connections in the developing amphibian brain. Nature 258: 126–32. [JHK]
Clairambault, P. (1976) Development of the prosencephalon. In: Frog neurobiology, ed. Llinas, R. & Precht, W.. Springer-Verlag. [JPE]
Clarke, P. G. H. (1981) Chance, repetition and error in the development of normal nervous systems. Perspectives in Biology and Medicine 25: 219. [tarSOEE]
Clarke, P. G. H. & Cowan, W. M. (1976) The development of the isthmo-optic tract in the chick, with special reference to the occurrence and correction of developmental errors in the location and connections of isthmo-optic neurons. Journal of Comparative Neurology 167: 143–64. [PGHC, taSOEE]
Clarke, S. & Innocenti, G. M. (1983) Bilateral transitory projections from auditory to visual areas in kittens. Neuroscience Abstracts 9: 376. [rSOEE, GMI]
Coggeshall, R. E. (1980) Law of separation of functions of the spinal roots. Physiological Review 60: 716–55. [ER-M]
Cohen, D. H., Duff, T. A. & Ebbesson, S. O. E. (1973) Electrophysiological identification of a visual area in shark telencephalon. Science 182: 492–94. [tarSOEE]
Conrad, C. D. & Stumpf, W. E. (1975) Direct visual input to the limbic system: Crossed retinal projections to the nucleus anterodorsalis thalami in the tree shrew. Experimental Brain Research 23: 141–49. [rSOEE]
Constantine-Paton, M. (1981) Induced ocular-dominance zones in tectal cortex. In: The Organization of cerebral cortex, ed. Schmitt, F. O., Worden, F. G., Adelman, G., & Dennis, S. G., MIT Press. [JHK]
Constantine-Paton, M. & Capranica, R. R. (1975) Central projection of optictract from translocated eyes in the leopard frog (Rana pipiens). Science 189: 480–82. [rSOEE, JHK]
Cowan, W. M. (1973) Neuronal death as a regulative mechanism in the control of cell number in the nervous system. In: Development and aging in the nervous system, ed. Rockstein, M.. Academic Press. [taSOEE]
Cowan, W. M., Adamson, L. & Powell, T. P. S. (1961) An experimental study of the avian visual system. Journal of Anatomy 95: 545–63. ]taSOEE]
Cowan, W. M. & Clarke, P. G. H. (1976) The development of the isthmo-optic nucleus. Brain, Behavior and Evolution 13: 345–75. [taSOEE]
Cowan, W. M., Gottlieb, D. I., Hendrickson, A. E., Price, J. L. & Woolsey, T. A. (1972) The autoradiographic demonstration of axonal connections in the central nervous system. Brain Research 37: 2151. [taSOEE]
Coxeter, H. S. M. (1961) Introduction to geometry. John Wiley. [JJK]
Crapon de Caprona, M.-D. & Fritzsch, B. (1983) The development of the retinopetal nucleus olfacto-retinalis of two cichlid fish as revealed by horseradish peroxidase. Developmental Brain Research. In press. [BF]
Cunningham, T. J. (1976) Early eye removal produces excessive bilateral branching in the rat: Application of cobalt filling method. Science 194: 857–59. [PDM]
Cusick, C. G. & Kaas, J. H. (1982) Retinal projections in adult and newborngray squirrels. Developmental Brain Research 4: 275–85. [taSOEE]
Dacey, D. M. & Ulinski, P. S. (1983) Nucleus rotundus in a snake (Thamnophis sirtalis). Journal of Comparative Neurology. In press. [CBGC]
D'Amato, C. J. & Hicks, S. P. (1978) Normal development and post-traumatic plasticity of corticospinal neurons in rats. Experimental Neurology 60: 557–69. [taSOEE]
Devor, M. (1976) Neuroplasticity in the rearrangement of olfactory tract fibers after neonatal transection in hamsters. Journal of Comparative Neurology 166: 3148. [GES]
Diamond, I. T. & Hall, W. C. (1969) Evolution of neocortex. Science 164: 251–62. [ITD, tarSOEE, GES]
Diamond, M. C, Krech, D. & Rosenzweig, M. R. (1964) The effects ofenriched environment on the histology of the rat cerebral cortex. Journal of Comparative Neurology 123: 111–19. [DF]
Distel, H. & Hollander, H. (1980) Autoradiographic tracing of developing subcortical projections of the occipital region in fetal rabbits. Journal of Comparative Neurology 192: 505–18. [taSOEE, GMI]
Dobzhansky, T. (1951) Genetics and the origin of species, 3rd ed.Columbia University Press. [RGN]
Donoghue, J. P., Kerman, K. L. & Ebner, F. F. (1979) Evidence for two organizational plans within the somatic sensory-motor cortex of the rat. Journal of Comparative Neurology 183: 647–64. [taSOEE, JHK]
DuBrul, E. L. (1971) On the phylogeny and ontogeny of the human larynx: A morphological and functional study. Evolution 25: 739–40. [rSOEE]
Ebbesson, S. O. E. (1967) Ascending axon degeneration following hemisection of the spinal cord in the Tegu lizard, Tupinambis nigropunctatus. Brain Research 5: 178206. [tarSOEE]
Ebbesson, S. O. E. (1968) Retinal projections in two teleost fishes, Opsanus tau and Gymnothorax funebris: An experimental study with silver impregnation methods, Brain. Behavior and Evolution 1: 134–54. [taSOEE]
Ebbesson, S. O. E. (1969) Brainstem afferents from the spinal cord in a sample of reptilian and amphibian species. Annals of the New York Academy of Sciences 167: 80101. [tarSOEE]
Ebbesson, S. O. E. (1970a) Selective silver impregnation of degenerating axoplasm in poikilothermic vertebrates. In: Contemporary research methods in neuroanatomy, ed. Nauta, J. H. W. & Ebbesson, S. O. E.. Springer-Verlag. [tarSOEE]
Ebbesson, S. O. E. (1970b) On the organization of central visual pathways in vertebrates. Brain, Behavior and Evolution 3: 178–94. [taSOEE]
Ebbesson, S. O. E. (1972a) New insights into the organization of the shark brain. Comparative Biochemistry and Physiology 42A: 121–29. [tarSOEE]
Ebbesson, S. O. E. (1972b) A proposal for a common nomenclature for some optic nuclei in vertebrates and the evidence for a common origin of two such cell groups. Brain, Behavior and Evolution 6: 7591. [tarSOEE, TEF]
Ebbesson, S. O. E. (1976a) Morphology of the spinal cord. In: Frog neurobiology, ed. Llinas, R. & Precht, W.. Springer-Verlag. [taSOEE]
Ebbesson, S. O. E. (1976b) Organization of the ranid spinal cord. In: Frog neurobiology. ed. Llinas, R. & Precht, W.. Springer-Verlag. [rSOEE]
Ebbesson, S. O. E. (1978) Somatosensory pathways in lizards: The identification of the medial lemniscus and related structures. In: Lizard neurology and behavior, ed. MacLean, P. D. & Greenberg, N.. DHEW Publication No. (ADM) 77–491. [tarSOEE]
Ebbesson, S. O. E. (1980a) A visual thalamotelencephalic pathway in a teleost, Holocentrusrufus. Cell and Tissue Research 213: 505–8. [taSOEE]
Ebbesson, S. O. E. (1980b) The parcellation theory and its relation to interspecific variability in brain organization, evolutionary and ontogenetic development, and neuronal plasticity. Cell and Tissue Research 213: 179212. [THB, CBGC, tarSOEE, GMI, RGN]
Ebbesson, S. O. E. (1980c) On the organization of the telencephalon in elasmobranchs. In: Comparative neurology of the telencephalon, ed. Ebbesson, S. O. E.. Plenum Press. [tarSOEE, PDM]
Ebbesson, S. O. E. (1981) Interspecific variability in brain organization and its possible relation to evolutionary mechanisms. In: Brain mechanisms of behavior in lower vertebrates, ed. Laming, P.. Cambridge University Press. [tarSOEE] (in preparation) Brain development and parcellation. [rSOEE]
Ebbesson, S. O. E. & Campbell, C. B. G. (1973) On the organization of cerebellar efferent pathways in the nurse shark, Ginglymostoma cirratum. Journal of Comparative Neurology 152: 233–55. [tarSOEE]
Ebbesson, S. O. E. & Goodman, D. C. (1981) The organization of ascending spinal projections in Caiman crocodilus. Cell and Tissue Research 215: 383–95. [tarSOEE]
Ebbesson, S. O. E. & Heimer, L. (1968) Olfactory bulb projections in two species of sharks (Galcocerdo cuvieri and Cinglymostoma cirratum). Anatomical Record 160: 469. [rSOEE]
Ebbesson, S. O. E. & Heimer, L. (1970) Projections of the olfactory tract fibers in the nurse shark, Ginglymostoma cirratum. Brain Research 17: 4755. [taSOEE, TEF]
Ebbesson, S. O. E. & Hodde, K. (1981) Ascending spinal systems in the nurse shark, Ginglymostoma cirratum. Cell and Tissue Research 216: 313–31. [tarSOEE]
Ebbesson, S. O. E. & Ito, H. (1980) Bilateral retinal projections in the black piranha, Serrasalmus niger. Cell and Tissue Research 213: 483–95. [taSOEE]
Ebbesson, S. O. E., Jane, J. A. & Schroeder, D. M. (1972) A general overview of major interspecific variations in thalamic organization. Brain, Behjvior and Evolution 6: 92130. [tarSOEE, WW]
Ebbesson, S. O. E. & Karten, H. J. (1981) Retinal projections in the Tegulizard, Tupinambis nigropunctatus. Cell and Tissue Research 215: 591606. [taSOEE]
Ebbesson, S. O. E. & Meyer, D. L. (1981). Efferents to the retina have multiple sources in teleost fish. Science 214: 924–26. [PGHC, taSOEE]
Ebbesson, S. O. E., Meyer, D. & Scheich, H. (1981) The olfactory system of the black piranha, Serrasalmus nattereri. Cell and Tissue Research 216: 167–80. [taSOEE]
Ebbesson, S. O. E. & Northcutt, R. G. (1975) Neurology of anamniotic vertebrates. In: Evolution of Brain and Behavior, ed. Masterton, B. et al. Lawrence Erlbaum Associates. [taSOEE]
Ebbesson, S. O. E. & Ramsey, J. S. (1968) The optic tracts in two species of sharks (Galcocerdo cuvieri and Ginglymostoma cirratum). Brain Research 8: 3653. [rSOEE]
Ebbesson, S. O. E. & Schroeder, D. M. (1971) Connections of the nurse shark's telencephalon. Science 173: 254–56. [tarSOEE]
Ebbesson, S. O. E., Schroeder, D. M. & Butler, A. B. (1975) The Golgi method and the revival of comparative neurology. In: Golgi centennial symposium, ed. Santini, M.. Raven Press. [taSOEE]
Ebner, F. F. (1969) A comparison of primitive forebrain organization in metatherian and eutherian mammals. Annals of the New York Academyof Sciences 167: 241–57. [taSOEE]
Ebner, F. F. & Myers, R. E. (1965) Distribution of the corpus callosum and anterior commissure in cat and raccoon. Journal of Comparative Neurology 124: 353–66. [taSOEE]
Eccles, J. C., Ito, M. & Szentágothai, J. (1967) The cerebellum as a neuronal machine. Springer-Verlag. [JS]
Eichler, V. B. & Porter, R. A. (1981) Rohon-Beard cells in frog development: A study of temporal and spatial changes in a transient cell population. Journal of Comparative Neurology 203: 121–30. [BF]
Eldredge, N. & Cracraft, J. (1980) Phylogenetic patterns and the evolutionary process: Method and theory in comparative biology. Columbia University Press. [MRB]
Ewert, J.-P. (1984) Tectal mechanisms that underlie prey-catching and avoidance behaviors in toads. In: Comparative neurology of the optic tectum, ed. Vanegas, H.. Plenum Press. [J-PE]
Ewert, J.-P., Capranica, R. R. & Ingle, D. J. (1983) Advances in vertebrate neuroethology. NATO Advanced Study Institute Series A: Life Sciences Vol. 56. Plenum Press. [LSD]
Falk, D. (1978) External neuroanatomy of Old World monkeys (Cercopithecoidea). Contributions to Primatology 15: 195. [DF]
Falk, D. (1980a) A reanalysis of the South African australopithecine natural endocasts. American Journal of Physical Anthropology 53: 525–39. [DF]
Falk, D. (1980b) Comparative study of the endocranial casts of New and Old World monkeys. In: Biology of the New World monkeys and continental drift, ed. Ciochon, R. L. & Chiarelli, B.. Plenum Publishers. [DF]
Falk, D. (1980c) Hominid brain evolution: The approach from paleoneurology. Yearbook of Physical Anthropology 23: 93107. [DF]
Falk, D. (1982a) A reconsideration of the endocast of Proconsul africanus. In: New interpretations of ape and human ancestry, ed. Ciochon, R. L. & Corruccini, R.. Plenum Publishers. [DF]
Falk, D. (1982b) Mapping fossil endocasts. In: Primate brain evolution: Methods and concepts, ed. Armstrong, E. & Falk, D.. Plenum Publishers. [DF]
Falk, D. (1983) Cerebral cortices of East African early hominids. Science 221: 1072–74. [DF]
Feng, J. Z. & Brugge J. F. (1983) Postnatal development of auditory callosal connections in the kitten. Journal of Comparative Neurology 214: 416–26. [GMI]
Ferguson, J. U, Mulvanny, P. J. & Brauth, S. E. (1978) Distribution of neurons projecting to the retina of Caiman crocodilus. Brain, Behavior and Evolution 15: 294306. [taSOEE]
Fiebig, E., Ebbesson, S. O. E. & Meyer, D. L. (1982) Afferent connections of the optic tectum of the piranha (Serrasalmus nattereri). Cell and Tissue Research 231: 5572. [taSOEE]
Finger, T. E. (1974) The distribution of the olfactory tracts in the bullhead catfish, Ictalurus nebulosus. Journal of Comparative Neurology 161: 125–42. [taSOEE]
Finger, T. E. (1978) Gustatory pathways in the bullhead catfish. II. Facial lobe connections. Journal of Comparative Neurology 180: 591706. [HI]
Finger, T. E. (1980) Nonolfactory sensory pathways to the telencephalon in a teleost fish. Science 210: 671–73. [rSOEE, HI]
Finger, T. E. (1981) Fish that taste with their feet: Spinal sensory pathways in the searobin, Prionotus carolinus. Biological Bulletin 161: 343. [TEF]
Finger, T. E. & Bullock, T. H. (1982) Thalamic center for the lateral line system in the catfish Ictalurus nebulosus: Evoked potential evidence. Journal of Neurobiology 13: 3947. [rSOEE, HI]
Fink, R. P. & Heimer, L. (1967) Two methods for selective silver impregnation of degenerating axons and their synaptic endings in the central nervous system. Brain Research 4: 369–74. [taSOEE]
Finkenstädt, T. & Ewert, J.-P (1983a) Processing of area dimensions of visual key stimuli by tectal neurons in Salamandra salamandra. Journal of Comparative Physiology 153: 8598. [J-PE]
Finkenstädt, T. & Ewert, J.-P (1983b) Visual pattern discrimination through interactions of neural networks: A combined electrical brain stimulation, brain lesion, and extracellular recording study in Salamandra salamandra. Journal of Comparative Physiology 153: 99110. [J-PE]
Finkenstädt, T., Ebbesson, S. O. E., & Ewert, J.-P. (1983) Projections to the midbrain tectum in Salamandra salamandra L. Cell and Tissue Research 234: 3955. [rSOEE, J-PE]
Finlay, B. L. & Slattery, K. (1983) Local differences in the amount of early cell death in neocortex predict adult local specializations. Science 219: 1349–51. [taSOEE]
Fite, K. V. & Scalia, F. (1976) Central visual pathways in the frog. In: The amphibian visual system, ed. Fite, K. V.. Academic Press. [WW]
Florence, S. L. & Casagrande, V. A. (1978) A note on the evolution of ocular dominance columns in primates. Investigative Ophthalmology and Visual Science, Suppl. (ARVO) Abstr. 291–92. [taSOEE]
Fritzsch, B. (1980). Retinal projections in European Salamandridae. Cell and Tissue Research 213: 325–41. [taSOEE]
Fritzsch, B. & Himstedt, W. (1981) Pretectal neurons project to the salamander retina. Neuroscience Letters 24: 1317. [PGHC]
Fritzsch, B. & Wahnschaffe, U. (1983) The electroreceptive ampullary organs of urodeles. Cell and Tissue Research 229: 483503. [BF]
Fritzsch, B., Will, U. & Nikundiwe, A. (1983) The area octavolateralis of amphibians: A reinterpretation. In: Functional morphology of vertebrates, ed. Duncker, H.-R. & Fleischer, D. G.. Fischer-Verlag, in press. [BF]
Frost, D. O. (1981) Orderly anomalous retinal projections to the medial genieulate, ventrobasal, and lateral posterior nuclei of the hamster. Journal of Comparative Neurology 203: 227–56. [GES]
Fujisawa, H., Tani, N., Watanabe, K. & Ibata, Y. (1982) Branching of regenerating retinal axons and preferential selection of appropriate branches for specific neuronal connection in the newt. Developmental Biology 90: 4357. [GES]
Futuyma, D. J. (1979) Evolutionary biology. Sinauer Associates. [RGN]
Garey, L. J. & Saini, K. D. (1981) Golgi studies of the normal development of neurons in the lateral genieulate nucleus of the monkey. Experimental Brain Research 44: 117–28. [taSOEE]
Giesler, G. J., Menetrey, D. & Basbaum, A. I. (1979) Differential origins of spinothalamic tract projections to medial and lateral thalamus in the rat. Journal of Comparative Neurology 184: 107–26. [WDW]
Giesler, G. J., Yezierski, R. P., Gerhart, K. D. & Willis, W. D. (1981) Spinothalamic tract neurons that project to medial and/or lateral thalamic nucleus: Evidence for a physiologically novel population of spinal cord neurons. Journal of Neurophysiology 46: 1285–308. [WDW]
Giorgi, P. P. & Van der Loos, H. (1978) Axons from eyes grafted in Xenopus can grow into the spinal cord and reach the optic tectum. Nature 275: 746–48. [BF]
Glendenning, K. K., Kofron, E. A., Diamond, I. T. (1976) Laminar organization of projections of the lateral genieulate nucleus of the striate cortex in Galago. Brain Research 105: 538–46. [taSOEE]
Goldby, F. & Robinson, L. R. (1962) The central connections of dorsal spinal nerve roots and the ascending tracts in the spinal cord of Lacerta viridis. Journal of Anatomy (London) 96: 153–70. [taSOEE]
Goodrich, E. S. (1930) Studies on the structure and development of vertebrates. Macmillan. [JZY]
Goodwin, B. (1982) Development and evolution. Journal of Theoretical Biology 97: 4355. [PA]
Gould, S. J. (1977) Ontogeny and phylogeny. Belknap Press of Harvard University Press. [PA, WHC, rSOEE, RGN]
Graeber, R. C. & Ebbesson, S. O. E. (1972) Retinal projections in the lemon shark (Negaprion brevirostris). Brain, Behavior and Evolution 5: 460–77. [rSOEE]
Graeber, R. C, Ebbesson, S.O. E. & Jane, J. A. (1973) Visual discrimination in sharks without optic tectum. Science 180: 413–15. [taSOEE]
Graeber, R. C, Schroeder, D. M., Jane, J. A. & Ebbesson, S. O. E. (1978) Visual discriminations following parietal ablations in the nurse shark, Ginglymostoma cirratum. Journal of Comparative Neurology 180: 325–44. [taSOEE]
Gregory, W. K. (1935) Reduplication in evolution. Quarterly Review of Biology 10: 272–90. [JHK]
Gregory, W. K. (1967) Our face from fish to man. Hafner Publishing Co. [PDM]
Gruberg, E. R. & Udin, S. B. (1978) Topographic projections between the nucleus isthmi and the tectum of the frog, Rana pipiens. Journal of Comparative Neurology 179: 487500. [taSOEE]
Hall, W. C. & Ebner, F. F. (1970) Parallels in the visual afferent projections of the thalamus in the hedgehog, Paraechimus hypomelas, and the turtle, Pseudemys scripta. Brain, Behavior and Evolution 3: 135–54. [taSOEE]
Hayes, B. P. & Webster, K. E. (1981) Neurons situated outside the isthmooptic nucleus and projecting to the eye in adult birds. Neuroscience Letters 26: 107–12. [taSOEE]
Hayle, T. H. (1973) A comparative study of spinal projections to the brain (except cerebellum) in three classes of poikilothermic vertebrates. Journal of Comparative Neurology 149: 463–76. [TEF]
Hendrickson, A. E., Wilson, J. R. & Ogren, M. P. (1978) The neuroanatomical organization of pathways between the dorsal lateral genieulate nucleus and visual cortex in Old World and New World primates. Journal of Comparative Neurology 182: 123–36. [taSOEE]
Herrick, C. J. (1899) The cranial and first spinal nerves of menidia: A contribution upon the nerve components of the bony fishes. Journal of Comparative Neurology 9: 153455. [PDM]
Herrick, C. J. (1926) Brains of rats and men. University of Chicago Press. [CBGC, GES]
Herrick, C. J. (1948) The brain of the tiger salamander. University of Chicago Press. [CBGC, tarSOEE]
Hodos, W. (1970) Evolutionary interpretations of neural and behavioralstudies of living vertebrates. In: The neurosciences, second study program, ed. Schmitt, F. O.. Rockefeller University Press. [MRB]
Holloway, R. L. (1966) Cranial capacity and the evolution of the human brain. American Anthropologist 68: 103–21. [DF]
Holloway, R. L. (1967) The evolution of the human brain: Some notes toward a general theory. General Systems Yearbook 12: 319. [DF]
Hoogland, P. V. (1981) Spinothalamic projections in a lizard, Varanus exanthematicus: An HRP study. Journal of Comparative Neurology 198: 712. [taSOEE]
Hoogland, P. V. & Welker, E. (1981) Telencephalic projections to the eye in Python reticulatus. Brain Research 213: 173–76. [PGHC]
Hubel, D. H. & Wiesel, T. N. (1968) Receptive fields and functional architecture of monkey striate cortex. Journal of Physiology (London) 195: 215–44. [taSOEE]
Hubel, D. H., Wiesel, T. N. & LeVay, S. (1977) Plasticity of ocular dominance columns in monkey striate cortex. Philosophical Transactions of the Royal Society of London Series B 278: 377409. [taSOEE, GES]
Hunt, S. P. & Künzle, H. (1976) Observations on the projections and intrinsic organization of the pigeon optic tectum: An autoradiographic study based on anterograde and retrograde, axonal and dendritic flow. Journal of Comparative Neurology 170: 153–72. [taSOEE]
Innocenti, G. M. (1979) Adult and neonatal characteristics of the callosal zone at the boundary between areas 17 and 18 in the cat. In: Structure and function of cerebral commissures, ed. Russel, J. S., van Hof, N. W. & Berlucchi, C.. Macmillan Press. [taSOEE]
Innocenti, G. M. (1981) Growth and reshaping of axons in the establishment of visual callosal connections. Science 212: 824–27. [GMI]
Innocenti, G. M. & Caminiti, R. (1980) Postnatal shaping of callosal connections from sensory areas. Experimental Brain Research 38: 381–94. [GMI]
Innocenti, G. M. & Clarke, S. (1983) Multiple sets of visual cortical neurons projecting transitorily through the corpus callosum. Neuroscience Letters 41: 2732. [GMI]
Innocenti, G. M. & Clarke, S. (1984) The organization of immature callosal connections. In preparation. [GMI]
Innocenti, G. M., Fiore, L. & Caminiti, R. (1977) Exuberant projection into the corpus callosum from the visual cortex of newborn cats. Neuroscience Letters 4: 237–42. [GMI]
Innocenti, G. M. & Frost, D. O. (1979) Effects of visual experience on the maturation of the efferent system to the corpus callosum. Nature 280: 231–34. [GMI]
Itaya, S. K. (1980) Retinal efferents from the pretectal area in the rat. Brain Research 201: 436–41. [PGHC, taSOEE]
Itaya, S. K. & Van Hoesen, G. W. (1982) Retinal innervation of the inferior colliculus in rat and monkey. Brain Research 233: 4552. [BF]
Ito, H., Butler, A. B. & E, Ebbesson S. O.. (1980) An ultrastructural study of the normal synaptic organization of the optic tectum and the degenerating tectal afferents from the retina, telencephalon and the contralateral tectum in a teleost, Holocentrus rufus. Journal of Comparative Neurology 191: 639–60. [taSOEE]
Ito, H. & Kishida, R. (1975) Organization of the nucleus rotundus. Journal of Morphology 147: 89108. [HI]
Ito, H. & Kishida, R. (1977) Synaptic organization of the nucleus rotundus in some teleosts. Journal of Morphology 151: 397418. [HI]
Ito, H., Morita, Y., Sakamoto, N. & Ueda, S. (1980b) Possibility of telencephalic visual projection in teleosts, Holocentridae. Brain Research 197: 219–22. [taSOEE]
Ito, H., Murakami, T. & Morita, Y. (1982) An indirect telencephalo-cerebellar pathway and its relay nucleus in teleosts. Brain Research 249: 113. [HI]
Ito, H., Sakamoto, N. & Takatsuji, K. (1982) Cytoarchitecture, fiber connections, and ultrastructure of nucleus isthmi in a teleost, Navodon modestus, with a special reference to degenerating isthmic afferents from optic tectum and nucleus pretectalis. Journal of Comparative Neurology 205: 299311. [taSOEE]
Ito, H., Tanaka, H., Sakamoto, N. & Morita, Y. (1981) Isthmic afferent neurons identified by the retrograde HRP method in a teleost, Navodon modestus. Brain Research 207: 163–69. [taSOEE]
Ito, H. & Vanegas, H. (1983a) Cytoarchitecture and ultrastructure of nucleus prethalamicus, with special reference to degenerating afferents from optic tectum and telencephalon, in a teleost (Holocentrus ascensionis). Journal of Comparative Neurology. In press. [HI]
Ito, H. & Vanegas, H. (1983b) Visual receptive thalamopetal neurons in the optic tectum. Brain Research. In press. [HI]
Ivy, G. O. & Killaekey, H. P. (1981) The ontogeny of the distribution of callosal projection neurons in the rat parietal cortex. Journal of Comparative Neurology 195: 367–89. [GMI]
Ivy, G. O. & Killaekey, H. P. (1982) Ontogenetic changes in the projections of neocortical neurons. Journal of Neuroscience 2: 735–43. [GMI]
Jacobson, M. (1978) Developmental neurobiology. Plenum Press. [BF]
Jaeger, C. B. & Lund, R. D. (1980) Transplantation of embryonic occipital cortex to the tectal region of newborn rats: A light microscopic study of organization and connectivity of the transplants. Journal of Comparative Neurology 194: 571–97. [GES]
Jane, J. A. and Schroeder, D. M. (1971) A comparison of dorsal column nuclei and spinal afferents in the European hedgehog (Erinaceus europcaus). Experimental Neurology 30: 117. [rSOEE]
Jarvik, E. (1980) Basic structure and evolution of vertebrates, vol. 2. Academic Press. [PA]
Jerison, H. J. (1973) Evolution of the brain and intelligence. Academic Press. [DF]
Jhaveri, S. & Morest, D. K. (1982) Sequential alterations of neuronal architecture in nucleus magnocellularis of the developing chicken: A Golgi study. Neuroscience 7: 837–53. [taSOEE]
Joseph, B. & Whitlock, D. (1968) The spatio-temporal course of Wallerian degeneration: A Nauta study in the toad (Bufo marinus). Anatomical Record 160: 372. [taSOEE]
Kaas, J. H. (1980) A comparative survey of visual cortex organization in mammals. In: Comparative neurology of the telencephalon, ed. Ebbesson, S. O. E., Plenum Pres. [MRB]
Kaas, J. H. (1982) The segregation of function in the nervous system: Why do sensory systems have so many subdivisions? In: Contributions to sensory physiology, vol. 7, ed. Neff, W. D.. Academic Press. [MRB, JHK, RGN]
Kaas, J. H., Huerta, M. F., Weber, J. R. & Harting, J. K. (1978) Patterns of retinal terminations and laminar organization of the lateral geniculate nucleus of primates. Journal of Comparative Neurology 182: 517–54. [taSOEEJ]
Kaiserman-Abramof, I. R., Graybiel, A. M. & Nauta, W. J. H. (1980) The thalamic projection to cortical area 17 in a congenitally anophthalmic mouse strain. Neuroscience 5: 4152. [taSOEE]
Kalil, K. & Reh, T. (1982) A light and electronmicroscopic study of regrowing pyramidal tract hamster fibers. Journal of Comparative Neurology 211: 265–75. [taSOEE]
Kalil, R. & Schneider, G. E. (1975) Abnormal synaptic connections of the optic tract in the thalamus after midbrain lesions in newborn hamsters. Brain Research 100: 690–98. [GES]
Karten, H. J. (1965) Projections of the optic tectum of the pigeon (Columba livia). Anatomical Record 151: 369 [CBGC]
Karten, H. J. (1967) The organization of the avian ascending auditory pathway in thepigeon (Columba livia). 1. Diencephalic projections of the inferior colliculus (nucleus mesencephalicus lateralis, pars dorsalis). Brain Research 6: 407–27 [CBGC]
Karten, H. J. (1968) The ascending auditory pathway in the pigeon (Columba livia). 2. Telencephalic projections of the nucleus ovoidalis thalami. Brain Research 11: 134–53. [CBGC]
Karten, H. J. (1969) The organization of the avian telencephalon and some speculations on the phylogeny of the amniote telencephalon. Annals of the New York Academy of Sciences 167: 164–80. [CBGC]
Karten, H. J. (1971) Efferent projections of the Wulst of the owl. Anatomical Record 169: 353. [CBGC]
Karten, H. J. & Hodos, W. (1970) Telencephalic projections of the nucleus rotundus in the pigeon (Columba livia). Journal of Comparative Neurology 140: 3552. [CBGC]
Karten, H. J., Hodos, W., Nauta, W. J. H., & Revzin, A. M. (1973) Neural connections of the “visual Wulst” of the avian telencephalon: Experimental studies in the pigeon and owl. Journal of Comparative Neurology 150: 253–78. [CBGC, taSOEE]
Karten, H. J. & Nauta, W. J. H. (1968) Organization of retinothalamic projections in the pigeon and owl. Anatomical Record 160: 373. [taSOEE]
Karten, H. J. & Revzin, A. M. (1966) The afferent connections of the nucleus rotundus in the pigeon. Brain Research 2: 368–77. [CBGC]
Katz, M. J. (1983) Ontophyletics: Studying evolution beyond the genome. Perspectives in Biology and Medicine 26: 323–33. [PA]
Katz, M. J. & Lasek, R. J. (1978) Evolution of the nervous system: Role of ontogenetic mechanisms in the evolution of matching populations. Proceedings of the National Academy of Sciences, USA 75: 1349–52. [GMI]
Katz, M. J., Lasek, R. J. & Kaiserman-Abramof, I. R. (1981) Ontophyletics of the nervous system: Eyeless mutants illustrate how ontogenetic buffer mechanics channel evolution. Proceedings of the National Academy of Sciences, USA 78: 397401. [PA]
Kevetter, G. A., Haber, L. H., Yezierski, R. P., Chung, J. M., Martin, R. F. & Willis, W. D. (1982) Cells of origin of the spinoreticular tract in the monkey. Journal of Comparative Neurology 207: 6174. [WDW]
Kevetter, G. A. & Willis, W. D. (1983) Collaterals of spinothalamic cells in the rat. Journal of Comparative Neurology 219: 453–64. [WDW]
Kevetter, G. A. & Willis, W. D. (in press) Collateralization in the spinothalamic tract: New methodology to support or deny phylogenetic theories. Brain Research Reviews. [WDW]
Killaekey, H. P., Gould, J. H. III, Cusick, C. G., Pons, T. D. & Kaas, J. H. (1983) The relation of corpus callosum connections to architectonic fields and body surface maps in sensorimotor cortex of New and Old World monkeys. Journal of Comparative Neurology 219: 384419. [JHK]
Koenderink, J. J. (1984a) Simultaneous order in nervous nets from a functional standpoint. Biological Cybernetics. In press. [JJK]
Koenderink, J. J. (1984b) Geometrical structures determined by the functional order in nervous nets. Biological Cybernetics. In press. [JJK]
Kokoros, J. J. & Northcutt, R. G. (1977) Telencephalic efferents of the tiger salamander, Ambystoma tigrinum tigrinum (Green). Journal of Comparative Neurology 173: 613–28. [tarSOEE]
Koppel, H. & Innocenti, G. M. (1983) Is there a genuine exuberancy of callosal projections in development? A quantitative electron microscopic study in the cat. Neuroscience Letters 41: 3340. [GMI]
Kristensson, K., Olsson, Y. & Sjostrand, J. (1971). Axonal uptake and retrograde transport of exogenous proteins in the hypoglossal nerve. Brain Research 32: 399406. [taSOEE]
Künzle, H. & Cuenod, M. (1973) Differential uptake of 3H leucine by neurons: its importance for the autoradiographic tracing of pathways. Brain Research 62: 213–17. [rSOEE]
Kuypers, H. G. J. M. (1981) Anatomy of the descending pathways. In: Handbook on physiology, section 1: The nervous system, vol. II, Motor control, part 1, ed. V. B. Brooks. [MRB]
Kuypers, H. G. J. M., Catsmann-Berrevoets, C. E. & Padt, R. E. (1977) Retrograde axonal transport of fluorescent substances in the rat's forebrain. Neuroscience Letters 6: 127–35. [taSOEE]
Laemle, L. K. & Labriola, A. R. (1982) Retinocollicular projections in the neonatal rat: An anatomical basis for plasticity. Developmental Brain Research 3: 317–22. [taSOEE]
LaVail, J. H. & LaVail, M. M. (1972) Retrograde axonal transport in the central nervous system. Science 176: 1416–17. [taSOEE]
Lazar, C. (1978) Application of cobalt-filling technique to show retinal projections in the frog. Neuroscience 3: 725–36. [taSOEE]
Lende, R. A. (1969) A comparative approach to neocortex: Localization in monotremes, marsupials, and insectivores. Annals of the New YorkAcademy of Sciences 167: 262–76. [JHK]
LeVay, S. & Gilbert, C. D. (1976). Laminar patterns of geniculocortical projections in the eat. Brain Research 113: 119. [taSOEE]
Lichtman, J. W. (1977) The reorganization of synaptic connexions in the rat submandibular ganglion during post-natal development. Journal of Physiology 273: 155–77. [TEF]
Linden, D. C., Guillery, R. W. & Arcchiaro, J. (1981) The dorsal lateral geniculate nucleus of the normal ferret and its postnatal development. Journal of Comparative Neurology 203: 189211. [taSOEE]
Liu, C. M. & Chambers, W. W. (1958). Intraspinal sprouting of dorsal root axons. Archives of Neurology and Psychiatry 79: 4661. [taSOEE]
Lotze, H. (1884) Mikrokosmos. Leipzig: Hirzel. [JJK]
Luiten, P. G. M. (1981a) Two visual pathways to the telencephalon in the nurse shark (Ginglymostoma cirratum). 1. Retinal projections. Journal of Comparative Neurology 196: 531–38. [MRB, CBCC, rSOEE, TEF, RGN]
Luiten, P. G. M. (1981b) Two visual pathways to the telencephalon in the nurse shark (Ginglymostoma cirratum). 2. Ascending thalamo-telencephalic connections. Journal of Comparative Neurology 196: 539–48. [MRB, CBGC, tarSOEE, TEF, RGN]
Lund, R. D. (1978) Development and plasticity of the brain. Oxford University Press. [taSOEE]
Lund, R. D., Cunningham, T. J. & Lund, J. S. (1973) Modified opticprojections after unilateral eye removal in young rats. Brain, Behavior and Evolution 8: 5172. [PDM]
McCormick, C. A. (1982) The organization of the octavolateralis area in actinopterygian fishes: A new interpretation. Journal of Morphology 171: 159–81. [MRB]
McKenna, M. C. (1976) Comments on Radinsky's “Later mammal radiations”. In: Evolution of brain and behavior in vertebrates, ed. Masterton, R. B., Bitterman, M. E., Campbell, C. B. G. & Hotton, N.. John Wiley & Sons. [CBGC]
MacLean, P. D. (1975) An ongoing analysis of hippocampal inputs and outputs: Microelectrode and neuroanatomical findings in squirrel monkeys. In: The Hippocampus, vol. 1, ed. Isaacson, R. & Pribram, C.. Plenum Publishing Co. [PDM]
Magendie, F. (1841) Leçons sur les fonctiotts et les maladies du système nerveux. Paris: Lecaplain. [ERM]
Maxwell, P. E. & Land, P. W. (1981) Development of retinogeniculate projections in albino and pigmented rats. Anatomical Record 199: 165A. [taSOEE]
Meader, R. G. (1934) The optic system of the teleost, Holocentrus. 1. The primary optic pathways and the corpus geniculatum complex. Journal of Comparative Neurology 60: 361407. [HI]
Mehler, W. R. (1969) Some neurological species differences: A posteriori. Annals of the New York Academy of Sciences 167: 424–68. [taSOEE]
Mehler, W. R., Feferman, M. E. & Nauta, W. J. H. (1960) Ascending axon degeneration following anterolateral cordotomy: An experimental study in the monkey. Brain 83: 718–51. [WDW]
Meier, S. & Jacobson, A. G. (1982) Experimental studies of the origin and expression of metameric pattern in the chick embryo. Journal of Experimental Zoology 219: 217–32. [PA]
Meier, S. & Tam, P. P. L. (1982) Metameric pattern development in the embryonic axis of the mouse. 1. Differentiation of the cranial segments. Differentiation 21: 95108. [PA]
Mendez-Otero, R., Rocha-Miranda, C. E. & Perry, V. H. (1980) The organization of the parabigemino-tectal projections in the opossum. Brail Research 198: 183–89. [taSOEE]
Meyer, D. L., Gerwerzhagen, K., Fiebig, E., Ahlswede, E., Ebbesson, S. O. E. (1982) An isthmo-optic system in a bony fish. Cell and Tissue Research. In press. [taSOEE]
Minsky, M. & Papert, S. (1969) Perceptrons: An introduction to computational geometry. MIT Press. [JJK]
Molinari, H. H. & Berkley, K. J. (1981) Differences in glia and neuronal labeling following 3H proline or 3H lcucine injections into the dorsalcolumn nuclei of cats. Neuroscience 6: 2313–34. [rSOEE]
Morita, Y., Ito, H. & Masai, H. (1980) Central gustatory paths in the crucian carp, Carassius carassius. Journal of Comparative Neurology 191: 119–32. [HI]
Morita, Y., Murakami, T. & Ito, H. (1983) Cytoarchitecture and topographic projections of the gustatory centers in a teleost, Carassius carassius. Journal of Comparative Neurology 218: 378–94. [HI]
Münz, H. & Claas, B. (1981) Centrifugal innervation of the retina in cichlid and poecilid fishes. A horseradish peroxidase study. Neuroscience Letters 22: 223–26. [PGHC, taSOEE]
Münz, H., Claas, B., Stumpf, W. E. & Jennes, L. (1982) Centrifugal innervation of the retina by luteinizing hormone releasing hormone (LHRH)-immunoreactive telencephalic neurons in teleostean fishes. Cell and Tissue Research 222: 313–23. [BF]
Murakami, T., Morita, Y. & Ito, H. (1983) Extrinsic and intrinsic fiber connections of the telencephalon in a teleost, Sebastiscus marmoratus. Journal of Comparative Neurology 216: 115–31. [HI]
Nauta, W. J. H. (1950) Über die sogenannte terminale Degeneration im Zentralnervensystem und ihre Darstellung durch Silberimprägnation. Archives of Neurology and Psychiatry 66: 353–76. [taSOEE]
Nauta, W. J. H. (1957) Silver impregnation of degenerating axons. In: New research techniques of neuroanatomy, ed. Windle, W. F.. Charles C. Thomas. [taSOEE]
Neary, T. J. & Northcutt, R. G. (1983) Nuclear organization of the bullfrog diencephalon. Journal of Comparative Neurology 213: 262–78. [RGN]
Northcutt, R. G. (1979) Retinofugal pathways in fetal and adult spiney dogfish Squalus acanthias. Brain Research 162: 219–30. [rSOEE]
Northcutt, R. G. (1981) Evolution of the telencephalon in nonmammals. Annual Review of Neuroscience 4: 301–50. [MRB, rSOEE, RGN]
Northcutt, R. G. (1982) Localization of neurons afferent to the optic tectum in longnose gars. Journal of Comparative Neurology 204: 325–35. [taSOEE]
Northcutt, R. G. (1984) Evolution of the vertebrate central nervous system: Patterns and processes. American Zoologist 24. In press. [RGN]
Northcutt, R. G. & Ebbesson, S. O. E. (1980) Ascending spinal pathways in the sea lamprey. Abstracts of the Society for Neuroscience 6: 628. [TEF]
Northcutt, R. G. & Gans, C. (1983) The genesis of neural crest and epidermal placodes: A reinterpretation of vertebrate origins. Quarterly Review of Biology 58: 128. [WW]
Nottebohm, F., Stokes, T. M. & Leonard, C. M. (1976) Central control of song in the canary, Serinus canarius. Journal of Comparative Neurology 165: 457–86. [taSOEE]
O'Leary, D. D. M. & Cowan, W. M. (1982) Further studies on the development of the isthmo-optic nucleus with special reference to the occurrence and fate of ectopic and ipsilaterally projecting neurons. Journal of Comparative Neurology 212: 399416. [PGHC]
O'Leary, D. D. M., Gerfen, C. R. & Cowan, W. M. (1983) The development and restriction of the ipsilateral retinofugal projection in the chick. Developmental Brain Research 312: 93109. [PGHC]
O'Leary, D. D. M., Stanfield, B. B. & Cowan, W. M. (1981) Evidence that the early postnatal restriction of the cells of origin of the callosal projection is due to the elimination of axonal collaterals rather than to the death of neurons. Developmental Brain Research 1: 607–17. [GMI]
Oster, G. & Alberch, P. (1982) Evolution and bifurcation of developmental programs. Evolution 36: 444–59. [PA]
Packard, D. S. Jr, & Meier, S. (1983) An experimental study of the somitomeric organization of the avian segmental plate. Developmental Biology 97: 191202. [PA]
Paton, J. A., Manogue, K. R. & Nottebohm, F. (1981) Bilateral organization of the vocal control pathway in the budgerigar, Melopsittacus undulatus. Journal of Neuroscience 1: 1279–88. [taSOEE]
Perry, V. H. & Cowey, A. (1982) A sensitive period for ganglion cell degeneration and the formation of aberrant retino-fugal connectionsfollowing tectal lesions in rats. Neuroscience 7: 583–94. [taSOEE]
Peterson, E. H. (1980) Regional specialization in retinal ganglion cell projection to optic tectum of Dipsosaurus dorsalis (Iguanidae). Journal of Comparative Neurology 196: 225–52. [taSOEE]
Pettigrew, J. D. (1974) The effect of visual experience on the development of stimulus specificity by kitten cortical neurons. Journal of Physiology (London) 237: 4974. [taSOEE]
Piaget, J. (1977) The origin of intelligence in the child. Penguin Books. [JJK]
Pickard, G. E. & Silverman, A.-J. (1981) Direct retinal projections to the hypothalamus, piriform cortex, and accessory optic nuclei in the golden hamster as demonstrated by a sensitive anterograde horseradish peroxidase technique. Journal of Comparative Neurology 196: 155–72. [BF]
Popper, K. R. (1959) The logic of scientific discovery. Hutchinson. [CBGC, PGHC. GMI]
Pubols, B. H. Jr, Pubols, L. M., DiPette, D. J. & Sheely, J. C. (1976) Opossum somatic sensory cortex: A microelectrode mapping study. Journal of Comparative Neurology 165: 229–46. [JHK]
Radinsky, L. B. (1968) A new approach to mammalian cranial analysis, illustrated by examples of prosimian primates. Journal of Morphology 124: 167–80. [DF]
Radinsky, L. B. (1970) The fossil evidence of prosimian brain evolution. In: The primate brain, advances in primatology, ed. Noback, C. R. & Montagna, W.. Appleton-Century-Crofts. [DF]
Radinsky, L. B. (1972) Endocasts and studies of primate brain evolution. In: The functional and evolutionary biology of primates, ed. Tuttle, R.. Aldine. [DF]
Radinsky, L. B. (1976) Later mammal radiations. In: Evolution of brain and behavior in vertebrates, ed. Masterton, R. B., Bitterman, M. E., Campbell, C. B. G., & Hotton, N.. John Wiley & Sons. [CBGC]
Radinsky, L. B. (1978) Evolution of brain size in carnivores and ungulates. American Naturalist 112: 815–31. [DF]
Radinsky, L. B. (1979) The fossil record of primate brain evolution. 49th James ArthurLecture, American Museum of Natural History. [DF]
Raff, R. A. & Kaufman, T. C. (1983) Embryos, genes, and evolution. Macmillan. [RGN]
Rager, G. (1980) Die Ontogenese der retinotopen Projektion: Beobachtung und Reflexion. Naturwissenschaften 67: 280–87. [BF]
Rakic, P. (1976) Prenatal genesis of connections subserving ocular dominance in the rhesus monkey. Nature 261: 467–71. [taSOEE]
Rakic, P. (1977) Prenatal development of the visual system in rhesus monkey. Philosophical Transactions of the Royal Society of London (Biology) 278: 245–60. [taSOEE]
Ramon-Moliner, E. (1962) An attempt at classifying nerve cells on the basis of their dendritic patterns. Journal of Comparative Neurology 119: 211–27. [taSOEE, JS]
Ramon-Moliner, E. & Nauta, W. J. H. (1966). The isodendritic core of the brainstem. Journal of Comparative Neurology 12: 311–36. [taSOEE, ER-M, JS]
Randall, P. L. (1980) A neuroanatomical theory on the aetiology of schizophrenia. Medical Hypotheses 6(6):645–58. [taSOEE]
Rausch, G. & Scheich, H. (1982) Dendritic spine loss and enlargement during maturation of the speech control system in the mynah bird, Gracula religiosa. Neuroscience Letters 29: 129–33. [taSOEE]
Repérant, J., Peyrichoux, J., Weidner, C., Miceli, D. & Rio, J. P. (1980) The centrifugal visual system in Vipera aspis: An experimental study using retrograde transport of HRP and [3H]adenosine. Brain Research 183: 435–41. [PGHC]
Rexed, B. (1952) The cytoarchitectonic organization of the spinal cord in the cat. Journal of Comparative Neurology 96: 415–66. [WDW]
Rhoades, R. W. (1981) Expansion of the ipsilateral visual corticotectal projection in hamsters subjected to partial lesions of the visual cortex during infancy: Anatomical experiments. Journal of ComparativeNeurology 197: 425–45. [taSOEE]
Riss, W., Knapp, A. D. & Scalia, F. (1963) Optic pathways in Cryptobranchus allegheniensis, as revealed by the Nauta technique. Journal of Comparative Neurology 121: 3143. [taSOEE]
Rogers, L. J. & Ehrlich, D. (1983) Asymmetry in the chicken forebrain during development and a possible involvement of the supraoptic decussation. Neuroscience Letters 37: 123–27. [rSOEE, GMI]
Ronan, M. C. & Northcutt, R. G. (1979) Afferent and efferent connections of the bullfrog medial pallium. Society for Neuroscience Abstracts 5: 146. [WW]
Rubinson, K. (1968) Projections of the tectum opticum in the frog. Brain Behavior and Evolution 1: 529–61. [WW]
Russell, E. S. (1916) Form and function. Murray Ltd. (Reprinted in 1982, University of Chicago Press.) [PA]
Sakamoto, N. & Ito, H. (1982) Fiber connections of the corpus glomerulosum in a teleost, Navodon modestus. Journal of Comparative Neurology 205: 291–98. [HI]
Sandeman, D. C. & Rosenthal, N. P. (1974) Efferent axons in the fish optic nerve and their effect on the retinal ganglion cells. Brain Research 68: 4154. [taSOEE]
Satou, M. & Ewert, J.-P. (1983) Specification of tecto-motor outflow in toads by antidromic stimulation of tecto-bulbar/spinal pathways. Naturwissenschaften. [J-PE]
Scalia, F. & Ebbesson, S. O. E. (1971) The central projection of the olfactory bulb in a teleost, Gymnothorax funebris. Brain, Behavior and Evolution 4: 376–99. [taSOEE]
Scalia, F., Halpern, M., Knapp, H. & Riss, W. (1968) The efferent connections of the olfactory bulb in the frog: A study of degeneratingunmyelinated fibers. Journal of Anatomy 103: 245–62. [CBGC, rSOEE]
Scheich, H., Bock, W., Bonke, D., Langner, G. & Maier, V. (1982) Auditory pattern recognition, ontogeny and imprinting in the guinea fowl. In: Advances in neuroethology, ed. Ewert, P. J.. Plenum. [taSOEE]
Scheich, H. & Ebbesson, S. O. E. (1983) The multimodal torus in weakly electric fish, Eigenmannia virescens. Advances in Anatomy, Embryology and Cell Biology 82. 69pp. [taSOEE]
Schneider, G. E. (1969) Two visual systems. Science 163: 895. [taSOEE]
Schneider, G. E. (1973) Early lesions of superior colliculus: Factors affecting the formation of abnormal retinal projections. Brain, Behavior and Evolution 8: 73109. [taSOEE, GES]
Schneider, G. E. (1979) Is it really better to have your brain lesion early? A revision of the “Kennard principle”. Neuropsychologia 17: 557–83. [GES]
Schneider, G. E., Jhaveri, S., Edwards, M. A. & So, K.-F (in press) Regeneration, re-routing and redistribution of axons after early lesions: Changes with age, and functional impact. In: Recent achievements in restorative neurology: Upper motor neurone functions and dysfunctions (Advances in Neurology Series), ed. Eccles, J. C. & Dimitrijevic, M. R.. Raven Press. [GES]
Schroeder, D. M. & Ebbesson, S. O. E. (1974) Non-olfactory telencephalic afferents in the nurse shark, Ginglymostoma cirratum. Brain, Behavior and Evolution 9: 121–55. [taSOEE]
Schroeder, D. M. & Ebbesson, S. O. E. (1975) Cytoarchitecture of the optic tectum in the nurse shark. Journal of Comparative Neurology 160: 443–62. [taSOEE]
Schroeder, D. M., Vanegas, H. & Ebbesson, S. O. E. (1980) The cytoarchitecture of the optic tectum of the squirrelfish, Holocentrus. Journal of Comparative Neurology 191: 337–51. [taSOEE]
Shatz, C. (1977) Abnormal interhemispheric connections in the visual system of Boston Siamese cats: A physiological study. Journal of Comparative Neurology 171: 229–46. [GMI]
Shatz, C. J. (1983) The prenatal development of the cat's retinogenieulate pathway. Journal of Neuroscience 3: 482–99. [PGHC]
Shatz, C. J. & DiBernadino, A. C. (1980) Prenatal development of the retinogenieulate pathway in the cat. Society for Neuroscience Abstracts 6: 485. [taSOEE]
Sherk, H. (1979) Connections and visual field mapping in cat's tecto-parabigeminul circuit. Journal of Neurophysiology 42: 1656–68. [taSOEE]
Smeets, W. J. A. J. (1981a) Retinofugal pathways in two chondrichthyans, the shark, Scyliorhinus canicula, and the ray, Raja clavata. Journal of Comparative Neurology 195: 111. [rSOEE, RGN]
Smeets, W. J. A. J. (1981b) Efferent tectal pathways in two chondrichthyans, the shark, Scyliorhinus canicula, and the ray, Raja clavata. Journal of Comparative Neurology 195: 1323. [rSOEE, RGN]
Smeets, W. J. A. J. (1982) The afferent connections of the tectum mesencephali in two chondrichthyans, the shark, Scyliorhinus canicula, and the ray, Raja clavata. Journal of Comparative Neurology 205: 139–52. [tarSOEE]
So, K-F., Schneider, G. E. & Frost, D. O. (1977) Normal development of the retinofugal projections in Syrian hamsters. Anatomical Record 187: 719. [taSOEE]
So, K-F., Schneider, G. E. & Frost, D. O. (1978) Postnatal development of retinal projections to the lateral geniculate body in Syrian hamsters. Brain Research 142: 343–52. [taSOEE]
Spatz, W. B. (1979) The retino-geniculo-cortical pathways in Callithrix. 2. The geniculo-cortical projection. Experimental Brain Research 36: 401–10. [taSOEE]
Springer, A. D. (1983) Centrifugal innervation of goldfish retina from ganglion cells of the nervus terminalis. Journal of Comparative Neurology 214: 404–15. [BF]
Stanfield, B. B., O'Leary, D. D. M. & Fricks, C. (1982) Selective collateral elimination in early postnatal development restricts cortical distribution of rat pyramidal tract neurones. Nature 298: 371–73. [taSOEE, TEF, GMI].
Steedman, J. G., Stirling, R. V. & Gaze, R. M. (1979) The central pathways of optic fibres in Xenopus tadpoles. Journal of Embryology and Experimental Morphology 50: 199215. [PGHC]
Sterling, P. & Wickelgren, B. G. (1970) Function of the projection from the visual cortex to the superior colliculus. Brain, Behavior, and Evolution 3: 210–18. [taSOEE]
Stevenson, J. A. & Lund, R. D. (1982) A crossed parabigemino-lateral geniculate projection in rats blinded at birth. Experimental Brain Research 45: 95100. [taSOEE]
Strong, O. S. (1895) The cranial nerves of amphibia. Journal of Morphology 10: 101217. [PDM]
Székely, G. (1979) Order and plasticity in the nervous system. Trends in Neuroscience 2: 245–48. [JS]
Szentágothai, J. & Arbib, M. A. (1974) Conceptual models of neural organization. Neuroscience Research Program Bulletin 12: 313510. [rSOEE, JS]
Szentágothai, J. & Székely, G. (1956) Zum Problem der Kreuzung von Nervenbahnen. Acta Biologica Academiae Scientianim Hungaricae 6: 215–79. [JS]
Tigges, J. & Tigges, M. (1979) Ocular dominance columns in the striate cortex of the chimpanzee, Pan troglodytes. Brain Research 166: 386–90. [tarSOEE]
Toth, P., Lazar, G. Y. & Gores, T. (1980) Retinal projections in the adult Xenopus laevis: A study with cobalt filling technique. Acta Morphologica Academiae Scientiarum Hungaricae 28(4):365–74. [taSOEE]
Uchiyama, H. & Ito, H. (1983) Fiber connections and synaptic organization of the preoptic retinopetal nucleus in the filefish (Balistidae, Teleostei). Brain Research. In press. [HI]
Uchiyama, H., Sakamoto, N. & Ito, H. (1981) A retinopetal nucleus in the preoptic area in a teleost, Navodon modestus. Brain Research 222: 119–24. [PGHC, HI]
Ulinski, P. S. (1977) Tectal efferents in the banded water snake, Natrix sipedon. Journal of Comparative Neurology 173: 251–74. [CBGC]
Ulinski, P. S. (1983) Dorsal ventricular ridge. Wiley/Interscience. [CBGC]
Van der Loos, (1979) The development of topological equivalences in the brain. In: Neural growth and differentiation, ed. Meisami, E. & Brazier, M. A. B.. Raven Press. [GMI]
Vesselkin, N. P., Ermakova, T. V., Repérant, J., Kosareva, A. A. & Kenigfest, N. B. (1980) The retinofugal and retinopetal systems in hampetra fluviatilis: An experimental study using radioautographic and HRP methods. Brain Research 195: 453–60. [PGHC, taSOEE]
von Baer, K. E. (1828) Entwicklungsgeschichte der Thiere: Beobachtung und Reflexion. Bornträger. [RGN]
Wang, S-J, Yan, K. & Wang, Y-T. (1981) Visual field topography in the frog's nucleus isthmi. Neuroscience Letters 23: 3741. [taSOEE]
Watanabe, K. & Kawana, E. (1979) Efferent projections of the parabigeminal nucleus in rats: A horseradish peroxidase (HRP) study. Brain Research 168: 111. [taSOEE]
Webster, K. E. (1979) Some aspects of the comparative study of the corpus striatum. In: The neostriatum, ed. Divac, I. & Oberg, R. G. E., Pergamon Press. [PDM]
Weerasuriya, A. & Ewert, J.-P. (1981) Prey-selective neurons in the toad's optic tectum and sensorimotor interfacing: HRP studies and recording experiments. Journal of Comparative Physiology 144: 429–34. [J-PE]
Weerasuriya, A. & Ewert, J.-P. (1983) Afferents of some dorsal retino-recipient areas of the brain of Bufo bufo. Society for Neuroscience Abstracts 9: 536. [J-PE]
Welker, C. (1971) Microelectrode delineation of fine grain somatotopic organization of SmI cerebral neocortex in albino rat. Brain Research 26: 259–75. [JHK]
Welker, W. I. & Campos, G. B. (1963) Physiological significance of sulci in somatic sensory cerebral cortex in mammals of the family Procyonidae. Journal of Comparative Neurology 120: 1936. [DF]
Wilczynski, W. & Northcutt, R. (1977) Afferents to the optic tectum of the leopard frog: An HRP study. Journal of Comparative Neurology 173: 219–29. [taSOEE, JPE]
Wilczynski, W. & Northcutt, R. (1983) Connections of the bullfrog striatum: Afferent organization. Journal of Comparative Neurology 214: 321–32. [rSOEE, WW]
Wiley, E. O. (1981) Phylogenetics. John Wiley. [RGN]
Williams, R. W. & Chalupa, L. M. (1982) Prenatal development of retinoeollieular projections in the cat: An anterograde tracer transportstudy. Journal of Neuroscience 2: 604–22. [taSOEE]
Willis, W. D., Kenshalo, D. R. & Leonard, R. B. (1979) The cells of origin of the primate spinothalamic tract. Journal of Comparative Neurology 188: 543–74. [WDW]
Witkovsky, P. (1971) Synapses made by myelinated fibers running to teleost and elasmobranch retinas. Journal of Comparative Neurology 142: 205–22. [taSOEE]
Wolff, J. R. (1981) Some morphogenetic aspects of the development of the central nervous system. In: Behavioral development: The Bielefeld Interdisciplinary Project, ed. Immelmann, K., Barlow, G. W., Petrinovich, L. & Main, M.. Cambridge University Press. [taSOEE]
Yoon, M. G. (1979) Reciprocal transplantations between the optic tectum and the cerebellum in adult goldfish. Journal of Physiology 288: 211–25. [GES]
Young, J. Z. (1965) The central nervous system of Nautilus. Philosophical Transactions of the Royal Society. B249: 4567. [JZY]

The parcellation theory: What does the evidence tell us?

  • Walter Wilczynski (a1)

Metrics

Full text views

Total number of HTML views: 0
Total number of PDF views: 0 *
Loading metrics...

Abstract views

Total abstract views: 0 *
Loading metrics...

* Views captured on Cambridge Core between <date>. This data will be updated every 24 hours.

Usage data cannot currently be displayed