Abstract
Elucidation of the ontogeny of olfactory-mediated behavior must include consideration of the development of the central representation of the olfactory system, including the olfactory bulb and the structures of the ventral forebrain which are innervated by the bulb and which are collectively termed the olfactory cortex (including the piriform cortex, anterior olfactory nucleus, olfactory tubercle and lateral entorhinal area) (Schwob and Price 1978).
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References
Adams JC, Warr WB (1976) Origins of axons in the cat’s acoustic striae determined by injection of horseradish peroxidase into severed tracts. J Comp Neurol 170: 107–121
Bakay RAE, Westrum LE (1984) Age-related fine structural changes in axons and synapses during deafferentation of the rat piriform cortex: a possible basis for plasticity. J Neurocytol 13: 743–765
Bayer SA (1983) 3H-thymidine-radiographic studies of neurogenesis in the rat olfactory bulb. Exp Brain Res 50: 329–340
Biedenbach MA, Stevens CF (1969a) Electrical activity in cat olfactory cortex produced by synchronous orthodromic volleys. J Neurophysiol 32: 193–203
Biedenbach MA, Stevens CF (1969b) Synaptic organization of cat olfactory cortex as revealed by intracellular recording. J Neurophysiol 32: 204–214
Blass EM, Teicher MH (1980) Suckling. Science 210: 15–22
Broadwell RD (1975) Olfactory relationships of the telencephalon and diencephalon of the rabbit. I. An autoradiographic study of the efferent connections of the main and accessory olfactory bulbs. J Comp Neurol 163: 329–345
Caviness VS Jr, Sidman RL (1972) Olfactory structures of the forebrain in the reeler mutant mouse. J Comp Neurol 145: 85–104
Caviness VS Jr, Korde MC, Williams RS (1977) Cellular events induced in the molecular layer of the piriform cortex by ablation of the olfactory bulb in the mouse. Brain Res 134: 13–34
Cowan WM, Stanfield BB, Amaral DC (1981) Further observations on the development of the dentate gyrus. In: Cowan WM (ed) Studies in developmental neurobiology. Oxford University Press, London, pp 395–435
Crandall JE, Leonard CM (1979) Developmental changes in thermal and olfactory influences on golden hamster pups. Behav Neurol Biol 26: 354–363
Derer P, Caviness VS Jr, Sidman RL (1977) Early cortical histogenesis in the primary olfactory cortex of the mouse. Brain Res 123: 27–40
Devor M (1976a) Fiber trajectories of olfactory bulb efferents in the hamster. J Comp Neurol 166: 31–48
Devor M (1976b) Neuroplasticity in the rearrangement of olfactory tract fibers after neonatal transection in hamsters. J Comp Neurol 166: 49–72
Devor M, Schneider GE (1974) Attraction to home-cage odor in hamster pups: specificity and changes with age. Behav Biol 10: 211–221
Devor M, Caviness VS Jr, Derer p (1975) A normally laminated afferent projection to an abnormally laminated cortex: some olfactory connections in the reeler mouse. J Comp Neurol 164: 471–482
Ferster D, LeVay S (1978) The axonal arborization of lateral geniculate neurons in the striate cortex of the cat. J Comp Neurol 182: 925–944
Freeman WJ (1968) Relations between unit activity and evoked potentials in pre-pyriform cortex of cats. J Neurophysiol 31: 337–348
Friedman B, Price JL (1981) Establishment of normal synaptic density in de-afferented olfactory cortex. Brain Res 223: 146–151
Friedman B, Price JL (1984) Fiber systems in the olfactory bulb and cortex: a study in adult and developing rats, using the Timm method with the light and electron microscope. J Comp Neurol 223: 88–109
Friedman B, Price JL (1985) Plasticity in the olfactory cortex: age-dependent affects of deafferentation. J Comp Neurol (submitted)
Gottlieb Dl, Cowan WM (1972) Evidence for a temporal factor in the occupation of available synaptic sites during the development of the dentate gyrus. Brain Res 41: 452–456
Grafe MR (1983) Developmental factors affecting regeneration in the central nervous system: early but not late formed mitral cells reinnervate olfactory cortex after neonatal tract section. J Neurosci 3: 617–630
Gregory EH, Pfaff DW (1971) Development of olfactory-guided behavior in infant rats. Physiol Behav 6: 573–576
Haberly LB (1973a) Unitary analysis of opossum prepyriform cortex. J Neurophysiol 36: 762–774
Haberly LB (1973b) Summed potentials evoked in opossum prepyriform cortex. J Neurophysiol 36: 775–788
Haberly LB, Bower JM (1984) Analysis of association fiber system in piriform cortex with intracellular recording and staining techniques. J Neurophysiol 51: 90–112
Haberly LB, Price JL (1977) The axonal projection patterns of the mitral and tufted cells of the olfactory bulb in the rat. Brain Res 129: 152–157
Haberly LB, Price JL (1978a) Association and commissural fiber systems of the rat. I. Systems originating in the piriform cortex and adjacent areas. J Comp Neurol 178: 711–740
Habely LB, Price JL (1978b) Association and commissural fiber systems of the olfactory cortex of the rat. II. Systems originating in the olfactory peduncle. J Comp Neurol 181: 781–808
Haberly LB, Shepherd CM (1973) Current-density analysis of summed evoked potentials in opossum prepyriform cortex. J Neurophysiol 36: 789–802
Heimer L (1975) Olfactory projections to the diencephalon. In: Stumpf WE, Grant LD (eds) Anatomical neuroendocrinology. Karger, Basel, pp 30–39
Hinds, JW (1967) Autoradiographic study of histogenesis in the mouse olfactory bulb. Thesis, Harvard University, Cambridge MA
Hinds JW (1968) Autoradiographic study of histogenesis in the mouse olfactory bulb. I. Time of origin of neurons and neuroglia. J Comp Neurol 134: 287–304
Hinds JW (1972) Early neuron differentiation in the mouse olfactory bulb. I. Light microscopy. J Comp Neurol 146: 233–252
Krettek JE, Price JL (1977) Projections from the amygdaloid complex to the cerebral cortex and thalamus in the rat and cat. J Comp Neurol 172: 687–722
Krettek JE, Price JL (1978) Amygdaloid projections to subcortical structures within the basal forebrain and brainstem in the rat and cat. J Comp Neurol 178: 225–254
Leonard CM (1975) Developmental changes in olfactory bulb projections revealed by degeneration argyrophilia. J Comp Neurol 162. 467–486
Leonard CM (1978) Maturational loss of thermotaxis prevented by olfactory lesions in golden hamster pups (Mesocricetus auratus). J Comp Physiol Psychol 92: 1084–1094
Leonard CM (1982) Shifting strategies for behavioral thermoregulation in developing golden hamsters. J Comp Physiol Psychol 96: 234–243
LeVay S, Wiesel TN, Hubel DH (1980) The development of ocular dominance columns in normal and visually deprived monkeys. J Comp Neurol 191: 1–151
Luskin MB, Price JL (1982) The distribution of axonal collaterals from the olfactory bulb and the nucleus of the horizontal limb of the diagonal band to the olfactory cortex demonstrated by double retrograde labelling techniques. J Comp Neurol 209: 249–263
Luskin MB, Price JL (1983) The laminar distribution of intracortical fibers originating in the olfactory cortex of the rat. J Comp Neurol 216: 292–302
Mueller AL, Taube JS, Schwartzkroin PA (1984) Development of hyperpolarizing inhibitory postsynaptic potentials and hyperpolarizing response to aminobutyric acid in rabbit hippocampus studied in vitro. J Neurosci 4: 860–867
O’Leary DDM, Fricke RA, Stanfield BB, Cowan WM (1979) Changes in the associa-tional afferents to the dentate gyrus in the absence of its commissural input. Anat Embryol 156: 283–299
O’Leary JL (1937) Structure of the primary olfactory cortex of the mouse. J Comp Neurol 67: 1–31
Powell TPS, Cowan WM, Raisman C (1965) The central olfactory connexions. J Anat 99: 791–813
Price JL (1973) An autoradiographic study of complementary laminar patterns of termination of afferent fibers to the olfactory cortex. J Comp Neurol 150: 87–108
Price JL (1977) Structural organization of the olfactory pathways. In: LeMagnen J and MacLeod P (eds) Olfaction and Taste, vol VI. Information Retrieval, London, pp 87–95
Price JL, Slotnick BM (1983) Dual olfactory representation in the rat thalamus. An anatomical and electrophysiological study. J Comp Neurol 215: 63–77
Price JL, Moxley GF, Schwob JE (1976) Development and plasticity of complementary afferent fiber systems to the olfactory cortex. Exp Brain Res Suppl 1: 148–154
Rainey WT, Jones EC (1981) Terminations of lemniscal axons in the thalamic ventrobasal complex of the cat labelled by HRP injections into the medial lemniscus. Anat Rec 199: 207A-208A
Rudy JW, Cheatle MD (1977) Odor-aversion learning in neonatal rats. Science 198: 845–846
Scalia F, Winans SS (1975) The differential projections of the olfactory bulb and accessory olfactory bulb in mammals. J Comp Neurol 161: 31–56
Schapiro S, Salas M (1970) Behavioral response of infant rats to maternal odor. Psychol Behav 5: 815–817
Schwob JE, Price JL (1978) The cortical projection of the olfactory bulb: development in fetal and neonatal rats correlated with quantitative variations in adult rats. Brain Res 151: 369–374
Schwob JE, Price JL (1984a) The development of axonal connections in the central olfactory system of rats. J Comp Neurol 223: 177–202
Schwob JE, Price JL (1984b) The development of lamination of afferent fibers to the olfactory cortex in rats, with additional observations in the adult. J Comp Neurol 223: 203–222
Schwob JE, Haberly LB, Price JL (1984) The development of physiological responses of the piriform cortex in rats to stimulation of the lateral olfactory tract. J Comp Neurol 223: 223–237
Scott JW, Chafin BR (1975) Origin of olfactory projections to lateral hypothalamus and nuclei gemini in the rat. Brain Res 88: 64–68
Scott JW, Leonard CM (1971) The olfactory connections of the lateral hypothalamus in the rat, mouse and hamster. J Comp Neurol 141: 331–344
Scott JW, McBride RL, Schneider SP (1980) The organization of projections from the olfactory bulb to the piriform cortex and olfactory tubercle in the rat. J Comp Neurol 154: 519–534
Sczerzenie V, Hsiao S (1977) Development of locomotion toward home nesting material in neonatal rats. Dev Psychobiol 10: 315–321
Shatz CJ, Kirkwood PA (1984) Prenatal development of functional connections in the cat’s retinogeniculate pathway. J Neurosci 4: 1378–1397
Skeen LC, Hall WC (1977) Efferent projections of the main and the accessory olfactory bulb in the tree shrew (Tupaia glis). J Comp Neurol 172: 1–36
Small RK, Leonard CM (1983) Early recovery of function after olfactory tract section correlated with reinnervation of olfactory tubercle. Dev Brain Res 7: 25–40
Sperry RW (1963) Chemoaffinity in the orderly growth of nerve fiber patterns and connections. Proc Natl Acad Sci USA 50: 703–710
Stanfield BB, Caviness VS Jr, Cowan WM (1979) The organization of certain afferents to the hippocampus and dentate gyrus in normal and reeler mice. J Comp Neurol 185: 461–484
Teicher MH, Stewart WB, Kauer JS, Shepherd CM (1980) Suckling pheromone stimulation of a modified glomerular region in the developing rat olfactory bulb revealed by the 2-deoxyglucose method. Brain Res 194: 530–535
Westrum LE (1975a) Electron microscopy of synaptic structures in olfactory cortex of early postnatal rats. J Neurocytol 4: 713–732
Westrum LE (1975b) Axonal patterns in olfactory cortex after olfactory bulb removal in newborn rats. Exp Neurol 47: 442–447
Westrum LE (1980) Alterations in axons and synapses of olfactory cortex following olfactory bulb lesions in newborn rats. Anat Embryol 160: 153–172
White LE Jr (1965) Olfactory bulb projections of the rat. Anat Rec 152: 465–480
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© 1986 Springer-Verlag Berlin Heidelberg
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Schwob, J.E., Friedman, B., Price, J.L. (1986). Development of Axonal Connections in the Central Olfactory System. In: Breipohl, W., Apfelbach, R. (eds) Ontogeny of Olfaction. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-71576-1_14
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DOI: https://doi.org/10.1007/978-3-642-71576-1_14
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