AllmanJ. M.KaasJ. H. (1971). A representation of the visual field in the caudal third of the middle temporal gyrus of the Owl monkey (Aotus trivirgatus). Brain Research31, 85–105.
2.
AllmanJ. M.KaasJ. H. (1974). A crescent-shaped cortical visual area surrounding the middle temporal area (MT) in the Owl monkey (Aotus trivirgatus). Brain Research81, 199–213.
3.
AllmanJ. M.KaasJ. H. (1975). The dorsomedial cortical visual area: a third tier area in the occipital lobe of the Owl monkey (Aotus trivirgatus). Brain Research100, 473–87.
4.
BlakemoreC.TobinE. A. (1972). Lateral inhibition between orientation detectors in the cat's visual cortex. Experimental Brain Research15, 439–40.
5.
BrindleyG. S.LewinW. S. (1968). The sensations produced by electrical stimulation of the visual cortex. Journal of Physiology196, 479–93.
6.
BruceC. J.DesimoneR.GrossC. G. (1977). Large visual receptive fields in a polysensory area in the superior temporal sulcus of the macaque, AbstractsSociety for NeuroscienceVol. 111, 554.
7.
ChowK. L.BlumJ. S.BlumR. A. (1950). Cell ratios in the thalamo-cortical visual system of Macaca mulatta. Journal of Comparative Neurology92, 227–39.
8.
Le Gros ClarkW. E. (1941). Observations on the association fibre system of the visual cortex and the central representation of the retina. Journal of Anatomy75, 225–35.
9.
CoweyA. (1964). Projection of the retina on to striate and prestriate cortex in the squirrel monkey (Saimiri sciureus). Journal of Neurophysiology27, 366–96.
10.
CoweyA.RollsE. T. (1974). Human cortical magnification factor and its relation to visual acuity. Experimental Brain Research21, 447–54.
11.
CoweyA.PorterJ. (1978). Brain damage and global stereopsis. Proceedings of the Royal Society, Series B (in press).
12.
CreutzfeldtO.KuhntU.BeneventoL. A. (1974). An intracellular analysis of visual cortical neurones to moving stimuli: responses in a co-operative neuronal network. Experimental Brain Research21, 251–74.
13.
DanielP. M.WhitteridgeD. (1961). The representation of the visual field on the cerebral cortex in monkeys. Journal of Physiology159, 203–21.
14.
Dusser de BarenneJ. G.McCullochW. S. (1938). Functional organization in the sensory cortex of the monkey. Journal of Neurophysiology1, 69–85.
15.
FiskenR. A.GareyL. J.PowellT. P. S. (1975). The intrinsic, association and commissural connections of area 17 of the visual cortex. Philosophical Transactions of the Royal Society, Series B272, 487–536.
16.
GrossC. G.BornsteinM. H. (1978). Left and right in science and art. Leonardo11, 29–38.
17.
GrossC. G.CoweyA.ManningF. J. (1971). Further analysis of visual discrimination deficits following foveal prestriate and inferotemporal lesions in rhesus monkeys. Journal of Comparative and Physiological Psychology76, 1–7.
18.
GrossC. G.Rocha-MirandaC. E.BenderD. B. (1972). Visual properties of neurons in inferotemporal cortex of the macaque. Journal of Neurophysiology35, 96–111.
19.
GrossC. G.LewisM.PlaisierD. (1975). Inferior temporal lesions do not impair discrimination of lateral mirror images. Neuroscience Abstracts1, 74.
20.
GrossC. G.MishkinM. (1977). The neural basis of stimulus equivalence across retinal translation. In HarnadS. (Ed.), Lateralization in the Nervous SystemNew York: Academic Press109–22.
21.
HamsherK. de S. (1978). Stereopsis and unilateral brain disease. Investigative Ophthalmology17, 336–43.
22.
HessR.NegishiK.CreutzfeldtO. D. (1975). The horizontal spread of intra-cortical inhibition in the visual cortex. Experimental Brain Research22, 415–9.
23.
HolmesG. (1918). Disturbances of vision by cerebral lesions. British Journal of Ophthalmology2, 353–84.
24.
HubelD. H.WieselT. N. (1968). Receptive fields and functional architecture of monkey striate cortex. Journal of Physiology195, 215–43.
25.
HubelD. H.WieselT. N. (1970). Cells sensitive to binocular depth in area 18 of the macaque monkey cortex. Nature225, 41–2.
26.
HubelD. H.WieselT. N. (1977). Functional architecture of macaque monkey visual cortex. Proceedings of the Royal Society, Series B198, 1–59.
27.
KuypersH. G. J. M.SzwarcbartM. K.MishkinM.RosvoldH. (1965). Occipitotemporal corticocortical connections in the rhesus monkey. Experimental Neurology11, 245–62.
28.
LashleyK. S. (1950). In search of the engram. Society of Experimental Biology Symposium No. 4: Physiological Mechanisms in Animal BehaviourCambridge University Press454–82.
29.
LashleyK. S.ClarkG. (1946). The cytoarchitecture of the cerebral cortex of Ateles: a critical examination of architectonic studies. Journal of Comparative Neurology85, 223–305.
30.
MaffeiL.FiorentiniA. (1976). The unresponsive regions of visual cortical receptive fields. Vision Research16, 1131–9.
31.
MeadowsJ. C. (1974). Disturbed perception of colours associated with localized cerebral lesions. Brain97, 615–32.
32.
MilnerB.TeuberH-L. (1968). Alterations of perception and memory in man. In WeiskrantzL. (Ed.), The Analysis of Behavioral ChangeNew York: Harper & Row268–375.
33.
MonteroV. M.RojasA.TorrealbaF. (1973). Retinotopic organization and striate peristriate visual cortex in the albino rat. Brain Research53, 197–201.
34.
MoraF.RollsE. T.BurtonM. J. (1976). Modulation during learning of the responses of neurons in the lateral hypothalamus to the sight of food. Experimental Neurology53, 508–19.
35.
PolyakS. (1957). The Vertebrate Visual SystemUniversity of Chicago Press.
36.
PowellT. P. S. (1973). The organization of the major functional areas of the cerebral cortex. Symposia of Zoological Society of London No. 33235–52.
37.
RidleyR. M.EttlingerG. (1973). Visual discrimination performance in the monkey: the activity of single cells in inferotemporal cortex. Brain Research55, 179–82.
38.
Rocha-MirandaC. E.BenderD. B.GrossC. G.MishkinM. (1975). Visual activation of neurons in inferotemporal cortex depends on striate cortex and forebrain commissures. Journal of Neurophysiology38, 475–91.
39.
RollsE. T.JudgeS. J.SangheraM. K. (1977). Activity of neurones in the inferotemporal cortex of the alert monkey. Brain Research130, 229–38.
40.
RothsteinT. B.SacksJ. G. (1972). Defective stereopsis in lesions of the parietal lobe. American Journal of Ophthalmology73, 281–4.
41.
SillitoA. M. (1977). Inhibitory processes underlying the directional specificity of simple, complex and hypercomplex cells in the cat's visual cortex. Journal of Physiology271, 699–720.
42.
SillitoA. M.PatelH. H.KempJ. A. (1978). Mechanisms influencing the ocular dominance grouping of cells in the normal visual cortex of the adult cat. Neurosciences Letters1, Supplement 383.
43.
SpatzW.TiggesJ.TiggesM. (1970). Subcortical projections, cortical associations, and some intrinsic interlaminer connections of the striate cortex in the squirrel monkey (Saimiri). Journal of Comparative Neurology140, 155–74.
44.
TalbotS. A.MarshallW. H. (1941). Physiological studies of neural mechanisms of visual localization and discrimination. American Journal of Ophthalmology24, 1255–64.
45.
TusaR. J.PalmerL. A.RosenquistA. C. (1975). The retinotopic organization of the visual cortex in the cat. Neuroscience Abstracts1, 52.
46.
Van EssenD. C.ZekiS. M. (1978). The topographic organization of rhesus monkey prestriate cortex. Journal of Physiology277, 193–226.
47.
VogtB. A.PandyaD. N. (1978). Cortico-cortical connections of somatic sensory cortex (Areas 3, 1 and 2) in the rhesus monkey. Journal of Comparative Neurology177, 179–92.
48.
WagorN. M.PearlmanA. L. (1977). A retinotopic map of mouse extrastriate visual cortex. Society for Neuroscience, AbstractsVol. 111, 580.
49.
WarringtonE. K.TaylorA. M. (1973). The contribution of the right parietal lobe to object recognition. Cortex11, 152–64.
50.
WhitteridgeD.DanielP. M. (1961). The representation of the visual field on the calcarine cortex. In JungJ.KornhuberH. (Eds), The Visual System: Neurophysiology and PsychophysicsBerlin: Springer221–7.
51.
ZekiS. M. (1969). Representation of central visual field in prestriate cortex of monkey. Brain Research14, 271–91.
52.
ZekiS. M. (1978a). The cortical projections of foveal striate cortex in the rhesus monkey. Journal of Physiology277, 227–44.
53.
ZekiS. M. (1978b). The third visual complex of rhesus monkey prestriate cortex. Journal of Physiology277, 245–72.
54.
ZekiS. M. (1978c). Uniformity and diversity of structure and function in rhesus monkey prestriate visual cortex. Journal of Physiology277, 273–90.
