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Keywords: Pigeon
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Journal Articles
Brain Behav Evol (1970) 3 (1-4): 195–204.
Published Online: 03 April 2008
...M. Revzin Optic system Single unit recording Nucleus rotundus Tectum Pigeon 1970 Copyright / Drug Dosage / Disclaimer Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic...
Journal Articles
Brain Behav Evol (1974) 10 (1-3): 228–235.
Published Online: 01 April 2008
...Robert L. Boord; Harvey J. Karten The central projections of the lagenar branchof the cochleolagenar nerve of the pigeon were studied by the Fink-Heimer method in transverse, horizontal and sagittal sections of the brain stem. In addition to terminating within specialized areas associated...
Journal Articles
Brain Behav Evol (1974) 10 (1-3): 236–243.
Published Online: 01 April 2008
...Aaron Rabin The data in this report demonstrate that in the pigeon neural activity in pathways descending from vestibular and reticular nuclei in the brain stem can directly influence spinal motor activity. The observations also show that in the pigeon the vestibular labyrinth is more closely...
Journal Articles
Brain Behav Evol (1973) 8 (4): 287–303.
Published Online: 01 April 2008
...Rae Silver; Paul Witkovsky 193 cells of the spinal nucleus and tract of n.V (TTD) in pigeon were studied with microelectrode techniques. 155 cells could be activated by lightly touching discrete areas of the beak, palate or head surfaces. 38 cells were responsive only to displacement of the lower...
Journal Articles
Brain Behav Evol (1976) 13 (1): 58–68.
Published Online: 28 March 2008
...Fritz W. Vollrath; Juan D. Delius Microelectrode recording in the thalamus of pigeons subjected to tilt and sinusoidal rotational stimuli around the vertical, longitudinal and transversal axes revealed vestibularly driven units in two thalamic nuclei, the nucleus posteroventralis and the nucleus...
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Journal Articles
Journal Articles
Brain Behav Evol (1978) 15 (5-6): 372–388.
Published Online: 27 March 2008
...Philip F. Krayniak; Allan Siegel In this investigation, the projections of the dorsomedial (viz. hippocampus) and adjacent dorsolateral cortical mantle (viz. parahippocampus) of the pigeon telencephalon were studied with the use of 3 H-amino acid radioautography. The results indicate...
Journal Articles
Brain Behav Evol (1975) 11 (2): 91–108.
Published Online: 27 March 2008
...Theodore J. Voneida; Nancy K. Mello The anatomical patterns of intertectal pathways in pigeon (Columba livia) were studied with modifications of the Nauta-Gygax silver technique following discrete unilateral tectal lesions. No homotopic connections between the two optic tecta were found. These data...
Journal Articles
Brain Behav Evol (1982) 21 (2-3): 60–66.
Published Online: 18 March 2008
...Jesper Mogensen; Ivan Divac In3 pigeons ablation of the posterodorsolateral neostriatum impaired delayed alternation without affecting visual discrimination. In mammals the same selective deficit is produced by lesions in the prefrontal system. The presently ablated neostriatal region resembles...
Journal Articles
Brain Behav Evol (1983) 22 (1): 22–41.
Published Online: 18 March 2008
...Melvyn A. Goodale High-speed cinematography was used (1) to analyze the sequence of head movements made by pigeons pecking at small visual targets and (2) to determine where on the retina the target fell at different points in the sequence. In both key-pecking for food reward and normal feeding...
Journal Articles
Brain Behav Evol (1981) 18 (4): 188–193.
Published Online: 18 March 2008
...A.L. Holden A simple numerical method is suggested for comparing the types of ganglion cell in the cat, monkey, rabbit and pigeon, using the W,X,Y classification as a basis. Brain, Behav. Evol. IS: 188-193(1981) Classifying and Comparing Retinal Ganglion Cells A. L. Holden Departm ent o f Visual...
Journal Articles
Brain Behav Evol (1981) 19 (1-2): 56–73.
Published Online: 18 March 2008
... reinforced by food. These ''sensorimotor'' and ''motivational'' deficits were similar to those seen after damage to central trigeminal structures in the pigeon and suggest that TOM is also a component of a putative ''feeding system'' in the pigeon. 18 3 2008 © 1981 S. Karger AG, Basel 1981...
Journal Articles
Brain Behav Evol (1981) 19 (1-2): 74–92.
Published Online: 18 March 2008
... reinforced by food. These ''sensorimotor'' and ''motivational'' deficits were similar to those seen after damage to central trigeminal structures in the pigeon and suggest that TOM is also a component of a putative ''feeding system'' in the pigeon. 18 3 2008 © 1981 S. Karger AG, Basel 1981...
Journal Articles
Brain Behav Evol (1989) 33 (5): 268–278.
Published Online: 06 February 2008
...Jonathan T. Erichsen; William Hodos; Craig Evinger; Brenda B. Bessette; Sally J. Phillips We have determined the pigeon''s head orientation for two postures and two locomotor activities that do not involve a specific visual stimulus. Using a high-speed cine camera, we filmed four pigeons (Columba...
Journal Articles
Brain Behav Evol (1994) 44 (4-5): 192–209.
Published Online: 15 January 2008
... origin of this cascade is the telencephalic nucleus robustus archistriatalis in (male) songbirds but, apparently, the dorsomedial nucleus of the intercollicular complex of the midbrain (DM) in pigeons. Connectional studies of the auditory system in pigeons delineated a series of projections which...
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Brain Behav Evol (2004) 63 (3): 181–188.
Published Online: 18 March 2004
... in other amniote groups. We trained control and hippocampal-lesioned homing pigeons on a series of visual, non-spatial, go/no-go conditional discriminations and then tested them on novel transitivity probe trials. The hippocampal-lesioned pigeons were as successful as control pigeons in responding...
Journal Articles
Brain Behav Evol (2002) 60 (1): 52–58.
Published Online: 11 September 2002
...Zong-Xiang Tang; Shu-Rong Wang The pretectal nucleus lentiformis mesencephali in pigeons is involved in optokinetic nystagmus and consists of lateral (nLMl) and medial (nLMm) subnuclei. The present study using intracellular recordings and brain slices shows that pretectal cells respond...
Journal Articles
Brain Behav Evol (2001) 58 (6): 323–332.
Published Online: 16 May 2002
... that birds in general display IA during sleep. Despite the apparent prevalence of unilateral eye closure and IA in birds, previous work did not detect IA in the pigeon, thereby challenging the conclusion that this is a general feature of birds. Using digital period amplitude analysis, an objective method...