Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/spatial-mapping-takes-time-5ksSGe0GeV
References (45)
-
Patricia Sharp, Hugh Blair, David Etkin, D. Tzanetos (1995)
Influences of vestibular and visual motion information on the spatial firing patterns of hippocampal place cells, 15
-
I. Whishaw, L. Jarrard (1995)
Similarities vs. differences in place learning and circadian activity in rats after fimbria‐fornix section or ibotenate removal of hippocampal cellsHippocampus, 5
-
I. Whishaw, J. Tomie (1997)
Piloting and dead reckoning dissociated by fimbria-fornix lesions in a rat food carrying taskBehavioural Brain Research, 89
-
Robert Sutherland, A. Rodriguez (1989)
The role of the fornix/fimbria and some related subcortical structures in place learning and memoryBehavioural Brain Research, 32
-
I. Whishaw, J. McKenna, H. Maaswinkel (1997)
Hippocampal lesions and path integrationCurrent Opinion in Neurobiology, 7
-
I. Whishaw, J. Cassel, LE Jarrad (1995)
Rats with fimbria-fornix lesions display a place response in a swimming pool: a dissociation between getting there and knowing where, 15
-
C. Barnes (1979)
Memory deficits associated with senescence: a neurophysiological and behavioral study in the rat.Journal of comparative and physiological psychology, 93 1
-
I. Whishaw, Gavian Whishaw (1996)
Conspecific aggression influences food carrying : studies on a wild population of Rattus norvegicusAggressive Behavior, 22
-
JS Taube, HL Burton (1995)
Head direction cell activity monitored in a novel environment and during a cue conflict situation, 74
-
D. Cain, D. Saucier, J. Hall, E. Hargreaves, F. Boon (1996)
Detailed behavioral analysis of water maze acquisition under APV or CNQX: contribution of sensorimotor disturbances to drug-induced acquisition deficits.Behavioral neuroscience, 110 1
-
(1992)
Frustration theory--many years later.Psychological bulletin, 112 3
-
R. Sutherland, B. Kolb, I. Whishaw (1982)
Spatial mapping: definitive disruption by hippocampal or medial frontal cortical damage in the ratNeuroscience Letters, 31
-
BH Bland, CH Vanderwolf (1972)
Electrical stimulation of the hippocampal formation, 43
-
D. Hu, G. Griesbach, A. Amsel (1997)
Development of vicarious trial-and-error behavior in odor discrimination learning in the rat: relation to hippocampal function?Behavioural Brain Research, 86
-
H. Sinnamon, B. Galer (1984)
Head movements elicited by electrical stimulation of the anteromedial cortex of the ratPhysiology & Behavior, 33
-
I. Whishaw, L. Jarrard (1996)
Evidence for extrahippocampal involvement in place learning and hippocampal involvement in path integrationHippocampus, 6
-
SD Oddie, W. Stefanek, I. Kirk, B. Bland (1996)
Intraseptal procaine abolishes hypothalamic stimulation-induced wheel- running and hippocampal theta field activity in rats, 16
-
I. Whishaw, B. Coles, Catherine Bellerive (1995)
Food carrying: a new method for naturalistic studies of spontaneous and forced alternationJournal of Neuroscience Methods, 61
-
J. Cassel, C. Kelche, G. Peterson, G. Ballough, I. Goepp, B. Will (1991)
Graft-induced behavioral recovery from subcallosal septohippocampal damage in rats depends on maturity stage of donor tissueNeuroscience, 45
-
L. Jarrard (1968)
Behavior of hippocampal lesioned rats in home cage and novel situationsPhysiology & Behavior, 3
-
R. Douglas (1967)
The hippocampus and behavior.Psychological bulletin, 67 6
-
S. Angeli, E. Murray, M. Mishkin (1993)
Hippocampectomized monkeys can remember one place but not twoNeuropsychologia, 31
-
LE Jarrard (1968)
Behavior of hippocampal rats in home cage and novel situation, 3
-
D. Olton, J. Becker, G. Handelmann (1979)
Hippocampus, space, and memoryBehavioral and Brain Sciences, 2
-
J. Cassel, C. Kelche (1989)
Scopolamine treatment and fimbria-fornix lesions: Mimetic effects on radial maze performancePhysiology & Behavior, 46
-
J. Evenden, H. Marston, G. Jones, V. Giardini, L. Lénárd, B. Everitt, T. Robbins (1989)
Effects of excitotoxic lesions of the substantia innominata, ventral and dorsal globus pallidus on visual discrimination acquisition, performance and reversal in the ratBehavioural Brain Research, 32
-
J. Calhoun (1963)
The ecology and sociology of the Norway rat. -
N. Geschwind (1965)
Disconnexion syndromes in animals and man. I.Brain : a journal of neurology, 88 2
-
R. Muller, M. Stead, J. Pach (1996)
The hippocampus as a cognitive graphThe Journal of General Physiology, 107
-
H. Jeltsch, J. Cassel, R. Jackisch, B. Neufang, P. Greene, C. Kelche, G. Hertting, B. Will (1994)
Lesions of supracallosal or infracallosal hippocampal pathways in the rat: behavioral, neurochemical, and histochemical effects.Behavioral and neural biology, 62 2
-
J. O’Keefe, L. Nadel (1978)
The Hippocampus as a Cognitive Map -
Dan Hu, A. Amsel (1995)
A simple test of the vicarious trial-and-error hypothesis of hippocampal function.Proceedings of the National Academy of Sciences of the United States of America, 92 12
-
M. Goodale, C. Ellard, L. Booth (1990)
The role of image size and retinal motion in the computation of absolute distance by the Mongolian gerbil (Meriones unguiculatus)Vision Research, 30
-
J. Marotta, T. Perrot, David Nicolle, M. Goodale (1995)
The development of adaptive head movements following enucleationEye, 9
-
C. Vanderwolf, B. Bland, I. Whishaw (1973)
Chapter 8 – Diencephalic, Hippocampal, and Neocortical Mechanisms in Voluntary Movement1 -
M. Tresch, C. Miller, H. Sinnamon (1995)
Priming of locomotor initiation by electrical stimulation in the hypothalamus and preoptic region in the anesthetized ratPhysiology & Behavior, 57
-
I. Whishaw, R. Nikkel (1975)
Anterior hypothalamic electrical stimulation and hippocampal EEG in the rat: suppressed EEG, locomotion, self-stimulation and inhibition of shock avoidance.Behavioral biology, 13 1
-
R. Morris, P. Garrud, J. Rawlins, J. O’Keefe (1982)
Place navigation impaired in rats with hippocampal lesionsNature, 297
-
I. Whishaw (1993)
Activation, travel distance, and environmental change influence food carrying in rats with hippocampal, medial thalamic and septal lesions: Implications for studies on hoarding and theories of hippocampal functionHippocampus, 3
-
CH Vanderwolf, BH Bland, IQ Whishaw (1973)
Efferent organization and the integration of behavior -
I. Whishaw, J. Tomie (1987)
Cholinergic receptor blockade produces impairments in a sensorimotor subsystem for place navigation in the rat: evidence from sensory, motor, and acquisition tests in a swimming pool.Behavioral neuroscience, 101 5
-
B. McNaughton, C. Barnes, J. Gerrard, K. Gothard, M. Jung, J. Knierim, H. Kudrimoti, Yu Qin, W. Skaggs, M. Suster, K. Weaver (1996)
Deciphering the hippocampal polyglot: the hippocampus as a path integration system.The Journal of experimental biology, 199 Pt 1
-
JR Krebs, RH McCleery (1984)
Behavioral ecology -
C. Vanderwolf, D. Cain (1994)
The behavioral neurobiology of learning and memory: A conceptual reorientationBrain Research Reviews, 19
-
C. Gallistel (1990)
The organization of learning
- Publisher
- Wiley
- Copyright
- Copyright © 1998 Wiley Subscription Services
- ISSN
- 1050-9631
- eISSN
- 1098-1063
- DOI
- 10.1002/(SICI)1098-1063(1998)8:2<122::AID-HIPO4>3.0.CO;2-N
- Publisher site
- See Article on Publisher Site
Abstract
The experiment tested the prediction that spatial mapping takes time and asked whether time use is reflected in the overt behavior of a performing animal. The study examines this question by exploiting the expected behavioral differences of control rats and rats with hippocampal formation damage induced with fimbria–fornix (FF) lesions on a spatial navigation task. Previous studies have shown that control rats use a mapping strategy, in which they use the relative positions of environmental cues to reach places in space, whereas FF rats use a cue‐based strategy, in which they are guided by a single cue or their own body orientation. Therefore, control and FF rats were overtrained on a complex foraging task in which they left a burrow to retrieve eight food pellets hidden around the perimeter of a circular table. The control rats retrieved the food pellets in order of their distance from the burrow, took direct routes to the food, and made few errors, all of which suggested they used a spatial strategy. The FF rats were less likely to retrieve food as a function of its distance, took a circular path around the perimeter of the table, and made many errors, suggesting they used a cue‐based strategy. Despite taking shorter routes than the FF rats, the control rats had proportionally slower response speeds. Their slow response speeds support the hypothesis that spatial mapping takes time and that mapping time is reflected in behavior. The results are discussed in relation to their relevance to spatial mapping theory, hippocampal function, and the evolution of foraging strategies. Hippocampus 1998;8:122–130. © 1998 Wiley‐Liss, Inc.
Journal
Hippocampus – Wiley
Published: Jan 1, 1998
Keywords: ; ; ; ; ; ; ; ;