Behavioral and Brain Sciences

Volume 22 : Issue 3

Table of Contents

• Is vision continuous with cognition?: The case for cognitive impenetrability of visual perception 
  Zenon Pylyshyn
  Page 341-365
• Visual space is not cognitively impenetrable 
  Yiannis Aloimonos and Cornelia Ferm;amp;uuml;ller
  Page 366-367
• Cognitive impenetrability, phenomenology, and nonconceptual content 
  
  Page 367-368
• The visual categories for letters and words reside outside any informationally encapsulated perceptual system 
  Jeffrey S. Bowers
  Page 368-369
• Complexities of face perception and categorisation 
  Vicki Bruce, Steve Langton and Harold Hill
  Page 369-370
• Visual perception is too fast to be impenetrable to cognition 
  Jean Bullier
  Page 370-370
• The cognitive impenetrability of cognition 
  Patrick Cavanagh
  Page 370-371
• Even feature integration is cognitively impenetrable 
  Dale J. Cohen and Michael Kubovy
  Page 371-372
• What is the point of attempting to make a case for cognitive impenetrability of visual perception? 
  Boris Crassini, Jack Broerse, R. H. Day, Christopher J. Best and W. A. Sparrow
  Page 372-373
• Constraining the use of constraints 
  James L. Dannemiller and William Epstein
  Page 373-374
• Better theories are needed to distinguish perception from cognition 
  Michael R. W. Dawson and C. Darren Piercey
  Page 374-375
• The cognitive impenetrability hypothesis: Doomsday for the unity of the cognitive neurosciences? 
  Birgitta Dresp
  Page 375-376
• No reconstruction, no impenetrability (at least not much) 
  Shimon Edelman
  Page 376-376
• The cognitive impenetrability of visual perception: Old wine in a new bottle 
  Howard Egeth
  Page 377-377
• Perception and information processing 
  Angus Gellatly
  Page 377-378
• Is haptic perception continuous with cognition? 
  Edouard Gentaz and Yves Rossetti
  Page 378-379
• Neurophysiology indicates cognitive penetration of the visual system 
  Alexander Grunewald
  Page 379-380
• Vision and cognition: Drawing the line 
  Andrew Hollingworth and John M. Henderson
  Page 380-381
• We all are Rembrandt experts ; or, How task dissociations in school learning effects support the discontinuity hypothesis 
  R;eacute;gine Kolinsky and Jos;eacute; Morais
  Page 381-382
• An even stronger case for the cognitive impenetrability of visual perception 
  Lester E. Krueger
  Page 382-383
• Binary oppositions and what focuses in focal attention 
  Cyril Latimer
  Page 383-384
• Better ways to study penetrability with detection theory 
  Neil A. Macmillan
  Page 384-384
• Defining perception and cognition 
  Dennis J. McFarland and Anthony T. Cacace
  Page 385-385
• Cognitive impenetrability of early vision does not imply cognitive impenetrability of perception 
  Cathleen M. Moore
  Page 385-386
• Seeing beyond the modules toward the subject of perception 
  Alva No;euml; and Evan Thompson
  Page 386-387
• How does low level vision interact with knowledge? 
  John R. Pani
  Page 387-388
• Is perception of 3-D surface configurations cognitively penetrable? 
  Thomas V. Papathomas
  Page 388-389
• Knowledge and intention can penetrate early vision 
  Mary A. Peterson
  Page 389-390
• Cognitive penetration: Would we know it if we saw it? 
  Gillian Rhodes and Michael L. Kalish
  Page 390-391
• Is visual recognition entirely impenetrable? 
  Azriel Rosenfeld
  Page 391-392
• The future of vision needs more bridges and fewer walls 
  Thomas Sanocki
  Page 392-393
• Color memory penetrates early vision 
  James A. Schirillo
  Page 393-393
• The case for cognitive penetrability 
  Philippe G. Schyns
  Page 394-395
• Perception, inference, and the veridicality of natural constraints 
  Manish Singh and Donald D. Hoffman
  Page 395-396
• Expert perceivers and perceptual learning 
  Paul T. Sowden
  Page 396-397
• Attentive selection penetrates (almost) the entire visual system 
  John K. Tsotsos
  Page 397-397
• Can we answer the unanswerable? 
  William R. Uttal
  Page 397-398
• Segregation and integration of information among visual modules 
  Giorgio Vallortigara
  Page 398-399
• An ecological approach to cognitive (im)penetrability 
  Rob Withagen and Claire F. Michaels
  Page 399-400
• Is early visual processing attention impenetrable? 
  Su-Ling Yeh and I-Ping Chen
  Page 400-400
• Penetrating the impenetrable? 
  Karen Yu
  Page 401-401
• Vision and cognition: How do they connect? 
  Zenon Pylyshyn
  Page 401-414
• Episodic memory, amnesia, and the hippocampal;anterior thalamic axis 
  John P. Aggleton and Malcolm W. Brown
  Page 425-444
• Perirhinal cortex: Lost in space? 
  David K. Bilkey
  Page 444-445
• Raising the profile of the anterior thalamus 
  John C. Dalrymple-Alford, Anna M. Gifkins and Michael A. Christie
  Page 447-448
• That old familiar feeling: On uniquely identifying the role of perirhinal cortex 
  M. J. Eacott
  Page 448-449
• Hippocampus, recognition, and recall: A new twist on some old data? 
  Jonathan K. Foster
  Page 449-450
• What does the limbic memory circuit actually do? 
  Michael Gabriel and David M. Smith
  Page 451-451
• Episodic memory in semantic dementia: Implications for the roles played by the perirhinal and hippocampal memory systems in new learning 
  Kim S. Graham and John R. Hodges
  Page 452-453
• Retrieval dynamics and brain mechanisms 
  Douglas L. Hintzman
  Page 453-454
• Neuropsychological assumptions and implications 
  Narinder Kapur
  Page 454-454
• Perirhinal cortex and hippocampus mediate parallel processing of object and spatial location information 
  Raymond P. Kesner
  Page 455-455
• Recall, recognition, and the medial temporal lobes 
  Barbara J. Knowlton
  Page 455-456
• Thalamic amnesia and the hippocampus: Unresolved questions and an alternative candidate 
  Robert G. Mair, Joshua A. Burk, M. Christine Porter and Jessica E. Ley
  Page 458-459
• Gestalt view of the limbic system and the Papez circuit ; another approach to unity and diversity of brain structures and functions 
  Hans J. Markowitsch
  Page 459-460
• What are the functional deficits produced by hippocampal and perirhinal cortex lesions? 
  A. R. Mayes, R. van Eijk, P. A. Gooding, C. L. Isaac and J. S. Holdstock
  Page 460-461
• How do animals solve object-recognition tasks? 
  Dave G. Mumby
  Page 461-462
• Memory systems, frontal cortex, and the hippocampal axis 
  Amanda Parker
  Page 464-465
• The neural bases of recollection and familiarity: Preliminary tests of the Aggleton;Brown mode 
  Alan D. Pickering
  Page 465-466
• Mere functional characterization is not enough to understand memory circuits 
  Alessandro Treves
  Page 466-467
• The hippocampus and path integration 
  Ian Q. Whishaw
  Page 467-467
• The medial dorsal nucleus of the thalamus is not part of a hippocampal-thalamic memory system 
  Menno P. Witter and Ysbrand D. Van der Werf
  Page 467-468
• The neural substrates of recollection and familiarity 
  Andrew P. Yonelinas, Neal E. A. Kroll, Ian G. Dobbins, Michele Lazzara and Robert T. Knight
  Page 468-469
• Remembering the hippocampus 
  Stuart M. Zola and Larry R. Squire
  Page 469-471
• Thanks for the memories: Extending the hippocampal-diencephalic mnemonic system 
  John P. Aggleton and Malcolm W. Brown
  Page 471-479
• Neurobiology of the structure of personality: Dopamine, facilitation of incentive motivation, and extraversion 
  Richard A. Depue and Paul F. Collins
  Page 491-517
• The integration of motivation 
  Alan H. Bond and Michael Raleigh
  Page 518-519
• Of genes, environment, and destiny 
  Simona Cabib and Stefano Puglisi-Allegra
  Page 519-520
• Does extraversion predict positive incentive motivation? 
  Philip J. Corr
  Page 520-521
• Dopaminergic influences beyond extraversion 
  Douglas Derryberry and Marjorie A. Reed
  Page 521-521
• Computations in extraversion 
  C. Fine and R. J. R. Blair
  Page 521-523
• But the schizophrenia connection . . . 
  Jeffrey A. Gray
  Page 523-524
• Neurobiology of extraversion: Pieces of the puzzle still missing 
  Jennifer Isom and Wendy Heller
  Page 524-524
• The limbic basal-ganglia-thalamocortical circuit and goal-directed behavior 
  Daphna Joel
  Page 525-526
• The neurobiology of attention-deficit/hyperactivity disorder (ADHD) as a model of the neurobiology of personality 
  Bonnie J. Kaplan
  Page 526-527
• Dopamine and serotonin: Integrating current affective engagement with longer-term goals 
  Leonard D. Katz
  Page 527-527
• Anterior asymmetry and the neurobiology of behavioral approach circuitry 
  John P. Kline
  Page 528-528
• Steps to a neurochemistry of personality 
  Andrew D. Lawrence, Matthias J. Koepp, Roger N. Gunn, Vincent J. Cunningham and Paul M. Grasby
  Page 528-529
• Reconciling discrete psychological typology with a psychobiological continuum 
  Michel Le Moal and Pier Vincenzo Piazza
  Page 529-530
• Moderators and mechanisms relating personality to reward and dopamine: Some findings and open questions 
  Petra Netter and Juergen Hennig
  Page 531-532
• Dopamine: Go/No-Go motivation versus switching 
  Robert D. Oades
  Page 532-533
• The affiliative playfulness and impulsivity of extraverts may not be dopaminergically mediated 
  Jaak Panksepp
  Page 533-534
• Personality correlates of the dopaminergic facilitation of incentive motivation: Impulsive sensation seeking rather than extraversion? 
  Alan D. Pickering
  Page 534-535
• Dopamine and extraversion: Differential responsivity may be the key 
  Thomas H. Rammsayer
  Page 535-536
• Is depression a dysfunction in self-regulating the brain/behavior system for approach? 
  Timothy J. Strauman
  Page 536-537
• Extraversion, sexual experience, and sexual emotions 
  John Marshall Townsend
  Page 537-537
• Dopamine tightens, not loosens 
  Don M. Tucker
  Page 537-538
• Conditioned stimuli and the expression of extraversion: Help or hindrance? 
  Paul Vezina
  Page 538-539
• Incentive motivation: Just extraversion? 
  Marvin Zuckerman
  Page 539-540
• On the psychobiological complexity and stability of traits 
  Richard A. Depue and Paul F. Collins
  Page 541-555
• Can current methods of pathonormal inference tell us anything about modularity? 
  David W. Gow and Philip C. Rodkin
  Page 571-572
• Territorial song and facial gesture: A language precursor in apes 
  Maria Ujhelyi
  Page 572-573
• Homology, neurogenetic imprecision, and lesional complexity 
  Ralph-Axel M;amp;uuml;ller
  Page 573-574