Chapter published in:
T. Givón
[Not in series 230] 2020
► pp. 3255


Abdulaev, Y. G. and M. I. Posner
(1997) “Time-course of activating brain areas in generating verbal associations”, Psychological Science, 8.1.Google Scholar
Aristotle De Partibus Animalum
, in J. Barnes (ed. 1984, vol. I).Google Scholar
Atkinson, R. C. and R. M. Shiffrin
(1968) “Human memory: A proposed system and its control processes”, in K. W. Spence and T. Spence (eds) The Psychology of Learning and Motivation, vol. 2, NY: Academic Press.Google Scholar
Baddeley, A. D.
(1986) Working Memory, NY: Oxford University Press.Google Scholar
Badre, D. and A. D. Wagner
(2007) “The left ventro-lateral prefrontal cortex and the cognitive control of memory”, Neuropsychologia, 45.Google Scholar
Bahlmann, J., R. I. Schubotz and A. Friederici
(2008) “Hierarchical artificial grammar processing engages Broca’s area”, NeuroImage 42,2.Google Scholar
Barnes, J.
(ed. 1984) The Complete Works of Aristotle, Princeton, NJ: Princeton University Press.Google Scholar
Bowman, C. R. and D. Zeithamova
(2018) “Abstract memory representation in the ventromedial prefrontal cortex and hippocampus support concept generalization”, J. of Neuroscience, 38.10, (March 2018)Google Scholar
Chase, W. G. and A. Ericsson
(1982) “Skill and working memory”, in G. Bower (ed.) The Psychology of Learning and Motivation, 6, NY: Academic Press.Google Scholar
Chase, W. G. and H. Simon
(1973) “Perception in chess”, Cognition, 4.Google Scholar
Collins, A. M. and E. F. Loftus
(1975) “A spreading activation theory of semantic processing”, Psych. Review, 82.Google Scholar
Collins, A. M. and M. R. Quillian
(1969) “Retrieval time from semantic memory”, J.V.L.V.B., 8.Google Scholar
(1972) “How to make a language user”, in E. Tulvig and W. Donaldson (eds) Organization of Memory, NY: Academic Press.Google Scholar
Ericsson, A. and W. Kintsch
(1995) “Long term working memory”, Psychological Review, 102.2.Google Scholar
Fan, J.
(2014) “An information theory account of cognitive control”, Human Neuroscience 8, September.Google Scholar
Friederici, A.
(2008) “Brain circuits of syntax: Fron neuro-theoretical considerations to empirical tests”, Ernst Stüngmann Forum on the Biological Foundations and Origin of Syntax, Frankfurt, July 2008 (ms.).Google Scholar
Friederici, A. and S. Frisch
(2000) “Verb-argument structure processing: The role of verb-specific and argument-specific information”, J. of Memory and Language, 43.Google Scholar
Gathercole, S. E. and A. D. Baddeley
(1993) Working Memory and Language, Hillsdale, NJ: Erlbaum.Google Scholar
Gazzaniga, M. S.
(2005) The Ethical Brain, NY/Washington DC: Dana Press.Google Scholar
Gernsbacher, M. A.
(1985) “Surface information loss in comprehension”, Cognitive Psychology, 17.Google Scholar
(1990) Language Comprehension as Structure Building, Hillsdale, NJ: Erlbaum.Google Scholar
(ed. 1994) Handbook of Psycholinguistics, NY: Academic Press.Google Scholar
Givón, T.
(2001) Syntax: An Introduction, Amsterdam: J. Benjamins.Google Scholar
(2002) Bio-Linguistics: The Santa Barbara Lectures, Amsterdam: J. Benjamins.Google Scholar
(2005) Context as Other Minds, Amsterdam: J. Benjamins.Google Scholar
(2009) The Genesis of Syntactic Complexity, Amsterdam: J. Benjamins.Google Scholar
(2015) The Diachrony of Grammar, Amsterdam: J. Benjamins.Google Scholar
Goodale, M. A.
(2000) “Perception and action in the human visual system”, in M. S. Gazzaniga (ed.) The New Cognitive Neuroscience, 2nd edition, Cambridge, Mass.: MIT Press.Google Scholar
Humphreys, G. W. and J. M. Riddoch
(1987) “Introduction: Cognitive psychology and visual object processing”, in G. W. Humphreys and J. M. Riddoch (eds 1987).Google Scholar
(eds 1987) Visual Object Processing: A Cognitive Neuropsychological Approach, London: Erlbaum.Google Scholar
Humphreys, G. W. and M. J. Riddoch
(1988) “On the case of multiple semantic systems: A reply to Shallice”, Cognitive Neuropsychology, 5.1.Google Scholar
Kaas, J. H.
(1989) “Why does the brain have so many visual areas?”, J. of Cognitive Neuroscience, 1.2:121–135.Google Scholar
Kahnemann, D.
(1973) Attention and Effort, Englewood Cliffs, NJ: Prentice-Hall.Google Scholar
Kahneman, D. and A. M. Treisman
(1984) “Changing views of attention and automaticity”, in D. Parasuraman (ed.) Varieties of Attention, London: Academic Press.Google Scholar
Kintsch, W.
(1982) “Memory for text”, in A. Flammer and W. Kintsch (eds) Text Processing, Amsterdam: North Holland.Google Scholar
(1992) “How readers construct situation models for stories: The role of syntactic cues and causal inference”, in A. F. Healy, S. Kosslyn and R. M. Shiffrin (eds) Essays in Honor of William K. Estes, Hillsdale, NJ: Erlbaum.Google Scholar
(1994) “The psychology of discourse processing”, in M. A. Gernsbacher (ed. 1994).Google Scholar
Kintsch, W. and T. van Dijk
(1978) “Toward a model of text comprehension and production”, Psychological Review, 85.Google Scholar
Libet, B.
(1991) “Conscious vs. neural time”, Nature, 352 (6330): 27–28.Google Scholar
(1999) “Do we have free will?”, J. of Consciousness Studies, 6.Google Scholar
McCandliss, B., M. I. Posner and T. Givón
(1999) “Brain plasticity in learning visual words”, Cognitive Psychology.Google Scholar
Mesulam, M.-M.
(2000) Principles of Behavioral and Cognitive Neurology, NY: Oxford University Press.Google Scholar
Mesulam, M.
(2012) “The evolving landscape of human cortical connectivity: Facts and inferences”, Neuroimage, 62: 2182–2189.Google Scholar
Mishkin, M.
(1978) “Memory in monkeys severely impaired by combined but not by separate removal of amygdala and hippocampus”, Nature, 273.Google Scholar
(1982) “A memory system in the monkey”, Philosophical Soc. of London [Biol.], 298.Google Scholar
Mishkin, M., B. Malamut and J. Bachevalier
(1984) “Memories and habits: Two neural systems”, in G. Lynch and J. L. McGaugh (eds), Neurobiology of Learning and Memory, NY: Guilford Press.Google Scholar
Neely, J. H.
(1977) “Semantic priming and retrieval from lexical memory: Role of inhibitionless spreading activation and limited-capacity attention”, J. of Experimental Psychology, General, 106.Google Scholar
(1990) “Semantic priming effect in visual word recognition: A selective review of current findings and theories”, in D. Besner and G. Humphreys (eds) Basic Processes in Reading: Visual Word Recognition, Hillsdale, N.J.: Erlbaum.Google Scholar
Perret, D. I., H. Harries, P. J. Benson, A. J. Mistlin, A. J. Citty, J. K. Hietanen and J. E. Ortega
(1989) “Framework for analysis of neural representation of animate objects and actions”, J. of Experimental Biology, 146.Google Scholar
Petersen, S. E., P. T. Fox, M. I. Posner, M. A. Mintun and M. E. Raichle
(1988) “Positron emission tomographic studies of the cortical anatomy of single word processing”, Nature, 331.Google Scholar
Petri, H. L. and M. Mishkin
(1994) “Behaviorism, cognitivism and the new psychology of memory”, American Scientist, 82.Google Scholar
Posner, M. I.
(1978) Chronometric Explorations of Mind, Oxford: Oxfor University Press.Google Scholar
(ed. 2017) The Psychology of Attention, London: Routledge.Google Scholar
Posner, M. I. and S. W. Boies
(1971) “Components of attention”, Psychological Review, 78.Google Scholar
Posner, M. I. and J. Fan
(2004) “Attention as an organ system”, Dept. of Psychology, University of Oregon (ms.).Google Scholar
Posner, M. I. and R. Klein
(1971) “On the function of consciousness”, Fourth Conference on Attention and Performance, University of Colorado, Boulder (ms).Google Scholar
Posner, M. I. and A. Pavese
(1997) “Anatomy of word and sentence meaning”, Colloquium on Neuroimaging of Human Brain Function, M. Posner and M. Raichle, orgs., Nat. Acad. of Sci. USA.Google Scholar
Posner, M. I. and O. Marín
(eds 1985) Attention and Performance, XI, Hillsdale, NJ: Erlbaum.Google Scholar
Posner, M. I., S. E. Petersen, P. T. Fox and M. E. Raichle
(1988) “Localization of cognitive operations in the human brain”, Science, 240.Google Scholar
Posner, M. I. and M. Rothbart
(2007) “Research on attention networks as a model for the integration of psychological science”, Ann. Review of Psychology, 58:1–23.Google Scholar
in press). “Exploring common mechanisms of brain development and adult plasticity in humans and rodents: An essay in honor of Helen Neville” (ms.).
Posner, M. I. and C. R. R. Snyder
(1974) “Attention and cognitive control”, in R. L. Solso (ed.) Information Processing and Cognition: The Loyola Symposium, Hillsdale, NJ: Erlbaum.Google Scholar
Pulvermüller, F.
(1999) “Words in the brain’s language”, Behavioral and Breain Sciences, 22.Google Scholar
(2003) The Neuroscience of Language, Cambridge: Cambridge University Press.Google Scholar
Pulvermüller, F. and O. Hauk
(2006) “Category specific processing of color anf form words in the left fronto-temporal cortex”, Cerebral Cortex.Google Scholar
Pulvermüller, F. and Y. Shtyrov
(2003) “Automatic processing of grammar in the human brain as revealed in tye mismatched negativity”, NeuroImage, 20.Google Scholar
Pulvermüller, F., Y. Shtyrov and R. P. Carlyon
(2008) “Syntax as reflex: Neurophysiological evidence for early automaticity of grammatical processing”, Brain and Language, 104.3.Google Scholar
Riddoch, M. J. and G. W. and Humphreys
(1987a) “Visual optic processing in a case of optic aphasia”, Cognitive Neuropsychology, 4.Google Scholar
Riddoch, M. J. and G. W. Humphreys
(1987b) “Picture naming”, in G. W. Humphreys and J. M. Riddoch (eds 1987).Google Scholar
Riddoch, M. J., G. W. Humphreys, M. Coltheart and E. Funnell
(1988) “Semantic systems or system? Neuropsychological evidence reexamined”, Cognitive Neuropsychology, 5.1.Google Scholar
Schneider, W.
(1985) “Toward a model of attention and the development of automatic processing”, in M. I. Posner and O. Marin (eds 1985).Google Scholar
Schneider, W. and J. M. Chein
(2003) “Controlled and automatic processing: Behavior, theory, and biological mechanism”, Cognitive Science, 27.Google Scholar
Schneider, W. and R. M. Shiffrin
(1977) “Controlled and automated human information processing, I: Detection, search and attention”, Psychological Review, 84.Google Scholar
Shallice, T.
(1988) From Neuropsychology to Mental Structure, Cambridge: Cambridge University Press.Google Scholar
Simon, H.
(1961) “The architecture of complexity”, Proc. Amer. Philos. Soc., 106.6 (December).Google Scholar
Snyder, A. Z., Y. G. Abdulaev, M. I. Posner and M. E. Raichle
(1995) “Scalp electrical potentials reflect cerebral blood flow responses during processing of written words”, Proc. Nat. Acad of Sci. USA, 92: 1689–1693)Google Scholar
Squire, L. R.
(1987) Memory and Brain, Oxford: Oxford University Press.Google Scholar
(1992) “Memory and the hippocampus: A synthesis from findings with rats, monkeys and humans”, Psych. Review, 99:195–231.Google Scholar
Squire, L. R. and S. Zola-Morgan
(1991) “The medial temporal lobe memory system”, Science, 253.Google Scholar
Spitzer, M.
(1999) The Mind within the Net: Models of learning, Thinking and Acting, Cambridge, MA: MIT Press.Google Scholar
Swinney, D. A.
(1979) “Lexical access during sentence comprehension: (Re)consideration of context effects”, J.V.L.V.B., 18.Google Scholar
Tucker, D. M.
(1991) “Developing emotions and cortical networks”, in M. Gunnar and C. Nelson (eds), Developmental Neuroscience, Minnesota Symposium on Child Psychology, vol. 24, Hillsdale, NJ: Erlbaum.Google Scholar
Tucker, D.
(2001) “Motivated anatomy: A core-and-shell model of cortico-limbic architecture”, in F. Gainotti (ed.) Handbook of Neuropsychology, Amsterdam: Elsevier B.V.Google Scholar
Tucker, D. M.
(2002) “Embodied meaning: An evolutionary-developmental analysis of adaptive semantics”, in T. Givón and B. F. Malle (eds 2002).Google Scholar
in preparation). Left Wing, Right Wing, University of Oregon, Eugene (ms.)
Tucker, D. M. and P. Luu
(2012) Cognition and Neural Development, Oxford: Oxford University Press.Google Scholar
Tucker, D. M., D. L. Roth and T. B. Bair
(1986) “”Functional connections among cortical regions: Topography of EEG Coherence”, Electroencephalography and Clinical Neurophysiology, 63:197–202.Google Scholar
Tulvig, E. and W. Donaldson
(eds 1972) Organization of Memory, NY: Academic Press.Google Scholar
Ungerleider, L. G. and M. Mishkin
(1982) “Two cortical visual systems”, in D. J. Ingle, R. J. W. Mansfield and M. A. Goodale (eds.) The Analysis of Visual Behavior, Cambridge, MA: MIT Press: 549–586.Google Scholar