Article published In: Applying Cognitive Linguistics: Figurative language in use, constructions and typology
Edited by Ana M. Piquer-Píriz and Rafael Alejo-González
[Review of Cognitive Linguistics 14:1] 2016
► pp. 105–135
On-line processing of verb-argument constructions
Visual recognition threshold and naming latency
Published online: 7 July 2016
https://doi.org/10.1075/rcl.14.1.05ell
https://doi.org/10.1075/rcl.14.1.05ell
Ellis, O’Donnell, and Römer (2014) used free-association tasks to investigate knowledge of Verb-Argument Constructions (VACs). They demonstrated that English speakers have independent implicit knowledge of (i) verb frequency in the VAC, (ii) VAC-verb contingency, and (iii) verb prototypicality in terms of centrality within the VAC semantic network. They concluded that VAC processing involves rich associations, tuned by verb type and token frequencies and their contingencies of usage, which interface syntax, lexis, and semantics. However, the tasks they used, where respondents had a minute to think of the verbs that fitted in VAC frames like ‘he __ across the….’, ‘it __ of the….’, etc., were quite conscious and explicit. The current experiments therefore investigate the effects of these factors in on-line processing for recognition and naming. Experiment 1 tested the recognition of VAC exemplars from very brief, masked, visual presentations. Recognition threshold was affected by overall verb frequency in the language, by the frequency with which verbs appear in the VAC, and by VAC-verb contingency (ΔPcw). Experiment 2 had participants successively name VAC arguments as quickly as possible: first the VAC and then the preposition. Preposition naming latency was a function of verb frequency in the VAC. We consider the implications for the representation and processing of VACs.
References (72)
Allan, L.G. (1980). A note on measurement of contingency between two binary variables in judgment tasks. Bulletin of the Psychonomic Society, 151, 147–149.
Allport, D., & Funnell, E. (1981). Components of the mental lexicon. Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 295(1077), 397–410.
Anderson, J.R. (1983). A spreading activation theory of memory. Journal of Verbal Learning & Verbal Behavior, 22(3), 261–295.
Arnon, I., & Snider, N. (2010). More than words: Frequency effects for multi-word phrases. Journal of Memory and Language, 621, 67–82.
Audacity Team. (2014). Audacity (Version 2.0.2): [URL].
Baayen, R.H., Feldman, L.B., & Schreuder, R. (2006). Morphological influences on the recognition of monosyllabic monomorphemic words. Journal of Memory and Language, 55(2), 290–313.
Balota, D., Cortese, M., Sergent-Marshall, S.D., Spieler, D., & Yap, M. (2004). Visual word recognition of single-syllable words. Journal of Experimental Psychology: General, 133(2), 283–316.
Balota, D., Ferraro, F., & Connor, L. (1991). On the early influence of meaning in word recognition: A review of the literature. In P.J. Schwanenflugel (Ed.), The psychology of word meanings (pp. 187–222). Hillsdale, NJ: Lawrence Erlbaum Associates.
Barsalou, L.W. (2010). Ad hoc categories. In P.C. Hogan (Ed.), The Cambridge encyclopedia of the language sciences (pp. 87–88). New York: Cambridge University Press.
Bates, D., Maechler, M., Bolker, B., & Walker, S. (2015). Fitting linear mixed-effects models using lme4. Journal of Statistical Software, 67(1), 1–48.
Bencini, G.M.L., & Goldberg, A. (2000). The contribution of argument structure constructions to sentence meaning. Journal of Memory and Language, 431, 640–651.
BNC. (2007). BNC XML Edition [URL].
Bod, R. (2001). Sentence memory: Storage vs. computation of frequent sentences. Paper presented at the CUNY-2001, Philadelphia, Pennsylvania.
Davies, M. (2004–). BYU-BNC: The British National Corpus available online at [URL].
. (2008–). The corpus of contemporary American English: 450 million words, 1990–present. Available online at [URL].
de Nooy, W., Mrvar, A., & Batagelj, V. (2010). Exploratory social network analysis with Pajek. Cambridge: Cambridge University Press.
Dehaene, S., & Changeux, J.P. (2011). Experimental and theoretical approaches to conscious processing. Neuron Review, 701, 200–227.
Durrant, P., & Doherty, A. (2010). Are high-frequency collocations psychologically real? Investigating the thesis of collocational priming. Corpus Linguistics and Linguistic Theory, 61, 125–155.
Ebbinghaus, H. (1885). Memory: A contribution to experimental psychology (trans. by H.A. Ruger & C.E. Bussenius [1913]). New York: Teachers College, Columbia.
Ellis, N.C. (Ed.). (1994). Implicit and explicit learning of languages. San Diego, CA: Academic Press.
(1996). Sequencing in SLA: Phonological memory, chunking, and points of order. Studies in Second Language Acquisition, 18(1), 91–126.
(2001). Memory for language. In P. Robinson (Ed.), Cognition and second language instruction (pp. 33–68). New York: Cambridge University Press.
(2002). Frequency effects in language processing: A review with implications for theories of implicit and explicit language acquisition. Studies in Second Language Acquisition, 24(2), 143–188.
(2006b). Selective attention and transfer phenomena in SLA: Contingency, cue competition, salience, interference, overshadowing, blocking, and perceptual learning. Applied Linguistics, 27(2), 1–31.
(2008). Usage-based and form-focused language acquisition: The associative learning of constructions, learned-attention, and the limited L2 endstate. In P. Robinson & N.C. Ellis (Eds.), Handbook of cognitive linguistics and second language acquisition (pp. 372–405). London: Routledge.
(2012). Formulaic language and second language acquisition: Zipf and the phrasal teddy bear. Annual Review of Applied Linguistics, 321, 17–44.
(in press). On-line processing of verb-argument constructions: Lexical decision and semantic processing. Language and Cognition.
Ellis, N.C., & Ferreira-Junior, F. (2009). Constructions and their acquisition: Islands and the distinctiveness of their occupancy. Annual Review of Cognitive Linguistics, 71, 111–139.
Ellis, N.C., Frey, E., & Jalkanen, I. (2009). The psycholinguistic reality of collocation and semantic prosody (1): Lexical access. In U. Römer & R. Schulze (Eds.), Exploring the lexis-grammar interface (pp. 89–114). Amsterdam: John Benjamins.
Ellis, R., Loewen, S., Erlam, R., Philp, J., & Reinders, H. (2009). Implicit and explicit knowledge in second language learning, testing and teaching. Bristol, UK: Multilingual Matters.
Ellis, N.C., & O’Donnell, M.B. (2011). Robust language acquisition: An emergent consequence of language as a complex adaptive system. In L. Carlson, C. Hölscher, & T. Shipley (Eds.),
Proceedings of the 33rd Annual Conference of the Cognitive Science Society
(pp. 3512–3517). Austin, TX: Cognitive Science Society.
(2012). Statistical construction learning: Does a Zipfian problem space ensure robust language learning? In J. Rebuschat & J. Williams (Eds.), Statistical learning and language acquisition (pp. 265–304). Berlin: Mouton de Gruyter.
Ellis, N.C., O’Donnell, M.B., & Römer, U. (2012). Usage-based language: Investigating the latent structures that underpin acquisition. Currents in Language Learning, 11, 25–51.
. (2014). The processing of Verb-Argument Constructions is sensitive to form, function, frequency, contingency, and prototypicality. Cognitive Linguistics, 251, 55–98.
Forster, K.I., & Chambers, S. (1973). Lexical access and naming time. Journal of Verbal Learning and Verbal Behavior, 121, 627–635.
Fox, J. (2003). Effect displays in R for generalised linear models. Journal of Statistical Software, 8(15), 1–27.
Francis, G., Hunston, S., & Manning, E. (Eds.). (1996). Grammar patterns 1: Verbs. The COBUILD series. London: Harper Collins.
Goldberg, A.E. (1995). Constructions: A construction grammar approach to argument structure. Chicago: University of Chicago Press.
Goldberg, A.E., & Bencini, G.M.L. (2005). Support from processing for a constructional approach to grammar. In A.E. Tyler, M. Takada, Y. Kim, & D. Marinova (Eds.), Language in use: Cognitive and discourse perspectives on language and language learning (pp. 3–18). Washington DC: Georgetown University Press.
Gries, S.T., & Ellis, N.C. (2015). Statistical measures for usage-based linguistics. Currents in Language Learning, 21, 228–255.
Gries, S.T., & Wulff, S. (2005). Do foreign language learners also have constructions?: Evidence from priming, sorting, and corpora. Annual Review of Cognitive Linguistics, 31, 182–200.
Harnad, S. (Ed.). (1987). Categorical perception: The groundwork of cognition. New York: Cambridge University Press.
Howes, D.H., & Solomon, R.L. (1951). Visual duration threshold as a function of word-probability. Journal of Experimental Psychology, 41(6), 401–410.
Lakoff, G. (1987). Women, fire, and dangerous things: What categories reveal about the mind. Chicago: University of Chicago Press.
MacWhinney, B. (1987). The competition model. In B. MacWhinney (Ed.), Mechanisms of language acquisition (pp. 249–308). Hillsdale, NJ: Erlbaum.
Marcel, A.J. (1983). Conscious and unconscious perception: Experiments on visual masking and word recognition. Cognitive Psychology, 15(2), 197–237.
McDonough, K., & De Vleeschauwer, J. (2012). Prompt type frequency, auditory pattern discrimination, and EFL learners’ production of wh-questions. Studies in Second Language Acquisition, 34(3), 355–377.
Meyer, D.E., & Schvaneveldt, R.W. (1971). Facilitation in recognizing pairs of words: Evidence of a dependence between retrieval operations. Journal of Experimental Psychology, 901, 227–234.
Miller, G.A. (2009). WordNet: About us. Retrieved March 1, 2010, from Princeton University [URL]
Miller, G.A., & Selfridge, J.A. (1950). Verbal context and the recall of meaningful material. The American Journal of Psychology, 631, 176–185.
Morton, J. (1969). Interaction of information in word recognition. Psychological Review, 76(2), 165–178.
Peirce, J.W. (2007). PsychoPy: Psychophysics software in Python. Journal of Neuroscience Methods, 162(1), 8–13.
R Development Core Team. (2012). R: A language and environment for statistical computing. Vienna: R Foundation for Statistical Computing.
Rescorla, R.A. (1968). Probability of shock in the presence and absence of CS in fear conditioning. Journal of Comparative and Physiological Psychology, 661, 1–5.
Robinson, P., & Ellis, N.C. (Eds.). (2008). Handbook of cognitive linguistics and second language acquisition. London: Routledge.
Römer, U., O’Donnell, M.B., & Ellis, N.C. (2015). Using COBUILD grammar patterns for a large-scale analysis of verb-argument constructions: Exploring corpus data and speaker knowledge. In M. Charles, N. Groom, & S. John (Eds.), Corpora, grammar, text and discourse: In honour of Susan Hunston (pp. 43–72). Amsterdam: John Benjamins.
Rosch, E., & Mervis, C.B. (1975). Cognitive representations of semantic categories. Journal of Experimental Psychology: General, 1041, 192–233.
Rosch, E., Mervis, C.B., Gray, W.D., Johnson, D.M., & Boyes-Braem, P. (1976). Basic objects in natural categories. Cognitive Psychology, 81, 382–439.
Seidenberg, M.S., & McClelland, J.L. (1989a). A distributed, developmental model of word acquisition. Psychological Review, 941, 523–568.
(1989b). A distributed, developmental model of word recognition and naming. Psychological Review, 96(4), 523–568.
Thorndike, E.L., & Lorge, I. (1944). The teacher’s book of 30,000 words. New York: Teacher’s College.
Tremblay, A., Derwing, B., Libben, G., & Westbury, C. (2011). Processing advantages of lexical bundles: Evidence from self-paced reading and sentence recall casks. Language Learning, 61(2), 569–613.
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Cited by two other publications
Ellis, Nick C. & Dave C. Ogden
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