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10 - Different Constructional Approaches in Practice

A Comparative Study

from Part III - Case Studies in Constructional Morphosyntax

Published online by Cambridge University Press:  30 January 2025

By
Remi van Trijp
Edited by
Mirjam Fried  and
Kiki Nikiforidou
Mirjam Fried
Affiliation:
Univerzita Karlova
Kiki Nikiforidou
Affiliation:
University of Athens, Greece
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Summary

Ever since its conception in the 1980s, the scope of what is understood by ‘construction grammar’ has evolved to a point where the constructional enterprise has become a full branch of linguistics in its own right. It can therefore be a daunting challenge for newcomers to come to grips with different research directions that have been pursued under a constructional banner, and even seasoned construction grammarians are at risk of misunderstanding each other. The goal of this chapter is therefore to offer a comparative guide for navigating the constructional landscape and to show that the existence of different constructional flavors is a healthy and necessary response to the problem of analyzing complex linguistic structures, provided that the community maintains a consensus about its core concepts.

Keywords

comparisonsyntax–semanticsinterfaceformalizationtheoretical foundation
Type
Chapter
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The Cambridge Handbook of Construction Grammar , pp. 249 - 289
Publisher: Cambridge University Press
Print publication year: 2025

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References

Baker, C. F., Fillmore, C. J., & Lowe, J. B. (1998). The Berkeley FrameNet Project. In COLING-ACL ’98: Proceedings of the Conference. Montreal, pp. 8690. https://doi.org/10.3115/980845.980860.CrossRefGoogle Scholar
Beckner, C., Blythe, R., Bybee, J., Christiansen, M. H., Croft, W., Ellis, N. C., Holland, J., Ke, J., Larsen-Freeman, D., & Schoenemann, T. (2009). Language is a complex adaptive system: Position paper. Language Learning, 59(1), 126.Google Scholar
Bergen, B. K. & Chang, N. (2005). Embodied Construction Grammar in simulation-based language understanding. In Östman, J.-O. & Fried, M., eds., Construction Grammars: Cognitive Grounding and Theoretical Extensions. Amsterdam & Philadelphia: John Benjamins, pp. 147190.CrossRefGoogle Scholar
Beuls, K. (2012). Inflectional patterns as constructions: Spanish verb morphology in Fluid Construction Grammar. Constructions and Frames, 4(2), 231252.CrossRefGoogle Scholar
Boas, H. C. (2021). Construction Grammar and Frame Semantics. In Wen, X. & Taylor, R. J., eds., The Routledge Handbook of Cognitive Linguistics. New York & London: Routledge, pp. 4377.CrossRefGoogle Scholar
Boas, H. C. & Sag, I. A., eds. (2012). Sign-Based Construction Grammar. Stanford: CSLI Publications.Google Scholar
Bod, R. (2009). Constructions at work or at rest? Cognitive Linguistics, 20(1), 129134.CrossRefGoogle Scholar
Booij, G. (2010). Construction Morphology. Oxford: Oxford University Press.Google Scholar
Boyd, J. K. & Goldberg, A. E. (2011). Learning what not to say: The role of statistical preemption and categorization in a-adjective production. Language, 81(1), 5583.CrossRefGoogle Scholar
Bybee, J. L. & Hopper, P. J., eds. (2001). Frequency and the Emergence of Linguistic Structure. Amsterdam & Philadelphia: John Benjamins.CrossRefGoogle Scholar
Chang, N., De Beule, J., & Micelli, V. (2012). Computational Construction Grammar: Comparing ECG and FCG. In Steels, L., ed., Computational Issues in Fluid Construction Grammar. Berlin & Heidelberg: Springer Verlag, pp. 259288.CrossRefGoogle Scholar
Chomsky, N. (1957). Syntactic Structures. The Hague & Paris: Mouton.CrossRefGoogle Scholar
Chomsky, N. (1965). Aspects of the Theory of Syntax. Cambridge, MA: MIT Press.Google Scholar
Chomsky, N. (1981). Lectures on Government and Binding: The Pisa Lectures. Studies in Generative Grammar 9. Dordrecht & Cinnaminson: Foris Publications.Google Scholar
Chomsky, N. (1995). The Minimalist Program. Cambridge, MA: MIT Press.Google Scholar
Clark, H. H. (1996). Using Language. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Copestake, A. (2002). Implementing Typed Feature Structure Grammars. Stanford: CSLI Publications.Google Scholar
Croft, W. (1998). Event structure in argument linking. In Butt, M. & Geuder, W., eds., The Projection of Arguments: Lexical and Compositional Factors. Stanford: CSLI Publications, pp. 2163.Google Scholar
Croft, W. (2000). Explaining Language Change: An Evolutionary Approach. Harlow: Longman.Google Scholar
Croft, W. (2001). Radical Construction Grammar: Syntactic Theory in Typological Perspective. Oxford: Oxford University Press.CrossRefGoogle Scholar
Croft, W. (2005). Logical and typological arguments for Radical Construction Grammar. In Östman, J.-O. & Fried, M., eds., Construction Grammars: Cognitive Grounding and Theoretical Extensions. Amsterdam & Philadelphia: John Benjamins, pp. 273314.CrossRefGoogle Scholar
Croft, W. (2010). Ten unwarranted assumptions in syntactic argumentation. In Boye, K. & Engberg-Pedersen, E., eds., Language Usage and Language Structure. Berlin: De Gruyter Mouton, pp. 313350.CrossRefGoogle Scholar
Croft, W. (2012). Verbs: Aspect and Causal Structure. Oxford: Oxford University Press.CrossRefGoogle Scholar
Croft, W. (2013). Do we need propositional representations between language and embodied meanings? AMD Newsletter, 2013.Google Scholar
Daniels, M. & Meurers, D. (2004). A grammar formalism and parser for linearization-based HPSG. In Proceedings of the 20th International Conference on Computational Linguistics (COLING 2004), Geneva, pp. 169175. https://doi.org/10.3115/1220355.1220380.CrossRefGoogle Scholar
De Beule, J. (2012). A formal deconstruction of Fluid Construction Grammar. In Steels, L., ed., Computational Issues in Fluid Construction Grammar. Berlin: Springer, pp. 215238.CrossRefGoogle Scholar
Diessel, H. (2004). The Acquisition of Complex Sentences. Cambridge: Cambridge University PressCrossRefGoogle Scholar
Diessel, H. (2017). Usage-based linguistics. In Aronoff, M., ed., Oxford Research Encyclopedia of Linguistics. New York: Oxford University Press.Google Scholar
Diessel, H. (2019). The Grammar Network: How Linguistic Structure Is Shaped by Language Use. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Dowty, D. R. (1996). Toward a minimalist theory of syntactic structure. In Bunt, H. & van Horck, A., eds., Discontinous Constituency. Berlin: De Gruyter Mouton, pp. 1162.CrossRefGoogle Scholar
Fillmore, C. J. (1976). Frame Semantics and the nature of language. Annals of the New York Academy of Sciences: Conference on the Origin and Development of Language and Speech, 280(1), 2032.CrossRefGoogle Scholar
Fillmore, C. J. (1977). Scenes-and-frames semantics. In Zampolli, A., ed., Linguistic Structures Processing. Amsterdam: North-Holland, pp. 5581.Google Scholar
Fillmore, C. J. (1982). Frame semantics. In The Linguistics Society of Korea, ed., Linguistics in the Morning Calm. Seoul: Hanshin, pp. 111138.Google Scholar
Fillmore, C. J. (1988). The mechanisms of “Construction Grammar”. In Proceedings of the Fourteenth Annual Meeting of the Berkeley Linguistics Society, pp. 3555. https://doi.org/10.3765/bls.v14i0.1794.CrossRefGoogle Scholar
Fillmore, C. J. (2003). The case for case. In Fillmore, C. J., ed., Form and Meaning in Language, Vol. 1: Papers on Semantic Roles. Stanford: CSLI Publications, pp. 23122.Google Scholar
Fillmore, C. J. (2012). Encounters with language. Computational Linguistics, 38(4), 701718.CrossRefGoogle Scholar
Fillmore, C. J. (2013). Berkeley Construction Grammar. In Hoffmann, T. & Trousdale, G., eds., The Oxford Handbook of Construction Grammar. Oxford: Oxford University Press, pp. 111132.Google Scholar
Fillmore, C. J., Kay, P., & O’Connor, M. C. (1988). Regularity and idiomaticity in grammatical constructions: The case of let alone. Language, 64(3), 501538.CrossRefGoogle Scholar
Fried, M. (2005). A frame-based approach to case alternations: The swarm-class verbs in Czech. Cognitive Linguistics, 16(3), 475512.CrossRefGoogle Scholar
Fried, M. (2009). Construction grammar as a tool for diachronic analysis. Constructions and Frames, 1(2), 261290.CrossRefGoogle Scholar
Fried, M. & Östman, J.-O. (2004). Construction Grammar: A thumbnail sketch. In Fried, M. & Östman, J.-O., eds., Construction Grammar in a Cross-Language Perspective. Amsterdam & Philadelphia: John Benjamins, pp. 1186.CrossRefGoogle Scholar
Galantucci, B. & Garrod, S. (2010). Experimental semiotics: A new approach for studying the emergence and the evolution of human communication. Interaction Studies, 11(1), 113.CrossRefGoogle Scholar
Ginzburg, J. & Sag, I. A. (2000). Interrogative Investigations: The Form, Meaning, and Use of English Interrogatives. Stanford: CSLI Publications.Google Scholar
Goldberg, A. E. (1995). Constructions: A Construction Grammar Approach to Argument Structure. Chicago: University of Chicago Press.Google Scholar
Goldberg, A. E. (2002). Surface generalizations: An alternative to alternations. Cognitive Linguistics, 13(4), 327356.CrossRefGoogle Scholar
Goldberg, A. E. (2006). Constructions at Work: The Nature of Generalization in Language. Oxford: Oxford University Press.Google Scholar
Goldberg, A. E. (2013). Argument structure constructions versus lexical rules or derivational verb templates. Mind & Language, 28(4), 435465.CrossRefGoogle Scholar
Goldberg, A. E. (2019). Explain Me This: Creativity, Competition, and the Partial Productivity of Constructions. Princeton: Princeton University Press.Google Scholar
Goldberg, A. E., Casenhiser, D. M., & Sethuraman, N. (2004). Learning argument structure generalizations. Cognitive Linguistics, 15(3), 289316.CrossRefGoogle Scholar
Gries, S. Th. & Stefanowitsch, A. (2004). Extending collostructional analysis. A corpus-based perspective on ‘alternations’. International Journal of Corpus Linguistics, 9(1), 97129.CrossRefGoogle Scholar
Gromov, P. (2010). Implementing Sign-Based Construction Grammar with TRALE. Master’s thesis. University of Essex.Google Scholar
Gruber, J. (1965). Studies in Lexical Relations. Cambridge, MA: MIT Press.Google Scholar
Haspelmath, M. (2009). Framework-free grammatical theory. In Heine, B. & Narrog, H., eds., The Oxford Handbook of Grammatical Analysis. Oxford: Oxford University Press, pp. 287310.Google Scholar
Hilpert, M. (2012). Diachronic collostructional analysis: How to use it and how to deal with confounding factors. In Allan, K. & Robinson, J. A., eds., Current Methods in Historical Semantics. Berlin: De Gruyter Mouton, pp. 133160.Google Scholar
Hoffmann, T. (2022). Construction Grammar: The Structure of English. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Hopper, P. (1987). Emergent Grammar. In Aske, J., Beery, N., Michaelis, L. A., & Filip, H., eds., Proceedings of the Thirteenth Annual Meeting of the Berkeley Linguistics Society. Berkeley: Berkeley Linguistics Society, pp. 139157. https://doi.org/10.3765/bls.v13i0.1834.Google Scholar
Kaplan, R. M. & Zaenen, A. (1995). Long-distance dependencies, constituent structure, and functional uncertainty. In Dalrymple, M., Kaplan, R. M., Maxwell, J. T. III, & Zaenen, A., eds., Formal Issues in Lexical-Functional Grammar. Stanford: Stanford University Press, pp. 137165.Google Scholar
Kathol, A. (2000). Linear Syntax. Oxford: Oxford University Press.CrossRefGoogle Scholar
Kay, M. (1979). Functional Grammar. In Proceedings of the Fifth Annual Meeting of the Berkeley Linguistics Society. Berkeley: Berkeley Linguistics Society, pp. 142158. DOI: https://doi.org/10.3765/bls.v5i0.3262.Google Scholar
Kay, P. (2002). An informal sketch of a formal architecture for construction grammar. Grammars, 5, 119. https://doi.org/10.1023/A:1014293330198.CrossRefGoogle Scholar
Kay, P. & Fillmore, C. J. (1999). Grammatical constructions and linguistic generalizations: The What’s X doing Y? construction. Language, 75(1), 133.CrossRefGoogle Scholar
Keenan, E. & Comrie, B. (1977). Noun phrase accessibility and Universal Grammar. Linguistic Inquiry, 8(1), 6399.Google Scholar
Knight, K. (1989). Unification: A multidisciplinary survey. ACM Computing Surveys, 21(1), 93124.CrossRefGoogle Scholar
Langacker, R. W. (1987). Foundations of Cognitive Grammar: Theoretical Prerequisites. Stanford: Stanford University Press.Google Scholar
Langacker, R. W. (1988). A usage-based model. In Rudzska-Ostyn, B., ed., Topics in Cognitive Linguistics. Amsterdam & Philadelphia: John Benjamins, pp. 127161.CrossRefGoogle Scholar
Leivada, E. (2014). From comparative languistics to comparative (bio)linguistics: Reflections on variation. Biolinguistics, 8, 5366.CrossRefGoogle Scholar
Levin, B. & Rappaport Hovav, M. (2005). Argument Realization. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Lichte, T. & Kallmeyer, L. (2017). Tree-adjoining grammar: A tree-based constructionist grammar framework for natural language understanding. In The AAAI 2017 Spring Symposium on Computational Construction Grammar and Natural Language Understanding: Technical Report SS-17-02, pp. 205212.Google Scholar
Lieven, E. (2009). Developing constructions. Cognitive Linguistics, 20(1), 191199.CrossRefGoogle Scholar
Loetzsch, M., Wellens, P., De Beule, J., Bleys, J., & van Trijp, R. (2008). The Babel2 Manual. AI-Memo 01–08. Brussels: AI-Lab VUB.Google Scholar
Manning, C. D. (1995). Dissociating functor-argument structure from surface phrase structure: The relationship of HPSG order domains to LFG. Paper presented at the Tübingen HPSG Workshop, Tübingen. http://nlp.stanford.edu/manning/papers/hpsglfg1.pdf.Google Scholar
Meurers, W. D., Penn, G., & Richter, F. (2002). A web-based instructional platform for constraint-based grammar formalisms and parsing. In Proceedings of the ACL-02 Workshop on Effective Tools and Methodologies for Teaching Natural Language Processing and Computational Linguistics. Philadelphia: Association for Computational Linguistics, pp. 1926. https://doi.org/10.3115/1118108.1118111.Google Scholar
Michaelis, L. A. (2004). Type shifting in construction grammar: An integrated approach to aspectual coercion. Cognitive Linguistics, 15(1), 167.CrossRefGoogle Scholar
Michaelis, L. A. (2009). Sign-Based Construction Grammar. In Heine, B. & Narrog, H., eds., The Oxford Handbook of Linguistic Analysis. Oxford: Oxford University Press, pp. 139158.Google Scholar
Michaelis, L. A. (2019). Constructions are patterns and so are fixed expressions. In Busse, B. & Moehlig-Falke, R., eds., Patterns in Language and Linguistics. Berlin: De Gruyter Mouton, pp. 193220.CrossRefGoogle Scholar
Müller, S. (2006). Phrasal or lexical constructions? Language, 82(4), 850883.CrossRefGoogle Scholar
Müller, S. (2021). HPSG and Construction Grammar. In Müller, S., Abeillé, A., Borsley, R. D., & Koenig, J.-P., eds., Head-Driven Phrase Structure Grammar: The Handbook. Berlin: Language Science Press, pp. 14971553.Google Scholar
Müller, S. & Wechsler, S. M. (2014). Lexical approaches to argument structure. Theoretical Linguistics, 40(1–2), 176.CrossRefGoogle Scholar
Osborne, T. & Gross., T. (2012). Constructions are catenae: Construction grammar meets dependency grammar. Cognitive Linguistics, 23(1), 165216.CrossRefGoogle Scholar
Petré, P. & Van de Velde, F. (2018). The real-time dynamics of the individual and the community in grammaticalization. Language, 94(4), 867901.CrossRefGoogle Scholar
Petruck, M. R. L. (2011). Advances in Frame Semantics. Constructions and Frames, 3(1), 18.CrossRefGoogle Scholar
Pinker, S. (1989). Learnability and Cognition: The Acquisition of Argument Structure. Cambridge, MA: MIT Press.Google Scholar
Pollard, C. & Sag, I. A. (1994). Head-Driven Phrase Structure Grammar. Chicago & Stanford: University of Chicago Press/CSLI Publications.Google Scholar
Richter, F. (2004). A Mathematical Formalism for Linguistic Theories with an Application in Head-Driven Phrase Structure Grammar. PhD dissertation. Eberhard-Karls-Universität.Google Scholar
Sag, I. A. (2012). Sign-Based Construction Grammar: An informal synopsis. In Boas, H. C. & Sag, I. A., eds., Sign-Based Construction Grammar. Stanford: CSLI Publications, pp. 69202.Google Scholar
Sag, I. A. & Wasow, T. (2011). Performance-compatible competence grammar. In Borsley, R. D. & Börjars, K., eds., Non-transformational Syntax: Formal and Explicit Models of Grammar. Oxford: Wiley-Blackwell, pp. 359377.CrossRefGoogle Scholar
Steels, L. (1995). A self-organizing spatial vocabulary. Artificial Life Journal, 2(3), 319332.CrossRefGoogle ScholarPubMed
Steels, L. (2000). Language as a complex adaptive system. In Schoenauer, M., Deb, K., Rudolph, G., Yao, X., Lutton, E., Merelo, J. J., & Schwefel, H.-P., eds., Proceedings of the 6th International Conference on Parallel Problem Solving from Nature, 1917. Lecture Notes in Computer Science. Berlin: Springer Verlag, pp. 1726. https://doi.org/10.1007/3-540-45356-3_2.Google Scholar
Steels, L. (2001). Language games for autonomous robots. IEEE Intelligent Systems, 16(5), 1622.CrossRefGoogle Scholar
Steels, L. (2004). Constructivist development of grounded construction grammars. In Daelemans, W. & Walker, M., eds., Proceedings of the 42nd Annual Meeting of the Association for Computational Linguistics. Barcelona: Association for Computational Linguistic Conference, pp. 919. https://doi.org/10.3115/1218955.1218957.Google Scholar
Steels, L., ed. (2012a). Experiments in Cultural Language Evolution. Amsterdam & Philadelphia: John Benjamins.CrossRefGoogle Scholar
Steels, L. (2012b). Grounding language through evolutionary language games. In Steels, L. & Hild, M., eds., Language Grounding in Robots. New York: Springer, pp. 122.CrossRefGoogle Scholar
Steels, L. (2017). Basics of Fluid Construction Grammar. Constructions and Frames, 9(2), 178225.CrossRefGoogle Scholar
Stefanowitsch, A. & Gries, S. Th. (2003). Collostructions: Investigating the interaction of words and constructions. International Journal of Corpus Linguistics, 2(8), 209243.CrossRefGoogle Scholar
Tomasello, M. (2003). Constructing a Language: A Usage-Based Theory of Language Acquisition. Cambridge, MA: Harvard University Press.Google Scholar
Van de Velde, F. (2014). Degeneracy: The maintenance of constructional networks. In Boogaert, R., Colleman, T., & Gijsbert, R., eds., Extending the Scope of Construction Grammar. Berlin: De Gruyter Mouton, pp. 141179.CrossRefGoogle Scholar
Van Eecke, P. (2018). Generalisation and Specialisation Operators for Computational Construction Grammar and Their Application in Evolutionary Linguistics Research. PhD thesis. Vrije Universiteit Brussel.Google Scholar
Van Eecke, P. & Beuls, K. (2017). Meta-layer problem solving for computational construction grammar. In The AAAI 2017 Spring Symposium on Computational Construction Grammar and Natural Language Understanding: Technical Report SS-17-02, pp. 258265.Google Scholar
Van Eecke, P. & Beuls, K. (2018). Exploring the creative potential of computational construction grammar. Zeitschrift für Anglistik und Amerikanistik, 66(3), 341355.CrossRefGoogle Scholar
van Trijp, R. (2011). A design pattern for argument structure constructions. In Steels, L., ed., Design Patterns in Fluid Construction Grammar. Amsterdam & Philadelphia: John Benjamins, pp. 115146.CrossRefGoogle Scholar
van Trijp, R. (2013). A comparison between Fluid Construction Grammar and Sign-Based Construction Grammar. Constructions and Frames, 5(1), 88116.CrossRefGoogle Scholar
van Trijp, R. (2014). Long-distance dependencies without filler-gaps: A cognitive-functional alternative in Fluid Construction Grammar. Language and Cognition, 6(2), 242270.CrossRefGoogle Scholar
van Trijp, R. (2015). Cognitive vs. generative construction grammar: The case of coercion and argument structure. Cognitive Linguistics, 26(4), 613632.CrossRefGoogle Scholar
van Trijp, R. (2020). Making good on a promise: Multidimensional constructions. Belgian Journal of Linguistics, 34, 357370.CrossRefGoogle Scholar
van Trijp, R., Beuls, K., & Van Eecke, P. (2022). The FCG editor: An innovative environment for engineering computational construction grammars. PLoS ONE, 17(6). https://doi.org/10.1371/journal.pone.0269708.CrossRefGoogle ScholarPubMed

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