Publications

Displaying 1 - 100 of 100
  • Akita, K., & Dingemanse, M. (2019). Ideophones (Mimetics, Expressives). In Oxford Research Encyclopedia for Linguistics. Oxford: Oxford University Press. doi:10.1093/acrefore/9780199384655.013.477.

    Abstract

    Ideophones, also termed “mimetics” or “expressives,” are marked words that depict sensory imagery. They are found in many of the world’s languages, and sizable lexical classes of ideophones are particularly well-documented in languages of Asia, Africa, and the Americas. Ideophones are not limited to onomatopoeia like meow and smack, but cover a wide range of sensory domains, such as manner of motion (e.g., plisti plasta ‘splish-splash’ in Basque), texture (e.g., tsaklii ‘rough’ in Ewe), and psychological states (e.g., wakuwaku ‘excited’ in Japanese). Across languages, ideophones stand out as marked words due to special phonotactics, expressive morphology including certain types of reduplication, and relative syntactic independence, in addition to production features like prosodic foregrounding and common co-occurrence with iconic gestures. Three intertwined issues have been repeatedly debated in the century-long literature on ideophones. (a) Definition: Isolated descriptive traditions and cross-linguistic variation have sometimes obscured a typologically unified view of ideophones, but recent advances show the promise of a prototype definition of ideophones as conventionalised depictions in speech, with room for language-specific nuances. (b) Integration: The variable integration of ideophones across linguistic levels reveals an interaction between expressiveness and grammatical integration, and has important implications for how to conceive of dependencies between linguistic systems. (c) Iconicity: Ideophones form a natural laboratory for the study of iconic form-meaning associations in natural languages, and converging evidence from corpus and experimental studies suggests important developmental, evolutionary, and communicative advantages of ideophones.
  • Bauer, B. L. M. (2000). From Latin to French: The linear development of word order. In B. Bichakjian, T. Chernigovskaya, A. Kendon, & A. Müller (Eds.), Becoming Loquens: More studies in language origins (pp. 239-257). Frankfurt am Main: Lang.
  • Bohnemeyer, J. (2000). Where do pragmatic meanings come from? In W. Spooren, T. Sanders, & C. van Wijk (Eds.), Samenhang in Diversiteit; Opstellen voor Leo Noorman, aangeboden bij gelegenheid van zijn zestigste verjaardag (pp. 137-153).
  • Bowerman, M. (1986). First steps in acquiring conditionals. In E. C. Traugott, A. G. t. Meulen, J. S. Reilly, & C. A. Ferguson (Eds.), On conditionals (pp. 285-308). Cambridge University Press.

    Abstract

    This chapter is about the initial flowering of conditionals, if-(then) constructions, in children's spontaneous speech. It is motivated by two major theoretical interests. The first and most immediate is to understand the acquisition process itself. Conditionals are conceptually, and in many languages morphosyntactically, complex. What aspects of cognitive and grammatical development are implicated in their acquisition? Does learning take place in the context of particular interactions with other speakers? Where do conditionals fit in with the acquisition of other complex sentences? What are the semantic, syntactic and pragmatic properties of the first conditionals? Underlying this first interest is a second, more strictly linguistic one. Research of recent years has found increasing evidence that natural languages are constrained in certain ways. The source of these constraints is not yet clearly understood, but it is widely assumed that some of them derive ultimately from properties of children's capacity for language acquisition.

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  • Bowerman, M. (1979). The acquisition of complex sentences. In M. Garman, & P. Fletcher (Eds.), Studies in language acquisition (pp. 285-305). Cambridge: Cambridge University Press.
  • Bowerman, M. (2000). Where do children's word meanings come from? Rethinking the role of cognition in early semantic development. In L. Nucci, G. Saxe, & E. Turiel (Eds.), Culture, thought and development (pp. 199-230). Mahwah, NJ: Lawrence Erlbaum.
  • Bowerman, M. (1980). The structure and origin of semantic categories in the language learning child. In M. Foster, & S. Brandes (Eds.), Symbol as sense (pp. 277-299). New York: Academic Press.
  • Brown, P. (2000). ’He descended legs-upwards‘: Position and motion in Tzeltal frog stories. In E. V. Clark (Ed.), Proceedings of the 30th Stanford Child Language Research Forum (pp. 67-75). Stanford: CSLI.

    Abstract

    How are events framed in narrative? Speakers of English (a 'satellite-framed' language), when 'reading' Mercer Mayer's wordless picture book 'Frog, Where Are You?', find the story self-evident: a boy has a dog and a pet frog; the frog escapes and runs away; the boy and dog look for it across hill and dale, through woods and over a cliff, until they find it and return home with a baby frog child of the original pet frog. In Tzeltal, as spoken in a Mayan community in southern Mexico, the story is somewhat different, because the language structures event descriptions differently. Tzeltal is in part a 'verb-framed' language with a set of Path-encoding motion verbs, so that the bare bones of the Frog story can consist of verbs translating as 'go'/'pass by'/'ascend'/ 'descend'/ 'arrive'/'return'. But Tzeltal also has satellite-framing adverbials, grammaticized from the same set of motion verbs, which encode the direction of motion or the orientation of static arrays. Furthermore, vivid pictorial detail is provided by positional verbs which can describe the position of the Figure as an outcome of a motion event; motion and stasis are thereby combined in a single event description. (For example:  jipot jawal "he has been thrown (by the deer) lying­_face_upwards_spread-eagled". This paper compares the use of these three linguistic resources in Frog Story narratives from  Tzeltal adults and children, looks at their development in the narratives of children, and considers the results in relation to those from Berman and Slobin's (1996) comparative study of adult and child Frog stories.
  • Brown, P., & Levinson, S. C. (2000). Frames of spatial reference and their acquisition in Tenejapan Tzeltal. In L. Nucci, G. Saxe, & E. Turiel (Eds.), Culture, thought, and development (pp. 167-197). Mahwah, NJ: Erlbaum.
  • Brown, P. (1980). How and why are women more polite: Some evidence from a Mayan community. In S. McConnell-Ginet, R. Borker, & N. Furman (Eds.), Women and language in literature and society (pp. 111-136). New York: Praeger.
  • Brown, C. M., Hagoort, P., & Kutas, M. (2000). Postlexical integration processes during language comprehension: Evidence from brain-imaging research. In M. S. Gazzaniga (Ed.), The new cognitive neurosciences (2nd., pp. 881-895). Cambridge, MA: MIT Press.
  • Brown, C. M., & Hagoort, P. (2000). On the electrophysiology of language comprehension: Implications for the human language system. In M. W. Crocker, M. Pickering, & C. Clifton jr. (Eds.), Architectures and mechanisms for language processing (pp. 213-237). Cambridge University Press.
  • Brown, P., & Levinson, S. C. (1979). Social structure, groups and interaction. In H. Giles, & K. R. Scherer (Eds.), Social markers in speech (pp. 291-341). Cambridge University Press.
  • Brown, P., & Fraser, C. (1979). Speech as a marker of situation. In H. Giles, & K. Scherer (Eds.), Social markers in speech (pp. 33-62). Cambridge: Cambridge University Press.
  • Burenkova, O. V., & Fisher, S. E. (2019). Genetic insights into the neurobiology of speech and language. In E. Grigorenko, Y. Shtyrov, & P. McCardle (Eds.), All About Language: Science, Theory, and Practice. Baltimore, MD: Paul Brookes Publishing, Inc.
  • Clark, E. V., & Bowerman, M. (1986). On the acquisition of final voiced stops. In J. A. Fishman (Ed.), The Fergusonian impact: in honor of Charles A. Ferguson on the occasion of his 65th birthday. Volume 1: From phonology to society (pp. 51-68). Berlin: Mouton de Gruyter.
  • Cutler, A. (1979). Beyond parsing and lexical look-up. In R. J. Wales, & E. C. T. Walker (Eds.), New approaches to language mechanisms: a collection of psycholinguistic studies (pp. 133-149). Amsterdam: North-Holland.
  • Cutler, A. (1980). Errors of stress and intonation. In V. A. Fromkin (Ed.), Errors in linguistic performance: Slips of the tongue, ear, pen and hand (pp. 67-80). New York: Academic Press.
  • Cutler, A. (2000). Hoe het woord het oor verovert. In Voordrachten uitgesproken tijdens de uitreiking van de SPINOZA-premies op 15 februari 2000 (pp. 29-41). The Hague, The Netherlands: Nederlandse Organisatie voor Wetenschappelijk Onderzoek (NWO).
  • Cutler, A. (2000). How the ear comes to hear. In New Trends in Modern Linguistics [Part of Annual catalogue series] (pp. 6-10). Tokyo, Japan: Maruzen Publishers.
  • Cutler, A. (2000). Real words, phantom words and impossible words. In D. Burnham, S. Luksaneeyanawin, C. Davis, & M. Lafourcade (Eds.), Interdisciplinary approaches to language processing: The international conference on human and machine processing of language and speech (pp. 32-42). Bangkok: NECTEC.
  • Cutler, A., & Norris, D. (1979). Monitoring sentence comprehension. In W. E. Cooper, & E. C. T. Walker (Eds.), Sentence processing: Psycholinguistic studies presented to Merrill Garrett (pp. 113-134). Hillsdale: Erlbaum.
  • Cutler, A. (1980). Syllable omission errors and isochrony. In H. W. Dechet, & M. Raupach (Eds.), Temporal variables in speech: studies in honour of Frieda Goldman-Eisler (pp. 183-190). The Hague: Mouton.
  • Cutler, A., & Isard, S. D. (1980). The production of prosody. In B. Butterworth (Ed.), Language production (pp. 245-269). London: Academic Press.
  • Devanna, P., Dediu, D., & Vernes, S. C. (2019). The Genetics of Language: From complex genes to complex communication. In S.-A. Rueschemeyer, & M. G. Gaskell (Eds.), The Oxford Handbook of Psycholinguistics (2nd ed., pp. 865-898). Oxford: Oxford University Press.

    Abstract

    This chapter discusses the genetic foundations of the human capacity for language. It reviews the molecular structure of the genome and the complex molecular mechanisms that allow genetic information to influence multiple levels of biology. It goes on to describe the active regulation of genes and their formation of complex genetic pathways that in turn control the cellular environment and function. At each of these levels, examples of genes and genetic variants that may influence the human capacity for language are given. Finally, it discusses the value of using animal models to understand the genetic underpinnings of speech and language. From this chapter will emerge the complexity of the genome in action and the multidisciplinary efforts that are currently made to bridge the gap between genetics and language.
  • Dingemanse, M. (2019). 'Ideophone' as a comparative concept. In K. Akita, & P. Pardeshi (Eds.), Ideophones, Mimetics, and Expressives (pp. 13-33). Amsterdam: John Benjamins. doi:10.1075/ill.16.02din.

    Abstract

    This chapter makes the case for ‘ideophone’ as a comparative concept: a notion that captures a recurrent typological pattern and provides a template for understanding language-specific phenomena that prove similar. It revises an earlier definition to account for the observation that ideophones typically form an open lexical class, and uses insights from canonical typology to explore the larger typological space. According to the resulting definition, a canonical ideophone is a member of an open lexical class of marked words that depict sensory imagery. The five elements of this definition can be seen as dimensions that together generate a possibility space to characterise cross-linguistic diversity in depictive means of expression. This approach allows for the systematic comparative treatment of ideophones and ideophone-like phenomena. Some phenomena in the larger typological space are discussed to demonstrate the utility of the approach: phonaesthemes in European languages, specialised semantic classes in West-Chadic, diachronic diversions in Aslian, and depicting constructions in signed languages.
  • Eisenbeiss, S. (2000). The acquisition of Determiner Phrase in German child language. In M.-A. Friedemann, & L. Rizzi (Eds.), The Acquisition of Syntax (pp. 26-62). Harlow, UK: Pearson Education Ltd.
  • Enfield, N. J. (2000). On linguocentrism. In M. Pütz, & M. H. Verspoor (Eds.), Explorations in linguistic relativity (pp. 125-157). Amsterdam: Benjamins.
  • Erard, M. (2019). Language aptitude: Insights from hyperpolyglots. In Z. Wen, P. Skehan, A. Biedroń, S. Li, & R. L. Sparks (Eds.), Language aptitude: Advancing theory, testing, research and practice (pp. 153-167). Abingdon, UK: Taylor & Francis.

    Abstract

    Over the decades, high-intensity language learners scattered over the globe referred to as “hyperpolyglots” have undertaken a natural experiment into the limits of learning and acquiring proficiencies in multiple languages. This chapter details several ways in which hyperpolyglots are relevant to research on aptitude. First, historical hyperpolyglots Cardinal Giuseppe Mezzofanti, Emil Krebs, Elihu Burritt, and Lomb Kató are described in terms of how they viewed their own exceptional outcomes. Next, I draw on results from an online survey with 390 individuals to explore how contemporary hyperpolyglots consider the explanatory value of aptitude. Third, the challenges involved in studying the genetic basis of hyperpolyglottism (and by extension of language aptitude) are discussed. This mosaic of data is meant to inform the direction of future aptitude research that takes hyperpolyglots, one type of exceptional language learner and user, into account.
  • Fisher, S. E., & Tilot, A. K. (Eds.). (2019). Bridging senses: Novel insights from synaesthesia [Special Issue]. Philosophical Transactions of the Royal Society of London, Series B: Biological Sciences, 374.
  • Fisher, S. E. (2019). Key issues and future directions: Genes and language. In P. Hagoort (Ed.), Human language: From genes and brain to behavior (pp. 609-620). Cambridge, MA: MIT Press.
  • Francks, C. (2019). The genetic bases of brain lateralization. In P. Hagoort (Ed.), Human language: From genes and brain to behavior (pp. 595-608). Cambridge, MA: MIT Press.
  • Frank, S. L., Monaghan, P., & Tsoukala, C. (2019). Neural network models of language acquisition and processing. In P. Hagoort (Ed.), Human language: From genes and brain to behavior (pp. 277-293). Cambridge, MA: MIT Press.
  • Hagoort, P. (2019). Introduction. In P. Hagoort (Ed.), Human language: From genes and brains to behavior (pp. 1-6). Cambridge, MA: MIT Press.
  • Hagoort, P., & Beckmann, C. F. (2019). Key issues and future directions: The neural architecture for language. In P. Hagoort (Ed.), Human language: From genes and brains to behavior (pp. 527-532). Cambridge, MA: MIT Press.
  • Hammarström, H. (2019). An inventory of Bantu languages. In M. Van de Velde, K. Bostoen, D. Nurse, & G. Philippson (Eds.), The Bantu languages (2nd). London: Routledge.

    Abstract

    This chapter aims to provide an updated list of all Bantu languages known at present and to provide individual pointers to further information on the inventory. The area division has some correlation with what are perceived genealogical relations between Bantu languages, but they are not defined as such and do not change whenever there is an update in our understanding of genealogical relations. Given the popularity of Guthrie codes in Bantu linguistics, our listing also features a complete mapping to Guthrie codes. The language inventory listed excludes sign languages used in the Bantu area, speech registers, pidgins, drummed/whistled languages and urban youth languages. Pointers to such languages in the Bantu area are included in the continent-wide overview in Hammarstrom. The most important alternative names, subvarieties and spelling variants are given for each language, though such lists are necessarily incomplete and reflect some degree of arbitrary selection.
  • Heeschen, V., Eibl-Eibesfeldt, I., Grammer, K., Schiefenhövel, W., & Senft, G. (1986). Sprachliches Verhalten. In Generalverwaltung der MPG (Ed.), Max-Planck-Gesellschaft Jahrbuch 1986 (pp. 394-396). Göttingen: Vandenhoeck and Ruprecht.
  • Indefrey, P., & Levelt, W. J. M. (2000). The neural correlates of language production. In M. S. Gazzaniga (Ed.), The new cognitive neurosciences; 2nd ed. (pp. 845-865). Cambridge, MA: MIT Press.

    Abstract

    This chapter reviews the findings of 58 word production experiments using different tasks and neuroimaging techniques. The reported cerebral activation sites are coded in a common anatomic reference system. Based on a functional model of language production, the different word production tasks are analyzed in terms of their processing components. This approach allows a distinction between the core process of word production and preceding task-specific processes (lead-in processes) such as visual or auditory stimulus recognition. The core process of word production is subserved by a left-lateralized perisylvian/thalamic language production network. Within this network there seems to be functional specialization for the processing stages of word production. In addition, this chapter includes a discussion of the available evidence on syntactic production, self-monitoring, and the time course of word production.
  • Ingvar, M., & Petersson, K. M. (2000). Functional maps and brain networks. In A. W. Toga (Ed.), Brain mapping: The systems (pp. 111-140). San Diego: Academic Press.
  • Janzen, G., Herrmann, T., Katz, S., & Schweizer, K. (2000). Oblique Angled Intersections and Barriers: Navigating through a Virtual Maze. In Spatial Cognition II (pp. 277-294). Berlin: Springer.

    Abstract

    The configuration of a spatial layout has a substantial effect on the acquisition and the representation of the environment. In four experiments, we investigated navigation difficulties arising at oblique angled intersections. In the first three studies we investigated specific arrow-fork configurations. In dependence on the branch subjects use to enter the intersection different decision latencies and numbers of errors arise. If subjects see the intersection as a fork, it is more difficult to find the correct way as if it is seen as an arrow. In a fourth study we investigated different heuristics people use while making a detour around a barrier. Detour behaviour varies with the perspective. If subjects learn and navigate through the maze in a field perspective they use a heuristic of preferring right angled paths. If they have a view from above and acquire their knowledge in an observer perspective they use oblique angled paths more often.

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  • Kempen, G. (1979). A study of syntactic bookkeeping during sentence production. In H. Ueckert, & D. Rhenius (Eds.), Komplexe menschliche Informationsverarbeitung (pp. 361-368). Bern: Hans Huber.

    Abstract

    It is an important feature of the human sentence production system that semantic and syntactic processes may overlap in time and do not proceed strictly serially. That is, the process of building the syntactic form of an utterance does not always wait until the complete semantic content for that utterance has been decided upon. On the contrary, speakers will often start pronouncing the first words of a sentence while still working on further details of its semantic content. An important advantage is memory economy. Semantic and syntactic fragments do not have to occupy working memory until complete semantic and syntactic structures for an utterance have been computed. Instead, each semantic and syntactic fragment is processed as soon as possible and is kept in working memory for a minimum period of time. This raises the question of how the sentence production system can maintain syntactic coherence across syntactic fragments. Presumably there are processes of "syntactic bookkeeping" which (1) store in working memory those syntactic properties of a fragmentary sentence which are needed to eliminate ungrammatical continuations, and (2) check whether a prospective continuation is indeed compatible with the sentence constructed so far. In reaction time experiments where subjects described, under time pressure, simple static pictures of an action performed by an actor, the second aspect of syntactic bookkeeping could be demonstrated. This evidence is used for modelling bookkeeping processes as part of a computational sentence generator which aims at simulating the syntactic operations people carry out during spontaneous speech.
  • Kempen, G. (1986). Beyond word processing. In E. Cluff, & G. Bunting (Eds.), Information management yearbook 1986 (pp. 178-181). London: IDPM Publications.
  • Kempen, G. (1986). Kunstmatige intelligentie en gezond verstand. In P. Hagoort, & R. Maessen (Eds.), Geest, computer, kunst (pp. 118-123). Utrecht: Stichting Grafiet.
  • Klein, W. (Ed.). (1980). Argumentation [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, (38/39).
  • Klein, W. (2000). Der Mythos vom Sprachverfall. In Berlin-Brandenburgische Akademie der Wissenschaften (Ed.), Jahrbuch 1999: Berlin-Brandenburgische Akademie der Wissenschaften (pp. 139-158). Berlin: Akademie Verlag.
  • Klein, W. (1979). Die Geschichte eines Tores. In R. Baum, F. J. Hausmann, & I. Monreal-Wickert (Eds.), Sprache in Unterricht und Forschung: Schwerpunkt Romanistik (pp. 175-194). Tübingen: Narr.
  • Klein, W., & Perdue, C. (1986). Comment résourdre une tache verbale complexe avec peu de moyens linguistiques? In A. Giacomi, & D. Véronique (Eds.), Acquisition d'une langue étrangère (pp. 306-330). Aix-en-Provence: Service des Publications de l'Universite de Provence.
  • Klein, W. (1986). Intonation und Satzmodalität in einfachen Fällen: Einige Beobachtungen. In E. Slembek (Ed.), Miteinander sprechen und handeln: Festschrift für Hellmut Geissner (pp. 161-177). Königstein Ts.: Scriptor.
  • Klein, W. (2000). Prozesse des Zweitspracherwerbs. In H. Grimm (Ed.), Enzyklopädie der Psychologie: Vol. 3 (pp. 538-570). Göttingen: Hogrefe.
  • Klein, W. (Ed.). (2000). Sprache des Rechts [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, (118).
  • Klein, W. (Ed.). (1979). Sprache und Kontext [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, (33).
  • Klein, W. (Ed.). (1986). Sprachverfall [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, (62).
  • Klein, W. (1980). Verbal planning in route directions. In H. Dechert, & M. Raupach (Eds.), Temporal variables in speech (pp. 159-168). Den Haag: Mouton.
  • Lev-Ari, S. (2019). The influence of social network properties on language processing and use. In M. S. Vitevitch (Ed.), Network Science in Cognitive Psychology (pp. 10-29). New York, NY: Routledge.

    Abstract

    Language is a social phenomenon. The author learns, processes, and uses it in social contexts. In other words, the social environment shapes the linguistic knowledge and use of the knowledge. To a degree, this is trivial. A child exposed to Japanese will become fluent in Japanese, whereas a child exposed to only Spanish will not understand Japanese but will master the sounds, vocabulary, and grammar of Spanish. Language is a structured system. Sounds and words do not occur randomly but are characterized by regularities. Learners are sensitive to these regularities and exploit them when learning language. People differ in the sizes of their social networks. Some people tend to interact with only a few people, whereas others might interact with a wide range of people. This is reflected in people’s holiday greeting habits: some people might send cards to only a few people, whereas other would send greeting cards to more than 350 people.
  • Levelt, W. J. M. (1986). Herdenking van Joseph Maria Franciscus Jaspars (16 maart 1934 - 31 juli 1985). In Jaarboek 1986 Koninklijke Nederlandse Akademie van Wetenschappen (pp. 187-189). Amsterdam: North Holland.
  • Levelt, W. J. M. (2000). Introduction Section VII: Language. In M. S. Gazzaniga (Ed.), The new cognitive neurosciences; 2nd ed. (pp. 843-844). Cambridge: MIT Press.
  • Levelt, W. J. M. (2000). Psychology of language. In K. Pawlik, & M. R. Rosenzweig (Eds.), International handbook of psychology (pp. 151-167). London: SAGE publications.
  • Levelt, W. J. M. (1980). On-line processing constraints on the properties of signed and spoken language. In U. Bellugi, & M. Studdert-Kennedy (Eds.), Signed and spoken language: Biological constraints on linguistic form (pp. 141-160). Weinheim: Verlag Chemie.

    Abstract

    It is argued that the dominantly successive nature of language is largely mode-independent and holds equally for sign and for spoken language. A preliminary distinction is made between what is simultaneous or successive in the signal, and what is in the process; these need not coincide, and it is the successiveness of the process that is at stake. It is then discussed extensively for the word/sign level, and in a more preliminary fashion for the clause and discourse level that online processes are parallel in that they can simultaneously draw on various sources of knowledge (syntactic, semantic, pragmatic), but successive in that they can work at the interpretation of only one unit at a time. This seems to hold for both sign and spoken language. In the final section, conjectures are made about possible evolutionary explanations for these properties of language processing.
  • Levelt, W. J. M. (1962). Motion breaking and the perception of causality. In A. Michotte (Ed.), Causalité, permanence et réalité phénoménales: Etudes de psychologie expérimentale (pp. 244-258). Louvain: Publications Universitaires.
  • Levelt, W. J. M., & Kempen, G. (1979). Language. In J. A. Michon, E. G. J. Eijkman, & L. F. W. De Klerk (Eds.), Handbook of psychonomics (Vol. 2) (pp. 347-407). Amsterdam: North Holland.
  • Levelt, W. J. M. (2000). Speech production. In A. E. Kazdin (Ed.), Encyclopedia of psychology (pp. 432-433). Oxford University Press.
  • Levelt, W. J. M. (1979). The origins of language and language awareness. In M. Von Cranach, K. Foppa, W. Lepenies, & D. Ploog (Eds.), Human ethology (pp. 739-745). Cambridge: Cambridge University Press.
  • Levelt, W. J. M. (1986). Zur sprachlichen Abbildung des Raumes: Deiktische und intrinsische Perspektive. In H. Bosshardt (Ed.), Perspektiven auf Sprache. Interdisziplinäre Beiträge zum Gedenken an Hans Hörmann (pp. 187-211). Berlin: De Gruyter.
  • Levelt, W. J. M., & Indefrey, P. (2000). The speaking mind/brain: Where do spoken words come from? In A. Marantz, Y. Miyashita, & W. O'Neil (Eds.), Image, language, brain: Papers from the First Mind Articulation Project Symposium (pp. 77-94). Cambridge, Mass.: MIT Press.
  • Levelt, W. J. M. (1980). Toegepaste aspecten van het taal-psychologisch onderzoek: Enkele inleidende overwegingen. In J. Matter (Ed.), Toegepaste aspekten van de taalpsychologie (pp. 3-11). Amsterdam: VU Boekhandel.
  • Levinson, S. C. (2019). Interactional foundations of language: The interaction engine hypothesis. In P. Hagoort (Ed.), Human language: From genes and brain to behavior (pp. 189-200). Cambridge, MA: MIT Press.
  • Levinson, S. C. (2019). Natural forms of purposeful interaction among humans: What makes interaction effective? In K. A. Gluck, & J. E. Laird (Eds.), Interactive task learning: Humans, robots, and agents acquiring new tasks through natural interactions (pp. 111-126). Cambridge, MA: MIT Press.
  • Levinson, S. C., & Toni, I. (2019). Key issues and future directions: Interactional foundations of language. In P. Hagoort (Ed.), Human language: From genes and brain to behavior (pp. 257-261). Cambridge, MA: MIT Press.
  • Majid, A. (2019). Preface. In L. J. Speed, C. O'Meara, L. San Roque, & A. Majid (Eds.), Perception Metaphors (pp. vii-viii). Amsterdam: Benjamins.
  • McQueen, J. M., & Meyer, A. S. (2019). Key issues and future directions: Towards a comprehensive cognitive architecture for language use. In P. Hagoort (Ed.), Human language: From genes and brain to behavior (pp. 85-96). Cambridge, MA: MIT Press.
  • O'Meara, C., Speed, L. J., San Roque, L., & Majid, A. (2019). Perception Metaphors: A view from diversity. In L. J. Speed, C. O'Meara, L. San Roque, & A. Majid (Eds.), Perception Metaphors (pp. 1-16). Amsterdam: Benjamins.

    Abstract

    Our bodily experiences play an important role in the way that we think and speak. Abstract language is, however, difficult to reconcile with this body-centred view, unless we appreciate the role metaphors play. To explore the role of the senses across semantic domains, we focus on perception metaphors, and examine their realisation across diverse languages, methods, and approaches. To what extent do mappings in perception metaphor adhere to predictions based on our biological propensities; and to what extent is there space for cross-linguistic and cross-cultural variation? We find that while some metaphors have widespread commonality, there is more diversity attested than should be comfortable for universalist accounts.
  • Ozyurek, A. (2000). Differences in spatial conceptualization in Turkish and English discourse: Evidence from both speech and gesture. In A. Goksel, & C. Kerslake (Eds.), Studies on Turkish and Turkic languages (pp. 263-272). Wiesbaden: Harrassowitz.
  • Ozyurek, A., & Woll, B. (2019). Language in the visual modality: Cospeech gesture and sign language. In P. Hagoort (Ed.), Human language: From genes and brain to behavior (pp. 67-83). Cambridge, MA: MIT Press.
  • Ozyurek, A. (2000). The influence of addressee location on spatial language and representational gestures of direction. In D. McNeill (Ed.), Language and gesture (pp. 64-83). Cambridge: Cambridge University Press.
  • Piai, V., & Zheng, X. (2019). Speaking waves: Neuronal oscillations in language production. In K. D. Federmeier (Ed.), Psychology of Learning and Motivation (pp. 265-302). Elsevier.

    Abstract

    Language production involves the retrieval of information from memory, the planning of an articulatory program, and executive control and self-monitoring. These processes can be related to the domains of long-term memory, motor control, and executive control. Here, we argue that studying neuronal oscillations provides an important opportunity to understand how general neuronal computational principles support language production, also helping elucidate relationships between language and other domains of cognition. For each relevant domain, we provide a brief review of the findings in the literature with respect to neuronal oscillations. Then, we show how similar patterns are found in the domain of language production, both through review of previous literature and novel findings. We conclude that neurophysiological mechanisms, as reflected in modulations of neuronal oscillations, may act as a fundamental basis for bringing together and enriching the fields of language and cognition.
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    Abstract

    This paper deals with the Shawi nominalizing suffixes -su’~-ru’~-nu’ ‘general nominalizer’, -napi/-te’/-tun‘performer/agent nominalizer’, -pi’‘patient nominalizer’, and -nan ‘instrument nominalizer’. The goal of this article is to provide a description of nominalization in Shawi. Throughout this paper I apply the Generalized Scale Model (GSM) (Malchukov, 2006) to Shawi verbal nominalizations, with the intention of presenting a formal representation that will provide a basis for future areal and typological studies of nominalization. In addition, I dialogue with Shibatani’s model to see how the loss or gain of categories correlates with the lexical or grammatical nature of nominalizations. strong nominalization in Shawi correlates with lexical nominalization, whereas weak nominalizations correlate with grammatical nominalization. A typology which takes into account the productivity of the nominalizers is also discussed.
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  • Senft, G. (2000). Introduction. In G. Senft (Ed.), Systems of nominal classification (pp. 1-10). Cambridge University Press.
  • Senft, G., & Labov, W. (1980). Hyperkorrektheit der unteren Mittelschicht als Faktor im Sprachwandel; [transl. from English by Gunter Senft]. In N. Dittmar, & B. O. Rieck (Eds.), William Labov: Sprache im sozialen Kontext (pp. 77-94). Königstein: Athneäum FAT.
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    Abstract

    Die Sprachwissenschaft hat den Begriff und das Konzept ›Rituelle Kommunikation‹ von der vergleichenden Verhaltensforschung übernommen. Humanethologen unterscheiden eine Reihe von sogenannten ›Ausdrucksbewegungen‹, die in der Mimik, der Gestik, der Personaldistanz (Proxemik) und der Körperhaltung (Kinesik) zum Ausdruck kommen. Viele dieser Ausdrucksbewegungen haben sich zu spezifischen Signalen entwickelt. Ethologen definieren Ritualisierung als Veränderung von Verhaltensweisen im Dienst der Signalbildung. Die zu Signalen ritualisierten Verhaltensweisen sind Rituale. Im Prinzip kann jede Verhaltensweise zu einem Signal werden, entweder im Laufe der Evolution oder durch Konventionen, die in einer bestimmten Gemeinschaft gültig sind, die solche Signale kulturell entwickelt hat und die von ihren Mitgliedern tradiert und gelernt werden.
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