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What Neurobiology Can Buy Language Theory

A Response to Eubank and Gregg

Published online by Cambridge University Press:  07 November 2008

Friedemann Pulvermüller
Friedemann Pulvermüller
Affiliation:
Universität Tübingen
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Abstract

In their paper on Universal Grammar, language acquisition, and neurobiology, Eubank and Gregg (1995) attack current attempts to specify the neurobiological correlates of language acquisition. While these authors address a large variety of topics, they make two major assertions that call for brief discussion.

First, they believe that some neurobiological accounts of language acquisition must be rejected because the authors of these accounts “give no evidence of knowing what it is that needs to be explained” (p. 53). Eubank and Gregg argue that only a language acquisition theory rooted in Government and Binding theory can be the basis of a neurobiological account of language acquisition. Government and Binding theory must be chosen because, according to these authors, it is the only welldeveloped theory of linguistic competence. To put it in a nutshell, “It is [language] acquisition theory that sets the problems for neurobiology to solve” (p. 53), and acquisition theory must conform to the Government and Binding approach. This master-and-slave view of the relationship between linguistics and biology is hard to accept, especially if one considers what Eubank and Gregg have to say about the master: Like most generative linguists, they do not hesitate to emphasize that the only well-developed linguistic theory is "not complete, of course, not yet correct in all or even most of its details, and perhaps not even in some of its fundamentals" (p. 51). It is inadequate to postulate that such a potentially insufficient construct must necessarily form the basis of biological research. This strategy may be unproductive, especially if theory-internal assumptions turn out to be wrong.

Type
Responses
Information
Studies in Second Language Acquisition , Volume 17 , Issue 1 , March 1995 , pp. 73 - 77
Copyright
Copyright © Cambridge University Press 1995

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References

REFERENCES

Chomsky, N. (1959). Review of Verbal Behavior by B.F. Skinner. Language, 35, 2658.CrossRefGoogle Scholar
Chomsky, N. (1980). Rules and representations. London: Blackwell.CrossRefGoogle Scholar
Eubank, L., & Gregg, K. R. (1995). “Et in amygdala ego”?: UG, (S)LA, and neurobiology. Studies in Second Language Acquisition, 17, 3557.CrossRefGoogle Scholar
Hebb, D. O. (1949). The organization of behavior: A neuropsychological theory. New York: John Wiley.Google Scholar
Jacobs, B., Batal, H. A., Lynch, B., Ojemann, G. A., Ojemann, L. M., & Scheibel, A. B. (1993). Quantitative dendritic and spine analyses of speech cortices: A case study. Brain and Language, 44, 239253.CrossRefGoogle ScholarPubMed
Jacobs, B., Schall, M., & Scheibel, A. B. (1993). A quantitative dendritic analysis of Wernicke's area in humans: II. Gender, hemispheric, and environmental factors. Journal of Comparative Neurology, 327, 97111.CrossRefGoogle ScholarPubMed
Jacobs, B., & Schumann, J. (1992). Language acquisition and the neurosciences: Towards a more integrative perspective. Applied Linguistics, 13, 282301.CrossRefGoogle Scholar
Lutzenberger, W., Pulvermüller, F., & Birbaumer, N. (1994). Words and pseudowords elicit distinct patterns of 30–Hz EEG responses in humans. Neuroscience Letters, 176, 115118.CrossRefGoogle ScholarPubMed
Mohr, B., Pulvermüller, F., & Zaidel, E. (1994). Lexical decision after left, right and bilateral presentation of content words, function words and non-words: Evidence for interhemispheric interaction. Neuropsychologia, 32, 105124.CrossRefGoogle ScholarPubMed
Pinker, S. (1991). Rules of language. Science, 253, 530535.CrossRefGoogle ScholarPubMed
Pulvermüller, F. (1992). Constituents of a neurological theory of language. Concepts in Neuroscience, 3, 157200.Google Scholar
Pulvermüller, F. (1993). On connecting syntax and the brain. In Aertsen, A. (Ed.), Brain theory: Spatio-temporal aspects of brain function (pp. 131145). New York: Elsevier.Google Scholar
Pulvermüller, F. (1995). Agrammatism: Behavioral description and neurobiological explanation. Journal of Cognitive Neuroscience, 7, 165181.CrossRefGoogle ScholarPubMed
Pulvermüller, F., & Preißl, H. (1994). Explaining aphasias in neuronal terms. Journal of Neurolinguistics, 5, 7581.CrossRefGoogle Scholar
Pulvermüller, F., Preißl, H., Eulitz, C., Pantev, C., Lutzenberger, W., Elbert, T., & Birbaumer, N. (1994). Brain rhythms, cell assemblies, and cognition: Evidence from the processing of words and pseudowords. Psycoloquy, 5, 130.Google Scholar
Pulvermüller, F., & Schönle, P. W. (1993). Behavioral and neuronal changes during treatment of mixed-transcortical aphasia: A case study. Cognition, 48, 139161.CrossRefGoogle ScholarPubMed
Pulvermüller, F., & Schumann, J. H. (1994). Neurobiological mechanisms of language acquisition. Language Learning, 44, 681734.CrossRefGoogle Scholar
Schumann, J. (1990). The role of the amygdala as a mediator of affect and cognition in second language acquisition. In Alatis, J. E. (Ed.), Proceedings of the Georgetown University Round Table on Language and Linguistics (pp. 169176). Washington, DC: Georgetown University Press.Google Scholar
Schumann, J. (1994). Where is cognition? Emotion and cognition in second language acquisition. Studies in Second Language Acquisition, 16, 231247.CrossRefGoogle Scholar
Wittgenstein, L. (1958). Philosophical investigations. Frankfurt: Suhrkamp.Google Scholar