Abstract
A recent hypothesis in empirical brain research on language is that the fundamental difference between animal and human communication systems is captured by the distinction between finite-state and more complex phrase-structure grammars, such as context-free and context-sensitive grammars. However, the relevance of this distinction for the study of language as a neurobiological system has been questioned and it has been suggested that a more relevant and partly analogous distinction is that between non-adjacent and adjacent dependencies. Online memory resources are central to the processing of non-adjacent dependencies as information has to be maintained across intervening material. One proposal is that an external memory device in the form of a limited push-down stack is used to process non-adjacent dependencies. We tested this hypothesis in an artificial grammar learning paradigm where subjects acquired non-adjacent dependencies implicitly. Generally, we found no qualitative differences between the acquisition of non-adjacent dependencies and adjacent dependencies. This suggests that although the acquisition of non-adjacent dependencies requires more exposure to the acquisition material, it utilizes the same mechanisms used for acquiring adjacent dependencies. We challenge the push-down stack model further by testing its processing predictions for nested and crossed multiple non-adjacent dependencies. The push-down stack model is partly supported by the results, and we suggest that stack-like properties are some among many natural properties characterizing the underlying neurophysiological mechanisms that implement the online memory resources used in language and structured sequence processing.
Highlights
IntroductionIn psycholinguistic and neurobiological research on the language system, the concept of complexity is currently revisited with a focus on the relative processing difficulties of different types of syntactic structures, for instance, using artificial grammar learning (AGL) paradigms (see, e.g., de Vries, Monaghan, Knecht, & Zwitserlood, 2008; Fitch & Hauser, 2004; for a review, see de Vries, Christiansen, & Petersson, 2011)
Human language is one of the most complex computational biological systems
Crossed non-adjacent dependencies: There was no significant effect of TEST on response bias (p = .14), but there was a significant main effect of GRAMMATICALITY, F(1,18) = 31.5, p < .001, and the interaction between TEST and GRAMMATICALITY was significant, F(1,18) = 31.3, p
Summary
In psycholinguistic and neurobiological research on the language system, the concept of complexity is currently revisited with a focus on the relative processing difficulties of different types of syntactic structures, for instance, using artificial grammar learning (AGL) paradigms (see, e.g., de Vries, Monaghan, Knecht, & Zwitserlood, 2008; Fitch & Hauser, 2004; for a review, see de Vries, Christiansen, & Petersson, 2011). In order to understand syntactic complexity, recent research has investigated different types of sentence-level dependencies and their relative processing difficulties (Gomez & Maye, 2005; Newport & Aslin, 2004). In sentences with non-adjacent dependencies, the computational process of syntactic unification (Hagoort, 2005; Vosse & Kempen, 2000) is extended in time and this requires online processing memory. We investigate syntactic complexity from the memory perspective by exploring predictions of different memory architectures available in the theoretical computational science literature
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