Brain responses to syntax constrained by time-driven implicit prosodic phrases

Schremm, Andrea; Horne, Merle; Roll, Mikael

doi:10.1016/j.jneuroling.2015.03.002

Cited by 22 publications

(15 citation statements)

References 45 publications

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“…Hence, rather than thinking that delta‐band oscillations specifically fit the necessities of language comprehension, syntactic phrases as a linguistic phenomenon should rather be viewed as an ideal means of exploiting the brain's pre‐existing chunking abilities. In line with this speculation, event‐related brain potentials indexing the chunking of words into syntactic phrases occur with a regular period (2.6–2.7 s; Roll et al ., ; Schremm et al ., ) that matches the canonical duration of syntactic phrases observed in linguistic corpus analyses (Vollrath et al ., ) and falls into the frequency range of either the lower delta band or slow cortical potentials. Such slow frequencies might just suffice electrophysiologically to integrate information on the time and network scales needed for the composition of complex information—the brain employs long cycles when integrating complex information across large networks, given the variance in conduction delays of large neuronal networks (Buzsaki, ).…”

Section: The Delta Band: Chunking Of Words Into Syntactic Phrasessupporting

confidence: 82%

The neural oscillations of speech processing and language comprehension: state of the art and emerging mechanisms

Meyer

2017

Eur J of Neuroscience

286

267

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Neural oscillations subserve a broad range of functions in speech processing and language comprehension. On the one hand, speech contains-somewhat-repetitive trains of air pressure bursts that occur at three dominant amplitude modulation frequencies, physically marking the linguistically meaningful progressions of phonemes, syllables and intonational phrase boundaries. To these acoustic events, neural oscillations of isomorphous operating frequencies are thought to synchronise, presumably resulting in an implicit temporal alignment of periods of neural excitability to linguistically meaningful spectral information on the three low-level linguistic description levels. On the other hand, speech is a carrier signal that codes for high-level linguistic meaning, such as syntactic structure and semantic information-which cannot be read from stimulus acoustics, but must be acquired during language acquisition and decoded for language comprehension. Neural oscillations subserve the processing of both syntactic structure and semantic information. Here, I synthesise a mapping from each linguistic processing domain to a unique set of subserving oscillatory mechanisms-the mapping is plausible given the role ascribed to different oscillatory mechanisms in different subfunctions of cortical information processing and faithful to the underlying electrophysiology. In sum, the present article provides an accessible and extensive review of the functional mechanisms that neural oscillations subserve in speech processing and language comprehension.

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Section: The Delta Band: Chunking Of Words Into Syntactic Phrasessupporting

confidence: 82%

The neural oscillations of speech processing and language comprehension: state of the art and emerging mechanisms

Meyer

2017

Eur J of Neuroscience

286

267

View full text Add to dashboard Cite

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“…For speech, a memory interval of six words has been proposed, translating to roughly 2.4 seconds at average speech rates (Frazier & Fodor, 1978;Tauroza & Allison, 1990). A similar value of 2.7 seconds has been observed in electrophysiological studies (Hwang & Steinhauer, 2011;Roll et al, 2012;Webman-Shafran et al, 2015;Schremm et al, 2015;Bögels et al, 2011).…”

Section: Discussionmentioning

confidence: 59%

Rhythm Comes, Rhythm Goes: Short-Term Periodicity of Prosodic Phrasing

Stehwien¹,

Meyer²

2021

Preprint

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Speech is perceived as a sequence of meaningful units. Speech prosody helps to delimit these units through pauses and acoustic modulations of pitch, amplitude and speech rate. These prosodic boundaries subdivide utterances into prosodic phrases. To be understood, prosodic phrases must obey cognitive and neurobiological constraints on the side of the listener. In particular, the neurobiological substrates of speech processing have been argued to operate periodically—with one electrophysiological processing cycle being devoted to the processing of one segment of the speech stream. We hypothesized that when processing is periodic, prosodic phrases should show periodicity as well. We investigated the periodicity of prosodic phrases in a corpus of radio news that has been manually annotated for full intonational and intermediate phrases by human experts. We find that sequences of 2 to 5 intermediate phrases are periodic at 0.8 to 1.6 Hertz within their superordinate intonation phrase. Across utterances, the exact duration of intermediate phrases fluctuates with the duration of superordinate intonation phrases, pointing to a dependence of prosodic time scales. Our findings provide evidence of short-term periodicity of prosodic phrasing within a highly specific range. While the determinants of periodicity are unknown, the results are compatible with an association between elec- trophysiological processing time scales and the phonological rhythms of language as such. This is a further step towards closing the gaps between the neurobiology of language, psycholinguistics, and linguistic description.

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“…This bias is strong enough to override exogenous prosodic cues that indicate phrase durations outside of the preferred phrasing period (Meyer, Elsner, Turker, Kuhnke, & Hartwigsen, 2018;Meyer et al, 2016). Furthermore, event-related brain potentials (ERPs) associated with the grouping of words into implicit phrases appear with a regular period that does not require the presence of periodic exogenous prosodic cues (Roll, Lindgren, Alter, & Horne, 2012;Schremm, Horne, & Roll, 2015;Steinhauer, Alter, & Friederici, 1999). Hidden in the frequency domain of such periodically occurring ERPs, there may be a slow-frequency oscillator that is synchronous with internally generated syntactic representations.…”

Section: Proposal: Intrinsic Synchronicity Versus Entrainment Propermentioning

confidence: 99%

Synchronous, but not entrained: exogenous and endogenous cortical rhythms of speech and language processing

Meyer

Sun

Martin

2019

Language, Cognition and Neuroscience

124

109

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Research on speech processing is often focused on a phenomenon termed "entrainment", whereby the cortex shadows rhythmic acoustic information with oscillatory activity. Entrainment has been observed to a range of rhythms present in speech; in addition, synchronicity with abstract information (e.g. syntactic structures) has been observed. Entrainment accounts face two challenges: First, speech is not exactly rhythmic; second, synchronicity with representations that lack a clear acoustic counterpart has been described. We propose that apparent entrainment does not always result from acoustic information. Rather, internal rhythms may have functionalities in the generation of abstract representations and predictions. While acoustics may often provide punctate opportunities for entrainment, internal rhythms may also live a life of their own to infer and predict information, leading to intrinsic synchronicitynot to be counted as entrainment. This possibility may open up new research avenues in the psycho-and neurolinguistic study of language processing and language development.

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Brain responses to syntax constrained by time-driven implicit prosodic phrases

Cited by 22 publications

References 45 publications

The neural oscillations of speech processing and language comprehension: state of the art and emerging mechanisms

The neural oscillations of speech processing and language comprehension: state of the art and emerging mechanisms

Rhythm Comes, Rhythm Goes: Short-Term Periodicity of Prosodic Phrasing

Synchronous, but not entrained: exogenous and endogenous cortical rhythms of speech and language processing

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