Domain-general and domain-specific computations in single word processing
Date
2019Author
Klimovich-Gray, Anastasia
Bozic, Mirjana
Metadata
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Anastasia Klimovich-Gray, Mirjana Bozic, Domain-general and domain-specific computations in single word processing, NeuroImage, Volume 202, 2019, 116112, ISSN 1053-8119, https://doi.org/10.1016/j.neuroimage.2019.116112
Abstract
Language comprehension relies on a multitude of domain-general and domain-specific cognitive operations. This
study asks whether the domain-specific grammatical computations are obligatorily invoked whenever we process
linguistic inputs. Using fMRI and three complementary measures of neural activity, we tested how domain-general
and domain-specific demands of single word comprehension engage cortical language networks, and whether the
left frontotemporal network (commonly taken to support domain-specific grammatical computations) automatically
processes grammatical information present in inflectionally complex words. In a natural listening task,
participants were presented with words that manipulated domain-general and domain-specific processing demands
in a 2 2 manner. The results showed that only domain-general demands of mapping words onto their
representations consistently engaged the language processing system during single word comprehension, triggering
increased activity and connectivity in bilateral frontotemporal regions, as well as bilateral encoding across
multivoxel activity patterns. In contrast, inflectional complexity failed to activate left frontotemporal regions in
this task, implying that domain-specific grammatical processing in the left hemisphere is not automatically
triggered when the processing context does not specifically require such analysis. This suggests that cortical
computations invoked by language processing critically depend on the current communicative goals and demands,
underlining the importance of domain-general processes in language comprehension, and arguing against
the strong domain-specific view of the LH network function.