Shindigs, Brunches, and Rodeos: the Neural Basis of Event Words

Overview

Journal Cogn Affect Behav Neurosci

Publisher Springer

Specialties Neurology
Social Sciences

Date 2013 Nov 30

PMID 24288150

Citations 13

Authors

Marina Bedny

Swethasri Dravida

Rebecca Saxe

Affiliations

Soon will be listed here.

Abstract

Events (e.g., "running" or "eating") constitute a basic type within human cognition and human language. We asked whether thinking about events, as compared to other conceptual categories, depends on partially independent neural circuits. Indirect evidence for this hypothesis comes from previous studies showing elevated posterior temporal responses to verbs, which typically label events. Neural responses to verbs could, however, be driven either by their grammatical or by their semantic properties. In the present experiment, we separated the effects of grammatical class (verb vs. noun) and semantic category (event vs. object) by measuring neural responses to event nouns (e.g., "the hurricane"). Participants rated the semantic relatedness of event nouns, as well as of two categories of object nouns-animals (e.g., "the alligator") and plants (e.g., "the acorn")-and three categories of verbs-manner of motion (e.g., "to roll"), emission (e.g., "to sparkle"), and perception (e.g., "to gaze"). As has previously been observed, we found larger responses to verbs than to object nouns in the left posterior middle (LMTG) and superior (LSTG) temporal gyri. Crucially, we also found that the LMTG responds more to event than to object nouns. These data suggest that part of the posterior lateral temporal response to verbs is driven by their semantic properties. By contrast, a more superior region, at the junction of the temporal and parietal cortices, responded more to verbs than to all nouns, irrespective of their semantic category. We concluded that the neural mechanisms engaged when thinking about event and object categories are partially dissociable.

Citing Articles

Representation of event and object concepts in ventral anterior temporal lobe and angular gyrus.

Zhang Y, Wu W, Mirman D, Hoffman P Cereb Cortex. 2024; 34(2).

PMID: 38185997 PMC: 10839851. DOI: 10.1093/cercor/bhad519.

Spatiotemporal characteristics of the neural representation of event concepts.

Desai R, Hackett C, Johari K, Lai V, Riccardi N Brain Lang. 2023; 246:105328.

PMID: 37847931 PMC: 10873121. DOI: 10.1016/j.bandl.2023.105328.

Neural network bases of thematic semantic processing in language production.

Schwen Blackett D, Varkey J, Wilmskoetter J, Roth R, Andrews K, Busby N Cortex. 2022; 156:126-143.

PMID: 36244204 PMC: 10041939. DOI: 10.1016/j.cortex.2022.08.007.

From letters to composed concepts: A magnetoencephalography study of reading.

Flick G, Abdullah O, Pylkkanen L Hum Brain Mapp. 2021; 42(15):5130-5153.

PMID: 34402114 PMC: 8449097. DOI: 10.1002/hbm.25608.

Transformation of Event Representations along Middle Temporal Gyrus.

Leshinskaya A, Thompson-Schill S Cereb Cortex. 2020; 30(5):3148-3166.

PMID: 31942943 PMC: 7197199. DOI: 10.1093/cercor/bhz300.

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