The coordination dynamics of social neuromarkers

• Published in: arXiv.org
• Main Authors: Tognoli, Emmanuelle, Kelso, J A Scott
• Format: Paper Journal Article
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 27.10.2013
• Subjects: Behavior; Brain; Commonality; Identification methods; Quantitative Biology - Neurons and Cognition; Task complexity; Temporal resolution; Visual perception
• ISSN: 2331-8422
• DOI: 10.48550/arxiv.1310.7275

Social behavior is a complex integrative function that entails many aspects of the brain's sensory, cognitive, emotional and motor capacities. Neural processes are seldom simultaneous but occur according to precise temporal and coordinative choreographies within and between brains. Methods with good temporal resolution such as EEG can help to identify so-called "neuromarkers" of social function (Tognoli, et al., 2007) and aid in disentangling the dynamical architecture of social brains. We have studied neuromarkers and their dynamics during synchronic interactions in which pairs of subjects coordinate behavior spontaneously and intentionally (social coordination) and during diachronic transactions that required subjects to perceive or behave in turn (action observation and delayed imitation). We examined commonalities and differences in the neuromarkers that are recruited for both kinds of tasks. We found that the neuromarker landscape was task-specific: synchronic paradigms of social coordination revealed medial mu, alpha and the phi complex as contributing neuromarkers. Diachronic tasks recruited alpha as well, in addition to lateral mu rhythms and the newly discovered nu and kappa rhythms whose functional significance is still unclear. Social coordination, observation, and delayed imitation share commonality of context: in our experiments, subjects exchanged information through visual perception and moved in similar ways. Nonetheless, there was little overlap between the neuromarkers recruited for synchronic and diachronic tasks, a result that hints strongly of task-specific neural mechanisms for social behaviors. The only neuromarker that transcended both synchronic and diachronic social behaviors was the ubiquitous alpha rhythm, which appears to be a key signature of visually-mediated social behaviors. The present paper is both an entry point and a challenge...