Abstract
The partial awareness hypothesis is a theoretical proposal that recently provided a reconciling solution to graded and dichotomous accounts of consciousness. It suggests that we can become conscious of distinct properties of an object independently, ranging from low-level features to complex forms of representation. We investigated this hypothesis using classic visual word masking adapted to a near-threshold paradigm. The masking intensity was adjusted to the individual perception threshold, at which individual alphabetical letters, but not words, could be perceived in approximately half of the trials. We confined perception to a pre-lexical stage of word processing that corresponded to a clear condition of partial awareness. At this level of representation, the stimulus properties began to emerge within consciousness, yet they did not escalate to full stimulus awareness. In other words, participants were able to perceive individual letters, while remaining unaware of the whole letter strings presented. Cortical activity measured with MEG was compared between physically identical trials that differed in perception (perceived, not perceived). We found that compared to no awareness, partial awareness of words was characterized by suppression of oscillatory alpha power in left temporal and parietal cortices. The analysis of functional connectivity with seeds based on the power effect in these two regions revealed sparse connections for the parietal seed, and strong connections between the temporal seed and other regions of the language network. We suggest that the engagement of language regions indexed by alpha power suppression is responsible for establishing and maintaining conscious representations of individual pre-lexical units.
Highlights
How conscious perception relates to sensory processing in the human brain is a major unanswered question in cognitive neuroscience
According to the partial awareness hypothesis (Kouider et al, 2010; Kouider and Dupoux, 2004), objects are not necessarily perceived in an all-or-none manner, but rather we could be aware of certain object features while being unaware of others
We developed a paradigm that exploits the strengths of two different approaches in the tradition of consciousness research (Dehaene et al, 2006), namely near-threshold (NT) and visual masking paradigms
Summary
How conscious perception relates to sensory processing in the human brain is a major unanswered question in cognitive neuroscience. The global neuronal workspace (GNW; Baars, 2005; Dehaene et al, 1998), proposed that a stimulus can be consciously perceived when, after activating essential nodes in sensory regions, the signal is distributed globally in the cortex and reverberates among high-level cortical. Neuronal activity confined to specific early sensory areas would not suffice for conscious perception. Kouider et al (2010) recently suggested that perception of a stimulus can result in different levels of conscious representation. We could become conscious of different properties of an object, organized hierarchically from low-level to complex forms of representation, independently
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