Abstract
Animals of several species, including primates, learn the statistical regularities of their environment. In particular, they learn the temporal regularities that occur in streams of visual images. Previous human neuroimaging studies reported discrepant effects of such statistical learning, ranging from stronger occipito-temporal activations for sequences in which image order was fixed, compared with sequences of randomly ordered images, to weaker activations for fixed-order sequences compared with sequences that violated the learned order. Several single-unit studies in macaque monkeys reported that after statistical learning of temporal regularities, inferior temporal (IT) neurons show reduced responses to learned fixed-order sequences of visual images compared with random or mispredicted sequences. However, it is unknown how other macaque brain areas respond to such temporal statistical regularities. To address this gap, we exposed rhesus monkeys (Macaca mulatta) to two types of sequences of complex images. The “regular” sequences consisted of a continuous stream of quartets, and within each quartet, the image order was fixed. The quartets themselves were displayed, uninterrupted, in a random order. The same monkeys were exposed to sequences of other images having a pseudorandomized order (“random” sequence). After exposure, both monkeys were scanned with functional MRI (fMRI) using a block design with three conditions: regular sequence, random sequence, and fixation-only blocks. A whole-brain analysis showed a reduced activation in mainly the occipito-temporal cortex for the regular compared to the random sequences. Marked response reductions for the regular sequence were observed in early extrastriate visual cortical areas, including area V2, despite the use of rather complex images of animals. These data suggest that statistical learning signals are already present in early visual areas of monkeys, even for complex visual images. These monkey fMRI data are in line with recent human fMRI studies that showed a reduced activation in early visual areas for predicted compared with mispredicted complex images.
Highlights
Many species, including primates, are sensitive to spatial and temporal regularities in their environment
We exposed two monkeys for several weeks to two sequences of visual images: one sequence that consisted of quartets in which the image order was fixed (“regular sequence”) and another sequence of different images in which the order was random (“random sequence”)
Exposure to a continuous stream of images, consisting of a random sequence of quartets in which the image order was fixed, produced a reduced activation in macaque occipito-temporal cortex compared to a random sequence of images
Summary
Many species, including primates, are sensitive to spatial and temporal regularities in their environment. Previous neuroimaging studies in humans addressed the effects of the learning of temporal regularities in sequences of visual stimuli on brain representations of those stimuli, the topic of the present study. But with visual scenes as stimuli, a later study (Otsuka and Saiki, 2017) showed stronger activations to random compared to regular sequences in the left posterior cingulate cortex. Note that in these studies the temporal regularities during stimulus exposure were irrelevant to behavior
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