Topographic representations of object size and relationships with numerosity reveal generalized quantity processing in human parietal cortex

Publication date

2015-11-03

Authors

Harvey, Ben M.ISNI 0000000419439662
Fracasso, AlessioISNI 0000000505995120
Petridou, Natalia
Dumoulin, Serge OISNI 0000000419438328

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Article
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Abstract

Humans and many animals analyze sensory information to estimate quantities that guide behavior and decisions. These quantities include numerosity (object number) and object size. Having recently demonstrated topographic maps of numerosity, we ask whether the brain also contains maps of object size. Using ultra-high-field (7T) functional MRI and population receptive field modeling, we describe tuned responses to visual object size in bilateral human posterior parietal cortex. Tuning follows linear Gaussian functions and shows surround suppression, and tuning width narrows with increasing preferred object size. Object size-tuned responses are organized in bilateral topographic maps, with similar cortical extents responding to large and small objects. These properties of object size tuning and map organization all differ from the numerosity representation, suggesting that object size and numerosity tuning result from distinct mechanisms. However, their maps largely overlap and object size preferences correlate with numerosity preferences, suggesting associated representations of these two quantities. Object size preferences here show no discernable relation to visual position preferences found in visuospatial receptive fields. As such, object size maps (much like numerosity maps) do not reflect sensory organ structure but instead emerge within the brain. We speculate that, as in sensory processing, optimization of cognitive processing using topographic maps may be a common organizing principle in association cortex. Interactions between object size and numerosity maps may associate cognitive representations of these related features, potentially allowing consideration of both quantities together when making decisions.

Keywords

object size, numerosity, topographic maps, high-field 7T fMRI

Citation

Harvey, B M, Fracasso, A, Petridou, N & Dumoulin, S O 2015, 'Topographic representations of object size and relationships with numerosity reveal generalized quantity processing in human parietal cortex', Proceedings of the National Academy of Sciences of the United States of America, vol. 112, no. 44, pp. 13525-30. https://doi.org/10.1073/pnas.1515414112