Brain Representation of Numerosity across the Senses and Presentation Formats

Humans can extract numerosity from different senses and a variety of context. How and where the brain abstract numerical information from low-level sensory inputs remains debated. Using multivariate pattern decoding and representational similarity analysis applied to fMRI data (collected from both male and female participants), we comprehensively investigate how the brain represents numerical information (range 2–5) across different modalities (auditory, visual) and presentation formats (sequential, simultaneous; symbolic, nonsymbolic). We identify a set of brain regions along the dorsal pathway—from early visual cortex to the intraparietal and frontal regions—that encode specific nonsymbolic numerical information across formats and modalities. The numerical distance effect, a hallmark of magnitude encoding, was observed in most of these regions. We found aligned representation of numerical information across visual and auditory modalities in intraparietal and frontal regions, but only when they shared a sequential presentation format. Maintaining a distinction between spatial and temporal numerical representations may thus be a fundamental aspect of numerical processing. RSA further revealed a posterior-to-anterior gradient in the intraparietal sulcus (IPS) showing that the dominant factors influencing distributed numerical representations shifted from sensory modality in the posterior parietal regions to presentation format in the anterior parietal areas. Our study reveals a multifaceted brain representation of numerosity across the senses and presentation formats.