Abstract
While distributed cortical areas represent working memory contents, their necessity for memory maintenance has been questioned. Here, we examined the differential effects of maintaining multiple items on the neural information across cortical regions. In each trial of the fMRI experiment, participants (n = 81) had to memorize two items, each either an orientation or a pure pitch, for 13.8 s and continuously recalled the target after the delay. We kept the overall working memory load constant, but varied the sensory modality of each item to vary the effective visual load. We find significant information for orientations in visual, parietal, and frontal areas. We show that increasing visual load decreased behavioural recall performance and orientation-specific information in visual cortex. Parietal areas were affected only early in the delay, whilst frontal representations were unaffected by load. Simulations show that this drop in decodable information is best interpreted as a drop in mnemonic information represented by multivoxel patterns. Our results provide evidence for shared labour of visual cortices, where maintaining two versus one orientation leads to a loss in representational fidelity, and anterior cortices, where multiple items could be represented in a more robust but less precise format.