Dimension of visual information interacts with working memory in monkeys and humans — The Association Specialists

Dimension of visual information interacts with working memory in monkeys and humans (21931)

Daniel J Fehring 1 , Alexander Pascoe 1 , Zakia Z Haque 1 , Ranshi Samandra 1 , Seiichirou Yukoo 2 , Marcello Rosa 1 , Keiji Tanaka 2 , Tetsuo Yamamori 2 , Farshad A Mansouri 1
  1. Department of Physiology, Monash University, Melbourne, VIC, Australia
  2. RIKEN Centre for Brain Science, Tokyo, Japan

Humans demonstrate behavioural advantages (biases) towards particular dimensions (colour or shape of visual objects), but such biases are significantly altered in neuropsychological disorders. Recent studies have shown that lesions in the prefrontal cortex do not abolish dimensional biases, and therefore suggest that such biases might not depend on top-down prefrontal-mediated attention and instead emerge as bottom-up processing advantages. We hypothesised that if dimensional biases merely emerge from an enhancement of object features, the presence of visual objects would be necessary for the manifestation of dimensional biases. In a specifically-designed working memory task, in which macaque monkeys and humans performed matching based on the object memory rather than the actual object, we found significant dimensional biases in both species, which appeared as a shorter response time and higher accuracy in the preferred dimension (colour and shape dimension in humans and monkeys, respectively). Moreover, the mnemonic demands of the task influenced the magnitude of dimensional bias. Our findings in two primate species indicate that the dichotomy of top-down and bottom-up processing does not fully explain the emergence of dimensional biases. Instead, dimensional biases may emerge when processed information regarding visual object features interact with mnemonic and executive functions to guide goal-directed behaviour.