Daphné Silvestre¹ (), Clara Marty¹, Rémy Allard², Armando Bertone¹; ¹McGill University, ²Université de Montréal

Most behavioral visual development studies have focused on cortical processes, without concurrently investigating pre-cortical function. This study used a novel internal noise paradigm (Silvestre et al., 2018) to estimate calculation efficiency and equivalent input noise (EIN) due to either the amount of light detected by photoreceptors (i.e. photon noise) or internal noise occurring at a cortical level for both static and dynamic information at different developmental periods. Thirteen children (11-13 years, mean= 11.9), fifteen adolescents (14-17 years, mean= 15.6) and fourteen adults (19-39 years, mean= 25.5) participated in this study. All participants completed a 2AFC task to measure contrast thresholds to drifting (2, 7.5, 15 and 30 Hz) and static gratings (0.5 cpd) with and without external noise for different luminance intensities (5-519 Td). The EIN associated with cortical noise significantly differed between the children and adults for the dynamic detection task (p<.05), but not for the static detection task; photon noise did not significantly differ between the children and adults. Calculation efficiency significantly differed between the children and adults (p<.05) for both detection tasks. Regarding the EIN associated with the amount of light detected by photoreceptors, the photon noise reached adultlike levels for the children. However, the calculation efficiency for both detection tasks was significantly lower for the children compared to adults. These results suggest that the cortical noise limiting the processing of a detection task reached adult-like levels for the children for static stimuli, but not for dynamic stimuli, which reached maturity during adolescence and that the maturity of the visual system is reached earlier at the photoreceptor level than at the cortical level.