Abstract
Change blindness is a failure of reporting major changes across consecutive images if separated, e.g., by a brief blank interval. Successful change detection across interrupts requires focal attention to the changes. However, findings of implicit detection of visual changes during change blindness have raised the question of whether the implicit mode is necessary for development of the explicit mode. To this end, we recorded the visual mismatch negativity (vMMN) of the event-related potentials (ERPs) of the brain, an index of implicit pre-attentive visual change detection, in adult humans performing an oddball-variant of change blindness flicker task. Images of 500 ms in duration were presented repeatedly in continuous sequences, alternating with a blank interval (either 100 ms or 500 ms in duration throughout a stimulus sequence). Occasionally (P = 0.2), a change (referring to color changes, omissions, or additions of objects or their parts in the image) was present. The participants attempted to explicitly (via voluntary button press) detect the occasional change. With both interval durations, it took 10–15 change presentations in average for the participants to eventually detect the changes explicitly in a sequence, the 500 ms interval only requiring a slightly longer exposure to the series than the 100 ms one. Nevertheless, prior to this point of explicit detectability, the implicit detection of the changes vMMN could only be observed with the 100 ms intervals. These findings of explicit change detection developing with and without implicit change detection may suggest that the two modes of change detection recruit independent neural mechanisms.
Highlights
The human visual system is equipped with an automatic mechanism for detecting sudden changes in the environment
The flicker paradigm, where a brief blank screen separates the two images across which a change is introduced, is a method that has firmly established the phenomenon of change blindness
We investigated whether explicit detection of visual changes, as indexed by voluntary behavioral responses to them, can only develop when implicit detection of these changes, as reflected by the visual mismatch negativity of eventrelated potentials (ERPs) of the brain, takes place. vMMN is a neurophysiological index of pre-attentive detection of visual changes on the basis of visual sensory memory (e.g., Astikainen et al, 2008)
Summary
The human visual system is equipped with an automatic mechanism for detecting sudden changes in the environment. Abrupt stimulus appearance or motion captures attention in a bottomup way, even if these are not targets of visual search (Yantis and Jonides, 1984) This mechanism is prone to error if the load of attention is increased (inattentional blindness, see Mack and Rock, 1998) or if the change occurs simultaneously with some interruptive events. The flicker paradigm, where a brief blank screen (or interstimulus interval, ISI) separates the two images across which a change is introduced, is a method that has firmly established the phenomenon of change blindness It is the most frequently used paradigm to induce the effect experimentally (Rensink et al, 1997)
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