Spatial scale of visual analysis for vernier acuity does not vary over time

The visual system filters spatial pattern through a range of narrowly tuned spatial mechanisms, but the rules by which the outputs of these mechanisms are combined across time to extract precise geometrical information are no t yet clear. One hypothesis is that spatial analysis shifts over time from coarse to finer spatial scales, in order to extract fine spatial informatio n. An alternative hypothesis is that thresholds are determined by the signa l-to-noise ratio within an optimal spatial scale. In this study, we measure d vernier acuity across exposure duration for equally visible long lines an d short lines and found no improvement in spatial precision with time. Usin g a simultaneous spatial-masking paradigm, we determined the active spatial scales at 100 and 1000 ms. The results show no significant changes in spat ial scale, or in the size-range of active scales, for the two exposure dura tions. Furthermore, whereas vernier thresholds vary markedly with line cont rast, we find only modest shifts in spatial scale. Taken together, our resu lts suggest that for vernier acuity, spatial scale is selected very early, and that vernier thresholds are predominantly limited by signal strength wi thin that spatial scale. (C) 2000 Elsevier Science Ltd. All rights reserved .